diff --git a/src/Tk/_tkmini.h b/src/Tk/_tkmini.h index adc470532ef..b6945eb1ab3 100644 --- a/src/Tk/_tkmini.h +++ b/src/Tk/_tkmini.h @@ -79,18 +79,20 @@ typedef struct Tcl_Interp Tcl_Interp; typedef struct Tcl_Command_ *Tcl_Command; typedef void *ClientData; -typedef int (Tcl_CmdProc) (ClientData clientData, Tcl_Interp - *interp, int argc, const char *argv[]); -typedef void (Tcl_CmdDeleteProc) (ClientData clientData); +typedef int(Tcl_CmdProc)( + ClientData clientData, Tcl_Interp *interp, int argc, const char *argv[]); +typedef void(Tcl_CmdDeleteProc)(ClientData clientData); /* Typedefs derived from function signatures in Tcl header */ /* Tcl_CreateCommand */ -typedef Tcl_Command (*Tcl_CreateCommand_t)(Tcl_Interp *interp, - const char *cmdName, Tcl_CmdProc *proc, - ClientData clientData, - Tcl_CmdDeleteProc *deleteProc); +typedef Tcl_Command (*Tcl_CreateCommand_t)( + Tcl_Interp *interp, + const char *cmdName, + Tcl_CmdProc *proc, + ClientData clientData, + Tcl_CmdDeleteProc *deleteProc); /* Tcl_AppendResult */ -typedef void (*Tcl_AppendResult_t) (Tcl_Interp *interp, ...); +typedef void (*Tcl_AppendResult_t)(Tcl_Interp *interp, ...); /* Tk header excerpts */ @@ -107,8 +109,7 @@ typedef struct Tk_Window_ *Tk_Window; typedef void *Tk_PhotoHandle; -typedef struct Tk_PhotoImageBlock -{ +typedef struct Tk_PhotoImageBlock { unsigned char *pixelPtr; int width; int height; @@ -119,23 +120,30 @@ typedef struct Tk_PhotoImageBlock /* Typedefs derived from function signatures in Tk header */ /* Tk_PhotoPutBlock for Tk <= 8.4 */ -typedef void (*Tk_PhotoPutBlock_84_t) (Tk_PhotoHandle handle, - Tk_PhotoImageBlock *blockPtr, int x, int y, - int width, int height, int compRule); +typedef void (*Tk_PhotoPutBlock_84_t)( + Tk_PhotoHandle handle, + Tk_PhotoImageBlock *blockPtr, + int x, + int y, + int width, + int height, + int compRule); /* Tk_PhotoPutBlock for Tk >= 8.5 */ -typedef int (*Tk_PhotoPutBlock_85_t) (Tcl_Interp * interp, - Tk_PhotoHandle handle, - Tk_PhotoImageBlock * blockPtr, int x, int y, - int width, int height, int compRule); +typedef int (*Tk_PhotoPutBlock_85_t)( + Tcl_Interp *interp, + Tk_PhotoHandle handle, + Tk_PhotoImageBlock *blockPtr, + int x, + int y, + int width, + int height, + int compRule); /* Tk_PhotoSetSize for Tk <= 8.4 */ -typedef void (*Tk_PhotoSetSize_84_t) (Tk_PhotoHandle handle, - int width, int height); +typedef void (*Tk_PhotoSetSize_84_t)(Tk_PhotoHandle handle, int width, int height); /* Tk_FindPhoto */ -typedef Tk_PhotoHandle (*Tk_FindPhoto_t) (Tcl_Interp *interp, - const char *imageName); +typedef Tk_PhotoHandle (*Tk_FindPhoto_t)(Tcl_Interp *interp, const char *imageName); /* Tk_PhotoGetImage */ -typedef int (*Tk_PhotoGetImage_t) (Tk_PhotoHandle handle, - Tk_PhotoImageBlock * blockPtr); +typedef int (*Tk_PhotoGetImage_t)(Tk_PhotoHandle handle, Tk_PhotoImageBlock *blockPtr); /* * end block for C++ diff --git a/src/Tk/tkImaging.c b/src/Tk/tkImaging.c index 161a835fbd2..e9d06dc9ffa 100644 --- a/src/Tk/tkImaging.c +++ b/src/Tk/tkImaging.c @@ -58,8 +58,7 @@ static Tk_PhotoSetSize_84_t TK_PHOTO_SET_SIZE_84; static Tk_PhotoPutBlock_85_t TK_PHOTO_PUT_BLOCK_85; static Imaging -ImagingFind(const char* name) -{ +ImagingFind(const char *name) { Py_ssize_t id; /* FIXME: use CObject instead? */ @@ -72,41 +71,37 @@ ImagingFind(const char* name) return NULL; } - return (Imaging) id; + return (Imaging)id; } - static int -PyImagingPhotoPut(ClientData clientdata, Tcl_Interp* interp, - int argc, const char **argv) -{ +PyImagingPhotoPut( + ClientData clientdata, Tcl_Interp *interp, int argc, const char **argv) { Imaging im; Tk_PhotoHandle photo; Tk_PhotoImageBlock block; if (argc != 3) { - TCL_APPEND_RESULT(interp, "usage: ", argv[0], - " destPhoto srcImage", (char *) NULL); + TCL_APPEND_RESULT( + interp, "usage: ", argv[0], " destPhoto srcImage", (char *)NULL); return TCL_ERROR; } /* get Tcl PhotoImage handle */ photo = TK_FIND_PHOTO(interp, argv[1]); if (photo == NULL) { - TCL_APPEND_RESULT( - interp, "destination photo must exist", (char *) NULL - ); + TCL_APPEND_RESULT(interp, "destination photo must exist", (char *)NULL); return TCL_ERROR; } /* get PIL Image handle */ im = ImagingFind(argv[2]); if (!im) { - TCL_APPEND_RESULT(interp, "bad name", (char*) NULL); + TCL_APPEND_RESULT(interp, "bad name", (char *)NULL); return TCL_ERROR; } if (!im->block) { - TCL_APPEND_RESULT(interp, "bad display memory", (char*) NULL); + TCL_APPEND_RESULT(interp, "bad display memory", (char *)NULL); return TCL_ERROR; } @@ -126,18 +121,18 @@ PyImagingPhotoPut(ClientData clientdata, Tcl_Interp* interp, block.offset[3] = 0; /* no alpha */ } } else { - TCL_APPEND_RESULT(interp, "Bad mode", (char*) NULL); + TCL_APPEND_RESULT(interp, "Bad mode", (char *)NULL); return TCL_ERROR; } block.width = im->xsize; block.height = im->ysize; block.pitch = im->linesize; - block.pixelPtr = (unsigned char*) im->block; + block.pixelPtr = (unsigned char *)im->block; if (TK_LT_85) { /* Tk 8.4 */ - TK_PHOTO_PUT_BLOCK_84(photo, &block, 0, 0, block.width, block.height, - TK_PHOTO_COMPOSITE_SET); + TK_PHOTO_PUT_BLOCK_84( + photo, &block, 0, 0, block.width, block.height, TK_PHOTO_COMPOSITE_SET); if (strcmp(im->mode, "RGBA") == 0) { /* Tk workaround: we need apply ToggleComplexAlphaIfNeeded */ /* (fixed in Tk 8.5a3) */ @@ -145,50 +140,54 @@ PyImagingPhotoPut(ClientData clientdata, Tcl_Interp* interp, } } else { /* Tk >=8.5 */ - TK_PHOTO_PUT_BLOCK_85(interp, photo, &block, 0, 0, block.width, - block.height, TK_PHOTO_COMPOSITE_SET); + TK_PHOTO_PUT_BLOCK_85( + interp, + photo, + &block, + 0, + 0, + block.width, + block.height, + TK_PHOTO_COMPOSITE_SET); } return TCL_OK; } static int -PyImagingPhotoGet(ClientData clientdata, Tcl_Interp* interp, - int argc, const char **argv) -{ +PyImagingPhotoGet( + ClientData clientdata, Tcl_Interp *interp, int argc, const char **argv) { Imaging im; Tk_PhotoHandle photo; Tk_PhotoImageBlock block; int x, y, z; if (argc != 3) { - TCL_APPEND_RESULT(interp, "usage: ", argv[0], - " srcPhoto destImage", (char *) NULL); + TCL_APPEND_RESULT( + interp, "usage: ", argv[0], " srcPhoto destImage", (char *)NULL); return TCL_ERROR; } /* get Tcl PhotoImage handle */ photo = TK_FIND_PHOTO(interp, argv[1]); if (photo == NULL) { - TCL_APPEND_RESULT( - interp, "source photo must exist", (char *) NULL - ); + TCL_APPEND_RESULT(interp, "source photo must exist", (char *)NULL); return TCL_ERROR; } /* get PIL Image handle */ im = ImagingFind(argv[2]); if (!im) { - TCL_APPEND_RESULT(interp, "bad name", (char*) NULL); + TCL_APPEND_RESULT(interp, "bad name", (char *)NULL); return TCL_ERROR; } TK_PHOTO_GET_IMAGE(photo, &block); for (y = 0; y < block.height; y++) { - UINT8* out = (UINT8*)im->image32[y]; + UINT8 *out = (UINT8 *)im->image32[y]; for (x = 0; x < block.pitch; x += block.pixelSize) { - for (z=0; z < block.pixelSize; z++) { + for (z = 0; z < block.pixelSize; z++) { int offset = block.offset[z]; out[x + offset] = block.pixelPtr[y * block.pitch + x + offset]; } @@ -198,14 +197,20 @@ PyImagingPhotoGet(ClientData clientdata, Tcl_Interp* interp, return TCL_OK; } - void -TkImaging_Init(Tcl_Interp* interp) -{ - TCL_CREATE_COMMAND(interp, "PyImagingPhoto", PyImagingPhotoPut, - (ClientData) 0, (Tcl_CmdDeleteProc*) NULL); - TCL_CREATE_COMMAND(interp, "PyImagingPhotoGet", PyImagingPhotoGet, - (ClientData) 0, (Tcl_CmdDeleteProc*) NULL); +TkImaging_Init(Tcl_Interp *interp) { + TCL_CREATE_COMMAND( + interp, + "PyImagingPhoto", + PyImagingPhotoPut, + (ClientData)0, + (Tcl_CmdDeleteProc *)NULL); + TCL_CREATE_COMMAND( + interp, + "PyImagingPhotoGet", + PyImagingPhotoGet, + (ClientData)0, + (Tcl_CmdDeleteProc *)NULL); } /* @@ -230,13 +235,13 @@ TkImaging_Init(Tcl_Interp* interp) #define TKINTER_PKG "tkinter" -FARPROC _dfunc(HMODULE lib_handle, const char *func_name) -{ +FARPROC +_dfunc(HMODULE lib_handle, const char *func_name) { /* * Load function `func_name` from `lib_handle`. * Set Python exception if we can't find `func_name` in `lib_handle`. * Returns function pointer or NULL if not present. - */ + */ char message[100]; @@ -248,24 +253,26 @@ FARPROC _dfunc(HMODULE lib_handle, const char *func_name) return func; } -int get_tcl(HMODULE hMod) -{ +int +get_tcl(HMODULE hMod) { /* * Try to fill Tcl global vars with function pointers. Return 0 for no * functions found, 1 for all functions found, -1 for some but not all * functions found. */ - if ((TCL_CREATE_COMMAND = (Tcl_CreateCommand_t) - GetProcAddress(hMod, "Tcl_CreateCommand")) == NULL) { + if ((TCL_CREATE_COMMAND = + (Tcl_CreateCommand_t)GetProcAddress(hMod, "Tcl_CreateCommand")) == NULL) { return 0; /* Maybe not Tcl module */ } - return ((TCL_APPEND_RESULT = (Tcl_AppendResult_t) _dfunc(hMod, - "Tcl_AppendResult")) == NULL) ? -1 : 1; + return ((TCL_APPEND_RESULT = + (Tcl_AppendResult_t)_dfunc(hMod, "Tcl_AppendResult")) == NULL) + ? -1 + : 1; } -int get_tk(HMODULE hMod) -{ +int +get_tk(HMODULE hMod) { /* * Try to fill Tk global vars with function pointers. Return 0 for no * functions found, 1 for all functions found, -1 for some but not all @@ -273,26 +280,31 @@ int get_tk(HMODULE hMod) */ FARPROC func = GetProcAddress(hMod, "Tk_PhotoPutBlock"); - if (func == NULL) { /* Maybe not Tk module */ + if (func == NULL) { /* Maybe not Tk module */ return 0; } - if ((TK_PHOTO_GET_IMAGE = (Tk_PhotoGetImage_t) - _dfunc(hMod, "Tk_PhotoGetImage")) == NULL) { return -1; }; - if ((TK_FIND_PHOTO = (Tk_FindPhoto_t) - _dfunc(hMod, "Tk_FindPhoto")) == NULL) { return -1; }; + if ((TK_PHOTO_GET_IMAGE = (Tk_PhotoGetImage_t)_dfunc(hMod, "Tk_PhotoGetImage")) == + NULL) { + return -1; + }; + if ((TK_FIND_PHOTO = (Tk_FindPhoto_t)_dfunc(hMod, "Tk_FindPhoto")) == NULL) { + return -1; + }; TK_LT_85 = GetProcAddress(hMod, "Tk_PhotoPutBlock_Panic") == NULL; /* Tk_PhotoPutBlock_Panic defined as of 8.5.0 */ if (TK_LT_85) { - TK_PHOTO_PUT_BLOCK_84 = (Tk_PhotoPutBlock_84_t) func; - return ((TK_PHOTO_SET_SIZE_84 = (Tk_PhotoSetSize_84_t) - _dfunc(hMod, "Tk_PhotoSetSize")) == NULL) ? -1 : 1; + TK_PHOTO_PUT_BLOCK_84 = (Tk_PhotoPutBlock_84_t)func; + return ((TK_PHOTO_SET_SIZE_84 = + (Tk_PhotoSetSize_84_t)_dfunc(hMod, "Tk_PhotoSetSize")) == NULL) + ? -1 + : 1; } - TK_PHOTO_PUT_BLOCK_85 = (Tk_PhotoPutBlock_85_t) func; + TK_PHOTO_PUT_BLOCK_85 = (Tk_PhotoPutBlock_85_t)func; return 1; } -int load_tkinter_funcs(void) -{ +int +load_tkinter_funcs(void) { /* * Load Tcl and Tk functions by searching all modules in current process. * Return 0 for success, non-zero for failure. @@ -344,7 +356,7 @@ int load_tkinter_funcs(void) return 1; } -#else /* not Windows */ +#else /* not Windows */ /* * On Unix, we can get the Tcl and Tk symbols from the tkinter module, because @@ -353,9 +365,9 @@ int load_tkinter_funcs(void) */ /* From module __file__ attribute to char *string for dlopen. */ -char *fname2char(PyObject *fname) -{ - PyObject* bytes; +char * +fname2char(PyObject *fname) { + PyObject *bytes; bytes = PyUnicode_EncodeFSDefault(fname); if (bytes == NULL) { return NULL; @@ -365,15 +377,15 @@ char *fname2char(PyObject *fname) #include -void *_dfunc(void *lib_handle, const char *func_name) -{ +void * +_dfunc(void *lib_handle, const char *func_name) { /* * Load function `func_name` from `lib_handle`. * Set Python exception if we can't find `func_name` in `lib_handle`. * Returns function pointer or NULL if not present. */ - void* func; + void *func; /* Reset errors. */ dlerror(); func = dlsym(lib_handle, func_name); @@ -384,35 +396,44 @@ void *_dfunc(void *lib_handle, const char *func_name) return func; } -int _func_loader(void *lib) -{ +int +_func_loader(void *lib) { /* * Fill global function pointers from dynamic lib. * Return 1 if any pointer is NULL, 0 otherwise. */ - if ((TCL_CREATE_COMMAND = (Tcl_CreateCommand_t) - _dfunc(lib, "Tcl_CreateCommand")) == NULL) { return 1; } - if ((TCL_APPEND_RESULT = (Tcl_AppendResult_t) _dfunc(lib, - "Tcl_AppendResult")) == NULL) { return 1; } - if ((TK_PHOTO_GET_IMAGE = (Tk_PhotoGetImage_t) - _dfunc(lib, "Tk_PhotoGetImage")) == NULL) { return 1; } - if ((TK_FIND_PHOTO = (Tk_FindPhoto_t) - _dfunc(lib, "Tk_FindPhoto")) == NULL) { return 1; } + if ((TCL_CREATE_COMMAND = (Tcl_CreateCommand_t)_dfunc(lib, "Tcl_CreateCommand")) == + NULL) { + return 1; + } + if ((TCL_APPEND_RESULT = (Tcl_AppendResult_t)_dfunc(lib, "Tcl_AppendResult")) == + NULL) { + return 1; + } + if ((TK_PHOTO_GET_IMAGE = (Tk_PhotoGetImage_t)_dfunc(lib, "Tk_PhotoGetImage")) == + NULL) { + return 1; + } + if ((TK_FIND_PHOTO = (Tk_FindPhoto_t)_dfunc(lib, "Tk_FindPhoto")) == NULL) { + return 1; + } /* Tk_PhotoPutBlock_Panic defined as of 8.5.0 */ TK_LT_85 = (dlsym(lib, "Tk_PhotoPutBlock_Panic") == NULL); if (TK_LT_85) { - return (((TK_PHOTO_PUT_BLOCK_84 = (Tk_PhotoPutBlock_84_t) - _dfunc(lib, "Tk_PhotoPutBlock")) == NULL) || - ((TK_PHOTO_SET_SIZE_84 = (Tk_PhotoSetSize_84_t) - _dfunc(lib, "Tk_PhotoSetSize")) == NULL)); + return ( + ((TK_PHOTO_PUT_BLOCK_84 = + (Tk_PhotoPutBlock_84_t)_dfunc(lib, "Tk_PhotoPutBlock")) == NULL) || + ((TK_PHOTO_SET_SIZE_84 = + (Tk_PhotoSetSize_84_t)_dfunc(lib, "Tk_PhotoSetSize")) == NULL)); } - return ((TK_PHOTO_PUT_BLOCK_85 = (Tk_PhotoPutBlock_85_t) - _dfunc(lib, "Tk_PhotoPutBlock")) == NULL); + return ( + (TK_PHOTO_PUT_BLOCK_85 = + (Tk_PhotoPutBlock_85_t)_dfunc(lib, "Tk_PhotoPutBlock")) == NULL); } -int load_tkinter_funcs(void) -{ +int +load_tkinter_funcs(void) { /* * Load tkinter global funcs from tkinter compiled module. * Return 0 for success, non-zero for failure. @@ -447,8 +468,7 @@ int load_tkinter_funcs(void) } tkinter_lib = dlopen(tkinter_libname, RTLD_LAZY); if (tkinter_lib == NULL) { - PyErr_SetString(PyExc_RuntimeError, - "Cannot dlopen tkinter module file"); + PyErr_SetString(PyExc_RuntimeError, "Cannot dlopen tkinter module file"); goto exit; } ret = _func_loader(tkinter_lib); diff --git a/src/_imaging.c b/src/_imaging.c index 1ed5e8a4295..87bbef714e5 100644 --- a/src/_imaging.c +++ b/src/_imaging.c @@ -94,31 +94,30 @@ #include /* Configuration stuff. Feel free to undef things you don't need. */ -#define WITH_IMAGECHOPS /* ImageChops support */ -#define WITH_IMAGEDRAW /* ImageDraw support */ -#define WITH_MAPPING /* use memory mapping to read some file formats */ -#define WITH_IMAGEPATH /* ImagePath stuff */ -#define WITH_ARROW /* arrow graphics stuff (experimental) */ -#define WITH_EFFECTS /* special effects */ -#define WITH_QUANTIZE /* quantization support */ -#define WITH_RANKFILTER /* rank filter */ -#define WITH_MODEFILTER /* mode filter */ -#define WITH_THREADING /* "friendly" threading support */ +#define WITH_IMAGECHOPS /* ImageChops support */ +#define WITH_IMAGEDRAW /* ImageDraw support */ +#define WITH_MAPPING /* use memory mapping to read some file formats */ +#define WITH_IMAGEPATH /* ImagePath stuff */ +#define WITH_ARROW /* arrow graphics stuff (experimental) */ +#define WITH_EFFECTS /* special effects */ +#define WITH_QUANTIZE /* quantization support */ +#define WITH_RANKFILTER /* rank filter */ +#define WITH_MODEFILTER /* mode filter */ +#define WITH_THREADING /* "friendly" threading support */ #define WITH_UNSHARPMASK /* Kevin Cazabon's unsharpmask module */ -#undef VERBOSE +#undef VERBOSE -#define B16(p, i) ((((int)p[(i)]) << 8) + p[(i)+1]) -#define L16(p, i) ((((int)p[(i)+1]) << 8) + p[(i)]) -#define S16(v) ((v) < 32768 ? (v) : ((v) - 65536)) +#define B16(p, i) ((((int)p[(i)]) << 8) + p[(i) + 1]) +#define L16(p, i) ((((int)p[(i) + 1]) << 8) + p[(i)]) +#define S16(v) ((v) < 32768 ? (v) : ((v)-65536)) /* -------------------------------------------------------------------- */ /* OBJECT ADMINISTRATION */ /* -------------------------------------------------------------------- */ typedef struct { - PyObject_HEAD - Imaging image; + PyObject_HEAD Imaging image; ImagingAccess access; } ImagingObject; @@ -126,8 +125,7 @@ static PyTypeObject Imaging_Type; #ifdef WITH_IMAGEDRAW -typedef struct -{ +typedef struct { /* to write a character, cut out sxy from glyph data, place at current position plus dxy, and advance by (dx, dy) */ int dx, dy; @@ -136,8 +134,7 @@ typedef struct } Glyph; typedef struct { - PyObject_HEAD - ImagingObject* ref; + PyObject_HEAD ImagingObject *ref; Imaging bitmap; int ysize; int baseline; @@ -147,8 +144,7 @@ typedef struct { static PyTypeObject ImagingFont_Type; typedef struct { - PyObject_HEAD - ImagingObject* image; + PyObject_HEAD ImagingObject *image; UINT8 ink[4]; int blend; } ImagingDrawObject; @@ -158,17 +154,15 @@ static PyTypeObject ImagingDraw_Type; #endif typedef struct { - PyObject_HEAD - ImagingObject* image; + PyObject_HEAD ImagingObject *image; int readonly; } PixelAccessObject; static PyTypeObject PixelAccess_Type; -PyObject* -PyImagingNew(Imaging imOut) -{ - ImagingObject* imagep; +PyObject * +PyImagingNew(Imaging imOut) { + ImagingObject *imagep; if (!imOut) { return NULL; @@ -187,13 +181,11 @@ PyImagingNew(Imaging imOut) imagep->image = imOut; imagep->access = ImagingAccessNew(imOut); - return (PyObject*) imagep; + return (PyObject *)imagep; } static void -_dealloc(ImagingObject* imagep) -{ - +_dealloc(ImagingObject *imagep) { #ifdef VERBOSE printf("imaging %p deleted\n", imagep); #endif @@ -207,8 +199,8 @@ _dealloc(ImagingObject* imagep) #define PyImaging_Check(op) (Py_TYPE(op) == &Imaging_Type) -Imaging PyImaging_AsImaging(PyObject *op) -{ +Imaging +PyImaging_AsImaging(PyObject *op) { if (!PyImaging_Check(op)) { PyErr_BadInternalCall(); return NULL; @@ -217,22 +209,21 @@ Imaging PyImaging_AsImaging(PyObject *op) return ((ImagingObject *)op)->image; } - /* -------------------------------------------------------------------- */ /* THREAD HANDLING */ /* -------------------------------------------------------------------- */ -void ImagingSectionEnter(ImagingSectionCookie* cookie) -{ +void +ImagingSectionEnter(ImagingSectionCookie *cookie) { #ifdef WITH_THREADING - *cookie = (PyThreadState *) PyEval_SaveThread(); + *cookie = (PyThreadState *)PyEval_SaveThread(); #endif } -void ImagingSectionLeave(ImagingSectionCookie* cookie) -{ +void +ImagingSectionLeave(ImagingSectionCookie *cookie) { #ifdef WITH_THREADING - PyEval_RestoreThread((PyThreadState*) *cookie); + PyEval_RestoreThread((PyThreadState *)*cookie); #endif } @@ -241,13 +232,13 @@ void ImagingSectionLeave(ImagingSectionCookie* cookie) /* -------------------------------------------------------------------- */ /* Python compatibility API */ -int PyImaging_CheckBuffer(PyObject* buffer) -{ +int +PyImaging_CheckBuffer(PyObject *buffer) { return PyObject_CheckBuffer(buffer); } -int PyImaging_GetBuffer(PyObject* buffer, Py_buffer *view) -{ +int +PyImaging_GetBuffer(PyObject *buffer, Py_buffer *view) { /* must call check_buffer first! */ return PyObject_GetBuffer(buffer, view, PyBUF_SIMPLE); } @@ -257,58 +248,50 @@ int PyImaging_GetBuffer(PyObject* buffer, Py_buffer *view) /* -------------------------------------------------------------------- */ /* error messages */ -static const char* must_be_sequence = "argument must be a sequence"; -static const char* must_be_two_coordinates = - "coordinate list must contain exactly 2 coordinates"; -static const char* wrong_mode = "unrecognized image mode"; -static const char* wrong_raw_mode = "unrecognized raw mode"; -static const char* outside_image = "image index out of range"; -static const char* outside_palette = "palette index out of range"; -static const char* wrong_palette_size = "invalid palette size"; -static const char* no_palette = "image has no palette"; -static const char* readonly = "image is readonly"; +static const char *must_be_sequence = "argument must be a sequence"; +static const char *must_be_two_coordinates = + "coordinate list must contain exactly 2 coordinates"; +static const char *wrong_mode = "unrecognized image mode"; +static const char *wrong_raw_mode = "unrecognized raw mode"; +static const char *outside_image = "image index out of range"; +static const char *outside_palette = "palette index out of range"; +static const char *wrong_palette_size = "invalid palette size"; +static const char *no_palette = "image has no palette"; +static const char *readonly = "image is readonly"; /* static const char* no_content = "image has no content"; */ void * -ImagingError_OSError(void) -{ +ImagingError_OSError(void) { PyErr_SetString(PyExc_OSError, "error when accessing file"); return NULL; } void * -ImagingError_MemoryError(void) -{ +ImagingError_MemoryError(void) { return PyErr_NoMemory(); } void * -ImagingError_Mismatch(void) -{ +ImagingError_Mismatch(void) { PyErr_SetString(PyExc_ValueError, "images do not match"); return NULL; } void * -ImagingError_ModeError(void) -{ +ImagingError_ModeError(void) { PyErr_SetString(PyExc_ValueError, "image has wrong mode"); return NULL; } void * -ImagingError_ValueError(const char *message) -{ +ImagingError_ValueError(const char *message) { PyErr_SetString( - PyExc_ValueError, - (message) ? (char*) message : "unrecognized argument value" - ); + PyExc_ValueError, (message) ? (char *)message : "unrecognized argument value"); return NULL; } void -ImagingError_Clear(void) -{ +ImagingError_Clear(void) { PyErr_Clear(); } @@ -317,8 +300,7 @@ ImagingError_Clear(void) /* -------------------------------------------------------------------- */ static int -getbands(const char* mode) -{ +getbands(const char *mode) { Imaging im; int bands; @@ -335,15 +317,14 @@ getbands(const char* mode) return bands; } -#define TYPE_UINT8 (0x100|sizeof(UINT8)) -#define TYPE_INT32 (0x200|sizeof(INT32)) -#define TYPE_FLOAT16 (0x500|sizeof(FLOAT16)) -#define TYPE_FLOAT32 (0x300|sizeof(FLOAT32)) -#define TYPE_DOUBLE (0x400|sizeof(double)) +#define TYPE_UINT8 (0x100 | sizeof(UINT8)) +#define TYPE_INT32 (0x200 | sizeof(INT32)) +#define TYPE_FLOAT16 (0x500 | sizeof(FLOAT16)) +#define TYPE_FLOAT32 (0x300 | sizeof(FLOAT32)) +#define TYPE_DOUBLE (0x400 | sizeof(double)) -static void* -getlist(PyObject* arg, Py_ssize_t* length, const char* wrong_length, int type) -{ +static void * +getlist(PyObject *arg, Py_ssize_t *length, const char *wrong_length, int type) { /* - allocates and returns a c array of the items in the python sequence arg. - the size of the returned array is in length @@ -358,11 +339,11 @@ getlist(PyObject* arg, Py_ssize_t* length, const char* wrong_length, int type) int itemp; double dtemp; FLOAT32 ftemp; - UINT8* list; - PyObject* seq; - PyObject* op; + UINT8 *list; + PyObject *seq; + PyObject *op; - if ( ! PySequence_Check(arg)) { + if (!PySequence_Check(arg)) { PyErr_SetString(PyExc_TypeError, must_be_sequence); return NULL; } @@ -376,12 +357,12 @@ getlist(PyObject* arg, Py_ssize_t* length, const char* wrong_length, int type) /* malloc check ok, type & ff is just a sizeof(something) calloc checks for overflow */ list = calloc(n, type & 0xff); - if ( ! list) { + if (!list) { return PyErr_NoMemory(); } seq = PySequence_Fast(arg, must_be_sequence); - if ( ! seq) { + if (!seq) { free(list); return NULL; } @@ -391,22 +372,22 @@ getlist(PyObject* arg, Py_ssize_t* length, const char* wrong_length, int type) // DRY, branch prediction is going to work _really_ well // on this switch. And 3 fewer loops to copy/paste. switch (type) { - case TYPE_UINT8: - itemp = PyLong_AsLong(op); - list[i] = CLIP8(itemp); - break; - case TYPE_INT32: - itemp = PyLong_AsLong(op); - memcpy(list + i * sizeof(INT32), &itemp, sizeof(itemp)); - break; - case TYPE_FLOAT32: - ftemp = (FLOAT32)PyFloat_AsDouble(op); - memcpy(list + i * sizeof(ftemp), &ftemp, sizeof(ftemp)); - break; - case TYPE_DOUBLE: - dtemp = PyFloat_AsDouble(op); - memcpy(list + i * sizeof(dtemp), &dtemp, sizeof(dtemp)); - break; + case TYPE_UINT8: + itemp = PyLong_AsLong(op); + list[i] = CLIP8(itemp); + break; + case TYPE_INT32: + itemp = PyLong_AsLong(op); + memcpy(list + i * sizeof(INT32), &itemp, sizeof(itemp)); + break; + case TYPE_FLOAT32: + ftemp = (FLOAT32)PyFloat_AsDouble(op); + memcpy(list + i * sizeof(ftemp), &ftemp, sizeof(ftemp)); + break; + case TYPE_DOUBLE: + dtemp = PyFloat_AsDouble(op); + memcpy(list + i * sizeof(dtemp), &dtemp, sizeof(dtemp)); + break; } } @@ -431,31 +412,30 @@ float16tofloat32(const FLOAT16 in) { UINT32 t3; FLOAT32 out[1] = {0}; - t1 = in & 0x7fff; // Non-sign bits - t2 = in & 0x8000; // Sign bit - t3 = in & 0x7c00; // Exponent + t1 = in & 0x7fff; // Non-sign bits + t2 = in & 0x8000; // Sign bit + t3 = in & 0x7c00; // Exponent - t1 <<= 13; // Align mantissa on MSB - t2 <<= 16; // Shift sign bit into position + t1 <<= 13; // Align mantissa on MSB + t2 <<= 16; // Shift sign bit into position - t1 += 0x38000000; // Adjust bias + t1 += 0x38000000; // Adjust bias - t1 = (t3 == 0 ? 0 : t1); // Denormals-as-zero + t1 = (t3 == 0 ? 0 : t1); // Denormals-as-zero - t1 |= t2; // Re-insert sign bit + t1 |= t2; // Re-insert sign bit memcpy(out, &t1, 4); return out[0]; } -static inline PyObject* -getpixel(Imaging im, ImagingAccess access, int x, int y) -{ +static inline PyObject * +getpixel(Imaging im, ImagingAccess access, int x, int y) { union { - UINT8 b[4]; - UINT16 h; - INT32 i; - FLOAT32 f; + UINT8 b[4]; + UINT16 h; + INT32 i; + FLOAT32 f; } pixel; if (x < 0) { @@ -473,27 +453,28 @@ getpixel(Imaging im, ImagingAccess access, int x, int y) access->get_pixel(im, x, y, &pixel); switch (im->type) { - case IMAGING_TYPE_UINT8: - switch (im->bands) { - case 1: - return PyLong_FromLong(pixel.b[0]); - case 2: - return Py_BuildValue("BB", pixel.b[0], pixel.b[1]); - case 3: - return Py_BuildValue("BBB", pixel.b[0], pixel.b[1], pixel.b[2]); - case 4: - return Py_BuildValue("BBBB", pixel.b[0], pixel.b[1], pixel.b[2], pixel.b[3]); - } - break; - case IMAGING_TYPE_INT32: - return PyLong_FromLong(pixel.i); - case IMAGING_TYPE_FLOAT32: - return PyFloat_FromDouble(pixel.f); - case IMAGING_TYPE_SPECIAL: - if (strncmp(im->mode, "I;16", 4) == 0) { - return PyLong_FromLong(pixel.h); - } - break; + case IMAGING_TYPE_UINT8: + switch (im->bands) { + case 1: + return PyLong_FromLong(pixel.b[0]); + case 2: + return Py_BuildValue("BB", pixel.b[0], pixel.b[1]); + case 3: + return Py_BuildValue("BBB", pixel.b[0], pixel.b[1], pixel.b[2]); + case 4: + return Py_BuildValue( + "BBBB", pixel.b[0], pixel.b[1], pixel.b[2], pixel.b[3]); + } + break; + case IMAGING_TYPE_INT32: + return PyLong_FromLong(pixel.i); + case IMAGING_TYPE_FLOAT32: + return PyFloat_FromDouble(pixel.f); + case IMAGING_TYPE_SPECIAL: + if (strncmp(im->mode, "I;16", 4) == 0) { + return PyLong_FromLong(pixel.h); + } + break; } /* unknown type */ @@ -501,11 +482,10 @@ getpixel(Imaging im, ImagingAccess access, int x, int y) return Py_None; } -static char* -getink(PyObject* color, Imaging im, char* ink) -{ - int g=0, b=0, a=0; - double f=0; +static char * +getink(PyObject *color, Imaging im, char *ink) { + int g = 0, b = 0, a = 0; + double f = 0; /* Windows 64 bit longs are 32 bits, and 0xFFFFFFFF (white) is a python long (not int) that raises an overflow error when trying to return it into a 32 bit C long @@ -518,83 +498,82 @@ getink(PyObject* color, Imaging im, char* ink) be cast to either UINT8 or INT32 */ int rIsInt = 0; - if (im->type == IMAGING_TYPE_UINT8 || - im->type == IMAGING_TYPE_INT32 || + if (im->type == IMAGING_TYPE_UINT8 || im->type == IMAGING_TYPE_INT32 || im->type == IMAGING_TYPE_SPECIAL) { - if (PyLong_Check(color)) { - r = PyLong_AsLongLong(color); + if (PyLong_Check(color)) { + r = PyLong_AsLongLong(color); rIsInt = 1; - } - if (r == -1 && PyErr_Occurred()) { - rIsInt = 0; + } + if (r == -1 && PyErr_Occurred()) { + rIsInt = 0; } } switch (im->type) { - case IMAGING_TYPE_UINT8: - /* unsigned integer */ - if (im->bands == 1) { - /* unsigned integer, single layer */ - if (rIsInt != 1) { - if (!PyArg_ParseTuple(color, "L", &r)) { - return NULL; - } - } - ink[0] = (char) CLIP8(r); - ink[1] = ink[2] = ink[3] = 0; - } else { - a = 255; - if (rIsInt) { - /* compatibility: ABGR */ - a = (UINT8) (r >> 24); - b = (UINT8) (r >> 16); - g = (UINT8) (r >> 8); - r = (UINT8) r; - } else { - if (im->bands == 2) { - if (!PyArg_ParseTuple(color, "L|i", &r, &a)) { + case IMAGING_TYPE_UINT8: + /* unsigned integer */ + if (im->bands == 1) { + /* unsigned integer, single layer */ + if (rIsInt != 1) { + if (!PyArg_ParseTuple(color, "L", &r)) { return NULL; } - g = b = r; + } + ink[0] = (char)CLIP8(r); + ink[1] = ink[2] = ink[3] = 0; + } else { + a = 255; + if (rIsInt) { + /* compatibility: ABGR */ + a = (UINT8)(r >> 24); + b = (UINT8)(r >> 16); + g = (UINT8)(r >> 8); + r = (UINT8)r; } else { - if (!PyArg_ParseTuple(color, "Lii|i", &r, &g, &b, &a)) { - return NULL; + if (im->bands == 2) { + if (!PyArg_ParseTuple(color, "L|i", &r, &a)) { + return NULL; + } + g = b = r; + } else { + if (!PyArg_ParseTuple(color, "Lii|i", &r, &g, &b, &a)) { + return NULL; + } } } + ink[0] = (char)CLIP8(r); + ink[1] = (char)CLIP8(g); + ink[2] = (char)CLIP8(b); + ink[3] = (char)CLIP8(a); } - ink[0] = (char) CLIP8(r); - ink[1] = (char) CLIP8(g); - ink[2] = (char) CLIP8(b); - ink[3] = (char) CLIP8(a); - } - return ink; - case IMAGING_TYPE_INT32: - /* signed integer */ - if (rIsInt != 1) { - return NULL; - } - itmp = r; - memcpy(ink, &itmp, sizeof(itmp)); - return ink; - case IMAGING_TYPE_FLOAT32: - /* floating point */ - f = PyFloat_AsDouble(color); - if (f == -1.0 && PyErr_Occurred()) { - return NULL; - } - ftmp = f; - memcpy(ink, &ftmp, sizeof(ftmp)); - return ink; - case IMAGING_TYPE_SPECIAL: - if (strncmp(im->mode, "I;16", 4) == 0) { + return ink; + case IMAGING_TYPE_INT32: + /* signed integer */ if (rIsInt != 1) { return NULL; } - ink[0] = (UINT8) r; - ink[1] = (UINT8) (r >> 8); - ink[2] = ink[3] = 0; + itmp = r; + memcpy(ink, &itmp, sizeof(itmp)); return ink; - } + case IMAGING_TYPE_FLOAT32: + /* floating point */ + f = PyFloat_AsDouble(color); + if (f == -1.0 && PyErr_Occurred()) { + return NULL; + } + ftmp = f; + memcpy(ink, &ftmp, sizeof(ftmp)); + return ink; + case IMAGING_TYPE_SPECIAL: + if (strncmp(im->mode, "I;16", 4) == 0) { + if (rIsInt != 1) { + return NULL; + } + ink[0] = (UINT8)r; + ink[1] = (UINT8)(r >> 8); + ink[2] = ink[3] = 0; + return ink; + } } PyErr_SetString(PyExc_ValueError, wrong_mode); @@ -605,12 +584,11 @@ getink(PyObject* color, Imaging im, char* ink) /* FACTORIES */ /* -------------------------------------------------------------------- */ -static PyObject* -_fill(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_fill(PyObject *self, PyObject *args) { + char *mode; int xsize, ysize; - PyObject* color; + PyObject *color; char buffer[4]; Imaging im; @@ -634,16 +612,14 @@ _fill(PyObject* self, PyObject* args) } } - - (void) ImagingFill(im, buffer); + (void)ImagingFill(im, buffer); return PyImagingNew(im); } -static PyObject* -_new(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_new(PyObject *self, PyObject *args) { + char *mode; int xsize, ysize; if (!PyArg_ParseTuple(args, "s(ii)", &mode, &xsize, &ysize)) { @@ -653,10 +629,9 @@ _new(PyObject* self, PyObject* args) return PyImagingNew(ImagingNew(mode, xsize, ysize)); } -static PyObject* -_new_block(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_new_block(PyObject *self, PyObject *args) { + char *mode; int xsize, ysize; if (!PyArg_ParseTuple(args, "s(ii)", &mode, &xsize, &ysize)) { @@ -666,10 +641,9 @@ _new_block(PyObject* self, PyObject* args) return PyImagingNew(ImagingNewBlock(mode, xsize, ysize)); } -static PyObject* -_linear_gradient(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_linear_gradient(PyObject *self, PyObject *args) { + char *mode; if (!PyArg_ParseTuple(args, "s", &mode)) { return NULL; @@ -678,10 +652,9 @@ _linear_gradient(PyObject* self, PyObject* args) return PyImagingNew(ImagingFillLinearGradient(mode)); } -static PyObject* -_radial_gradient(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_radial_gradient(PyObject *self, PyObject *args) { + char *mode; if (!PyArg_ParseTuple(args, "s", &mode)) { return NULL; @@ -690,64 +663,57 @@ _radial_gradient(PyObject* self, PyObject* args) return PyImagingNew(ImagingFillRadialGradient(mode)); } -static PyObject* -_alpha_composite(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep1; - ImagingObject* imagep2; +static PyObject * +_alpha_composite(ImagingObject *self, PyObject *args) { + ImagingObject *imagep1; + ImagingObject *imagep2; - if (!PyArg_ParseTuple(args, "O!O!", - &Imaging_Type, &imagep1, - &Imaging_Type, &imagep2)) { + if (!PyArg_ParseTuple( + args, "O!O!", &Imaging_Type, &imagep1, &Imaging_Type, &imagep2)) { return NULL; } return PyImagingNew(ImagingAlphaComposite(imagep1->image, imagep2->image)); } -static PyObject* -_blend(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep1; - ImagingObject* imagep2; +static PyObject * +_blend(ImagingObject *self, PyObject *args) { + ImagingObject *imagep1; + ImagingObject *imagep2; double alpha; alpha = 0.5; - if (!PyArg_ParseTuple(args, "O!O!|d", - &Imaging_Type, &imagep1, - &Imaging_Type, &imagep2, - &alpha)) { + if (!PyArg_ParseTuple( + args, "O!O!|d", &Imaging_Type, &imagep1, &Imaging_Type, &imagep2, &alpha)) { return NULL; } - return PyImagingNew(ImagingBlend(imagep1->image, imagep2->image, - (float) alpha)); + return PyImagingNew(ImagingBlend(imagep1->image, imagep2->image, (float)alpha)); } /* -------------------------------------------------------------------- */ /* METHODS */ /* -------------------------------------------------------------------- */ -static INT16* -_prepare_lut_table(PyObject* table, Py_ssize_t table_size) -{ +static INT16 * +_prepare_lut_table(PyObject *table, Py_ssize_t table_size) { int i; Py_buffer buffer_info; INT32 data_type = TYPE_FLOAT32; float item = 0; - void* table_data = NULL; - int free_table_data = 0; - INT16* prepared; + void *table_data = NULL; + int free_table_data = 0; + INT16 *prepared; - /* NOTE: This value should be the same as in ColorLUT.c */ - #define PRECISION_BITS (16 - 8 - 2) +/* NOTE: This value should be the same as in ColorLUT.c */ +#define PRECISION_BITS (16 - 8 - 2) - const char* wrong_size = ("The table should have table_channels * " - "size1D * size2D * size3D float items."); + const char *wrong_size = + ("The table should have table_channels * " + "size1D * size2D * size3D float items."); if (PyObject_CheckBuffer(table)) { - if ( ! PyObject_GetBuffer(table, &buffer_info, - PyBUF_CONTIG_RO | PyBUF_FORMAT)) { + if (!PyObject_GetBuffer(table, &buffer_info, PyBUF_CONTIG_RO | PyBUF_FORMAT)) { if (buffer_info.ndim == 1 && buffer_info.shape[0] == table_size) { if (strlen(buffer_info.format) == 1) { switch (buffer_info.format[0]) { @@ -770,21 +736,21 @@ _prepare_lut_table(PyObject* table, Py_ssize_t table_size) } } - if ( ! table_data) { + if (!table_data) { free_table_data = 1; table_data = getlist(table, &table_size, wrong_size, TYPE_FLOAT32); - if ( ! table_data) { + if (!table_data) { return NULL; } } /* malloc check ok, max is 2 * 4 * 65**3 = 2197000 */ - prepared = (INT16*) malloc(sizeof(INT16) * table_size); - if ( ! prepared) { + prepared = (INT16 *)malloc(sizeof(INT16) * table_size); + if (!prepared) { if (free_table_data) { free(table_data); } - return (INT16*) PyErr_NoMemory(); + return (INT16 *)PyErr_NoMemory(); } for (i = 0; i < table_size; i++) { @@ -792,15 +758,16 @@ _prepare_lut_table(PyObject* table, Py_ssize_t table_size) double dtmp; switch (data_type) { case TYPE_FLOAT16: - memcpy(&htmp, ((char*) table_data) + i * sizeof(htmp), sizeof(htmp)); + memcpy(&htmp, ((char *)table_data) + i * sizeof(htmp), sizeof(htmp)); item = float16tofloat32(htmp); break; case TYPE_FLOAT32: - memcpy(&item, ((char*) table_data) + i * sizeof(FLOAT32), sizeof(FLOAT32)); + memcpy( + &item, ((char *)table_data) + i * sizeof(FLOAT32), sizeof(FLOAT32)); break; case TYPE_DOUBLE: - memcpy(&dtmp, ((char*) table_data) + i * sizeof(dtmp), sizeof(dtmp)); - item = (FLOAT32) dtmp; + memcpy(&dtmp, ((char *)table_data) + i * sizeof(dtmp), sizeof(dtmp)); + item = (FLOAT32)dtmp; break; } /* Max value for INT16 */ @@ -820,69 +787,75 @@ _prepare_lut_table(PyObject* table, Py_ssize_t table_size) } } - #undef PRECISION_BITS +#undef PRECISION_BITS if (free_table_data) { free(table_data); } return prepared; } - -static PyObject* -_color_lut_3d(ImagingObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_color_lut_3d(ImagingObject *self, PyObject *args) { + char *mode; int filter; int table_channels; int size1D, size2D, size3D; - PyObject* table; + PyObject *table; - INT16* prepared_table; + INT16 *prepared_table; Imaging imOut; - if ( ! PyArg_ParseTuple(args, "siiiiiO:color_lut_3d", &mode, &filter, - &table_channels, &size1D, &size2D, &size3D, - &table)) { + if (!PyArg_ParseTuple( + args, + "siiiiiO:color_lut_3d", + &mode, + &filter, + &table_channels, + &size1D, + &size2D, + &size3D, + &table)) { return NULL; } /* actually, it is trilinear */ if (filter != IMAGING_TRANSFORM_BILINEAR) { - PyErr_SetString(PyExc_ValueError, - "Only LINEAR filter is supported."); + PyErr_SetString(PyExc_ValueError, "Only LINEAR filter is supported."); return NULL; } if (1 > table_channels || table_channels > 4) { - PyErr_SetString(PyExc_ValueError, - "table_channels should be from 1 to 4"); + PyErr_SetString(PyExc_ValueError, "table_channels should be from 1 to 4"); return NULL; } - if (2 > size1D || size1D > 65 || - 2 > size2D || size2D > 65 || - 2 > size3D || size3D > 65 - ) { - PyErr_SetString(PyExc_ValueError, - "Table size in any dimension should be from 2 to 65"); + if (2 > size1D || size1D > 65 || 2 > size2D || size2D > 65 || 2 > size3D || + size3D > 65) { + PyErr_SetString( + PyExc_ValueError, "Table size in any dimension should be from 2 to 65"); return NULL; } - prepared_table = _prepare_lut_table( - table, table_channels * size1D * size2D * size3D); - if ( ! prepared_table) { + prepared_table = + _prepare_lut_table(table, table_channels * size1D * size2D * size3D); + if (!prepared_table) { return NULL; } imOut = ImagingNewDirty(mode, self->image->xsize, self->image->ysize); - if ( ! imOut) { + if (!imOut) { free(prepared_table); return NULL; } - if ( ! ImagingColorLUT3D_linear(imOut, self->image, - table_channels, size1D, size2D, size3D, - prepared_table)) { + if (!ImagingColorLUT3D_linear( + imOut, + self->image, + table_channels, + size1D, + size2D, + size3D, + prepared_table)) { free(prepared_table); ImagingDelete(imOut); return NULL; @@ -893,10 +866,9 @@ _color_lut_3d(ImagingObject* self, PyObject* args) return PyImagingNew(imOut); } -static PyObject* -_convert(ImagingObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_convert(ImagingObject *self, PyObject *args) { + char *mode; int dither = 0; ImagingObject *paletteimage = NULL; @@ -906,7 +878,8 @@ _convert(ImagingObject* self, PyObject* args) if (paletteimage != NULL) { if (!PyImaging_Check(paletteimage)) { PyObject_Print((PyObject *)paletteimage, stderr, 0); - PyErr_SetString(PyExc_ValueError, "palette argument must be image with mode 'P'"); + PyErr_SetString( + PyExc_ValueError, "palette argument must be image with mode 'P'"); return NULL; } if (paletteimage->image->palette == NULL) { @@ -915,17 +888,16 @@ _convert(ImagingObject* self, PyObject* args) } } - return PyImagingNew(ImagingConvert(self->image, mode, paletteimage ? paletteimage->image->palette : NULL, dither)); + return PyImagingNew(ImagingConvert( + self->image, mode, paletteimage ? paletteimage->image->palette : NULL, dither)); } -static PyObject* -_convert2(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep1; - ImagingObject* imagep2; - if (!PyArg_ParseTuple(args, "O!O!", - &Imaging_Type, &imagep1, - &Imaging_Type, &imagep2)) { +static PyObject * +_convert2(ImagingObject *self, PyObject *args) { + ImagingObject *imagep1; + ImagingObject *imagep2; + if (!PyArg_ParseTuple( + args, "O!O!", &Imaging_Type, &imagep1, &Imaging_Type, &imagep2)) { return NULL; } @@ -937,17 +909,28 @@ _convert2(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_convert_matrix(ImagingObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_convert_matrix(ImagingObject *self, PyObject *args) { + char *mode; float m[12]; - if (!PyArg_ParseTuple(args, "s(ffff)", &mode, m+0, m+1, m+2, m+3)) { + if (!PyArg_ParseTuple(args, "s(ffff)", &mode, m + 0, m + 1, m + 2, m + 3)) { PyErr_Clear(); - if (!PyArg_ParseTuple(args, "s(ffffffffffff)", &mode, - m+0, m+1, m+2, m+3, - m+4, m+5, m+6, m+7, - m+8, m+9, m+10, m+11)){ + if (!PyArg_ParseTuple( + args, + "s(ffffffffffff)", + &mode, + m + 0, + m + 1, + m + 2, + m + 3, + m + 4, + m + 5, + m + 6, + m + 7, + m + 8, + m + 9, + m + 10, + m + 11)) { return NULL; } } @@ -955,11 +938,10 @@ _convert_matrix(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingConvertMatrix(self->image, mode, m)); } -static PyObject* -_convert_transparent(ImagingObject* self, PyObject* args) -{ - char* mode; - int r,g,b; +static PyObject * +_convert_transparent(ImagingObject *self, PyObject *args) { + char *mode; + int r, g, b; if (PyArg_ParseTuple(args, "s(iii)", &mode, &r, &g, &b)) { return PyImagingNew(ImagingConvertTransparent(self->image, mode, r, g, b)); } @@ -970,9 +952,8 @@ _convert_transparent(ImagingObject* self, PyObject* args) return NULL; } -static PyObject* -_copy(ImagingObject* self, PyObject* args) -{ +static PyObject * +_copy(ImagingObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, "")) { return NULL; } @@ -980,9 +961,8 @@ _copy(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingCopy(self->image)); } -static PyObject* -_crop(ImagingObject* self, PyObject* args) -{ +static PyObject * +_crop(ImagingObject *self, PyObject *args) { int x0, y0, x1, y1; if (!PyArg_ParseTuple(args, "(iiii)", &x0, &y0, &x1, &y1)) { return NULL; @@ -991,9 +971,8 @@ _crop(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingCrop(self->image, x0, y0, x1, y1)); } -static PyObject* -_expand_image(ImagingObject* self, PyObject* args) -{ +static PyObject * +_expand_image(ImagingObject *self, PyObject *args) { int x, y; int mode = 0; if (!PyArg_ParseTuple(args, "ii|i", &x, &y, &mode)) { @@ -1003,18 +982,17 @@ _expand_image(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingExpand(self->image, x, y, mode)); } -static PyObject* -_filter(ImagingObject* self, PyObject* args) -{ - PyObject* imOut; +static PyObject * +_filter(ImagingObject *self, PyObject *args) { + PyObject *imOut; Py_ssize_t kernelsize; - FLOAT32* kerneldata; + FLOAT32 *kerneldata; int xsize, ysize, i; float divisor, offset; - PyObject* kernel = NULL; - if (!PyArg_ParseTuple(args, "(ii)ffO", &xsize, &ysize, - &divisor, &offset, &kernel)) { + PyObject *kernel = NULL; + if (!PyArg_ParseTuple( + args, "(ii)ffO", &xsize, &ysize, &divisor, &offset, &kernel)) { return NULL; } @@ -1023,7 +1001,7 @@ _filter(ImagingObject* self, PyObject* args) if (!kerneldata) { return NULL; } - if (kernelsize != (Py_ssize_t) xsize * (Py_ssize_t) ysize) { + if (kernelsize != (Py_ssize_t)xsize * (Py_ssize_t)ysize) { free(kerneldata); return ImagingError_ValueError("bad kernel size"); } @@ -1032,9 +1010,7 @@ _filter(ImagingObject* self, PyObject* args) kerneldata[i] /= divisor; } - imOut = PyImagingNew( - ImagingFilter(self->image, xsize, ysize, kerneldata, offset) - ); + imOut = PyImagingNew(ImagingFilter(self->image, xsize, ysize, kerneldata, offset)); free(kerneldata); @@ -1042,9 +1018,8 @@ _filter(ImagingObject* self, PyObject* args) } #ifdef WITH_UNSHARPMASK -static PyObject* -_gaussian_blur(ImagingObject* self, PyObject* args) -{ +static PyObject * +_gaussian_blur(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -1069,16 +1044,15 @@ _gaussian_blur(ImagingObject* self, PyObject* args) } #endif -static PyObject* -_getpalette(ImagingObject* self, PyObject* args) -{ - PyObject* palette; +static PyObject * +_getpalette(ImagingObject *self, PyObject *args) { + PyObject *palette; int palettesize = 256; int bits; ImagingShuffler pack; - char* mode = "RGB"; - char* rawmode = "RGB"; + char *mode = "RGB"; + char *rawmode = "RGB"; if (!PyArg_ParseTuple(args, "|ss", &mode, &rawmode)) { return NULL; } @@ -1099,27 +1073,25 @@ _getpalette(ImagingObject* self, PyObject* args) return NULL; } - pack((UINT8*) PyBytes_AsString(palette), - self->image->palette->palette, palettesize); + pack( + (UINT8 *)PyBytes_AsString(palette), self->image->palette->palette, palettesize); return palette; } -static PyObject* -_getpalettemode(ImagingObject* self, PyObject* args) -{ +static PyObject * +_getpalettemode(ImagingObject *self, PyObject *args) { if (!self->image->palette) { - PyErr_SetString(PyExc_ValueError, no_palette); - return NULL; + PyErr_SetString(PyExc_ValueError, no_palette); + return NULL; } return PyUnicode_FromString(self->image->palette->mode); } static inline int -_getxy(PyObject* xy, int* x, int *y) -{ - PyObject* value; +_getxy(PyObject *xy, int *x, int *y) { + PyObject *value; if (!PyTuple_Check(xy) || PyTuple_GET_SIZE(xy) != 2) { goto badarg; @@ -1129,7 +1101,7 @@ _getxy(PyObject* xy, int* x, int *y) if (PyLong_Check(value)) { *x = PyLong_AS_LONG(value); } else if (PyFloat_Check(value)) { - *x = (int) PyFloat_AS_DOUBLE(value); + *x = (int)PyFloat_AS_DOUBLE(value); } else { goto badval; } @@ -1138,39 +1110,29 @@ _getxy(PyObject* xy, int* x, int *y) if (PyLong_Check(value)) { *y = PyLong_AS_LONG(value); } else if (PyFloat_Check(value)) { - *y = (int) PyFloat_AS_DOUBLE(value); + *y = (int)PyFloat_AS_DOUBLE(value); } else { goto badval; } return 0; - badarg: - PyErr_SetString( - PyExc_TypeError, - "argument must be sequence of length 2" - ); +badarg: + PyErr_SetString(PyExc_TypeError, "argument must be sequence of length 2"); return -1; - badval: - PyErr_SetString( - PyExc_TypeError, - "an integer is required" - ); +badval: + PyErr_SetString(PyExc_TypeError, "an integer is required"); return -1; } -static PyObject* -_getpixel(ImagingObject* self, PyObject* args) -{ - PyObject* xy; +static PyObject * +_getpixel(ImagingObject *self, PyObject *args) { + PyObject *xy; int x, y; if (PyTuple_GET_SIZE(args) != 1) { - PyErr_SetString( - PyExc_TypeError, - "argument 1 must be sequence of length 2" - ); + PyErr_SetString(PyExc_TypeError, "argument 1 must be sequence of length 2"); return NULL; } @@ -1194,38 +1156,37 @@ union hist_extrema { FLOAT32 f[2]; }; -static union hist_extrema* -parse_histogram_extremap(ImagingObject* self, PyObject* extremap, - union hist_extrema* ep) -{ +static union hist_extrema * +parse_histogram_extremap( + ImagingObject *self, PyObject *extremap, union hist_extrema *ep) { int i0, i1; double f0, f1; if (extremap) { switch (self->image->type) { - case IMAGING_TYPE_UINT8: - if (!PyArg_ParseTuple(extremap, "ii", &i0, &i1)) { - return NULL; - } - ep->u[0] = CLIP8(i0); - ep->u[1] = CLIP8(i1); - break; - case IMAGING_TYPE_INT32: - if (!PyArg_ParseTuple(extremap, "ii", &i0, &i1)) { - return NULL; - } - ep->i[0] = i0; - ep->i[1] = i1; - break; - case IMAGING_TYPE_FLOAT32: - if (!PyArg_ParseTuple(extremap, "dd", &f0, &f1)) { + case IMAGING_TYPE_UINT8: + if (!PyArg_ParseTuple(extremap, "ii", &i0, &i1)) { + return NULL; + } + ep->u[0] = CLIP8(i0); + ep->u[1] = CLIP8(i1); + break; + case IMAGING_TYPE_INT32: + if (!PyArg_ParseTuple(extremap, "ii", &i0, &i1)) { + return NULL; + } + ep->i[0] = i0; + ep->i[1] = i1; + break; + case IMAGING_TYPE_FLOAT32: + if (!PyArg_ParseTuple(extremap, "dd", &f0, &f1)) { + return NULL; + } + ep->f[0] = (FLOAT32)f0; + ep->f[1] = (FLOAT32)f1; + break; + default: return NULL; - } - ep->f[0] = (FLOAT32) f0; - ep->f[1] = (FLOAT32) f1; - break; - default: - return NULL; } } else { return NULL; @@ -1233,17 +1194,16 @@ parse_histogram_extremap(ImagingObject* self, PyObject* extremap, return ep; } -static PyObject* -_histogram(ImagingObject* self, PyObject* args) -{ +static PyObject * +_histogram(ImagingObject *self, PyObject *args) { ImagingHistogram h; - PyObject* list; + PyObject *list; int i; union hist_extrema extrema; - union hist_extrema* ep; + union hist_extrema *ep; - PyObject* extremap = NULL; - ImagingObject* maskp = NULL; + PyObject *extremap = NULL; + ImagingObject *maskp = NULL; if (!PyArg_ParseTuple(args, "|OO!", &extremap, &Imaging_Type, &maskp)) { return NULL; } @@ -1259,7 +1219,7 @@ _histogram(ImagingObject* self, PyObject* args) /* Build an integer list containing the histogram */ list = PyList_New(h->bands * 256); for (i = 0; i < h->bands * 256; i++) { - PyObject* item; + PyObject *item; item = PyLong_FromLong(h->histogram[i]); if (item == NULL) { Py_DECREF(list); @@ -1275,18 +1235,17 @@ _histogram(ImagingObject* self, PyObject* args) return list; } -static PyObject* -_entropy(ImagingObject* self, PyObject* args) -{ +static PyObject * +_entropy(ImagingObject *self, PyObject *args) { ImagingHistogram h; int idx, length; long sum; double entropy, fsum, p; union hist_extrema extrema; - union hist_extrema* ep; + union hist_extrema *ep; - PyObject* extremap = NULL; - ImagingObject* maskp = NULL; + PyObject *extremap = NULL; + ImagingObject *maskp = NULL; if (!PyArg_ParseTuple(args, "|OO!", &extremap, &Imaging_Type, &maskp)) { return NULL; } @@ -1325,9 +1284,8 @@ _entropy(ImagingObject* self, PyObject* args) } #ifdef WITH_MODEFILTER -static PyObject* -_modefilter(ImagingObject* self, PyObject* args) -{ +static PyObject * +_modefilter(ImagingObject *self, PyObject *args) { int size; if (!PyArg_ParseTuple(args, "i", &size)) { return NULL; @@ -1337,9 +1295,8 @@ _modefilter(ImagingObject* self, PyObject* args) } #endif -static PyObject* -_offset(ImagingObject* self, PyObject* args) -{ +static PyObject * +_offset(ImagingObject *self, PyObject *args) { int xoffset, yoffset; if (!PyArg_ParseTuple(args, "ii", &xoffset, &yoffset)) { return NULL; @@ -1348,38 +1305,35 @@ _offset(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingOffset(self->image, xoffset, yoffset)); } -static PyObject* -_paste(ImagingObject* self, PyObject* args) -{ +static PyObject * +_paste(ImagingObject *self, PyObject *args) { int status; char ink[4]; - PyObject* source; + PyObject *source; int x0, y0, x1, y1; - ImagingObject* maskp = NULL; - if (!PyArg_ParseTuple(args, "O(iiii)|O!", - &source, - &x0, &y0, &x1, &y1, - &Imaging_Type, &maskp)) { + ImagingObject *maskp = NULL; + if (!PyArg_ParseTuple( + args, "O(iiii)|O!", &source, &x0, &y0, &x1, &y1, &Imaging_Type, &maskp)) { return NULL; } if (PyImaging_Check(source)) { status = ImagingPaste( - self->image, PyImaging_AsImaging(source), + self->image, + PyImaging_AsImaging(source), (maskp) ? maskp->image : NULL, - x0, y0, x1, y1 - ); + x0, + y0, + x1, + y1); } else { if (!getink(source, self->image, ink)) { return NULL; } status = ImagingFill2( - self->image, ink, - (maskp) ? maskp->image : NULL, - x0, y0, x1, y1 - ); + self->image, ink, (maskp) ? maskp->image : NULL, x0, y0, x1, y1); } if (status < 0) { @@ -1390,23 +1344,22 @@ _paste(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_point(ImagingObject* self, PyObject* args) -{ - static const char* wrong_number = "wrong number of lut entries"; +static PyObject * +_point(ImagingObject *self, PyObject *args) { + static const char *wrong_number = "wrong number of lut entries"; Py_ssize_t n; int i, bands; Imaging im; - PyObject* list; - char* mode; + PyObject *list; + char *mode; if (!PyArg_ParseTuple(args, "Oz", &list, &mode)) { return NULL; } if (mode && !strcmp(mode, "F")) { - FLOAT32* data; + FLOAT32 *data; /* map from 8-bit data to floating point */ n = 256; @@ -1414,11 +1367,11 @@ _point(ImagingObject* self, PyObject* args) if (!data) { return NULL; } - im = ImagingPoint(self->image, mode, (void*) data); + im = ImagingPoint(self->image, mode, (void *)data); free(data); } else if (!strcmp(self->image->mode, "I") && mode && !strcmp(mode, "L")) { - UINT8* data; + UINT8 *data; /* map from 16-bit subset of 32-bit data to 8-bit */ /* FIXME: support arbitrary number of entries (requires API change) */ @@ -1427,11 +1380,11 @@ _point(ImagingObject* self, PyObject* args) if (!data) { return NULL; } - im = ImagingPoint(self->image, mode, (void*) data); + im = ImagingPoint(self->image, mode, (void *)data); free(data); } else { - INT32* data; + INT32 *data; UINT8 lut[1024]; if (mode) { @@ -1451,23 +1404,23 @@ _point(ImagingObject* self, PyObject* args) } if (mode && !strcmp(mode, "I")) { - im = ImagingPoint(self->image, mode, (void*) data); + im = ImagingPoint(self->image, mode, (void *)data); } else if (mode && bands > 1) { for (i = 0; i < 256; i++) { - lut[i*4] = CLIP8(data[i]); - lut[i*4+1] = CLIP8(data[i+256]); - lut[i*4+2] = CLIP8(data[i+512]); + lut[i * 4] = CLIP8(data[i]); + lut[i * 4 + 1] = CLIP8(data[i + 256]); + lut[i * 4 + 2] = CLIP8(data[i + 512]); if (n > 768) { - lut[i*4+3] = CLIP8(data[i+768]); + lut[i * 4 + 3] = CLIP8(data[i + 768]); } } - im = ImagingPoint(self->image, mode, (void*) lut); + im = ImagingPoint(self->image, mode, (void *)lut); } else { /* map individual bands */ for (i = 0; i < n; i++) { lut[i] = CLIP8(data[i]); } - im = ImagingPoint(self->image, mode, (void*) lut); + im = ImagingPoint(self->image, mode, (void *)lut); } free(data); } @@ -1475,9 +1428,8 @@ _point(ImagingObject* self, PyObject* args) return PyImagingNew(im); } -static PyObject* -_point_transform(ImagingObject* self, PyObject* args) -{ +static PyObject * +_point_transform(ImagingObject *self, PyObject *args) { double scale = 1.0; double offset = 0.0; if (!PyArg_ParseTuple(args, "|dd", &scale, &offset)) { @@ -1487,16 +1439,15 @@ _point_transform(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingPointTransform(self->image, scale, offset)); } -static PyObject* -_putdata(ImagingObject* self, PyObject* args) -{ +static PyObject * +_putdata(ImagingObject *self, PyObject *args) { Imaging image; // i & n are # pixels, require py_ssize_t. x can be as large as n. y, just because. Py_ssize_t n, i, x, y; - PyObject* data; - PyObject* seq = NULL; - PyObject* op; + PyObject *data; + PyObject *seq = NULL; + PyObject *op; double scale = 1.0; double offset = 0.0; @@ -1519,54 +1470,54 @@ _putdata(ImagingObject* self, PyObject* args) if (image->image8) { if (PyBytes_Check(data)) { - unsigned char* p; - p = (unsigned char*) PyBytes_AS_STRING(data); + unsigned char *p; + p = (unsigned char *)PyBytes_AS_STRING(data); if (scale == 1.0 && offset == 0.0) { /* Plain string data */ for (i = y = 0; i < n; i += image->xsize, y++) { x = n - i; - if (x > (int) image->xsize) { + if (x > (int)image->xsize) { x = image->xsize; } - memcpy(image->image8[y], p+i, x); + memcpy(image->image8[y], p + i, x); } } else { /* Scaled and clipped string data */ for (i = x = y = 0; i < n; i++) { - image->image8[y][x] = CLIP8((int) (p[i] * scale + offset)); - if (++x >= (int) image->xsize) { + image->image8[y][x] = CLIP8((int)(p[i] * scale + offset)); + if (++x >= (int)image->xsize) { x = 0, y++; } } } } else { - seq = PySequence_Fast(data, must_be_sequence); - if (!seq) { - PyErr_SetString(PyExc_TypeError, must_be_sequence); - return NULL; - } - if (scale == 1.0 && offset == 0.0) { - /* Clipped data */ - for (i = x = y = 0; i < n; i++) { - op = PySequence_Fast_GET_ITEM(seq, i); - image->image8[y][x] = (UINT8) CLIP8(PyLong_AsLong(op)); - if (++x >= (int) image->xsize){ - x = 0, y++; - } - } + seq = PySequence_Fast(data, must_be_sequence); + if (!seq) { + PyErr_SetString(PyExc_TypeError, must_be_sequence); + return NULL; + } + if (scale == 1.0 && offset == 0.0) { + /* Clipped data */ + for (i = x = y = 0; i < n; i++) { + op = PySequence_Fast_GET_ITEM(seq, i); + image->image8[y][x] = (UINT8)CLIP8(PyLong_AsLong(op)); + if (++x >= (int)image->xsize) { + x = 0, y++; + } + } } else { - /* Scaled and clipped data */ - for (i = x = y = 0; i < n; i++) { - PyObject *op = PySequence_Fast_GET_ITEM(seq, i); - image->image8[y][x] = CLIP8( - (int) (PyFloat_AsDouble(op) * scale + offset)); - if (++x >= (int) image->xsize){ - x = 0, y++; - } - } - } - PyErr_Clear(); /* Avoid weird exceptions */ + /* Scaled and clipped data */ + for (i = x = y = 0; i < n; i++) { + PyObject *op = PySequence_Fast_GET_ITEM(seq, i); + image->image8[y][x] = + CLIP8((int)(PyFloat_AsDouble(op) * scale + offset)); + if (++x >= (int)image->xsize) { + x = 0, y++; + } + } + } + PyErr_Clear(); /* Avoid weird exceptions */ } } else { /* 32-bit images */ @@ -1576,50 +1527,50 @@ _putdata(ImagingObject* self, PyObject* args) return NULL; } switch (image->type) { - case IMAGING_TYPE_INT32: - for (i = x = y = 0; i < n; i++) { - op = PySequence_Fast_GET_ITEM(seq, i); - IMAGING_PIXEL_INT32(image, x, y) = - (INT32) (PyFloat_AsDouble(op) * scale + offset); - if (++x >= (int) image->xsize){ - x = 0, y++; + case IMAGING_TYPE_INT32: + for (i = x = y = 0; i < n; i++) { + op = PySequence_Fast_GET_ITEM(seq, i); + IMAGING_PIXEL_INT32(image, x, y) = + (INT32)(PyFloat_AsDouble(op) * scale + offset); + if (++x >= (int)image->xsize) { + x = 0, y++; + } } - } - PyErr_Clear(); /* Avoid weird exceptions */ - break; - case IMAGING_TYPE_FLOAT32: - for (i = x = y = 0; i < n; i++) { - op = PySequence_Fast_GET_ITEM(seq, i); - IMAGING_PIXEL_FLOAT32(image, x, y) = - (FLOAT32) (PyFloat_AsDouble(op) * scale + offset); - if (++x >= (int) image->xsize){ - x = 0, y++; + PyErr_Clear(); /* Avoid weird exceptions */ + break; + case IMAGING_TYPE_FLOAT32: + for (i = x = y = 0; i < n; i++) { + op = PySequence_Fast_GET_ITEM(seq, i); + IMAGING_PIXEL_FLOAT32(image, x, y) = + (FLOAT32)(PyFloat_AsDouble(op) * scale + offset); + if (++x >= (int)image->xsize) { + x = 0, y++; + } } - } - PyErr_Clear(); /* Avoid weird exceptions */ - break; - default: - for (i = x = y = 0; i < n; i++) { - union { - char ink[4]; - INT32 inkint; - } u; + PyErr_Clear(); /* Avoid weird exceptions */ + break; + default: + for (i = x = y = 0; i < n; i++) { + union { + char ink[4]; + INT32 inkint; + } u; - u.inkint = 0; + u.inkint = 0; - op = PySequence_Fast_GET_ITEM(seq, i); - if (!op || !getink(op, image, u.ink)) { - Py_DECREF(seq); - return NULL; - } - /* FIXME: what about scale and offset? */ - image->image32[y][x] = u.inkint; - if (++x >= (int) image->xsize){ - x = 0, y++; + op = PySequence_Fast_GET_ITEM(seq, i); + if (!op || !getink(op, image, u.ink)) { + Py_DECREF(seq); + return NULL; + } + /* FIXME: what about scale and offset? */ + image->image32[y][x] = u.inkint; + if (++x >= (int)image->xsize) { + x = 0, y++; + } } - } - PyErr_Clear(); /* Avoid weird exceptions */ - break; + PyErr_Clear(); /* Avoid weird exceptions */ + break; } } @@ -1631,9 +1582,8 @@ _putdata(ImagingObject* self, PyObject* args) #ifdef WITH_QUANTIZE -static PyObject* -_quantize(ImagingObject* self, PyObject* args) -{ +static PyObject * +_quantize(ImagingObject *self, PyObject *args) { int colours = 256; int method = 0; int kmeans = 0; @@ -1643,23 +1593,20 @@ _quantize(ImagingObject* self, PyObject* args) if (!self->image->xsize || !self->image->ysize) { /* no content; return an empty image */ - return PyImagingNew( - ImagingNew("P", self->image->xsize, self->image->ysize) - ); + return PyImagingNew(ImagingNew("P", self->image->xsize, self->image->ysize)); } return PyImagingNew(ImagingQuantize(self->image, colours, method, kmeans)); } #endif -static PyObject* -_putpalette(ImagingObject* self, PyObject* args) -{ +static PyObject * +_putpalette(ImagingObject *self, PyObject *args) { ImagingShuffler unpack; int bits; - char* rawmode; - UINT8* palette; + char *rawmode; + UINT8 *palette; Py_ssize_t palettesize; if (!PyArg_ParseTuple(args, "sy#", &rawmode, &palette, &palettesize)) { return NULL; @@ -1677,7 +1624,7 @@ _putpalette(ImagingObject* self, PyObject* args) return NULL; } - if ( palettesize * 8 / bits > 256) { + if (palettesize * 8 / bits > 256) { PyErr_SetString(PyExc_ValueError, wrong_palette_size); return NULL; } @@ -1694,9 +1641,8 @@ _putpalette(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_putpalettealpha(ImagingObject* self, PyObject* args) -{ +static PyObject * +_putpalettealpha(ImagingObject *self, PyObject *args) { int index; int alpha = 0; if (!PyArg_ParseTuple(args, "i|i", &index, &alpha)) { @@ -1714,15 +1660,14 @@ _putpalettealpha(ImagingObject* self, PyObject* args) } strcpy(self->image->palette->mode, "RGBA"); - self->image->palette->palette[index*4+3] = (UINT8) alpha; + self->image->palette->palette[index * 4 + 3] = (UINT8)alpha; Py_INCREF(Py_None); return Py_None; } -static PyObject* -_putpalettealphas(ImagingObject* self, PyObject* args) -{ +static PyObject * +_putpalettealphas(ImagingObject *self, PyObject *args) { int i; UINT8 *values; Py_ssize_t length; @@ -1735,28 +1680,27 @@ _putpalettealphas(ImagingObject* self, PyObject* args) return NULL; } - if (length > 256) { + if (length > 256) { PyErr_SetString(PyExc_ValueError, outside_palette); return NULL; } strcpy(self->image->palette->mode, "RGBA"); - for (i=0; iimage->palette->palette[i*4+3] = (UINT8) values[i]; + for (i = 0; i < length; i++) { + self->image->palette->palette[i * 4 + 3] = (UINT8)values[i]; } Py_INCREF(Py_None); return Py_None; } -static PyObject* -_putpixel(ImagingObject* self, PyObject* args) -{ +static PyObject * +_putpixel(ImagingObject *self, PyObject *args) { Imaging im; char ink[4]; int x, y; - PyObject* color; + PyObject *color; if (!PyArg_ParseTuple(args, "(ii)O", &x, &y, &color)) { return NULL; } @@ -1788,9 +1732,8 @@ _putpixel(ImagingObject* self, PyObject* args) } #ifdef WITH_RANKFILTER -static PyObject* -_rankfilter(ImagingObject* self, PyObject* args) -{ +static PyObject * +_rankfilter(ImagingObject *self, PyObject *args) { int size, rank; if (!PyArg_ParseTuple(args, "ii", &size, &rank)) { return NULL; @@ -1800,9 +1743,8 @@ _rankfilter(ImagingObject* self, PyObject* args) } #endif -static PyObject* -_resize(ImagingObject* self, PyObject* args) -{ +static PyObject * +_resize(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -1814,8 +1756,16 @@ _resize(ImagingObject* self, PyObject* args) box[2] = imIn->xsize; box[3] = imIn->ysize; - if (!PyArg_ParseTuple(args, "(ii)|i(ffff)", &xsize, &ysize, &filter, - &box[0], &box[1], &box[2], &box[3])) { + if (!PyArg_ParseTuple( + args, + "(ii)|i(ffff)", + &xsize, + &ysize, + &filter, + &box[0], + &box[1], + &box[2], + &box[3])) { return NULL; } @@ -1836,36 +1786,31 @@ _resize(ImagingObject* self, PyObject* args) } // If box's coordinates are int and box size matches requested size - if (box[0] - (int) box[0] == 0 && box[2] - box[0] == xsize - && box[1] - (int) box[1] == 0 && box[3] - box[1] == ysize) { + if (box[0] - (int)box[0] == 0 && box[2] - box[0] == xsize && + box[1] - (int)box[1] == 0 && box[3] - box[1] == ysize) { imOut = ImagingCrop(imIn, box[0], box[1], box[2], box[3]); - } - else if (filter == IMAGING_TRANSFORM_NEAREST) { + } else if (filter == IMAGING_TRANSFORM_NEAREST) { double a[6]; memset(a, 0, sizeof a); - a[0] = (double) (box[2] - box[0]) / xsize; - a[4] = (double) (box[3] - box[1]) / ysize; + a[0] = (double)(box[2] - box[0]) / xsize; + a[4] = (double)(box[3] - box[1]) / ysize; a[2] = box[0]; a[5] = box[1]; imOut = ImagingNewDirty(imIn->mode, xsize, ysize); imOut = ImagingTransform( - imOut, imIn, IMAGING_TRANSFORM_AFFINE, - 0, 0, xsize, ysize, - a, filter, 1); - } - else { + imOut, imIn, IMAGING_TRANSFORM_AFFINE, 0, 0, xsize, ysize, a, filter, 1); + } else { imOut = ImagingResample(imIn, xsize, ysize, filter, box); } return PyImagingNew(imOut); } -static PyObject* -_reduce(ImagingObject* self, PyObject* args) -{ +static PyObject * +_reduce(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -1876,8 +1821,15 @@ _reduce(ImagingObject* self, PyObject* args) box[2] = imIn->xsize; box[3] = imIn->ysize; - if (!PyArg_ParseTuple(args, "(ii)|(iiii)", &xscale, &yscale, - &box[0], &box[1], &box[2], &box[3])) { + if (!PyArg_ParseTuple( + args, + "(ii)|(iiii)", + &xscale, + &yscale, + &box[0], + &box[1], + &box[2], + &box[3])) { return NULL; } @@ -1909,18 +1861,16 @@ _reduce(ImagingObject* self, PyObject* args) return PyImagingNew(imOut); } - -#define IS_RGB(mode)\ +#define IS_RGB(mode) \ (!strcmp(mode, "RGB") || !strcmp(mode, "RGBA") || !strcmp(mode, "RGBX")) -static PyObject* -im_setmode(ImagingObject* self, PyObject* args) -{ +static PyObject * +im_setmode(ImagingObject *self, PyObject *args) { /* attempt to modify the mode of an image in place */ Imaging im; - char* mode; + char *mode; Py_ssize_t modelen; if (!PyArg_ParseTuple(args, "s#:setmode", &mode, &modelen)) { return NULL; @@ -1937,7 +1887,7 @@ im_setmode(ImagingObject* self, PyObject* args) strcpy(im->mode, mode); im->bands = modelen; if (!strcmp(mode, "RGBA")) { - (void) ImagingFillBand(im, 3, 255); + (void)ImagingFillBand(im, 3, 255); } } else { /* trying doing an in-place conversion */ @@ -1955,42 +1905,48 @@ im_setmode(ImagingObject* self, PyObject* args) return Py_None; } - -static PyObject* -_transform2(ImagingObject* self, PyObject* args) -{ - static const char* wrong_number = "wrong number of matrix entries"; +static PyObject * +_transform2(ImagingObject *self, PyObject *args) { + static const char *wrong_number = "wrong number of matrix entries"; Imaging imOut; Py_ssize_t n; double *a; - ImagingObject* imagep; + ImagingObject *imagep; int x0, y0, x1, y1; int method; - PyObject* data; + PyObject *data; int filter = IMAGING_TRANSFORM_NEAREST; int fill = 1; - if (!PyArg_ParseTuple(args, "(iiii)O!iO|ii", - &x0, &y0, &x1, &y1, - &Imaging_Type, &imagep, - &method, &data, - &filter, &fill)) { + if (!PyArg_ParseTuple( + args, + "(iiii)O!iO|ii", + &x0, + &y0, + &x1, + &y1, + &Imaging_Type, + &imagep, + &method, + &data, + &filter, + &fill)) { return NULL; } switch (method) { - case IMAGING_TRANSFORM_AFFINE: - n = 6; - break; - case IMAGING_TRANSFORM_PERSPECTIVE: - n = 8; - break; - case IMAGING_TRANSFORM_QUAD: - n = 8; - break; - default: - n = -1; /* force error */ + case IMAGING_TRANSFORM_AFFINE: + n = 6; + break; + case IMAGING_TRANSFORM_PERSPECTIVE: + n = 8; + break; + case IMAGING_TRANSFORM_QUAD: + n = 8; + break; + default: + n = -1; /* force error */ } a = getlist(data, &n, wrong_number, TYPE_DOUBLE); @@ -1999,8 +1955,7 @@ _transform2(ImagingObject* self, PyObject* args) } imOut = ImagingTransform( - self->image, imagep->image, method, - x0, y0, x1, y1, a, filter, fill); + self->image, imagep->image, method, x0, y0, x1, y1, a, filter, fill); free(a); @@ -2012,9 +1967,8 @@ _transform2(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_transpose(ImagingObject* self, PyObject* args) -{ +static PyObject * +_transpose(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -2026,45 +1980,45 @@ _transpose(ImagingObject* self, PyObject* args) imIn = self->image; switch (op) { - case 0: /* flip left right */ - case 1: /* flip top bottom */ - case 3: /* rotate 180 */ - imOut = ImagingNewDirty(imIn->mode, imIn->xsize, imIn->ysize); - break; - case 2: /* rotate 90 */ - case 4: /* rotate 270 */ - case 5: /* transpose */ - case 6: /* transverse */ - imOut = ImagingNewDirty(imIn->mode, imIn->ysize, imIn->xsize); - break; - default: - PyErr_SetString(PyExc_ValueError, "No such transpose operation"); - return NULL; + case 0: /* flip left right */ + case 1: /* flip top bottom */ + case 3: /* rotate 180 */ + imOut = ImagingNewDirty(imIn->mode, imIn->xsize, imIn->ysize); + break; + case 2: /* rotate 90 */ + case 4: /* rotate 270 */ + case 5: /* transpose */ + case 6: /* transverse */ + imOut = ImagingNewDirty(imIn->mode, imIn->ysize, imIn->xsize); + break; + default: + PyErr_SetString(PyExc_ValueError, "No such transpose operation"); + return NULL; } if (imOut) { switch (op) { - case 0: - (void) ImagingFlipLeftRight(imOut, imIn); - break; - case 1: - (void) ImagingFlipTopBottom(imOut, imIn); - break; - case 2: - (void) ImagingRotate90(imOut, imIn); - break; - case 3: - (void) ImagingRotate180(imOut, imIn); - break; - case 4: - (void) ImagingRotate270(imOut, imIn); - break; - case 5: - (void) ImagingTranspose(imOut, imIn); - break; - case 6: - (void) ImagingTransverse(imOut, imIn); - break; + case 0: + (void)ImagingFlipLeftRight(imOut, imIn); + break; + case 1: + (void)ImagingFlipTopBottom(imOut, imIn); + break; + case 2: + (void)ImagingRotate90(imOut, imIn); + break; + case 3: + (void)ImagingRotate180(imOut, imIn); + break; + case 4: + (void)ImagingRotate270(imOut, imIn); + break; + case 5: + (void)ImagingTranspose(imOut, imIn); + break; + case 6: + (void)ImagingTransverse(imOut, imIn); + break; } } @@ -2072,9 +2026,8 @@ _transpose(ImagingObject* self, PyObject* args) } #ifdef WITH_UNSHARPMASK -static PyObject* -_unsharp_mask(ImagingObject* self, PyObject* args) -{ +static PyObject * +_unsharp_mask(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -2098,9 +2051,8 @@ _unsharp_mask(ImagingObject* self, PyObject* args) } #endif -static PyObject* -_box_blur(ImagingObject* self, PyObject* args) -{ +static PyObject * +_box_blur(ImagingObject *self, PyObject *args) { Imaging imIn; Imaging imOut; @@ -2126,15 +2078,13 @@ _box_blur(ImagingObject* self, PyObject* args) /* -------------------------------------------------------------------- */ -static PyObject* -_isblock(ImagingObject* self, PyObject* args) -{ +static PyObject * +_isblock(ImagingObject *self, PyObject *args) { return PyBool_FromLong(self->image->block != NULL); } -static PyObject* -_getbbox(ImagingObject* self, PyObject* args) -{ +static PyObject * +_getbbox(ImagingObject *self, PyObject *args) { int bbox[4]; if (!ImagingGetBBox(self->image, bbox)) { Py_INCREF(Py_None); @@ -2144,12 +2094,11 @@ _getbbox(ImagingObject* self, PyObject* args) return Py_BuildValue("iiii", bbox[0], bbox[1], bbox[2], bbox[3]); } -static PyObject* -_getcolors(ImagingObject* self, PyObject* args) -{ - ImagingColorItem* items; +static PyObject * +_getcolors(ImagingObject *self, PyObject *args) { + ImagingColorItem *items; int i, colors; - PyObject* out; + PyObject *out; int maxcolors = 256; if (!PyArg_ParseTuple(args, "i:getcolors", &maxcolors)) { @@ -2167,10 +2116,9 @@ _getcolors(ImagingObject* self, PyObject* args) } else { out = PyList_New(colors); for (i = 0; i < colors; i++) { - ImagingColorItem* v = &items[i]; - PyObject* item = Py_BuildValue( - "iN", v->count, getpixel(self->image, self->access, v->x, v->y) - ); + ImagingColorItem *v = &items[i]; + PyObject *item = Py_BuildValue( + "iN", v->count, getpixel(self->image, self->access, v->x, v->y)); PyList_SetItem(out, i, item); } } @@ -2180,9 +2128,8 @@ _getcolors(ImagingObject* self, PyObject* args) return out; } -static PyObject* -_getextrema(ImagingObject* self, PyObject* args) -{ +static PyObject * +_getextrema(ImagingObject *self, PyObject *args) { union { UINT8 u[2]; INT32 i[2]; @@ -2198,16 +2145,16 @@ _getextrema(ImagingObject* self, PyObject* args) if (status) { switch (self->image->type) { - case IMAGING_TYPE_UINT8: - return Py_BuildValue("BB", extrema.u[0], extrema.u[1]); - case IMAGING_TYPE_INT32: - return Py_BuildValue("ii", extrema.i[0], extrema.i[1]); - case IMAGING_TYPE_FLOAT32: - return Py_BuildValue("dd", extrema.f[0], extrema.f[1]); - case IMAGING_TYPE_SPECIAL: - if (strcmp(self->image->mode, "I;16") == 0) { - return Py_BuildValue("HH", extrema.s[0], extrema.s[1]); - } + case IMAGING_TYPE_UINT8: + return Py_BuildValue("BB", extrema.u[0], extrema.u[1]); + case IMAGING_TYPE_INT32: + return Py_BuildValue("ii", extrema.i[0], extrema.i[1]); + case IMAGING_TYPE_FLOAT32: + return Py_BuildValue("dd", extrema.f[0], extrema.f[1]); + case IMAGING_TYPE_SPECIAL: + if (strcmp(self->image->mode, "I;16") == 0) { + return Py_BuildValue("HH", extrema.s[0], extrema.s[1]); + } } } @@ -2215,12 +2162,11 @@ _getextrema(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_getprojection(ImagingObject* self, PyObject* args) -{ - unsigned char* xprofile; - unsigned char* yprofile; - PyObject* result; +static PyObject * +_getprojection(ImagingObject *self, PyObject *args) { + unsigned char *xprofile; + unsigned char *yprofile; + PyObject *result; /* malloc check ok */ xprofile = malloc(self->image->xsize); @@ -2232,11 +2178,15 @@ _getprojection(ImagingObject* self, PyObject* args) return PyErr_NoMemory(); } - ImagingGetProjection(self->image, (unsigned char *)xprofile, (unsigned char *)yprofile); + ImagingGetProjection( + self->image, (unsigned char *)xprofile, (unsigned char *)yprofile); - result = Py_BuildValue("y#y#", - xprofile, (Py_ssize_t)self->image->xsize, - yprofile, (Py_ssize_t)self->image->ysize); + result = Py_BuildValue( + "y#y#", + xprofile, + (Py_ssize_t)self->image->xsize, + yprofile, + (Py_ssize_t)self->image->ysize); free(xprofile); free(yprofile); @@ -2246,9 +2196,8 @@ _getprojection(ImagingObject* self, PyObject* args) /* -------------------------------------------------------------------- */ -static PyObject* -_getband(ImagingObject* self, PyObject* args) -{ +static PyObject * +_getband(ImagingObject *self, PyObject *args) { int band; if (!PyArg_ParseTuple(args, "i", &band)) { @@ -2258,9 +2207,8 @@ _getband(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingGetBand(self->image, band)); } -static PyObject* -_fillband(ImagingObject* self, PyObject* args) -{ +static PyObject * +_fillband(ImagingObject *self, PyObject *args) { int band; int color; @@ -2276,14 +2224,11 @@ _fillband(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_putband(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_putband(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; int band; - if (!PyArg_ParseTuple(args, "O!i", - &Imaging_Type, &imagep, - &band)) { + if (!PyArg_ParseTuple(args, "O!i", &Imaging_Type, &imagep, &band)) { return NULL; } @@ -2295,19 +2240,27 @@ _putband(ImagingObject* self, PyObject* args) return Py_None; } -static PyObject* -_merge(PyObject* self, PyObject* args) -{ - char* mode; +static PyObject * +_merge(PyObject *self, PyObject *args) { + char *mode; ImagingObject *band0 = NULL; ImagingObject *band1 = NULL; ImagingObject *band2 = NULL; ImagingObject *band3 = NULL; Imaging bands[4] = {NULL, NULL, NULL, NULL}; - if (!PyArg_ParseTuple(args, "sO!|O!O!O!", &mode, - &Imaging_Type, &band0, &Imaging_Type, &band1, - &Imaging_Type, &band2, &Imaging_Type, &band3)) { + if (!PyArg_ParseTuple( + args, + "sO!|O!O!O!", + &mode, + &Imaging_Type, + &band0, + &Imaging_Type, + &band1, + &Imaging_Type, + &band2, + &Imaging_Type, + &band3)) { return NULL; } @@ -2327,23 +2280,22 @@ _merge(PyObject* self, PyObject* args) return PyImagingNew(ImagingMerge(mode, bands)); } -static PyObject* -_split(ImagingObject* self, PyObject* args) -{ +static PyObject * +_split(ImagingObject *self, PyObject *args) { int fails = 0; Py_ssize_t i; - PyObject* list; - PyObject* imaging_object; + PyObject *list; + PyObject *imaging_object; Imaging bands[4] = {NULL, NULL, NULL, NULL}; - if ( ! ImagingSplit(self->image, bands)) { + if (!ImagingSplit(self->image, bands)) { return NULL; } list = PyTuple_New(self->image->bands); for (i = 0; i < self->image->bands; i++) { imaging_object = PyImagingNew(bands[i]); - if ( ! imaging_object) { + if (!imaging_object) { fails += 1; } PyTuple_SET_ITEM(list, i, imaging_object); @@ -2359,16 +2311,14 @@ _split(ImagingObject* self, PyObject* args) #ifdef WITH_IMAGECHOPS -static PyObject* -_chop_invert(ImagingObject* self, PyObject* args) -{ +static PyObject * +_chop_invert(ImagingObject *self, PyObject *args) { return PyImagingNew(ImagingNegative(self->image)); } -static PyObject* -_chop_lighter(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_lighter(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2377,10 +2327,9 @@ _chop_lighter(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopLighter(self->image, imagep->image)); } -static PyObject* -_chop_darker(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_darker(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2389,10 +2338,9 @@ _chop_darker(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopDarker(self->image, imagep->image)); } -static PyObject* -_chop_difference(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_difference(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2401,10 +2349,9 @@ _chop_difference(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopDifference(self->image, imagep->image)); } -static PyObject* -_chop_multiply(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_multiply(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2413,10 +2360,9 @@ _chop_multiply(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopMultiply(self->image, imagep->image)); } -static PyObject* -_chop_screen(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_screen(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2425,48 +2371,41 @@ _chop_screen(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopScreen(self->image, imagep->image)); } -static PyObject* -_chop_add(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_add(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; float scale; int offset; scale = 1.0; offset = 0; - if (!PyArg_ParseTuple(args, "O!|fi", &Imaging_Type, &imagep, - &scale, &offset)) { + if (!PyArg_ParseTuple(args, "O!|fi", &Imaging_Type, &imagep, &scale, &offset)) { return NULL; } - return PyImagingNew(ImagingChopAdd(self->image, imagep->image, - scale, offset)); + return PyImagingNew(ImagingChopAdd(self->image, imagep->image, scale, offset)); } -static PyObject* -_chop_subtract(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_subtract(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; float scale; int offset; scale = 1.0; offset = 0; - if (!PyArg_ParseTuple(args, "O!|fi", &Imaging_Type, &imagep, - &scale, &offset)) { + if (!PyArg_ParseTuple(args, "O!|fi", &Imaging_Type, &imagep, &scale, &offset)) { return NULL; } - return PyImagingNew(ImagingChopSubtract(self->image, imagep->image, - scale, offset)); + return PyImagingNew(ImagingChopSubtract(self->image, imagep->image, scale, offset)); } -static PyObject* -_chop_and(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_and(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2475,10 +2414,9 @@ _chop_and(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopAnd(self->image, imagep->image)); } -static PyObject* -_chop_or(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_or(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2487,10 +2425,9 @@ _chop_or(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopOr(self->image, imagep->image)); } -static PyObject* -_chop_xor(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_xor(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2499,10 +2436,9 @@ _chop_xor(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopXor(self->image, imagep->image)); } -static PyObject* -_chop_add_modulo(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_add_modulo(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2511,10 +2447,9 @@ _chop_add_modulo(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopAddModulo(self->image, imagep->image)); } -static PyObject* -_chop_subtract_modulo(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_subtract_modulo(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2523,10 +2458,9 @@ _chop_subtract_modulo(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopSubtractModulo(self->image, imagep->image)); } -static PyObject* -_chop_soft_light(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_soft_light(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2535,10 +2469,9 @@ _chop_soft_light(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopSoftLight(self->image, imagep->image)); } -static PyObject* -_chop_hard_light(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_hard_light(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2547,10 +2480,9 @@ _chop_hard_light(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingChopHardLight(self->image, imagep->image)); } -static PyObject* -_chop_overlay(ImagingObject* self, PyObject* args) -{ - ImagingObject* imagep; +static PyObject * +_chop_overlay(ImagingObject *self, PyObject *args) { + ImagingObject *imagep; if (!PyArg_ParseTuple(args, "O!", &Imaging_Type, &imagep)) { return NULL; @@ -2560,24 +2492,21 @@ _chop_overlay(ImagingObject* self, PyObject* args) } #endif - /* -------------------------------------------------------------------- */ #ifdef WITH_IMAGEDRAW -static PyObject* -_font_new(PyObject* self_, PyObject* args) -{ +static PyObject * +_font_new(PyObject *self_, PyObject *args) { ImagingFontObject *self; int i, y0, y1; - static const char* wrong_length = "descriptor table has wrong size"; + static const char *wrong_length = "descriptor table has wrong size"; - ImagingObject* imagep; - unsigned char* glyphdata; + ImagingObject *imagep; + unsigned char *glyphdata; Py_ssize_t glyphdata_length; - if (!PyArg_ParseTuple(args, "O!y#", - &Imaging_Type, &imagep, - &glyphdata, &glyphdata_length)) { + if (!PyArg_ParseTuple( + args, "O!y#", &Imaging_Type, &imagep, &glyphdata, &glyphdata_length)) { return NULL; } @@ -2624,19 +2553,17 @@ _font_new(PyObject* self_, PyObject* args) Py_INCREF(imagep); self->ref = imagep; - return (PyObject*) self; + return (PyObject *)self; } static void -_font_dealloc(ImagingFontObject* self) -{ +_font_dealloc(ImagingFontObject *self) { Py_XDECREF(self->ref); PyObject_Del(self); } static inline int -textwidth(ImagingFontObject* self, const unsigned char* text) -{ +textwidth(ImagingFontObject *self, const unsigned char *text) { int xsize; for (xsize = 0; *text; text++) { @@ -2646,16 +2573,17 @@ textwidth(ImagingFontObject* self, const unsigned char* text) return xsize; } -void _font_text_asBytes(PyObject* encoded_string, unsigned char** text){ +void +_font_text_asBytes(PyObject *encoded_string, unsigned char **text) { /* Allocates *text, returns a 'new reference'. Caller is required to free */ - PyObject* bytes = NULL; + PyObject *bytes = NULL; Py_ssize_t len = 0; char *buffer; *text = NULL; - if (PyUnicode_CheckExact(encoded_string)){ + if (PyUnicode_CheckExact(encoded_string)) { bytes = PyUnicode_AsLatin1String(encoded_string); if (!bytes) { return; @@ -2665,7 +2593,7 @@ void _font_text_asBytes(PyObject* encoded_string, unsigned char** text){ PyBytes_AsStringAndSize(encoded_string, &buffer, &len); } - *text = calloc(len+1,1); + *text = calloc(len + 1, 1); if (*text) { memcpy(*text, buffer, len); } else { @@ -2678,23 +2606,21 @@ void _font_text_asBytes(PyObject* encoded_string, unsigned char** text){ return; } - -static PyObject* -_font_getmask(ImagingFontObject* self, PyObject* args) -{ +static PyObject * +_font_getmask(ImagingFontObject *self, PyObject *args) { Imaging im; Imaging bitmap; int x, b; - int i=0; + int i = 0; int status; - Glyph* glyph; + Glyph *glyph; - PyObject* encoded_string; + PyObject *encoded_string; - unsigned char* text; - char* mode = ""; + unsigned char *text; + char *mode = ""; - if (!PyArg_ParseTuple(args, "O|s:getmask", &encoded_string, &mode)){ + if (!PyArg_ParseTuple(args, "O|s:getmask", &encoded_string, &mode)) { return NULL; } @@ -2711,22 +2637,24 @@ _font_getmask(ImagingFontObject* self, PyObject* args) } b = 0; - (void) ImagingFill(im, &b); + (void)ImagingFill(im, &b); b = self->baseline; for (x = 0; text[i]; i++) { glyph = &self->glyphs[text[i]]; - bitmap = ImagingCrop( - self->bitmap, - glyph->sx0, glyph->sy0, glyph->sx1, glyph->sy1 - ); + bitmap = + ImagingCrop(self->bitmap, glyph->sx0, glyph->sy0, glyph->sx1, glyph->sy1); if (!bitmap) { goto failed; } status = ImagingPaste( - im, bitmap, NULL, - glyph->dx0+x, glyph->dy0+b, glyph->dx1+x, glyph->dy1+b - ); + im, + bitmap, + NULL, + glyph->dx0 + x, + glyph->dy0 + b, + glyph->dx1 + x, + glyph->dy1 + b); ImagingDelete(bitmap); if (status < 0) { goto failed; @@ -2737,18 +2665,17 @@ _font_getmask(ImagingFontObject* self, PyObject* args) free(text); return PyImagingNew(im); - failed: +failed: free(text); ImagingDelete(im); Py_RETURN_NONE; } -static PyObject* -_font_getsize(ImagingFontObject* self, PyObject* args) -{ - unsigned char* text; - PyObject* encoded_string; - PyObject* val; +static PyObject * +_font_getsize(ImagingFontObject *self, PyObject *args) { + unsigned char *text; + PyObject *encoded_string; + PyObject *val; if (!PyArg_ParseTuple(args, "O:getsize", &encoded_string)) { return NULL; @@ -2772,12 +2699,11 @@ static struct PyMethodDef _font_methods[] = { /* -------------------------------------------------------------------- */ -static PyObject* -_draw_new(PyObject* self_, PyObject* args) -{ +static PyObject * +_draw_new(PyObject *self_, PyObject *args) { ImagingDrawObject *self; - ImagingObject* imagep; + ImagingObject *imagep; int blend = 0; if (!PyArg_ParseTuple(args, "O!|i", &Imaging_Type, &imagep, &blend)) { return NULL; @@ -2796,41 +2722,39 @@ _draw_new(PyObject* self_, PyObject* args) self->blend = blend; - return (PyObject*) self; + return (PyObject *)self; } static void -_draw_dealloc(ImagingDrawObject* self) -{ +_draw_dealloc(ImagingDrawObject *self) { Py_XDECREF(self->image); PyObject_Del(self); } -extern Py_ssize_t PyPath_Flatten(PyObject* data, double **xy); +extern Py_ssize_t +PyPath_Flatten(PyObject *data, double **xy); -static PyObject* -_draw_ink(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_ink(ImagingDrawObject *self, PyObject *args) { INT32 ink = 0; - PyObject* color; + PyObject *color; if (!PyArg_ParseTuple(args, "O", &color)) { return NULL; } - if (!getink(color, self->image->image, (char*) &ink)) { + if (!getink(color, self->image->image, (char *)&ink)) { return NULL; } - return PyLong_FromLong((int) ink); + return PyLong_FromLong((int)ink); } -static PyObject* -_draw_arc(ImagingDrawObject* self, PyObject* args) -{ - double* xy; +static PyObject * +_draw_arc(ImagingDrawObject *self, PyObject *args) { + double *xy; Py_ssize_t n; - PyObject* data; + PyObject *data; int ink; int width = 0; float start, end; @@ -2849,11 +2773,17 @@ _draw_arc(ImagingDrawObject* self, PyObject* args) return NULL; } - n = ImagingDrawArc(self->image->image, - (int) xy[0], (int) xy[1], - (int) xy[2], (int) xy[3], - start, end, &ink, width, op - ); + n = ImagingDrawArc( + self->image->image, + (int)xy[0], + (int)xy[1], + (int)xy[2], + (int)xy[3], + start, + end, + &ink, + width, + op); free(xy); @@ -2865,14 +2795,13 @@ _draw_arc(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_bitmap(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_bitmap(ImagingDrawObject *self, PyObject *args) { double *xy; Py_ssize_t n; PyObject *data; - ImagingObject* bitmap; + ImagingObject *bitmap; int ink; if (!PyArg_ParseTuple(args, "OO!i", &data, &Imaging_Type, &bitmap, &ink)) { return NULL; @@ -2883,17 +2812,14 @@ _draw_bitmap(ImagingDrawObject* self, PyObject* args) return NULL; } if (n != 1) { - PyErr_SetString(PyExc_TypeError, - "coordinate list must contain exactly 1 coordinate" - ); + PyErr_SetString( + PyExc_TypeError, "coordinate list must contain exactly 1 coordinate"); free(xy); return NULL; } n = ImagingDrawBitmap( - self->image->image, (int) xy[0], (int) xy[1], bitmap->image, - &ink, self->blend - ); + self->image->image, (int)xy[0], (int)xy[1], bitmap->image, &ink, self->blend); free(xy); @@ -2905,18 +2831,16 @@ _draw_bitmap(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_chord(ImagingDrawObject* self, PyObject* args) -{ - double* xy; +static PyObject * +_draw_chord(ImagingDrawObject *self, PyObject *args) { + double *xy; Py_ssize_t n; - PyObject* data; + PyObject *data; int ink, fill; int width = 0; float start, end; - if (!PyArg_ParseTuple(args, "Offii|i", - &data, &start, &end, &ink, &fill, &width)) { + if (!PyArg_ParseTuple(args, "Offii|i", &data, &start, &end, &ink, &fill, &width)) { return NULL; } @@ -2930,11 +2854,18 @@ _draw_chord(ImagingDrawObject* self, PyObject* args) return NULL; } - n = ImagingDrawChord(self->image->image, - (int) xy[0], (int) xy[1], - (int) xy[2], (int) xy[3], - start, end, &ink, fill, width, self->blend - ); + n = ImagingDrawChord( + self->image->image, + (int)xy[0], + (int)xy[1], + (int)xy[2], + (int)xy[3], + start, + end, + &ink, + fill, + width, + self->blend); free(xy); @@ -2946,13 +2877,12 @@ _draw_chord(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_ellipse(ImagingDrawObject* self, PyObject* args) -{ - double* xy; +static PyObject * +_draw_ellipse(ImagingDrawObject *self, PyObject *args) { + double *xy; Py_ssize_t n; - PyObject* data; + PyObject *data; int ink; int fill = 0; int width = 0; @@ -2970,11 +2900,16 @@ _draw_ellipse(ImagingDrawObject* self, PyObject* args) return NULL; } - n = ImagingDrawEllipse(self->image->image, - (int) xy[0], (int) xy[1], - (int) xy[2], (int) xy[3], - &ink, fill, width, self->blend - ); + n = ImagingDrawEllipse( + self->image->image, + (int)xy[0], + (int)xy[1], + (int)xy[2], + (int)xy[3], + &ink, + fill, + width, + self->blend); free(xy); @@ -2986,9 +2921,8 @@ _draw_ellipse(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_lines(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_lines(ImagingDrawObject *self, PyObject *args) { double *xy; Py_ssize_t i, n; @@ -3006,30 +2940,36 @@ _draw_lines(ImagingDrawObject* self, PyObject* args) if (width <= 1) { double *p = NULL; - for (i = 0; i < n-1; i++) { - p = &xy[i+i]; + for (i = 0; i < n - 1; i++) { + p = &xy[i + i]; if (ImagingDrawLine( self->image->image, - (int) p[0], (int) p[1], (int) p[2], (int) p[3], - &ink, self->blend) < 0) { + (int)p[0], + (int)p[1], + (int)p[2], + (int)p[3], + &ink, + self->blend) < 0) { free(xy); return NULL; } } - if (p) {/* draw last point */ + if (p) { /* draw last point */ ImagingDrawPoint( - self->image->image, - (int) p[2], (int) p[3], - &ink, self->blend - ); + self->image->image, (int)p[2], (int)p[3], &ink, self->blend); } } else { - for (i = 0; i < n-1; i++) { - double *p = &xy[i+i]; + for (i = 0; i < n - 1; i++) { + double *p = &xy[i + i]; if (ImagingDrawWideLine( self->image->image, - (int) p[0], (int) p[1], (int) p[2], (int) p[3], - &ink, width, self->blend) < 0) { + (int)p[0], + (int)p[1], + (int)p[2], + (int)p[3], + &ink, + width, + self->blend) < 0) { free(xy); return NULL; } @@ -3042,9 +2982,8 @@ _draw_lines(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_points(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_points(ImagingDrawObject *self, PyObject *args) { double *xy; Py_ssize_t i, n; @@ -3060,12 +2999,12 @@ _draw_points(ImagingDrawObject* self, PyObject* args) } for (i = 0; i < n; i++) { - double *p = &xy[i+i]; - if (ImagingDrawPoint(self->image->image, (int) p[0], (int) p[1], - &ink, self->blend) < 0) { - free(xy); - return NULL; - } + double *p = &xy[i + i]; + if (ImagingDrawPoint( + self->image->image, (int)p[0], (int)p[1], &ink, self->blend) < 0) { + free(xy); + return NULL; + } } free(xy); @@ -3074,17 +3013,17 @@ _draw_points(ImagingDrawObject* self, PyObject* args) return Py_None; } -#ifdef WITH_ARROW +#ifdef WITH_ARROW /* from outline.c */ -extern ImagingOutline PyOutline_AsOutline(PyObject* outline); +extern ImagingOutline +PyOutline_AsOutline(PyObject *outline); -static PyObject* -_draw_outline(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_outline(ImagingDrawObject *self, PyObject *args) { ImagingOutline outline; - PyObject* outline_; + PyObject *outline_; int ink; int fill = 0; if (!PyArg_ParseTuple(args, "Oi|i", &outline_, &ink, &fill)) { @@ -3097,8 +3036,7 @@ _draw_outline(ImagingDrawObject* self, PyObject* args) return NULL; } - if (ImagingDrawOutline(self->image->image, outline, - &ink, fill, self->blend) < 0) { + if (ImagingDrawOutline(self->image->image, outline, &ink, fill, self->blend) < 0) { return NULL; } @@ -3108,13 +3046,12 @@ _draw_outline(ImagingDrawObject* self, PyObject* args) #endif -static PyObject* -_draw_pieslice(ImagingDrawObject* self, PyObject* args) -{ - double* xy; +static PyObject * +_draw_pieslice(ImagingDrawObject *self, PyObject *args) { + double *xy; Py_ssize_t n; - PyObject* data; + PyObject *data; int ink, fill; int width = 0; float start, end; @@ -3132,11 +3069,18 @@ _draw_pieslice(ImagingDrawObject* self, PyObject* args) return NULL; } - n = ImagingDrawPieslice(self->image->image, - (int) xy[0], (int) xy[1], - (int) xy[2], (int) xy[3], - start, end, &ink, fill, width, self->blend - ); + n = ImagingDrawPieslice( + self->image->image, + (int)xy[0], + (int)xy[1], + (int)xy[2], + (int)xy[3], + start, + end, + &ink, + fill, + width, + self->blend); free(xy); @@ -3148,14 +3092,13 @@ _draw_pieslice(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_polygon(ImagingDrawObject* self, PyObject* args) -{ +static PyObject * +_draw_polygon(ImagingDrawObject *self, PyObject *args) { double *xy; int *ixy; Py_ssize_t n, i; - PyObject* data; + PyObject *data; int ink; int fill = 0; if (!PyArg_ParseTuple(args, "Oi|i", &data, &ink, &fill)) { @@ -3167,25 +3110,23 @@ _draw_polygon(ImagingDrawObject* self, PyObject* args) return NULL; } if (n < 2) { - PyErr_SetString(PyExc_TypeError, - "coordinate list must contain at least 2 coordinates" - ); + PyErr_SetString( + PyExc_TypeError, "coordinate list must contain at least 2 coordinates"); free(xy); return NULL; } /* Copy list of vertices to array */ - ixy = (int*) calloc(n, 2 * sizeof(int)); + ixy = (int *)calloc(n, 2 * sizeof(int)); for (i = 0; i < n; i++) { - ixy[i+i] = (int) xy[i+i]; - ixy[i+i+1] = (int) xy[i+i+1]; + ixy[i + i] = (int)xy[i + i]; + ixy[i + i + 1] = (int)xy[i + i + 1]; } free(xy); - if (ImagingDrawPolygon(self->image->image, n, ixy, - &ink, fill, self->blend) < 0) { + if (ImagingDrawPolygon(self->image->image, n, ixy, &ink, fill, self->blend) < 0) { free(ixy); return NULL; } @@ -3196,13 +3137,12 @@ _draw_polygon(ImagingDrawObject* self, PyObject* args) return Py_None; } -static PyObject* -_draw_rectangle(ImagingDrawObject* self, PyObject* args) -{ - double* xy; +static PyObject * +_draw_rectangle(ImagingDrawObject *self, PyObject *args) { + double *xy; Py_ssize_t n; - PyObject* data; + PyObject *data; int ink; int fill = 0; int width = 0; @@ -3220,11 +3160,16 @@ _draw_rectangle(ImagingDrawObject* self, PyObject* args) return NULL; } - n = ImagingDrawRectangle(self->image->image, - (int) xy[0], (int) xy[1], - (int) xy[2], (int) xy[3], - &ink, fill, width, self->blend - ); + n = ImagingDrawRectangle( + self->image->image, + (int)xy[0], + (int)xy[1], + (int)xy[2], + (int)xy[3], + &ink, + fill, + width, + self->blend); free(xy); @@ -3258,10 +3203,8 @@ static struct PyMethodDef _draw_methods[] = { #endif - -static PyObject* -pixel_access_new(ImagingObject* imagep, PyObject* args) -{ +static PyObject * +pixel_access_new(ImagingObject *imagep, PyObject *args) { PixelAccessObject *self; int readonly = 0; @@ -3280,19 +3223,17 @@ pixel_access_new(ImagingObject* imagep, PyObject* args) self->readonly = readonly; - return (PyObject*) self; + return (PyObject *)self; } static void -pixel_access_dealloc(PixelAccessObject* self) -{ +pixel_access_dealloc(PixelAccessObject *self) { Py_XDECREF(self->image); PyObject_Del(self); } static PyObject * -pixel_access_getitem(PixelAccessObject *self, PyObject *xy) -{ +pixel_access_getitem(PixelAccessObject *self, PyObject *xy) { int x, y; if (_getxy(xy, &x, &y)) { return NULL; @@ -3302,14 +3243,13 @@ pixel_access_getitem(PixelAccessObject *self, PyObject *xy) } static int -pixel_access_setitem(PixelAccessObject *self, PyObject *xy, PyObject *color) -{ +pixel_access_setitem(PixelAccessObject *self, PyObject *xy, PyObject *color) { Imaging im = self->image->image; char ink[4]; int x, y; if (self->readonly) { - (void) ImagingError_ValueError(readonly); + (void)ImagingError_ValueError(readonly); return -1; } @@ -3329,7 +3269,7 @@ pixel_access_setitem(PixelAccessObject *self, PyObject *xy, PyObject *color) return -1; } - if (!color) {/* FIXME: raise exception? */ + if (!color) { /* FIXME: raise exception? */ return 0; } @@ -3348,29 +3288,36 @@ pixel_access_setitem(PixelAccessObject *self, PyObject *xy, PyObject *color) #ifdef WITH_EFFECTS -static PyObject* -_effect_mandelbrot(ImagingObject* self, PyObject* args) -{ +static PyObject * +_effect_mandelbrot(ImagingObject *self, PyObject *args) { int xsize = 512; int ysize = 512; double extent[4]; int quality = 100; - extent[0] = -3; extent[1] = -2.5; - extent[2] = 2; extent[3] = 2.5; + extent[0] = -3; + extent[1] = -2.5; + extent[2] = 2; + extent[3] = 2.5; - if (!PyArg_ParseTuple(args, "|(ii)(dddd)i", &xsize, &ysize, - &extent[0], &extent[1], &extent[2], &extent[3], - &quality)) { + if (!PyArg_ParseTuple( + args, + "|(ii)(dddd)i", + &xsize, + &ysize, + &extent[0], + &extent[1], + &extent[2], + &extent[3], + &quality)) { return NULL; } return PyImagingNew(ImagingEffectMandelbrot(xsize, ysize, extent, quality)); } -static PyObject* -_effect_noise(ImagingObject* self, PyObject* args) -{ +static PyObject * +_effect_noise(ImagingObject *self, PyObject *args) { int xsize, ysize; float sigma = 128; if (!PyArg_ParseTuple(args, "(ii)|f", &xsize, &ysize, &sigma)) { @@ -3380,9 +3327,8 @@ _effect_noise(ImagingObject* self, PyObject* args) return PyImagingNew(ImagingEffectNoise(xsize, ysize, sigma)); } -static PyObject* -_effect_spread(ImagingObject* self, PyObject* args) -{ +static PyObject * +_effect_spread(ImagingObject *self, PyObject *args) { int dist; if (!PyArg_ParseTuple(args, "i", &dist)) { @@ -3398,30 +3344,33 @@ _effect_spread(ImagingObject* self, PyObject* args) /* UTILITIES */ /* -------------------------------------------------------------------- */ - -static PyObject* -_getcodecstatus(PyObject* self, PyObject* args) -{ +static PyObject * +_getcodecstatus(PyObject *self, PyObject *args) { int status; - char* msg; + char *msg; if (!PyArg_ParseTuple(args, "i", &status)) { return NULL; } switch (status) { - case IMAGING_CODEC_OVERRUN: - msg = "buffer overrun"; break; - case IMAGING_CODEC_BROKEN: - msg = "broken data stream"; break; - case IMAGING_CODEC_UNKNOWN: - msg = "unrecognized data stream contents"; break; - case IMAGING_CODEC_CONFIG: - msg = "codec configuration error"; break; - case IMAGING_CODEC_MEMORY: - msg = "out of memory"; break; - default: - Py_RETURN_NONE; + case IMAGING_CODEC_OVERRUN: + msg = "buffer overrun"; + break; + case IMAGING_CODEC_BROKEN: + msg = "broken data stream"; + break; + case IMAGING_CODEC_UNKNOWN: + msg = "unrecognized data stream contents"; + break; + case IMAGING_CODEC_CONFIG: + msg = "codec configuration error"; + break; + case IMAGING_CODEC_MEMORY: + msg = "out of memory"; + break; + default: + Py_RETURN_NONE; } return PyUnicode_FromString(msg); @@ -3431,11 +3380,9 @@ _getcodecstatus(PyObject* self, PyObject* args) /* DEBUGGING HELPERS */ /* -------------------------------------------------------------------- */ - -static PyObject* -_save_ppm(ImagingObject* self, PyObject* args) -{ - char* filename; +static PyObject * +_save_ppm(ImagingObject *self, PyObject *args) { + char *filename; if (!PyArg_ParseTuple(args, "s", &filename)) { return NULL; @@ -3449,7 +3396,6 @@ _save_ppm(ImagingObject* self, PyObject* args) return Py_None; } - /* -------------------------------------------------------------------- */ /* methods */ @@ -3555,73 +3501,64 @@ static struct PyMethodDef methods[] = { {NULL, NULL} /* sentinel */ }; - /* attributes */ -static PyObject* -_getattr_mode(ImagingObject* self, void* closure) -{ +static PyObject * +_getattr_mode(ImagingObject *self, void *closure) { return PyUnicode_FromString(self->image->mode); } -static PyObject* -_getattr_size(ImagingObject* self, void* closure) -{ +static PyObject * +_getattr_size(ImagingObject *self, void *closure) { return Py_BuildValue("ii", self->image->xsize, self->image->ysize); } -static PyObject* -_getattr_bands(ImagingObject* self, void* closure) -{ +static PyObject * +_getattr_bands(ImagingObject *self, void *closure) { return PyLong_FromLong(self->image->bands); } -static PyObject* -_getattr_id(ImagingObject* self, void* closure) -{ - return PyLong_FromSsize_t((Py_ssize_t) self->image); +static PyObject * +_getattr_id(ImagingObject *self, void *closure) { + return PyLong_FromSsize_t((Py_ssize_t)self->image); } -static PyObject* -_getattr_ptr(ImagingObject* self, void* closure) -{ +static PyObject * +_getattr_ptr(ImagingObject *self, void *closure) { return PyCapsule_New(self->image, IMAGING_MAGIC, NULL); } -static PyObject* -_getattr_unsafe_ptrs(ImagingObject* self, void* closure) -{ - return Py_BuildValue("(sn)(sn)(sn)", - "image8", self->image->image8, - "image32", self->image->image32, - "image", self->image->image - ); +static PyObject * +_getattr_unsafe_ptrs(ImagingObject *self, void *closure) { + return Py_BuildValue( + "(sn)(sn)(sn)", + "image8", + self->image->image8, + "image32", + self->image->image32, + "image", + self->image->image); }; - -static struct PyGetSetDef getsetters[] = { - { "mode", (getter) _getattr_mode }, - { "size", (getter) _getattr_size }, - { "bands", (getter) _getattr_bands }, - { "id", (getter) _getattr_id }, - { "ptr", (getter) _getattr_ptr }, - { "unsafe_ptrs", (getter) _getattr_unsafe_ptrs }, - { NULL } -}; +static struct PyGetSetDef getsetters[] = {{"mode", (getter)_getattr_mode}, + {"size", (getter)_getattr_size}, + {"bands", (getter)_getattr_bands}, + {"id", (getter)_getattr_id}, + {"ptr", (getter)_getattr_ptr}, + {"unsafe_ptrs", (getter)_getattr_unsafe_ptrs}, + {NULL}}; /* basic sequence semantics */ static Py_ssize_t -image_length(ImagingObject *self) -{ +image_length(ImagingObject *self) { Imaging im = self->image; - return (Py_ssize_t) im->xsize * im->ysize; + return (Py_ssize_t)im->xsize * im->ysize; } static PyObject * -image_item(ImagingObject *self, Py_ssize_t i) -{ +image_item(ImagingObject *self, Py_ssize_t i) { int x, y; Imaging im = self->image; @@ -3636,154 +3573,150 @@ image_item(ImagingObject *self, Py_ssize_t i) } static PySequenceMethods image_as_sequence = { - (lenfunc) image_length, /*sq_length*/ - (binaryfunc) NULL, /*sq_concat*/ - (ssizeargfunc) NULL, /*sq_repeat*/ - (ssizeargfunc) image_item, /*sq_item*/ - (ssizessizeargfunc) NULL, /*sq_slice*/ - (ssizeobjargproc) NULL, /*sq_ass_item*/ - (ssizessizeobjargproc) NULL, /*sq_ass_slice*/ + (lenfunc)image_length, /*sq_length*/ + (binaryfunc)NULL, /*sq_concat*/ + (ssizeargfunc)NULL, /*sq_repeat*/ + (ssizeargfunc)image_item, /*sq_item*/ + (ssizessizeargfunc)NULL, /*sq_slice*/ + (ssizeobjargproc)NULL, /*sq_ass_item*/ + (ssizessizeobjargproc)NULL, /*sq_ass_slice*/ }; - /* type description */ static PyTypeObject Imaging_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingCore", /*tp_name*/ - sizeof(ImagingObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingCore", /*tp_name*/ + sizeof(ImagingObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - &image_as_sequence, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - getsetters, /*tp_getset*/ + (destructor)_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + &image_as_sequence, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + getsetters, /*tp_getset*/ }; #ifdef WITH_IMAGEDRAW static PyTypeObject ImagingFont_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingFont", /*tp_name*/ - sizeof(ImagingFontObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingFont", /*tp_name*/ + sizeof(ImagingFontObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_font_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - _font_methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + (destructor)_font_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + _font_methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; static PyTypeObject ImagingDraw_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingDraw", /*tp_name*/ - sizeof(ImagingDrawObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingDraw", /*tp_name*/ + sizeof(ImagingDrawObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_draw_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - _draw_methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + (destructor)_draw_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + _draw_methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; #endif static PyMappingMethods pixel_access_as_mapping = { - (lenfunc) NULL, /*mp_length*/ - (binaryfunc) pixel_access_getitem, /*mp_subscript*/ - (objobjargproc) pixel_access_setitem, /*mp_ass_subscript*/ + (lenfunc)NULL, /*mp_length*/ + (binaryfunc)pixel_access_getitem, /*mp_subscript*/ + (objobjargproc)pixel_access_setitem, /*mp_ass_subscript*/ }; /* type description */ static PyTypeObject PixelAccess_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "PixelAccess", sizeof(PixelAccessObject), 0, + PyVarObject_HEAD_INIT(NULL, 0) "PixelAccess", + sizeof(PixelAccessObject), + 0, /* methods */ (destructor)pixel_access_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - &pixel_access_as_mapping, /*tp_as_mapping */ - 0 /*tp_hash*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + &pixel_access_as_mapping, /*tp_as_mapping */ + 0 /*tp_hash*/ }; /* -------------------------------------------------------------------- */ -static PyObject* -_get_stats(PyObject* self, PyObject* args) -{ - PyObject* d; +static PyObject * +_get_stats(PyObject *self, PyObject *args) { + PyObject *d; ImagingMemoryArena arena = &ImagingDefaultArena; if (!PyArg_ParseTuple(args, ":get_stats")) { @@ -3791,27 +3724,23 @@ _get_stats(PyObject* self, PyObject* args) } d = PyDict_New(); - if ( ! d) { - return NULL; - } - PyDict_SetItemString(d, "new_count", - PyLong_FromLong(arena->stats_new_count)); - PyDict_SetItemString(d, "allocated_blocks", - PyLong_FromLong(arena->stats_allocated_blocks)); - PyDict_SetItemString(d, "reused_blocks", - PyLong_FromLong(arena->stats_reused_blocks)); - PyDict_SetItemString(d, "reallocated_blocks", - PyLong_FromLong(arena->stats_reallocated_blocks)); - PyDict_SetItemString(d, "freed_blocks", - PyLong_FromLong(arena->stats_freed_blocks)); - PyDict_SetItemString(d, "blocks_cached", - PyLong_FromLong(arena->blocks_cached)); + if (!d) { + return NULL; + } + PyDict_SetItemString(d, "new_count", PyLong_FromLong(arena->stats_new_count)); + PyDict_SetItemString( + d, "allocated_blocks", PyLong_FromLong(arena->stats_allocated_blocks)); + PyDict_SetItemString( + d, "reused_blocks", PyLong_FromLong(arena->stats_reused_blocks)); + PyDict_SetItemString( + d, "reallocated_blocks", PyLong_FromLong(arena->stats_reallocated_blocks)); + PyDict_SetItemString(d, "freed_blocks", PyLong_FromLong(arena->stats_freed_blocks)); + PyDict_SetItemString(d, "blocks_cached", PyLong_FromLong(arena->blocks_cached)); return d; } -static PyObject* -_reset_stats(PyObject* self, PyObject* args) -{ +static PyObject * +_reset_stats(PyObject *self, PyObject *args) { ImagingMemoryArena arena = &ImagingDefaultArena; if (!PyArg_ParseTuple(args, ":reset_stats")) { @@ -3828,9 +3757,8 @@ _reset_stats(PyObject* self, PyObject* args) return Py_None; } -static PyObject* -_get_alignment(PyObject* self, PyObject* args) -{ +static PyObject * +_get_alignment(PyObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, ":get_alignment")) { return NULL; } @@ -3838,9 +3766,8 @@ _get_alignment(PyObject* self, PyObject* args) return PyLong_FromLong(ImagingDefaultArena.alignment); } -static PyObject* -_get_block_size(PyObject* self, PyObject* args) -{ +static PyObject * +_get_block_size(PyObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, ":get_block_size")) { return NULL; } @@ -3848,9 +3775,8 @@ _get_block_size(PyObject* self, PyObject* args) return PyLong_FromLong(ImagingDefaultArena.block_size); } -static PyObject* -_get_blocks_max(PyObject* self, PyObject* args) -{ +static PyObject * +_get_blocks_max(PyObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, ":get_blocks_max")) { return NULL; } @@ -3858,9 +3784,8 @@ _get_blocks_max(PyObject* self, PyObject* args) return PyLong_FromLong(ImagingDefaultArena.blocks_max); } -static PyObject* -_set_alignment(PyObject* self, PyObject* args) -{ +static PyObject * +_set_alignment(PyObject *self, PyObject *args) { int alignment; if (!PyArg_ParseTuple(args, "i:set_alignment", &alignment)) { return NULL; @@ -3882,23 +3807,20 @@ _set_alignment(PyObject* self, PyObject* args) return Py_None; } -static PyObject* -_set_block_size(PyObject* self, PyObject* args) -{ +static PyObject * +_set_block_size(PyObject *self, PyObject *args) { int block_size; if (!PyArg_ParseTuple(args, "i:set_block_size", &block_size)) { return NULL; } if (block_size <= 0) { - PyErr_SetString(PyExc_ValueError, - "block_size should be greater than 0"); + PyErr_SetString(PyExc_ValueError, "block_size should be greater than 0"); return NULL; } if (block_size & 0xfff) { - PyErr_SetString(PyExc_ValueError, - "block_size should be multiple of 4096"); + PyErr_SetString(PyExc_ValueError, "block_size should be multiple of 4096"); return NULL; } @@ -3908,27 +3830,22 @@ _set_block_size(PyObject* self, PyObject* args) return Py_None; } -static PyObject* -_set_blocks_max(PyObject* self, PyObject* args) -{ +static PyObject * +_set_blocks_max(PyObject *self, PyObject *args) { int blocks_max; if (!PyArg_ParseTuple(args, "i:set_blocks_max", &blocks_max)) { return NULL; } if (blocks_max < 0) { - PyErr_SetString(PyExc_ValueError, - "blocks_max should be greater than 0"); + PyErr_SetString(PyExc_ValueError, "blocks_max should be greater than 0"); return NULL; - } - else if ( blocks_max > SIZE_MAX/sizeof(ImagingDefaultArena.blocks_pool[0])) { - PyErr_SetString(PyExc_ValueError, - "blocks_max is too large"); + } else if (blocks_max > SIZE_MAX / sizeof(ImagingDefaultArena.blocks_pool[0])) { + PyErr_SetString(PyExc_ValueError, "blocks_max is too large"); return NULL; } - - if ( ! ImagingMemorySetBlocksMax(&ImagingDefaultArena, blocks_max)) { + if (!ImagingMemorySetBlocksMax(&ImagingDefaultArena, blocks_max)) { ImagingError_MemoryError(); return NULL; } @@ -3937,9 +3854,8 @@ _set_blocks_max(PyObject* self, PyObject* args) return Py_None; } -static PyObject* -_clear_cache(PyObject* self, PyObject* args) -{ +static PyObject * +_clear_cache(PyObject *self, PyObject *args) { int i = 0; if (!PyArg_ParseTuple(args, "|i:clear_cache", &i)) { @@ -3958,59 +3874,99 @@ _clear_cache(PyObject* self, PyObject* args) pluggable codecs, but not before PIL 1.2 */ /* Decoders (in decode.c) */ -extern PyObject* PyImaging_BcnDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_BitDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_FliDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_GifDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_HexDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_JpegDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_Jpeg2KDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_LibTiffDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_PackbitsDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_PcdDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_PcxDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_RawDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_SgiRleDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_SunRleDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_TgaRleDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_XbmDecoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_ZipDecoderNew(PyObject* self, PyObject* args); +extern PyObject * +PyImaging_BcnDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_BitDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_FliDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_GifDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_HexDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_JpegDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_Jpeg2KDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_LibTiffDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_PackbitsDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_PcdDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_PcxDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_RawDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_SgiRleDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_SunRleDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_TgaRleDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_XbmDecoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_ZipDecoderNew(PyObject *self, PyObject *args); /* Encoders (in encode.c) */ -extern PyObject* PyImaging_EpsEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_GifEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_JpegEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_Jpeg2KEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_PcxEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_RawEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_TgaRleEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_XbmEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_ZipEncoderNew(PyObject* self, PyObject* args); -extern PyObject* PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args); +extern PyObject * +PyImaging_EpsEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_GifEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_JpegEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_Jpeg2KEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_PcxEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_RawEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_TgaRleEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_XbmEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_ZipEncoderNew(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_LibTiffEncoderNew(PyObject *self, PyObject *args); /* Display support etc (in display.c) */ #ifdef _WIN32 -extern PyObject* PyImaging_CreateWindowWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_DisplayWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_DisplayModeWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_GrabScreenWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_GrabClipboardWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_ListWindowsWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_EventLoopWin32(PyObject* self, PyObject* args); -extern PyObject* PyImaging_DrawWmf(PyObject* self, PyObject* args); +extern PyObject * +PyImaging_CreateWindowWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_DisplayWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_DisplayModeWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_GrabScreenWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_GrabClipboardWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_ListWindowsWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_EventLoopWin32(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_DrawWmf(PyObject *self, PyObject *args); #endif #ifdef HAVE_XCB -extern PyObject* PyImaging_GrabScreenX11(PyObject* self, PyObject* args); +extern PyObject * +PyImaging_GrabScreenX11(PyObject *self, PyObject *args); #endif /* Experimental path stuff (in path.c) */ -extern PyObject* PyPath_Create(ImagingObject* self, PyObject* args); +extern PyObject * +PyPath_Create(ImagingObject *self, PyObject *args); /* Experimental outline stuff (in outline.c) */ -extern PyObject* PyOutline_Create(ImagingObject* self, PyObject* args); +extern PyObject * +PyOutline_Create(ImagingObject *self, PyObject *args); -extern PyObject* PyImaging_Mapper(PyObject* self, PyObject* args); -extern PyObject* PyImaging_MapBuffer(PyObject* self, PyObject* args); +extern PyObject * +PyImaging_Mapper(PyObject *self, PyObject *args); +extern PyObject * +PyImaging_MapBuffer(PyObject *self, PyObject *args); static PyMethodDef functions[] = { @@ -4062,7 +4018,7 @@ static PyMethodDef functions[] = { {"zip_encoder", (PyCFunction)PyImaging_ZipEncoderNew, 1}, #endif - /* Memory mapping */ +/* Memory mapping */ #ifdef WITH_MAPPING #ifdef _WIN32 {"map", (PyCFunction)PyImaging_Mapper, 1}, @@ -4070,7 +4026,7 @@ static PyMethodDef functions[] = { {"map_buffer", (PyCFunction)PyImaging_MapBuffer, 1}, #endif - /* Display support */ +/* Display support */ #ifdef _WIN32 {"display", (PyCFunction)PyImaging_DisplayWin32, 1}, {"display_mode", (PyCFunction)PyImaging_DisplayModeWin32, 1}, @@ -4088,7 +4044,7 @@ static PyMethodDef functions[] = { /* Utilities */ {"getcodecstatus", (PyCFunction)_getcodecstatus, 1}, - /* Special effects (experimental) */ +/* Special effects (experimental) */ #ifdef WITH_EFFECTS {"effect_mandelbrot", (PyCFunction)_effect_mandelbrot, 1}, {"effect_noise", (PyCFunction)_effect_noise, 1}, @@ -4097,18 +4053,18 @@ static PyMethodDef functions[] = { {"wedge", (PyCFunction)_linear_gradient, 1}, /* Compatibility */ #endif - /* Drawing support stuff */ +/* Drawing support stuff */ #ifdef WITH_IMAGEDRAW {"font", (PyCFunction)_font_new, 1}, {"draw", (PyCFunction)_draw_new, 1}, #endif - /* Experimental path stuff */ +/* Experimental path stuff */ #ifdef WITH_IMAGEPATH {"path", (PyCFunction)PyPath_Create, 1}, #endif - /* Experimental arrow graphics stuff */ +/* Experimental arrow graphics stuff */ #ifdef WITH_ARROW {"outline", (PyCFunction)PyOutline_Create, 1}, #endif @@ -4128,9 +4084,9 @@ static PyMethodDef functions[] = { }; static int -setup_module(PyObject* m) { - PyObject* d = PyModule_GetDict(m); - const char* version = (char*)PILLOW_VERSION; +setup_module(PyObject *m) { + PyObject *d = PyModule_GetDict(m); + const char *version = (char *)PILLOW_VERSION; /* Ready object types */ if (PyType_Ready(&Imaging_Type) < 0) { @@ -4153,26 +4109,29 @@ setup_module(PyObject* m) { ImagingAccessInit(); #ifdef HAVE_LIBJPEG - { - extern const char* ImagingJpegVersion(void); - PyDict_SetItemString(d, "jpeglib_version", PyUnicode_FromString(ImagingJpegVersion())); - } + { + extern const char *ImagingJpegVersion(void); + PyDict_SetItemString( + d, "jpeglib_version", PyUnicode_FromString(ImagingJpegVersion())); + } #endif #ifdef HAVE_OPENJPEG - { - extern const char *ImagingJpeg2KVersion(void); - PyDict_SetItemString(d, "jp2klib_version", PyUnicode_FromString(ImagingJpeg2KVersion())); - } + { + extern const char *ImagingJpeg2KVersion(void); + PyDict_SetItemString( + d, "jp2klib_version", PyUnicode_FromString(ImagingJpeg2KVersion())); + } #endif #ifdef LIBJPEG_TURBO_VERSION PyModule_AddObject(m, "HAVE_LIBJPEGTURBO", Py_True); - #define tostr1(a) #a - #define tostr(a) tostr1(a) - PyDict_SetItemString(d, "libjpeg_turbo_version", PyUnicode_FromString(tostr(LIBJPEG_TURBO_VERSION))); - #undef tostr - #undef tostr1 +#define tostr1(a) #a +#define tostr(a) tostr1(a) + PyDict_SetItemString( + d, "libjpeg_turbo_version", PyUnicode_FromString(tostr(LIBJPEG_TURBO_VERSION))); +#undef tostr +#undef tostr1 #else PyModule_AddObject(m, "HAVE_LIBJPEGTURBO", Py_False); #endif @@ -4180,40 +4139,44 @@ setup_module(PyObject* m) { #ifdef HAVE_LIBIMAGEQUANT PyModule_AddObject(m, "HAVE_LIBIMAGEQUANT", Py_True); { - extern const char* ImagingImageQuantVersion(void); - PyDict_SetItemString(d, "imagequant_version", PyUnicode_FromString(ImagingImageQuantVersion())); + extern const char *ImagingImageQuantVersion(void); + PyDict_SetItemString( + d, "imagequant_version", PyUnicode_FromString(ImagingImageQuantVersion())); } #else PyModule_AddObject(m, "HAVE_LIBIMAGEQUANT", Py_False); #endif #ifdef HAVE_LIBZ - /* zip encoding strategies */ - PyModule_AddIntConstant(m, "DEFAULT_STRATEGY", Z_DEFAULT_STRATEGY); - PyModule_AddIntConstant(m, "FILTERED", Z_FILTERED); - PyModule_AddIntConstant(m, "HUFFMAN_ONLY", Z_HUFFMAN_ONLY); - PyModule_AddIntConstant(m, "RLE", Z_RLE); - PyModule_AddIntConstant(m, "FIXED", Z_FIXED); - { - extern const char* ImagingZipVersion(void); - PyDict_SetItemString(d, "zlib_version", PyUnicode_FromString(ImagingZipVersion())); - } + /* zip encoding strategies */ + PyModule_AddIntConstant(m, "DEFAULT_STRATEGY", Z_DEFAULT_STRATEGY); + PyModule_AddIntConstant(m, "FILTERED", Z_FILTERED); + PyModule_AddIntConstant(m, "HUFFMAN_ONLY", Z_HUFFMAN_ONLY); + PyModule_AddIntConstant(m, "RLE", Z_RLE); + PyModule_AddIntConstant(m, "FIXED", Z_FIXED); + { + extern const char *ImagingZipVersion(void); + PyDict_SetItemString( + d, "zlib_version", PyUnicode_FromString(ImagingZipVersion())); + } #endif #ifdef HAVE_LIBTIFF - { - extern const char * ImagingTiffVersion(void); - PyDict_SetItemString(d, "libtiff_version", PyUnicode_FromString(ImagingTiffVersion())); - - // Test for libtiff 4.0 or later, excluding libtiff 3.9.6 and 3.9.7 - PyObject* support_custom_tags; -#if TIFFLIB_VERSION >= 20111221 && TIFFLIB_VERSION != 20120218 && TIFFLIB_VERSION != 20120922 - support_custom_tags = Py_True; + { + extern const char *ImagingTiffVersion(void); + PyDict_SetItemString( + d, "libtiff_version", PyUnicode_FromString(ImagingTiffVersion())); + + // Test for libtiff 4.0 or later, excluding libtiff 3.9.6 and 3.9.7 + PyObject *support_custom_tags; +#if TIFFLIB_VERSION >= 20111221 && TIFFLIB_VERSION != 20120218 && \ + TIFFLIB_VERSION != 20120922 + support_custom_tags = Py_True; #else - support_custom_tags = Py_False; + support_custom_tags = Py_False; #endif - PyDict_SetItemString(d, "libtiff_support_custom_tags", support_custom_tags); - } + PyDict_SetItemString(d, "libtiff_support_custom_tags", support_custom_tags); + } #endif #ifdef HAVE_XCB @@ -4229,14 +4192,14 @@ setup_module(PyObject* m) { PyMODINIT_FUNC PyInit__imaging(void) { - PyObject* m; + PyObject *m; static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_imaging", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - functions, /* m_methods */ + "_imaging", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + functions, /* m_methods */ }; m = PyModule_Create(&module_def); diff --git a/src/_imagingcms.c b/src/_imagingcms.c index cba41ec90c4..884d220845c 100644 --- a/src/_imagingcms.c +++ b/src/_imagingcms.c @@ -17,7 +17,8 @@ * March 2009, for distribution under the standard PIL license */ -#define COPYRIGHTINFO "\ +#define COPYRIGHTINFO \ + "\ pyCMS\n\ a Python / PIL interface to the littleCMS ICC Color Management System\n\ Copyright (C) 2002-2003 Kevin Cazabon\n\ @@ -26,7 +27,7 @@ kevin@cazabon.com\n\ " #define PY_SSIZE_T_CLEAN -#include "Python.h" // Include before wchar.h so _GNU_SOURCE is set +#include "Python.h" // Include before wchar.h so _GNU_SOURCE is set #include "wchar.h" #include "datetime.h" @@ -41,10 +42,11 @@ kevin@cazabon.com\n\ 1.0.0 pil Integrating littleCMS2 0.1.0 pil integration & refactoring 0.0.2 alpha: Minor updates, added interfaces to littleCMS features, Jan 6, 2003 - - fixed some memory holes in how transforms/profiles were created and passed back to Python - due to improper destructor setup for PyCObjects + - fixed some memory holes in how transforms/profiles were created and passed back to + Python due to improper destructor setup for PyCObjects - added buildProofTransformFromOpenProfiles() function - - eliminated some code redundancy, centralizing several common tasks with internal functions + - eliminated some code redundancy, centralizing several common tasks with internal + functions 0.0.1 alpha: First public release Dec 26, 2002 @@ -74,18 +76,16 @@ kevin@cazabon.com\n\ /* a profile represents the ICC characteristics for a specific device */ typedef struct { - PyObject_HEAD - cmsHPROFILE profile; + PyObject_HEAD cmsHPROFILE profile; } CmsProfileObject; static PyTypeObject CmsProfile_Type; #define CmsProfile_Check(op) (Py_TYPE(op) == &CmsProfile_Type) -static PyObject* -cms_profile_new(cmsHPROFILE profile) -{ - CmsProfileObject* self; +static PyObject * +cms_profile_new(cmsHPROFILE profile) { + CmsProfileObject *self; self = PyObject_New(CmsProfileObject, &CmsProfile_Type); if (!self) { @@ -94,15 +94,14 @@ cms_profile_new(cmsHPROFILE profile) self->profile = profile; - return (PyObject*) self; + return (PyObject *)self; } -static PyObject* -cms_profile_open(PyObject* self, PyObject* args) -{ +static PyObject * +cms_profile_open(PyObject *self, PyObject *args) { cmsHPROFILE hProfile; - char* sProfile; + char *sProfile; if (!PyArg_ParseTuple(args, "s:profile_open", &sProfile)) { return NULL; } @@ -116,12 +115,11 @@ cms_profile_open(PyObject* self, PyObject* args) return cms_profile_new(hProfile); } -static PyObject* -cms_profile_fromstring(PyObject* self, PyObject* args) -{ +static PyObject * +cms_profile_fromstring(PyObject *self, PyObject *args) { cmsHPROFILE hProfile; - char* pProfile; + char *pProfile; Py_ssize_t nProfile; if (!PyArg_ParseTuple(args, "y#:profile_frombytes", &pProfile, &nProfile)) { return NULL; @@ -136,28 +134,27 @@ cms_profile_fromstring(PyObject* self, PyObject* args) return cms_profile_new(hProfile); } -static PyObject* -cms_profile_tobytes(PyObject* self, PyObject* args) -{ - char *pProfile =NULL; +static PyObject * +cms_profile_tobytes(PyObject *self, PyObject *args) { + char *pProfile = NULL; cmsUInt32Number nProfile; - PyObject* CmsProfile; + PyObject *CmsProfile; cmsHPROFILE *profile; - PyObject* ret; - if (!PyArg_ParseTuple(args, "O", &CmsProfile)){ + PyObject *ret; + if (!PyArg_ParseTuple(args, "O", &CmsProfile)) { return NULL; } - profile = ((CmsProfileObject*)CmsProfile)->profile; + profile = ((CmsProfileObject *)CmsProfile)->profile; if (!cmsSaveProfileToMem(profile, pProfile, &nProfile)) { PyErr_SetString(PyExc_OSError, "Could not determine profile size"); return NULL; } - pProfile = (char*)malloc(nProfile); + pProfile = (char *)malloc(nProfile); if (!pProfile) { PyErr_SetString(PyExc_OSError, "Out of Memory"); return NULL; @@ -176,17 +173,15 @@ cms_profile_tobytes(PyObject* self, PyObject* args) } static void -cms_profile_dealloc(CmsProfileObject* self) -{ - (void) cmsCloseProfile(self->profile); +cms_profile_dealloc(CmsProfileObject *self) { + (void)cmsCloseProfile(self->profile); PyObject_Del(self); } /* a transform represents the mapping between two profiles */ typedef struct { - PyObject_HEAD - char mode_in[8]; + PyObject_HEAD char mode_in[8]; char mode_out[8]; cmsHTRANSFORM transform; } CmsTransformObject; @@ -195,10 +190,9 @@ static PyTypeObject CmsTransform_Type; #define CmsTransform_Check(op) (Py_TYPE(op) == &CmsTransform_Type) -static PyObject* -cms_transform_new(cmsHTRANSFORM transform, char* mode_in, char* mode_out) -{ - CmsTransformObject* self; +static PyObject * +cms_transform_new(cmsHTRANSFORM transform, char *mode_in, char *mode_out) { + CmsTransformObject *self; self = PyObject_New(CmsTransformObject, &CmsTransform_Type); if (!self) { @@ -210,12 +204,11 @@ cms_transform_new(cmsHTRANSFORM transform, char* mode_in, char* mode_out) strcpy(self->mode_in, mode_in); strcpy(self->mode_out, mode_out); - return (PyObject*) self; + return (PyObject *)self; } static void -cms_transform_dealloc(CmsTransformObject* self) -{ +cms_transform_dealloc(CmsTransformObject *self) { cmsDeleteTransform(self->transform); PyObject_Del(self); } @@ -224,41 +217,30 @@ cms_transform_dealloc(CmsTransformObject* self) /* internal functions */ static cmsUInt32Number -findLCMStype(char* PILmode) -{ +findLCMStype(char *PILmode) { if (strcmp(PILmode, "RGB") == 0) { return TYPE_RGBA_8; - } - else if (strcmp(PILmode, "RGBA") == 0) { + } else if (strcmp(PILmode, "RGBA") == 0) { return TYPE_RGBA_8; - } - else if (strcmp(PILmode, "RGBX") == 0) { + } else if (strcmp(PILmode, "RGBX") == 0) { return TYPE_RGBA_8; - } - else if (strcmp(PILmode, "RGBA;16B") == 0) { + } else if (strcmp(PILmode, "RGBA;16B") == 0) { return TYPE_RGBA_16; - } - else if (strcmp(PILmode, "CMYK") == 0) { + } else if (strcmp(PILmode, "CMYK") == 0) { return TYPE_CMYK_8; - } - else if (strcmp(PILmode, "L") == 0) { + } else if (strcmp(PILmode, "L") == 0) { return TYPE_GRAY_8; - } - else if (strcmp(PILmode, "L;16") == 0) { + } else if (strcmp(PILmode, "L;16") == 0) { return TYPE_GRAY_16; - } - else if (strcmp(PILmode, "L;16B") == 0) { + } else if (strcmp(PILmode, "L;16B") == 0) { return TYPE_GRAY_16_SE; - } - else if (strcmp(PILmode, "YCCA") == 0) { + } else if (strcmp(PILmode, "YCCA") == 0) { return TYPE_YCbCr_8; - } - else if (strcmp(PILmode, "YCC") == 0) { + } else if (strcmp(PILmode, "YCC") == 0) { return TYPE_YCbCr_8; - } - else if (strcmp(PILmode, "LAB") == 0) { + } else if (strcmp(PILmode, "LAB") == 0) { // LabX equivalent like ALab, but not reversed -- no #define in lcms2 - return (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)); + return (COLORSPACE_SH(PT_LabV2) | CHANNELS_SH(3) | BYTES_SH(1) | EXTRA_SH(1)); } else { @@ -270,8 +252,7 @@ findLCMStype(char* PILmode) #define Cms_Min(a, b) ((a) < (b) ? (a) : (b)) static int -pyCMSgetAuxChannelChannel (cmsUInt32Number format, int auxChannelNdx) -{ +pyCMSgetAuxChannelChannel(cmsUInt32Number format, int auxChannelNdx) { int numColors = T_CHANNELS(format); int numExtras = T_EXTRA(format); @@ -282,28 +263,24 @@ pyCMSgetAuxChannelChannel (cmsUInt32Number format, int auxChannelNdx) } else { return numExtras - 2 - auxChannelNdx; } - } - else if (T_SWAPFIRST(format)) { + } else if (T_SWAPFIRST(format)) { // in order, after color channels, but last extra is shifted to first if (auxChannelNdx == numExtras - 1) { return 0; } else { return numColors + 1 + auxChannelNdx; } - } - else if (T_DOSWAP(format)) { + } else if (T_DOSWAP(format)) { // reverse order, before anything return numExtras - 1 - auxChannelNdx; - } - else { + } else { // in order, after color channels return numColors + auxChannelNdx; } } static void -pyCMScopyAux (cmsHTRANSFORM hTransform, Imaging imDst, const Imaging imSrc) -{ +pyCMScopyAux(cmsHTRANSFORM hTransform, Imaging imDst, const Imaging imSrc) { cmsUInt32Number dstLCMSFormat; cmsUInt32Number srcLCMSFormat; int numSrcExtras; @@ -331,11 +308,11 @@ pyCMScopyAux (cmsHTRANSFORM hTransform, Imaging imDst, const Imaging imSrc) // copy only if channel format is identical, except OPTIMIZED is ignored as it // does not affect the aux channel - if (T_FLOAT(dstLCMSFormat) != T_FLOAT(srcLCMSFormat) - || T_FLAVOR(dstLCMSFormat) != T_FLAVOR(srcLCMSFormat) - || T_ENDIAN16(dstLCMSFormat) != T_ENDIAN16(srcLCMSFormat) - || T_BYTES(dstLCMSFormat) != T_BYTES(srcLCMSFormat)) { - return; + if (T_FLOAT(dstLCMSFormat) != T_FLOAT(srcLCMSFormat) || + T_FLAVOR(dstLCMSFormat) != T_FLAVOR(srcLCMSFormat) || + T_ENDIAN16(dstLCMSFormat) != T_ENDIAN16(srcLCMSFormat) || + T_BYTES(dstLCMSFormat) != T_BYTES(srcLCMSFormat)) { + return; } numSrcExtras = T_EXTRA(srcLCMSFormat); @@ -354,19 +331,21 @@ pyCMScopyAux (cmsHTRANSFORM hTransform, Imaging imDst, const Imaging imSrc) for (y = 0; y < ySize; y++) { int x; - char* pDstExtras = imDst->image[y] + dstChannel * channelSize; - const char* pSrcExtras = imSrc->image[y] + srcChannel * channelSize; + char *pDstExtras = imDst->image[y] + dstChannel * channelSize; + const char *pSrcExtras = imSrc->image[y] + srcChannel * channelSize; for (x = 0; x < xSize; x++) { - memcpy(pDstExtras + x * dstChunkSize, pSrcExtras + x * srcChunkSize, channelSize); + memcpy( + pDstExtras + x * dstChunkSize, + pSrcExtras + x * srcChunkSize, + channelSize); } } } } static int -pyCMSdoTransform(Imaging im, Imaging imOut, cmsHTRANSFORM hTransform) -{ +pyCMSdoTransform(Imaging im, Imaging imOut, cmsHTRANSFORM hTransform) { int i; if (im->xsize > imOut->xsize || im->ysize > imOut->ysize) { @@ -375,8 +354,8 @@ pyCMSdoTransform(Imaging im, Imaging imOut, cmsHTRANSFORM hTransform) Py_BEGIN_ALLOW_THREADS - // transform color channels only - for (i = 0; i < im->ysize; i++) { + // transform color channels only + for (i = 0; i < im->ysize; i++) { cmsDoTransform(hTransform, im->image[i], imOut->image[i], im->xsize); } @@ -391,26 +370,33 @@ pyCMSdoTransform(Imaging im, Imaging imOut, cmsHTRANSFORM hTransform) Py_END_ALLOW_THREADS - return 0; + return 0; } static cmsHTRANSFORM -_buildTransform(cmsHPROFILE hInputProfile, cmsHPROFILE hOutputProfile, char *sInMode, char *sOutMode, int iRenderingIntent, cmsUInt32Number cmsFLAGS) -{ +_buildTransform( + cmsHPROFILE hInputProfile, + cmsHPROFILE hOutputProfile, + char *sInMode, + char *sOutMode, + int iRenderingIntent, + cmsUInt32Number cmsFLAGS) { cmsHTRANSFORM hTransform; Py_BEGIN_ALLOW_THREADS - /* create the transform */ - hTransform = cmsCreateTransform(hInputProfile, - findLCMStype(sInMode), - hOutputProfile, - findLCMStype(sOutMode), - iRenderingIntent, cmsFLAGS); + /* create the transform */ + hTransform = cmsCreateTransform( + hInputProfile, + findLCMStype(sInMode), + hOutputProfile, + findLCMStype(sOutMode), + iRenderingIntent, + cmsFLAGS); Py_END_ALLOW_THREADS - if (!hTransform) { + if (!hTransform) { PyErr_SetString(PyExc_ValueError, "cannot build transform"); } @@ -418,25 +404,33 @@ _buildTransform(cmsHPROFILE hInputProfile, cmsHPROFILE hOutputProfile, char *sIn } static cmsHTRANSFORM -_buildProofTransform(cmsHPROFILE hInputProfile, cmsHPROFILE hOutputProfile, cmsHPROFILE hProofProfile, char *sInMode, char *sOutMode, int iRenderingIntent, int iProofIntent, cmsUInt32Number cmsFLAGS) -{ +_buildProofTransform( + cmsHPROFILE hInputProfile, + cmsHPROFILE hOutputProfile, + cmsHPROFILE hProofProfile, + char *sInMode, + char *sOutMode, + int iRenderingIntent, + int iProofIntent, + cmsUInt32Number cmsFLAGS) { cmsHTRANSFORM hTransform; Py_BEGIN_ALLOW_THREADS - /* create the transform */ - hTransform = cmsCreateProofingTransform(hInputProfile, - findLCMStype(sInMode), - hOutputProfile, - findLCMStype(sOutMode), - hProofProfile, - iRenderingIntent, - iProofIntent, - cmsFLAGS); + /* create the transform */ + hTransform = cmsCreateProofingTransform( + hInputProfile, + findLCMStype(sInMode), + hOutputProfile, + findLCMStype(sOutMode), + hProofProfile, + iRenderingIntent, + iProofIntent, + cmsFLAGS); Py_END_ALLOW_THREADS - if (!hTransform) { + if (!hTransform) { PyErr_SetString(PyExc_ValueError, "cannot build proof transform"); } @@ -457,11 +451,27 @@ buildTransform(PyObject *self, PyObject *args) { cmsHTRANSFORM transform = NULL; - if (!PyArg_ParseTuple(args, "O!O!ss|ii:buildTransform", &CmsProfile_Type, &pInputProfile, &CmsProfile_Type, &pOutputProfile, &sInMode, &sOutMode, &iRenderingIntent, &cmsFLAGS)) { + if (!PyArg_ParseTuple( + args, + "O!O!ss|ii:buildTransform", + &CmsProfile_Type, + &pInputProfile, + &CmsProfile_Type, + &pOutputProfile, + &sInMode, + &sOutMode, + &iRenderingIntent, + &cmsFLAGS)) { return NULL; } - transform = _buildTransform(pInputProfile->profile, pOutputProfile->profile, sInMode, sOutMode, iRenderingIntent, cmsFLAGS); + transform = _buildTransform( + pInputProfile->profile, + pOutputProfile->profile, + sInMode, + sOutMode, + iRenderingIntent, + cmsFLAGS); if (!transform) { return NULL; @@ -471,8 +481,7 @@ buildTransform(PyObject *self, PyObject *args) { } static PyObject * -buildProofTransform(PyObject *self, PyObject *args) -{ +buildProofTransform(PyObject *self, PyObject *args) { CmsProfileObject *pInputProfile; CmsProfileObject *pOutputProfile; CmsProfileObject *pProofProfile; @@ -484,23 +493,42 @@ buildProofTransform(PyObject *self, PyObject *args) cmsHTRANSFORM transform = NULL; - if (!PyArg_ParseTuple(args, "O!O!O!ss|iii:buildProofTransform", &CmsProfile_Type, &pInputProfile, &CmsProfile_Type, &pOutputProfile, &CmsProfile_Type, &pProofProfile, &sInMode, &sOutMode, &iRenderingIntent, &iProofIntent, &cmsFLAGS)) { + if (!PyArg_ParseTuple( + args, + "O!O!O!ss|iii:buildProofTransform", + &CmsProfile_Type, + &pInputProfile, + &CmsProfile_Type, + &pOutputProfile, + &CmsProfile_Type, + &pProofProfile, + &sInMode, + &sOutMode, + &iRenderingIntent, + &iProofIntent, + &cmsFLAGS)) { return NULL; } - transform = _buildProofTransform(pInputProfile->profile, pOutputProfile->profile, pProofProfile->profile, sInMode, sOutMode, iRenderingIntent, iProofIntent, cmsFLAGS); + transform = _buildProofTransform( + pInputProfile->profile, + pOutputProfile->profile, + pProofProfile->profile, + sInMode, + sOutMode, + iRenderingIntent, + iProofIntent, + cmsFLAGS); if (!transform) { return NULL; } return cms_transform_new(transform, sInMode, sOutMode); - } static PyObject * -cms_transform_apply(CmsTransformObject *self, PyObject *args) -{ +cms_transform_apply(CmsTransformObject *self, PyObject *args) { Py_ssize_t idIn; Py_ssize_t idOut; Imaging im; @@ -512,8 +540,8 @@ cms_transform_apply(CmsTransformObject *self, PyObject *args) return NULL; } - im = (Imaging) idIn; - imOut = (Imaging) idOut; + im = (Imaging)idIn; + imOut = (Imaging)idOut; result = pyCMSdoTransform(im, imOut, self->transform); @@ -524,8 +552,7 @@ cms_transform_apply(CmsTransformObject *self, PyObject *args) /* Python-Callable On-The-Fly profile creation functions */ static PyObject * -createProfile(PyObject *self, PyObject *args) -{ +createProfile(PyObject *self, PyObject *args) { char *sColorSpace; cmsHPROFILE hProfile; cmsFloat64Number dColorTemp = 0.0; @@ -540,21 +567,21 @@ createProfile(PyObject *self, PyObject *args) if (dColorTemp > 0.0) { result = cmsWhitePointFromTemp(&whitePoint, dColorTemp); if (!result) { - PyErr_SetString(PyExc_ValueError, "ERROR: Could not calculate white point from color temperature provided, must be float in degrees Kelvin"); + PyErr_SetString( + PyExc_ValueError, + "ERROR: Could not calculate white point from color temperature " + "provided, must be float in degrees Kelvin"); return NULL; } hProfile = cmsCreateLab2Profile(&whitePoint); } else { hProfile = cmsCreateLab2Profile(NULL); } - } - else if (strcmp(sColorSpace, "XYZ") == 0) { + } else if (strcmp(sColorSpace, "XYZ") == 0) { hProfile = cmsCreateXYZProfile(); - } - else if (strcmp(sColorSpace, "sRGB") == 0) { + } else if (strcmp(sColorSpace, "sRGB") == 0) { hProfile = cmsCreate_sRGBProfile(); - } - else { + } else { hProfile = NULL; } @@ -570,8 +597,7 @@ createProfile(PyObject *self, PyObject *args) /* profile methods */ static PyObject * -cms_profile_is_intent_supported(CmsProfileObject *self, PyObject *args) -{ +cms_profile_is_intent_supported(CmsProfileObject *self, PyObject *args) { cmsBool result; int intent; @@ -582,7 +608,8 @@ cms_profile_is_intent_supported(CmsProfileObject *self, PyObject *args) result = cmsIsIntentSupported(self->profile, intent, direction); - /* printf("cmsIsIntentSupported(%p, %d, %d) => %d\n", self->profile, intent, direction, result); */ + /* printf("cmsIsIntentSupported(%p, %d, %d) => %d\n", self->profile, intent, + * direction, result); */ return PyLong_FromLong(result != 0); } @@ -596,30 +623,30 @@ cms_profile_is_intent_supported(CmsProfileObject *self, PyObject *args) #endif static PyObject * -cms_get_display_profile_win32(PyObject* self, PyObject* args) -{ +cms_get_display_profile_win32(PyObject *self, PyObject *args) { char filename[MAX_PATH]; cmsUInt32Number filename_size; BOOL ok; HANDLE handle = 0; int is_dc = 0; - if (!PyArg_ParseTuple(args, "|" F_HANDLE "i:get_display_profile", &handle, &is_dc)) { + if (!PyArg_ParseTuple( + args, "|" F_HANDLE "i:get_display_profile", &handle, &is_dc)) { return NULL; } filename_size = sizeof(filename); if (is_dc) { - ok = GetICMProfile((HDC) handle, &filename_size, filename); + ok = GetICMProfile((HDC)handle, &filename_size, filename); } else { - HDC dc = GetDC((HWND) handle); + HDC dc = GetDC((HWND)handle); ok = GetICMProfile(dc, &filename_size, filename); - ReleaseDC((HWND) handle, dc); + ReleaseDC((HWND)handle, dc); } if (ok) { - return PyUnicode_FromStringAndSize(filename, filename_size-1); + return PyUnicode_FromStringAndSize(filename, filename_size - 1); } Py_INCREF(Py_None); @@ -630,9 +657,8 @@ cms_get_display_profile_win32(PyObject* self, PyObject* args) /* -------------------------------------------------------------------- */ /* Helper functions. */ -static PyObject* -_profile_read_mlu(CmsProfileObject* self, cmsTagSignature info) -{ +static PyObject * +_profile_read_mlu(CmsProfileObject *self, cmsTagSignature info) { PyObject *uni; char *lc = "en"; char *cc = cmsNoCountry; @@ -673,26 +699,22 @@ _profile_read_mlu(CmsProfileObject* self, cmsTagSignature info) return uni; } - -static PyObject* -_profile_read_int_as_string(cmsUInt32Number nr) -{ - PyObject* ret; +static PyObject * +_profile_read_int_as_string(cmsUInt32Number nr) { + PyObject *ret; char buf[5]; - buf[0] = (char) ((nr >> 24) & 0xff); - buf[1] = (char) ((nr >> 16) & 0xff); - buf[2] = (char) ((nr >> 8) & 0xff); - buf[3] = (char) (nr & 0xff); + buf[0] = (char)((nr >> 24) & 0xff); + buf[1] = (char)((nr >> 16) & 0xff); + buf[2] = (char)((nr >> 8) & 0xff); + buf[3] = (char)(nr & 0xff); buf[4] = 0; ret = PyUnicode_DecodeASCII(buf, 4, NULL); return ret; } - -static PyObject* -_profile_read_signature(CmsProfileObject* self, cmsTagSignature info) -{ +static PyObject * +_profile_read_signature(CmsProfileObject *self, cmsTagSignature info) { unsigned int *sig; if (!cmsIsTag(self->profile, info)) { @@ -700,7 +722,7 @@ _profile_read_signature(CmsProfileObject* self, cmsTagSignature info) return Py_None; } - sig = (unsigned int *) cmsReadTag(self->profile, info); + sig = (unsigned int *)cmsReadTag(self->profile, info); if (!sig) { Py_INCREF(Py_None); return Py_None; @@ -709,42 +731,53 @@ _profile_read_signature(CmsProfileObject* self, cmsTagSignature info) return _profile_read_int_as_string(*sig); } -static PyObject* -_xyz_py(cmsCIEXYZ* XYZ) -{ +static PyObject * +_xyz_py(cmsCIEXYZ *XYZ) { cmsCIExyY xyY; cmsXYZ2xyY(&xyY, XYZ); - return Py_BuildValue("((d,d,d),(d,d,d))", XYZ->X, XYZ->Y, XYZ->Z, xyY.x, xyY.y, xyY.Y); + return Py_BuildValue( + "((d,d,d),(d,d,d))", XYZ->X, XYZ->Y, XYZ->Z, xyY.x, xyY.y, xyY.Y); } -static PyObject* -_xyz3_py(cmsCIEXYZ* XYZ) -{ +static PyObject * +_xyz3_py(cmsCIEXYZ *XYZ) { cmsCIExyY xyY[3]; cmsXYZ2xyY(&xyY[0], &XYZ[0]); cmsXYZ2xyY(&xyY[1], &XYZ[1]); cmsXYZ2xyY(&xyY[2], &XYZ[2]); - return Py_BuildValue("(((d,d,d),(d,d,d),(d,d,d)),((d,d,d),(d,d,d),(d,d,d)))", - XYZ[0].X, XYZ[0].Y, XYZ[0].Z, - XYZ[1].X, XYZ[1].Y, XYZ[1].Z, - XYZ[2].X, XYZ[2].Y, XYZ[2].Z, - xyY[0].x, xyY[0].y, xyY[0].Y, - xyY[1].x, xyY[1].y, xyY[1].Y, - xyY[2].x, xyY[2].y, xyY[2].Y); + return Py_BuildValue( + "(((d,d,d),(d,d,d),(d,d,d)),((d,d,d),(d,d,d),(d,d,d)))", + XYZ[0].X, + XYZ[0].Y, + XYZ[0].Z, + XYZ[1].X, + XYZ[1].Y, + XYZ[1].Z, + XYZ[2].X, + XYZ[2].Y, + XYZ[2].Z, + xyY[0].x, + xyY[0].y, + xyY[0].Y, + xyY[1].x, + xyY[1].y, + xyY[1].Y, + xyY[2].x, + xyY[2].y, + xyY[2].Y); } -static PyObject* -_profile_read_ciexyz(CmsProfileObject* self, cmsTagSignature info, int multi) -{ - cmsCIEXYZ* XYZ; +static PyObject * +_profile_read_ciexyz(CmsProfileObject *self, cmsTagSignature info, int multi) { + cmsCIEXYZ *XYZ; if (!cmsIsTag(self->profile, info)) { Py_INCREF(Py_None); return Py_None; } - XYZ = (cmsCIEXYZ*) cmsReadTag(self->profile, info); + XYZ = (cmsCIEXYZ *)cmsReadTag(self->profile, info); if (!XYZ) { Py_INCREF(Py_None); return Py_None; @@ -756,17 +789,16 @@ _profile_read_ciexyz(CmsProfileObject* self, cmsTagSignature info, int multi) } } -static PyObject* -_profile_read_ciexyy_triple(CmsProfileObject* self, cmsTagSignature info) -{ - cmsCIExyYTRIPLE* triple; +static PyObject * +_profile_read_ciexyy_triple(CmsProfileObject *self, cmsTagSignature info) { + cmsCIExyYTRIPLE *triple; if (!cmsIsTag(self->profile, info)) { Py_INCREF(Py_None); return Py_None; } - triple = (cmsCIExyYTRIPLE*) cmsReadTag(self->profile, info); + triple = (cmsCIExyYTRIPLE *)cmsReadTag(self->profile, info); if (!triple) { Py_INCREF(Py_None); return Py_None; @@ -774,26 +806,32 @@ _profile_read_ciexyy_triple(CmsProfileObject* self, cmsTagSignature info) /* Note: lcms does all the heavy lifting and error checking (nr of channels == 3). */ - return Py_BuildValue("((d,d,d),(d,d,d),(d,d,d)),", - triple->Red.x, triple->Red.y, triple->Red.Y, - triple->Green.x, triple->Green.y, triple->Green.Y, - triple->Blue.x, triple->Blue.y, triple->Blue.Y); + return Py_BuildValue( + "((d,d,d),(d,d,d),(d,d,d)),", + triple->Red.x, + triple->Red.y, + triple->Red.Y, + triple->Green.x, + triple->Green.y, + triple->Green.Y, + triple->Blue.x, + triple->Blue.y, + triple->Blue.Y); } -static PyObject* -_profile_read_named_color_list(CmsProfileObject* self, cmsTagSignature info) -{ - cmsNAMEDCOLORLIST* ncl; +static PyObject * +_profile_read_named_color_list(CmsProfileObject *self, cmsTagSignature info) { + cmsNAMEDCOLORLIST *ncl; int i, n; char name[cmsMAX_PATH]; - PyObject* result; + PyObject *result; if (!cmsIsTag(self->profile, info)) { Py_INCREF(Py_None); return Py_None; } - ncl = (cmsNAMEDCOLORLIST*) cmsReadTag(self->profile, info); + ncl = (cmsNAMEDCOLORLIST *)cmsReadTag(self->profile, info); if (ncl == NULL) { Py_INCREF(Py_None); return Py_None; @@ -807,7 +845,7 @@ _profile_read_named_color_list(CmsProfileObject* self, cmsTagSignature info) } for (i = 0; i < n; i++) { - PyObject* str; + PyObject *str; cmsNamedColorInfo(ncl, i, name, NULL, NULL, NULL, NULL); str = PyUnicode_FromString(name); if (str == NULL) { @@ -821,9 +859,9 @@ _profile_read_named_color_list(CmsProfileObject* self, cmsTagSignature info) return result; } -static cmsBool _calculate_rgb_primaries(CmsProfileObject* self, cmsCIEXYZTRIPLE* result) -{ - double input[3][3] = { { 1, 0, 0 }, { 0, 1, 0 }, { 0, 0, 1 } }; +static cmsBool +_calculate_rgb_primaries(CmsProfileObject *self, cmsCIEXYZTRIPLE *result) { + double input[3][3] = {{1, 0, 0}, {0, 1, 0}, {0, 0, 1}}; cmsHPROFILE hXYZ; cmsHTRANSFORM hTransform; @@ -836,36 +874,41 @@ static cmsBool _calculate_rgb_primaries(CmsProfileObject* self, cmsCIEXYZTRIPLE* } // transform from our profile to XYZ using doubles for highest precision - hTransform = cmsCreateTransform(self->profile, TYPE_RGB_DBL, - hXYZ, TYPE_XYZ_DBL, - INTENT_RELATIVE_COLORIMETRIC, - cmsFLAGS_NOCACHE | cmsFLAGS_NOOPTIMIZE); + hTransform = cmsCreateTransform( + self->profile, + TYPE_RGB_DBL, + hXYZ, + TYPE_XYZ_DBL, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE | cmsFLAGS_NOOPTIMIZE); cmsCloseProfile(hXYZ); if (hTransform == NULL) { return 0; } - cmsDoTransform(hTransform, (void*) input, result, 3); + cmsDoTransform(hTransform, (void *)input, result, 3); cmsDeleteTransform(hTransform); return 1; } -static cmsBool _check_intent(int clut, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection) -{ +static cmsBool +_check_intent( + int clut, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number UsedDirection) { if (clut) { return cmsIsCLUT(hProfile, Intent, UsedDirection); - } - else { + } else { return cmsIsIntentSupported(hProfile, Intent, UsedDirection); } } #define INTENTS 200 -static PyObject* -_is_intent_supported(CmsProfileObject* self, int clut) -{ - PyObject* result; +static PyObject * +_is_intent_supported(CmsProfileObject *self, int clut) { + PyObject *result; int n; int i; cmsUInt32Number intent_ids[INTENTS]; @@ -877,26 +920,28 @@ _is_intent_supported(CmsProfileObject* self, int clut) return Py_None; } - - n = cmsGetSupportedIntents(INTENTS, - intent_ids, - intent_descs); + n = cmsGetSupportedIntents(INTENTS, intent_ids, intent_descs); for (i = 0; i < n; i++) { - int intent = (int) intent_ids[i]; - PyObject* id; - PyObject* entry; - - /* Only valid for ICC Intents (otherwise we read invalid memory in lcms cmsio1.c). */ - if (!(intent == INTENT_PERCEPTUAL || intent == INTENT_RELATIVE_COLORIMETRIC - || intent == INTENT_SATURATION || intent == INTENT_ABSOLUTE_COLORIMETRIC)) { + int intent = (int)intent_ids[i]; + PyObject *id; + PyObject *entry; + + /* Only valid for ICC Intents (otherwise we read invalid memory in lcms + * cmsio1.c). */ + if (!(intent == INTENT_PERCEPTUAL || intent == INTENT_RELATIVE_COLORIMETRIC || + intent == INTENT_SATURATION || intent == INTENT_ABSOLUTE_COLORIMETRIC)) { continue; } - id = PyLong_FromLong((long) intent); - entry = Py_BuildValue("(OOO)", - _check_intent(clut, self->profile, intent, LCMS_USED_AS_INPUT) ? Py_True : Py_False, - _check_intent(clut, self->profile, intent, LCMS_USED_AS_OUTPUT) ? Py_True : Py_False, - _check_intent(clut, self->profile, intent, LCMS_USED_AS_PROOF) ? Py_True : Py_False); + id = PyLong_FromLong((long)intent); + entry = Py_BuildValue( + "(OOO)", + _check_intent(clut, self->profile, intent, LCMS_USED_AS_INPUT) ? Py_True + : Py_False, + _check_intent(clut, self->profile, intent, LCMS_USED_AS_OUTPUT) ? Py_True + : Py_False, + _check_intent(clut, self->profile, intent, LCMS_USED_AS_PROOF) ? Py_True + : Py_False); if (id == NULL || entry == NULL) { Py_XDECREF(id); Py_XDECREF(entry); @@ -924,185 +969,161 @@ static PyMethodDef pyCMSdll_methods[] = { {"buildProofTransform", buildProofTransform, 1}, {"createProfile", createProfile, 1}, - /* platform specific tools */ +/* platform specific tools */ #ifdef _WIN32 {"get_display_profile_win32", cms_get_display_profile_win32, 1}, #endif - {NULL, NULL} -}; + {NULL, NULL}}; static struct PyMethodDef cms_profile_methods[] = { - {"is_intent_supported", (PyCFunction) cms_profile_is_intent_supported, 1}, + {"is_intent_supported", (PyCFunction)cms_profile_is_intent_supported, 1}, {NULL, NULL} /* sentinel */ }; -static PyObject* -cms_profile_getattr_rendering_intent(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_rendering_intent(CmsProfileObject *self, void *closure) { return PyLong_FromLong(cmsGetHeaderRenderingIntent(self->profile)); } /* New-style unicode interfaces. */ -static PyObject* -cms_profile_getattr_copyright(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_copyright(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigCopyrightTag); } -static PyObject* -cms_profile_getattr_target(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_target(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigCharTargetTag); } -static PyObject* -cms_profile_getattr_manufacturer(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_manufacturer(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigDeviceMfgDescTag); } -static PyObject* -cms_profile_getattr_model(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_model(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigDeviceModelDescTag); } -static PyObject* -cms_profile_getattr_profile_description(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_profile_description(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigProfileDescriptionTag); } -static PyObject* -cms_profile_getattr_screening_description(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_screening_description(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigScreeningDescTag); } -static PyObject* -cms_profile_getattr_viewing_condition(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_viewing_condition(CmsProfileObject *self, void *closure) { return _profile_read_mlu(self, cmsSigViewingCondDescTag); } -static PyObject* -cms_profile_getattr_creation_date(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_creation_date(CmsProfileObject *self, void *closure) { cmsBool result; struct tm ct; result = cmsGetHeaderCreationDateTime(self->profile, &ct); - if (! result) { + if (!result) { Py_INCREF(Py_None); return Py_None; } - return PyDateTime_FromDateAndTime(1900 + ct.tm_year, ct.tm_mon, ct.tm_mday, - ct.tm_hour, ct.tm_min, ct.tm_sec, 0); + return PyDateTime_FromDateAndTime( + 1900 + ct.tm_year, ct.tm_mon, ct.tm_mday, ct.tm_hour, ct.tm_min, ct.tm_sec, 0); } -static PyObject* -cms_profile_getattr_version(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_version(CmsProfileObject *self, void *closure) { cmsFloat64Number version = cmsGetProfileVersion(self->profile); return PyFloat_FromDouble(version); } -static PyObject* -cms_profile_getattr_icc_version(CmsProfileObject* self, void* closure) -{ - return PyLong_FromLong((long) cmsGetEncodedICCversion(self->profile)); +static PyObject * +cms_profile_getattr_icc_version(CmsProfileObject *self, void *closure) { + return PyLong_FromLong((long)cmsGetEncodedICCversion(self->profile)); } -static PyObject* -cms_profile_getattr_attributes(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_attributes(CmsProfileObject *self, void *closure) { cmsUInt64Number attr; cmsGetHeaderAttributes(self->profile, &attr); /* This works just as well on Windows (LLP64), 32-bit Linux (ILP32) and 64-bit Linux (LP64) systems. */ - return PyLong_FromUnsignedLongLong((unsigned long long) attr); + return PyLong_FromUnsignedLongLong((unsigned long long)attr); } -static PyObject* -cms_profile_getattr_header_flags(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_header_flags(CmsProfileObject *self, void *closure) { cmsUInt32Number flags = cmsGetHeaderFlags(self->profile); return PyLong_FromLong(flags); } -static PyObject* -cms_profile_getattr_header_manufacturer(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_header_manufacturer(CmsProfileObject *self, void *closure) { return _profile_read_int_as_string(cmsGetHeaderManufacturer(self->profile)); } -static PyObject* -cms_profile_getattr_header_model(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_header_model(CmsProfileObject *self, void *closure) { return _profile_read_int_as_string(cmsGetHeaderModel(self->profile)); } -static PyObject* -cms_profile_getattr_device_class(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_device_class(CmsProfileObject *self, void *closure) { return _profile_read_int_as_string(cmsGetDeviceClass(self->profile)); } -static PyObject* -cms_profile_getattr_connection_space(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_connection_space(CmsProfileObject *self, void *closure) { return _profile_read_int_as_string(cmsGetPCS(self->profile)); } -static PyObject* -cms_profile_getattr_xcolor_space(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_xcolor_space(CmsProfileObject *self, void *closure) { return _profile_read_int_as_string(cmsGetColorSpace(self->profile)); } -static PyObject* -cms_profile_getattr_profile_id(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_profile_id(CmsProfileObject *self, void *closure) { cmsUInt8Number id[16]; cmsGetHeaderProfileID(self->profile, id); - return PyBytes_FromStringAndSize((char *) id, 16); + return PyBytes_FromStringAndSize((char *)id, 16); } -static PyObject* -cms_profile_getattr_is_matrix_shaper(CmsProfileObject* self, void* closure) -{ - return PyBool_FromLong((long) cmsIsMatrixShaper(self->profile)); +static PyObject * +cms_profile_getattr_is_matrix_shaper(CmsProfileObject *self, void *closure) { + return PyBool_FromLong((long)cmsIsMatrixShaper(self->profile)); } -static PyObject* -cms_profile_getattr_technology(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_technology(CmsProfileObject *self, void *closure) { return _profile_read_signature(self, cmsSigTechnologyTag); } -static PyObject* -cms_profile_getattr_colorimetric_intent(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_colorimetric_intent(CmsProfileObject *self, void *closure) { return _profile_read_signature(self, cmsSigColorimetricIntentImageStateTag); } -static PyObject* -cms_profile_getattr_perceptual_rendering_intent_gamut(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_perceptual_rendering_intent_gamut( + CmsProfileObject *self, void *closure) { return _profile_read_signature(self, cmsSigPerceptualRenderingIntentGamutTag); } -static PyObject* -cms_profile_getattr_saturation_rendering_intent_gamut(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_saturation_rendering_intent_gamut( + CmsProfileObject *self, void *closure) { return _profile_read_signature(self, cmsSigSaturationRenderingIntentGamutTag); } -static PyObject* -cms_profile_getattr_red_colorant(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_red_colorant(CmsProfileObject *self, void *closure) { if (!cmsIsMatrixShaper(self->profile)) { Py_INCREF(Py_None); return Py_None; @@ -1110,10 +1131,8 @@ cms_profile_getattr_red_colorant(CmsProfileObject* self, void* closure) return _profile_read_ciexyz(self, cmsSigRedColorantTag, 0); } - -static PyObject* -cms_profile_getattr_green_colorant(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_green_colorant(CmsProfileObject *self, void *closure) { if (!cmsIsMatrixShaper(self->profile)) { Py_INCREF(Py_None); return Py_None; @@ -1121,10 +1140,8 @@ cms_profile_getattr_green_colorant(CmsProfileObject* self, void* closure) return _profile_read_ciexyz(self, cmsSigGreenColorantTag, 0); } - -static PyObject* -cms_profile_getattr_blue_colorant(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_blue_colorant(CmsProfileObject *self, void *closure) { if (!cmsIsMatrixShaper(self->profile)) { Py_INCREF(Py_None); return Py_None; @@ -1132,10 +1149,10 @@ cms_profile_getattr_blue_colorant(CmsProfileObject* self, void* closure) return _profile_read_ciexyz(self, cmsSigBlueColorantTag, 0); } -static PyObject* -cms_profile_getattr_media_white_point_temperature(CmsProfileObject *self, void* closure) -{ - cmsCIEXYZ* XYZ; +static PyObject * +cms_profile_getattr_media_white_point_temperature( + CmsProfileObject *self, void *closure) { + cmsCIEXYZ *XYZ; cmsCIExyY xyY; cmsFloat64Number tempK; cmsTagSignature info = cmsSigMediaWhitePointTag; @@ -1146,7 +1163,7 @@ cms_profile_getattr_media_white_point_temperature(CmsProfileObject *self, void* return Py_None; } - XYZ = (cmsCIEXYZ*) cmsReadTag(self->profile, info); + XYZ = (cmsCIEXYZ *)cmsReadTag(self->profile, info); if (!XYZ) { Py_INCREF(Py_None); return Py_None; @@ -1165,47 +1182,40 @@ cms_profile_getattr_media_white_point_temperature(CmsProfileObject *self, void* return PyFloat_FromDouble(tempK); } -static PyObject* -cms_profile_getattr_media_white_point(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_media_white_point(CmsProfileObject *self, void *closure) { return _profile_read_ciexyz(self, cmsSigMediaWhitePointTag, 0); } - -static PyObject* -cms_profile_getattr_media_black_point(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_media_black_point(CmsProfileObject *self, void *closure) { return _profile_read_ciexyz(self, cmsSigMediaBlackPointTag, 0); } -static PyObject* -cms_profile_getattr_luminance(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_luminance(CmsProfileObject *self, void *closure) { return _profile_read_ciexyz(self, cmsSigLuminanceTag, 0); } -static PyObject* -cms_profile_getattr_chromatic_adaptation(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_chromatic_adaptation(CmsProfileObject *self, void *closure) { return _profile_read_ciexyz(self, cmsSigChromaticAdaptationTag, 1); } -static PyObject* -cms_profile_getattr_chromaticity(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_chromaticity(CmsProfileObject *self, void *closure) { return _profile_read_ciexyy_triple(self, cmsSigChromaticityTag); } -static PyObject* -cms_profile_getattr_red_primary(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_red_primary(CmsProfileObject *self, void *closure) { cmsBool result = 0; cmsCIEXYZTRIPLE primaries; if (cmsIsMatrixShaper(self->profile)) { result = _calculate_rgb_primaries(self, &primaries); } - if (! result) { + if (!result) { Py_INCREF(Py_None); return Py_None; } @@ -1213,16 +1223,15 @@ cms_profile_getattr_red_primary(CmsProfileObject* self, void* closure) return _xyz_py(&primaries.Red); } -static PyObject* -cms_profile_getattr_green_primary(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_green_primary(CmsProfileObject *self, void *closure) { cmsBool result = 0; cmsCIEXYZTRIPLE primaries; if (cmsIsMatrixShaper(self->profile)) { result = _calculate_rgb_primaries(self, &primaries); } - if (! result) { + if (!result) { Py_INCREF(Py_None); return Py_None; } @@ -1230,16 +1239,15 @@ cms_profile_getattr_green_primary(CmsProfileObject* self, void* closure) return _xyz_py(&primaries.Green); } -static PyObject* -cms_profile_getattr_blue_primary(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_blue_primary(CmsProfileObject *self, void *closure) { cmsBool result = 0; cmsCIEXYZTRIPLE primaries; if (cmsIsMatrixShaper(self->profile)) { result = _calculate_rgb_primaries(self, &primaries); } - if (! result) { + if (!result) { Py_INCREF(Py_None); return Py_None; } @@ -1247,61 +1255,55 @@ cms_profile_getattr_blue_primary(CmsProfileObject* self, void* closure) return _xyz_py(&primaries.Blue); } -static PyObject* -cms_profile_getattr_colorant_table(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_colorant_table(CmsProfileObject *self, void *closure) { return _profile_read_named_color_list(self, cmsSigColorantTableTag); } -static PyObject* -cms_profile_getattr_colorant_table_out(CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_colorant_table_out(CmsProfileObject *self, void *closure) { return _profile_read_named_color_list(self, cmsSigColorantTableOutTag); } -static PyObject* -cms_profile_getattr_is_intent_supported (CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_is_intent_supported(CmsProfileObject *self, void *closure) { return _is_intent_supported(self, 0); } -static PyObject* -cms_profile_getattr_is_clut (CmsProfileObject* self, void* closure) -{ +static PyObject * +cms_profile_getattr_is_clut(CmsProfileObject *self, void *closure) { return _is_intent_supported(self, 1); } -static const char* -_illu_map(int i) -{ - switch(i) { - case 0: - return "unknown"; - case 1: - return "D50"; - case 2: - return "D65"; - case 3: - return "D93"; - case 4: - return "F2"; - case 5: - return "D55"; - case 6: - return "A"; - case 7: - return "E"; - case 8: - return "F8"; - default: - return NULL; +static const char * +_illu_map(int i) { + switch (i) { + case 0: + return "unknown"; + case 1: + return "D50"; + case 2: + return "D65"; + case 3: + return "D93"; + case 4: + return "F2"; + case 5: + return "D55"; + case 6: + return "A"; + case 7: + return "E"; + case 8: + return "F8"; + default: + return NULL; } } -static PyObject* -cms_profile_getattr_icc_measurement_condition (CmsProfileObject* self, void* closure) -{ - cmsICCMeasurementConditions* mc; +static PyObject * +cms_profile_getattr_icc_measurement_condition(CmsProfileObject *self, void *closure) { + cmsICCMeasurementConditions *mc; cmsTagSignature info = cmsSigMeasurementTag; const char *geo; @@ -1310,7 +1312,7 @@ cms_profile_getattr_icc_measurement_condition (CmsProfileObject* self, void* clo return Py_None; } - mc = (cmsICCMeasurementConditions*) cmsReadTag(self->profile, info); + mc = (cmsICCMeasurementConditions *)cmsReadTag(self->profile, info); if (!mc) { Py_INCREF(Py_None); return Py_None; @@ -1324,18 +1326,25 @@ cms_profile_getattr_icc_measurement_condition (CmsProfileObject* self, void* clo geo = "unknown"; } - return Py_BuildValue("{s:i,s:(ddd),s:s,s:d,s:s}", - "observer", mc->Observer, - "backing", mc->Backing.X, mc->Backing.Y, mc->Backing.Z, - "geo", geo, - "flare", mc->Flare, - "illuminant_type", _illu_map(mc->IlluminantType)); + return Py_BuildValue( + "{s:i,s:(ddd),s:s,s:d,s:s}", + "observer", + mc->Observer, + "backing", + mc->Backing.X, + mc->Backing.Y, + mc->Backing.Z, + "geo", + geo, + "flare", + mc->Flare, + "illuminant_type", + _illu_map(mc->IlluminantType)); } -static PyObject* -cms_profile_getattr_icc_viewing_condition (CmsProfileObject* self, void* closure) -{ - cmsICCViewingConditions* vc; +static PyObject * +cms_profile_getattr_icc_viewing_condition(CmsProfileObject *self, void *closure) { + cmsICCViewingConditions *vc; cmsTagSignature info = cmsSigViewingConditionsTag; if (!cmsIsTag(self->profile, info)) { @@ -1343,158 +1352,164 @@ cms_profile_getattr_icc_viewing_condition (CmsProfileObject* self, void* closure return Py_None; } - vc = (cmsICCViewingConditions*) cmsReadTag(self->profile, info); + vc = (cmsICCViewingConditions *)cmsReadTag(self->profile, info); if (!vc) { Py_INCREF(Py_None); return Py_None; } - return Py_BuildValue("{s:(ddd),s:(ddd),s:s}", - "illuminant", vc->IlluminantXYZ.X, vc->IlluminantXYZ.Y, vc->IlluminantXYZ.Z, - "surround", vc->SurroundXYZ.X, vc->SurroundXYZ.Y, vc->SurroundXYZ.Z, - "illuminant_type", _illu_map(vc->IlluminantType)); + return Py_BuildValue( + "{s:(ddd),s:(ddd),s:s}", + "illuminant", + vc->IlluminantXYZ.X, + vc->IlluminantXYZ.Y, + vc->IlluminantXYZ.Z, + "surround", + vc->SurroundXYZ.X, + vc->SurroundXYZ.Y, + vc->SurroundXYZ.Z, + "illuminant_type", + _illu_map(vc->IlluminantType)); } - static struct PyGetSetDef cms_profile_getsetters[] = { /* New style interfaces. */ - { "rendering_intent", (getter) cms_profile_getattr_rendering_intent }, - { "creation_date", (getter) cms_profile_getattr_creation_date }, - { "copyright", (getter) cms_profile_getattr_copyright }, - { "target", (getter) cms_profile_getattr_target }, - { "manufacturer", (getter) cms_profile_getattr_manufacturer }, - { "model", (getter) cms_profile_getattr_model }, - { "profile_description", (getter) cms_profile_getattr_profile_description }, - { "screening_description", (getter) cms_profile_getattr_screening_description }, - { "viewing_condition", (getter) cms_profile_getattr_viewing_condition }, - { "version", (getter) cms_profile_getattr_version }, - { "icc_version", (getter) cms_profile_getattr_icc_version }, - { "attributes", (getter) cms_profile_getattr_attributes }, - { "header_flags", (getter) cms_profile_getattr_header_flags }, - { "header_manufacturer", (getter) cms_profile_getattr_header_manufacturer }, - { "header_model", (getter) cms_profile_getattr_header_model }, - { "device_class", (getter) cms_profile_getattr_device_class }, - { "connection_space", (getter) cms_profile_getattr_connection_space }, - { "xcolor_space", (getter) cms_profile_getattr_xcolor_space }, - { "profile_id", (getter) cms_profile_getattr_profile_id }, - { "is_matrix_shaper", (getter) cms_profile_getattr_is_matrix_shaper }, - { "technology", (getter) cms_profile_getattr_technology }, - { "colorimetric_intent", (getter) cms_profile_getattr_colorimetric_intent }, - { "perceptual_rendering_intent_gamut", (getter) cms_profile_getattr_perceptual_rendering_intent_gamut }, - { "saturation_rendering_intent_gamut", (getter) cms_profile_getattr_saturation_rendering_intent_gamut }, - { "red_colorant", (getter) cms_profile_getattr_red_colorant }, - { "green_colorant", (getter) cms_profile_getattr_green_colorant }, - { "blue_colorant", (getter) cms_profile_getattr_blue_colorant }, - { "red_primary", (getter) cms_profile_getattr_red_primary }, - { "green_primary", (getter) cms_profile_getattr_green_primary }, - { "blue_primary", (getter) cms_profile_getattr_blue_primary }, - { "media_white_point_temperature", (getter) cms_profile_getattr_media_white_point_temperature }, - { "media_white_point", (getter) cms_profile_getattr_media_white_point }, - { "media_black_point", (getter) cms_profile_getattr_media_black_point }, - { "luminance", (getter) cms_profile_getattr_luminance }, - { "chromatic_adaptation", (getter) cms_profile_getattr_chromatic_adaptation }, - { "chromaticity", (getter) cms_profile_getattr_chromaticity }, - { "colorant_table", (getter) cms_profile_getattr_colorant_table }, - { "colorant_table_out", (getter) cms_profile_getattr_colorant_table_out }, - { "intent_supported", (getter) cms_profile_getattr_is_intent_supported }, - { "clut", (getter) cms_profile_getattr_is_clut }, - { "icc_measurement_condition", (getter) cms_profile_getattr_icc_measurement_condition }, - { "icc_viewing_condition", (getter) cms_profile_getattr_icc_viewing_condition }, - - { NULL } -}; - + {"rendering_intent", (getter)cms_profile_getattr_rendering_intent}, + {"creation_date", (getter)cms_profile_getattr_creation_date}, + {"copyright", (getter)cms_profile_getattr_copyright}, + {"target", (getter)cms_profile_getattr_target}, + {"manufacturer", (getter)cms_profile_getattr_manufacturer}, + {"model", (getter)cms_profile_getattr_model}, + {"profile_description", (getter)cms_profile_getattr_profile_description}, + {"screening_description", (getter)cms_profile_getattr_screening_description}, + {"viewing_condition", (getter)cms_profile_getattr_viewing_condition}, + {"version", (getter)cms_profile_getattr_version}, + {"icc_version", (getter)cms_profile_getattr_icc_version}, + {"attributes", (getter)cms_profile_getattr_attributes}, + {"header_flags", (getter)cms_profile_getattr_header_flags}, + {"header_manufacturer", (getter)cms_profile_getattr_header_manufacturer}, + {"header_model", (getter)cms_profile_getattr_header_model}, + {"device_class", (getter)cms_profile_getattr_device_class}, + {"connection_space", (getter)cms_profile_getattr_connection_space}, + {"xcolor_space", (getter)cms_profile_getattr_xcolor_space}, + {"profile_id", (getter)cms_profile_getattr_profile_id}, + {"is_matrix_shaper", (getter)cms_profile_getattr_is_matrix_shaper}, + {"technology", (getter)cms_profile_getattr_technology}, + {"colorimetric_intent", (getter)cms_profile_getattr_colorimetric_intent}, + {"perceptual_rendering_intent_gamut", + (getter)cms_profile_getattr_perceptual_rendering_intent_gamut}, + {"saturation_rendering_intent_gamut", + (getter)cms_profile_getattr_saturation_rendering_intent_gamut}, + {"red_colorant", (getter)cms_profile_getattr_red_colorant}, + {"green_colorant", (getter)cms_profile_getattr_green_colorant}, + {"blue_colorant", (getter)cms_profile_getattr_blue_colorant}, + {"red_primary", (getter)cms_profile_getattr_red_primary}, + {"green_primary", (getter)cms_profile_getattr_green_primary}, + {"blue_primary", (getter)cms_profile_getattr_blue_primary}, + {"media_white_point_temperature", + (getter)cms_profile_getattr_media_white_point_temperature}, + {"media_white_point", (getter)cms_profile_getattr_media_white_point}, + {"media_black_point", (getter)cms_profile_getattr_media_black_point}, + {"luminance", (getter)cms_profile_getattr_luminance}, + {"chromatic_adaptation", (getter)cms_profile_getattr_chromatic_adaptation}, + {"chromaticity", (getter)cms_profile_getattr_chromaticity}, + {"colorant_table", (getter)cms_profile_getattr_colorant_table}, + {"colorant_table_out", (getter)cms_profile_getattr_colorant_table_out}, + {"intent_supported", (getter)cms_profile_getattr_is_intent_supported}, + {"clut", (getter)cms_profile_getattr_is_clut}, + {"icc_measurement_condition", + (getter)cms_profile_getattr_icc_measurement_condition}, + {"icc_viewing_condition", (getter)cms_profile_getattr_icc_viewing_condition}, + + {NULL}}; static PyTypeObject CmsProfile_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "PIL._imagingcms.CmsProfile", /*tp_name */ - sizeof(CmsProfileObject), 0,/*tp_basicsize, tp_itemsize */ + PyVarObject_HEAD_INIT(NULL, 0) "PIL._imagingcms.CmsProfile", /*tp_name */ + sizeof(CmsProfileObject), + 0, /*tp_basicsize, tp_itemsize */ /* methods */ - (destructor) cms_profile_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - cms_profile_methods, /*tp_methods*/ - 0, /*tp_members*/ - cms_profile_getsetters, /*tp_getset*/ + (destructor)cms_profile_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + cms_profile_methods, /*tp_methods*/ + 0, /*tp_members*/ + cms_profile_getsetters, /*tp_getset*/ }; static struct PyMethodDef cms_transform_methods[] = { - {"apply", (PyCFunction) cms_transform_apply, 1}, - {NULL, NULL} /* sentinel */ + {"apply", (PyCFunction)cms_transform_apply, 1}, {NULL, NULL} /* sentinel */ }; -static PyObject* -cms_transform_getattr_inputMode(CmsTransformObject* self, void* closure) -{ +static PyObject * +cms_transform_getattr_inputMode(CmsTransformObject *self, void *closure) { return PyUnicode_FromString(self->mode_in); } -static PyObject* -cms_transform_getattr_outputMode(CmsTransformObject* self, void* closure) -{ +static PyObject * +cms_transform_getattr_outputMode(CmsTransformObject *self, void *closure) { return PyUnicode_FromString(self->mode_out); } static struct PyGetSetDef cms_transform_getsetters[] = { - { "inputMode", (getter) cms_transform_getattr_inputMode }, - { "outputMode", (getter) cms_transform_getattr_outputMode }, - { NULL } -}; + {"inputMode", (getter)cms_transform_getattr_inputMode}, + {"outputMode", (getter)cms_transform_getattr_outputMode}, + {NULL}}; static PyTypeObject CmsTransform_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "CmsTransform", sizeof(CmsTransformObject), 0, + PyVarObject_HEAD_INIT(NULL, 0) "CmsTransform", + sizeof(CmsTransformObject), + 0, /* methods */ - (destructor) cms_transform_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - cms_transform_methods, /*tp_methods*/ - 0, /*tp_members*/ - cms_transform_getsetters, /*tp_getset*/ + (destructor)cms_transform_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + cms_transform_methods, /*tp_methods*/ + 0, /*tp_members*/ + cms_transform_getsetters, /*tp_getset*/ }; static int -setup_module(PyObject* m) { +setup_module(PyObject *m) { PyObject *d; PyObject *v; int vn; @@ -1521,14 +1536,14 @@ setup_module(PyObject* m) { PyMODINIT_FUNC PyInit__imagingcms(void) { - PyObject* m; + PyObject *m; static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_imagingcms", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - pyCMSdll_methods, /* m_methods */ + "_imagingcms", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + pyCMSdll_methods, /* m_methods */ }; m = PyModule_Create(&module_def); diff --git a/src/_imagingft.c b/src/_imagingft.c index e00be58f783..db560a01369 100644 --- a/src/_imagingft.c +++ b/src/_imagingft.c @@ -36,7 +36,7 @@ #endif #if !defined(FT_LOAD_TARGET_MONO) -#define FT_LOAD_TARGET_MONO FT_LOAD_MONOCHROME +#define FT_LOAD_TARGET_MONO FT_LOAD_MONOCHROME #endif /* -------------------------------------------------------------------- */ @@ -45,73 +45,61 @@ #undef FTERRORS_H #undef __FTERRORS_H__ -#define FT_ERRORDEF( e, v, s ) { e, s }, -#define FT_ERROR_START_LIST { -#define FT_ERROR_END_LIST { 0, 0 } }; +#define FT_ERRORDEF(e, v, s) {e, s}, +#define FT_ERROR_START_LIST { +#define FT_ERROR_END_LIST \ + { 0, 0 } \ + } \ + ; #include #define LAYOUT_FALLBACK 0 #define LAYOUT_RAQM 1 -typedef struct -{ - int index, x_offset, x_advance, y_offset, y_advance; - unsigned int cluster; +typedef struct { + int index, x_offset, x_advance, y_offset, y_advance; + unsigned int cluster; } GlyphInfo; struct { int code; - const char* message; + const char *message; } ft_errors[] = #include FT_ERRORS_H -/* -------------------------------------------------------------------- */ -/* font objects */ + /* -------------------------------------------------------------------- */ + /* font objects */ -static FT_Library library; + static FT_Library library; typedef struct { - PyObject_HEAD - FT_Face face; + PyObject_HEAD FT_Face face; unsigned char *font_bytes; int layout_engine; } FontObject; static PyTypeObject Font_Type; -typedef const char* (*t_raqm_version_string) (void); -typedef bool (*t_raqm_version_atleast)(unsigned int major, - unsigned int minor, - unsigned int micro); -typedef raqm_t* (*t_raqm_create)(void); -typedef int (*t_raqm_set_text)(raqm_t *rq, - const uint32_t *text, - size_t len); -typedef bool (*t_raqm_set_text_utf8) (raqm_t *rq, - const char *text, - size_t len); -typedef bool (*t_raqm_set_par_direction) (raqm_t *rq, - raqm_direction_t dir); -typedef bool (*t_raqm_set_language) (raqm_t *rq, - const char *lang, - size_t start, - size_t len); -typedef bool (*t_raqm_add_font_feature) (raqm_t *rq, - const char *feature, - int len); -typedef bool (*t_raqm_set_freetype_face) (raqm_t *rq, - FT_Face face); -typedef bool (*t_raqm_layout) (raqm_t *rq); -typedef raqm_glyph_t* (*t_raqm_get_glyphs) (raqm_t *rq, - size_t *length); -typedef raqm_glyph_t_01* (*t_raqm_get_glyphs_01) (raqm_t *rq, - size_t *length); -typedef void (*t_raqm_destroy) (raqm_t *rq); +typedef const char *(*t_raqm_version_string)(void); +typedef bool (*t_raqm_version_atleast)( + unsigned int major, unsigned int minor, unsigned int micro); +typedef raqm_t *(*t_raqm_create)(void); +typedef int (*t_raqm_set_text)(raqm_t *rq, const uint32_t *text, size_t len); +typedef bool (*t_raqm_set_text_utf8)(raqm_t *rq, const char *text, size_t len); +typedef bool (*t_raqm_set_par_direction)(raqm_t *rq, raqm_direction_t dir); +typedef bool (*t_raqm_set_language)( + raqm_t *rq, const char *lang, size_t start, size_t len); +typedef bool (*t_raqm_add_font_feature)(raqm_t *rq, const char *feature, int len); +typedef bool (*t_raqm_set_freetype_face)(raqm_t *rq, FT_Face face); +typedef bool (*t_raqm_layout)(raqm_t *rq); +typedef raqm_glyph_t *(*t_raqm_get_glyphs)(raqm_t *rq, size_t *length); +typedef raqm_glyph_t_01 *(*t_raqm_get_glyphs_01)(raqm_t *rq, size_t *length); +typedef void (*t_raqm_destroy)(raqm_t *rq); typedef struct { - void* raqm; + void *raqm; int version; t_raqm_version_string version_string; t_raqm_version_atleast version_atleast; @@ -130,13 +118,11 @@ typedef struct { static p_raqm_func p_raqm; - /* round a 26.6 pixel coordinate to the nearest larger integer */ -#define PIXEL(x) ((((x)+63) & -64)>>6) +#define PIXEL(x) ((((x) + 63) & -64) >> 6) -static PyObject* -geterror(int code) -{ +static PyObject * +geterror(int code) { int i; for (i = 0; ft_errors[i].message; i++) { @@ -151,8 +137,7 @@ geterror(int code) } static int -setraqm(void) -{ +setraqm(void) { /* set the static function pointers for dynamic raqm linking */ p_raqm.raqm = NULL; @@ -175,68 +160,72 @@ setraqm(void) } #ifndef _WIN32 - p_raqm.version_string = (t_raqm_version_string)dlsym(p_raqm.raqm, "raqm_version_string"); - p_raqm.version_atleast = (t_raqm_version_atleast)dlsym(p_raqm.raqm, "raqm_version_atleast"); + p_raqm.version_string = + (t_raqm_version_string)dlsym(p_raqm.raqm, "raqm_version_string"); + p_raqm.version_atleast = + (t_raqm_version_atleast)dlsym(p_raqm.raqm, "raqm_version_atleast"); p_raqm.create = (t_raqm_create)dlsym(p_raqm.raqm, "raqm_create"); p_raqm.set_text = (t_raqm_set_text)dlsym(p_raqm.raqm, "raqm_set_text"); - p_raqm.set_text_utf8 = (t_raqm_set_text_utf8)dlsym(p_raqm.raqm, "raqm_set_text_utf8"); - p_raqm.set_par_direction = (t_raqm_set_par_direction)dlsym(p_raqm.raqm, "raqm_set_par_direction"); + p_raqm.set_text_utf8 = + (t_raqm_set_text_utf8)dlsym(p_raqm.raqm, "raqm_set_text_utf8"); + p_raqm.set_par_direction = + (t_raqm_set_par_direction)dlsym(p_raqm.raqm, "raqm_set_par_direction"); p_raqm.set_language = (t_raqm_set_language)dlsym(p_raqm.raqm, "raqm_set_language"); - p_raqm.add_font_feature = (t_raqm_add_font_feature)dlsym(p_raqm.raqm, "raqm_add_font_feature"); - p_raqm.set_freetype_face = (t_raqm_set_freetype_face)dlsym(p_raqm.raqm, "raqm_set_freetype_face"); + p_raqm.add_font_feature = + (t_raqm_add_font_feature)dlsym(p_raqm.raqm, "raqm_add_font_feature"); + p_raqm.set_freetype_face = + (t_raqm_set_freetype_face)dlsym(p_raqm.raqm, "raqm_set_freetype_face"); p_raqm.layout = (t_raqm_layout)dlsym(p_raqm.raqm, "raqm_layout"); p_raqm.destroy = (t_raqm_destroy)dlsym(p_raqm.raqm, "raqm_destroy"); - if(dlsym(p_raqm.raqm, "raqm_index_to_position")) { + if (dlsym(p_raqm.raqm, "raqm_index_to_position")) { p_raqm.get_glyphs = (t_raqm_get_glyphs)dlsym(p_raqm.raqm, "raqm_get_glyphs"); p_raqm.version = 2; } else { p_raqm.version = 1; - p_raqm.get_glyphs_01 = (t_raqm_get_glyphs_01)dlsym(p_raqm.raqm, "raqm_get_glyphs"); + p_raqm.get_glyphs_01 = + (t_raqm_get_glyphs_01)dlsym(p_raqm.raqm, "raqm_get_glyphs"); } if (dlerror() || - !(p_raqm.create && - p_raqm.set_text && - p_raqm.set_text_utf8 && - p_raqm.set_par_direction && - p_raqm.set_language && - p_raqm.add_font_feature && - p_raqm.set_freetype_face && - p_raqm.layout && - (p_raqm.get_glyphs || p_raqm.get_glyphs_01) && - p_raqm.destroy)) { + !(p_raqm.create && p_raqm.set_text && p_raqm.set_text_utf8 && + p_raqm.set_par_direction && p_raqm.set_language && p_raqm.add_font_feature && + p_raqm.set_freetype_face && p_raqm.layout && + (p_raqm.get_glyphs || p_raqm.get_glyphs_01) && p_raqm.destroy)) { dlclose(p_raqm.raqm); p_raqm.raqm = NULL; return 2; } #else - p_raqm.version_string = (t_raqm_version_string)GetProcAddress(p_raqm.raqm, "raqm_version_string"); - p_raqm.version_atleast = (t_raqm_version_atleast)GetProcAddress(p_raqm.raqm, "raqm_version_atleast"); + p_raqm.version_string = + (t_raqm_version_string)GetProcAddress(p_raqm.raqm, "raqm_version_string"); + p_raqm.version_atleast = + (t_raqm_version_atleast)GetProcAddress(p_raqm.raqm, "raqm_version_atleast"); p_raqm.create = (t_raqm_create)GetProcAddress(p_raqm.raqm, "raqm_create"); p_raqm.set_text = (t_raqm_set_text)GetProcAddress(p_raqm.raqm, "raqm_set_text"); - p_raqm.set_text_utf8 = (t_raqm_set_text_utf8)GetProcAddress(p_raqm.raqm, "raqm_set_text_utf8"); - p_raqm.set_par_direction = (t_raqm_set_par_direction)GetProcAddress(p_raqm.raqm, "raqm_set_par_direction"); - p_raqm.set_language = (t_raqm_set_language)GetProcAddress(p_raqm.raqm, "raqm_set_language"); - p_raqm.add_font_feature = (t_raqm_add_font_feature)GetProcAddress(p_raqm.raqm, "raqm_add_font_feature"); - p_raqm.set_freetype_face = (t_raqm_set_freetype_face)GetProcAddress(p_raqm.raqm, "raqm_set_freetype_face"); + p_raqm.set_text_utf8 = + (t_raqm_set_text_utf8)GetProcAddress(p_raqm.raqm, "raqm_set_text_utf8"); + p_raqm.set_par_direction = + (t_raqm_set_par_direction)GetProcAddress(p_raqm.raqm, "raqm_set_par_direction"); + p_raqm.set_language = + (t_raqm_set_language)GetProcAddress(p_raqm.raqm, "raqm_set_language"); + p_raqm.add_font_feature = + (t_raqm_add_font_feature)GetProcAddress(p_raqm.raqm, "raqm_add_font_feature"); + p_raqm.set_freetype_face = + (t_raqm_set_freetype_face)GetProcAddress(p_raqm.raqm, "raqm_set_freetype_face"); p_raqm.layout = (t_raqm_layout)GetProcAddress(p_raqm.raqm, "raqm_layout"); p_raqm.destroy = (t_raqm_destroy)GetProcAddress(p_raqm.raqm, "raqm_destroy"); - if(GetProcAddress(p_raqm.raqm, "raqm_index_to_position")) { - p_raqm.get_glyphs = (t_raqm_get_glyphs)GetProcAddress(p_raqm.raqm, "raqm_get_glyphs"); + if (GetProcAddress(p_raqm.raqm, "raqm_index_to_position")) { + p_raqm.get_glyphs = + (t_raqm_get_glyphs)GetProcAddress(p_raqm.raqm, "raqm_get_glyphs"); p_raqm.version = 2; } else { p_raqm.version = 1; - p_raqm.get_glyphs_01 = (t_raqm_get_glyphs_01)GetProcAddress(p_raqm.raqm, "raqm_get_glyphs"); - } - if (!(p_raqm.create && - p_raqm.set_text && - p_raqm.set_text_utf8 && - p_raqm.set_par_direction && - p_raqm.set_language && - p_raqm.add_font_feature && - p_raqm.set_freetype_face && - p_raqm.layout && - (p_raqm.get_glyphs || p_raqm.get_glyphs_01) && - p_raqm.destroy)) { + p_raqm.get_glyphs_01 = + (t_raqm_get_glyphs_01)GetProcAddress(p_raqm.raqm, "raqm_get_glyphs"); + } + if (!(p_raqm.create && p_raqm.set_text && p_raqm.set_text_utf8 && + p_raqm.set_par_direction && p_raqm.set_language && p_raqm.add_font_feature && + p_raqm.set_freetype_face && p_raqm.layout && + (p_raqm.get_glyphs || p_raqm.get_glyphs_01) && p_raqm.destroy)) { FreeLibrary(p_raqm.raqm); p_raqm.raqm = NULL; return 2; @@ -246,38 +235,41 @@ setraqm(void) return 0; } -static PyObject* -getfont(PyObject* self_, PyObject* args, PyObject* kw) -{ +static PyObject * +getfont(PyObject *self_, PyObject *args, PyObject *kw) { /* create a font object from a file name and a size (in pixels) */ - FontObject* self; + FontObject *self; int error = 0; - char* filename = NULL; + char *filename = NULL; Py_ssize_t size; Py_ssize_t index = 0; Py_ssize_t layout_engine = 0; - unsigned char* encoding; - unsigned char* font_bytes; + unsigned char *encoding; + unsigned char *font_bytes; Py_ssize_t font_bytes_size = 0; - static char* kwlist[] = { - "filename", "size", "index", "encoding", "font_bytes", - "layout_engine", NULL - }; + static char *kwlist[] = { + "filename", "size", "index", "encoding", "font_bytes", "layout_engine", NULL}; if (!library) { - PyErr_SetString( - PyExc_OSError, - "failed to initialize FreeType library" - ); + PyErr_SetString(PyExc_OSError, "failed to initialize FreeType library"); return NULL; } - if (!PyArg_ParseTupleAndKeywords(args, kw, "etn|nsy#n", kwlist, - Py_FileSystemDefaultEncoding, &filename, - &size, &index, &encoding, &font_bytes, - &font_bytes_size, &layout_engine)) { + if (!PyArg_ParseTupleAndKeywords( + args, + kw, + "etn|nsy#n", + kwlist, + Py_FileSystemDefaultEncoding, + &filename, + &size, + &index, + &encoding, + &font_bytes, + &font_bytes_size, + &layout_engine)) { return NULL; } @@ -300,12 +292,16 @@ getfont(PyObject* self_, PyObject* args, PyObject* kw) /* Don't free this before FT_Done_Face */ self->font_bytes = PyMem_Malloc(font_bytes_size); if (!self->font_bytes) { - error = 65; // Out of Memory in Freetype. + error = 65; // Out of Memory in Freetype. } if (!error) { memcpy(self->font_bytes, font_bytes, (size_t)font_bytes_size); - error = FT_New_Memory_Face(library, (FT_Byte*)self->font_bytes, - font_bytes_size, index, &self->face); + error = FT_New_Memory_Face( + library, + (FT_Byte *)self->font_bytes, + font_bytes_size, + index, + &self->face); } } @@ -313,14 +309,13 @@ getfont(PyObject* self_, PyObject* args, PyObject* kw) error = FT_Set_Pixel_Sizes(self->face, 0, size); } - if (!error && encoding && strlen((char*) encoding) == 4) { - FT_Encoding encoding_tag = FT_MAKE_TAG( - encoding[0], encoding[1], encoding[2], encoding[3] - ); + if (!error && encoding && strlen((char *)encoding) == 4) { + FT_Encoding encoding_tag = + FT_MAKE_TAG(encoding[0], encoding[1], encoding[2], encoding[3]); error = FT_Select_Charmap(self->face, encoding_tag); } if (filename) { - PyMem_Free(filename); + PyMem_Free(filename); } if (error) { @@ -332,12 +327,11 @@ getfont(PyObject* self_, PyObject* args, PyObject* kw) return geterror(error); } - return (PyObject*) self; + return (PyObject *)self; } static int -font_getchar(PyObject* string, int index, FT_ULong* char_out) -{ +font_getchar(PyObject *string, int index, FT_ULong *char_out) { if (PyUnicode_Check(string)) { if (index >= PyUnicode_GET_LENGTH(string)) { return 0; @@ -349,9 +343,14 @@ font_getchar(PyObject* string, int index, FT_ULong* char_out) } static size_t -text_layout_raqm(PyObject* string, FontObject* self, const char* dir, PyObject *features, - const char* lang, GlyphInfo **glyph_info, int mask) -{ +text_layout_raqm( + PyObject *string, + FontObject *self, + const char *dir, + PyObject *features, + const char *lang, + GlyphInfo **glyph_info, + int mask) { size_t i = 0, count = 0, start = 0; raqm_t *rq; raqm_glyph_t *glyphs = NULL; @@ -368,7 +367,7 @@ text_layout_raqm(PyObject* string, FontObject* self, const char* dir, PyObject * if (PyUnicode_Check(string)) { Py_UNICODE *text = PyUnicode_AS_UNICODE(string); Py_ssize_t size = PyUnicode_GET_SIZE(string); - if (! size) { + if (!size) { /* return 0 and clean up, no glyphs==no size, and raqm fails with empty strings */ goto failed; @@ -421,11 +420,14 @@ text_layout_raqm(PyObject* string, FontObject* self, const char* dir, PyObject * } else if (strcmp(dir, "ttb") == 0) { direction = RAQM_DIRECTION_TTB; if (p_raqm.version_atleast == NULL || !(*p_raqm.version_atleast)(0, 7, 0)) { - PyErr_SetString(PyExc_ValueError, "libraqm 0.7 or greater required for 'ttb' direction"); + PyErr_SetString( + PyExc_ValueError, + "libraqm 0.7 or greater required for 'ttb' direction"); goto failed; } } else { - PyErr_SetString(PyExc_ValueError, "direction must be either 'rtl', 'ltr' or 'ttb'"); + PyErr_SetString( + PyExc_ValueError, "direction must be either 'rtl', 'ltr' or 'ttb'"); goto failed; } } @@ -528,9 +530,14 @@ text_layout_raqm(PyObject* string, FontObject* self, const char* dir, PyObject * } static size_t -text_layout_fallback(PyObject* string, FontObject* self, const char* dir, PyObject *features, - const char* lang, GlyphInfo **glyph_info, int mask) -{ +text_layout_fallback( + PyObject *string, + FontObject *self, + const char *dir, + PyObject *features, + const char *lang, + GlyphInfo **glyph_info, + int mask) { int error, load_flags; FT_ULong ch; Py_ssize_t count; @@ -540,7 +547,10 @@ text_layout_fallback(PyObject* string, FontObject* self, const char* dir, PyObje int i; if (features != Py_None || dir != NULL || lang != NULL) { - PyErr_SetString(PyExc_KeyError, "setting text direction, language or font features is not supported without libraqm"); + PyErr_SetString( + PyExc_KeyError, + "setting text direction, language or font features is not supported " + "without libraqm"); } if (!PyUnicode_Check(string)) { PyErr_SetString(PyExc_TypeError, "expected string"); @@ -549,7 +559,7 @@ text_layout_fallback(PyObject* string, FontObject* self, const char* dir, PyObje count = 0; while (font_getchar(string, count, &ch)) { - count++; + count++; } if (count == 0) { return 0; @@ -573,14 +583,18 @@ text_layout_fallback(PyObject* string, FontObject* self, const char* dir, PyObje return 0; } glyph = self->face->glyph; - (*glyph_info)[i].x_offset=0; - (*glyph_info)[i].y_offset=0; + (*glyph_info)[i].x_offset = 0; + (*glyph_info)[i].y_offset = 0; if (kerning && last_index && (*glyph_info)[i].index) { FT_Vector delta; - if (FT_Get_Kerning(self->face, last_index, (*glyph_info)[i].index, - ft_kerning_default,&delta) == 0) { - (*glyph_info)[i-1].x_advance += PIXEL(delta.x); - (*glyph_info)[i-1].y_advance += PIXEL(delta.y); + if (FT_Get_Kerning( + self->face, + last_index, + (*glyph_info)[i].index, + ft_kerning_default, + &delta) == 0) { + (*glyph_info)[i - 1].x_advance += PIXEL(delta.x); + (*glyph_info)[i - 1].y_advance += PIXEL(delta.y); } } @@ -593,22 +607,27 @@ text_layout_fallback(PyObject* string, FontObject* self, const char* dir, PyObje } static size_t -text_layout(PyObject* string, FontObject* self, const char* dir, PyObject *features, - const char* lang, GlyphInfo **glyph_info, int mask) -{ +text_layout( + PyObject *string, + FontObject *self, + const char *dir, + PyObject *features, + const char *lang, + GlyphInfo **glyph_info, + int mask) { size_t count; if (p_raqm.raqm && self->layout_engine == LAYOUT_RAQM) { - count = text_layout_raqm(string, self, dir, features, lang, glyph_info, mask); + count = text_layout_raqm(string, self, dir, features, lang, glyph_info, mask); } else { - count = text_layout_fallback(string, self, dir, features, lang, glyph_info, mask); + count = + text_layout_fallback(string, self, dir, features, lang, glyph_info, mask); } return count; } -static PyObject* -font_getsize(FontObject* self, PyObject* args) -{ +static PyObject * +font_getsize(FontObject *self, PyObject *args) { int x_position, x_max, x_min, y_max, y_min; FT_Face face; int xoffset, yoffset; @@ -623,8 +642,9 @@ font_getsize(FontObject* self, PyObject* args) /* calculate size and bearing for a given string */ - PyObject* string; - if (!PyArg_ParseTuple(args, "O|izOz:getsize", &string, &mask, &dir, &features, &lang)) { + PyObject *string; + if (!PyArg_ParseTuple( + args, "O|izOz:getsize", &string, &mask, &dir, &features, &lang)) { return NULL; } @@ -676,9 +696,8 @@ font_getsize(FontObject* self, PyObject* args) x_position += glyph_info[i].x_advance; x_advanced = x_position; - offset = glyph_info[i].x_advance - - face->glyph->metrics.width - - face->glyph->metrics.horiBearingX; + offset = glyph_info[i].x_advance - face->glyph->metrics.width - + face->glyph->metrics.horiBearingX; if (offset < 0) { x_advanced -= offset; } @@ -705,9 +724,8 @@ font_getsize(FontObject* self, PyObject* args) if (i == count - 1) { // trim end gap from final glyph int offset; - offset = -glyph_info[i].y_advance - - face->glyph->metrics.height - - face->glyph->metrics.vertBearingY; + offset = -glyph_info[i].y_advance - face->glyph->metrics.height - + face->glyph->metrics.vertBearingY; if (offset < 0) { y_max -= offset; } @@ -753,14 +771,14 @@ font_getsize(FontObject* self, PyObject* args) return Py_BuildValue( "(ii)(ii)", - PIXEL(x_max - x_min), PIXEL(y_max - y_min), - PIXEL(xoffset), yoffset - ); + PIXEL(x_max - x_min), + PIXEL(y_max - y_min), + PIXEL(xoffset), + yoffset); } -static PyObject* -font_render(FontObject* self, PyObject* args) -{ +static PyObject * +font_render(FontObject *self, PyObject *args) { int x; unsigned int y; Imaging im; @@ -776,7 +794,7 @@ font_render(FontObject* self, PyObject* args) FT_Int left; /* render string into given buffer (the buffer *must* have the right size, or this will crash) */ - PyObject* string; + PyObject *string; Py_ssize_t id; int mask = 0; int temp; @@ -789,8 +807,16 @@ font_render(FontObject* self, PyObject* args) GlyphInfo *glyph_info; PyObject *features = NULL; - if (!PyArg_ParseTuple(args, "On|izOzi:render", &string, &id, &mask, &dir, &features, &lang, - &stroke_width)) { + if (!PyArg_ParseTuple( + args, + "On|izOzi:render", + &string, + &id, + &mask, + &dir, + &features, + &lang, + &stroke_width)) { return NULL; } @@ -809,10 +835,15 @@ font_render(FontObject* self, PyObject* args) return geterror(error); } - FT_Stroker_Set(stroker, (FT_Fixed)stroke_width*64, FT_STROKER_LINECAP_ROUND, FT_STROKER_LINEJOIN_ROUND, 0); + FT_Stroker_Set( + stroker, + (FT_Fixed)stroke_width * 64, + FT_STROKER_LINECAP_ROUND, + FT_STROKER_LINEJOIN_ROUND, + 0); } - im = (Imaging) id; + im = (Imaging)id; /* Note: bitmap fonts within ttf fonts do not work, see #891/pr#960 */ load_flags = FT_LOAD_NO_BITMAP; if (mask) { @@ -895,10 +926,11 @@ font_render(FontObject* self, PyObject* args) x1 = im->xsize - xx; } - source = (unsigned char*) bitmap.buffer; + source = (unsigned char *)bitmap.buffer; for (bitmap_y = 0; bitmap_y < bitmap.rows; bitmap_y++) { if (horizontal_dir) { - yy = bitmap_y + im->ysize - (PIXEL(glyph_slot->metrics.horiBearingY) + ascender); + yy = bitmap_y + im->ysize - + (PIXEL(glyph_slot->metrics.horiBearingY) + ascender); yy -= PIXEL(glyph_info[i].y_offset) + stroke_width * 2; } else { yy = bitmap_y + PIXEL(y + glyph_slot->metrics.vertBearingY) + ascender; @@ -943,173 +975,166 @@ font_render(FontObject* self, PyObject* args) Py_RETURN_NONE; } -#if FREETYPE_MAJOR > 2 ||\ - (FREETYPE_MAJOR == 2 && FREETYPE_MINOR > 9) ||\ +#if FREETYPE_MAJOR > 2 || (FREETYPE_MAJOR == 2 && FREETYPE_MINOR > 9) || \ (FREETYPE_MAJOR == 2 && FREETYPE_MINOR == 9 && FREETYPE_PATCH == 1) - static PyObject* - font_getvarnames(FontObject* self) - { - int error; - FT_UInt i, j, num_namedstyles, name_count; - FT_MM_Var *master; - FT_SfntName name; - PyObject *list_names, *list_name; - - error = FT_Get_MM_Var(self->face, &master); +static PyObject * +font_getvarnames(FontObject *self) { + int error; + FT_UInt i, j, num_namedstyles, name_count; + FT_MM_Var *master; + FT_SfntName name; + PyObject *list_names, *list_name; + + error = FT_Get_MM_Var(self->face, &master); + if (error) { + return geterror(error); + } + + num_namedstyles = master->num_namedstyles; + list_names = PyList_New(num_namedstyles); + + name_count = FT_Get_Sfnt_Name_Count(self->face); + for (i = 0; i < name_count; i++) { + error = FT_Get_Sfnt_Name(self->face, i, &name); if (error) { return geterror(error); } - num_namedstyles = master->num_namedstyles; - list_names = PyList_New(num_namedstyles); - - name_count = FT_Get_Sfnt_Name_Count(self->face); - for (i = 0; i < name_count; i++) { - error = FT_Get_Sfnt_Name(self->face, i, &name); - if (error) { - return geterror(error); + for (j = 0; j < num_namedstyles; j++) { + if (PyList_GetItem(list_names, j) != NULL) { + continue; } - for (j = 0; j < num_namedstyles; j++) { - if (PyList_GetItem(list_names, j) != NULL) { - continue; - } - - if (master->namedstyle[j].strid == name.name_id) { - list_name = Py_BuildValue("y#", name.string, name.string_len); - PyList_SetItem(list_names, j, list_name); - break; - } + if (master->namedstyle[j].strid == name.name_id) { + list_name = Py_BuildValue("y#", name.string, name.string_len); + PyList_SetItem(list_names, j, list_name); + break; } } + } - FT_Done_MM_Var(library, master); + FT_Done_MM_Var(library, master); - return list_names; + return list_names; +} + +static PyObject * +font_getvaraxes(FontObject *self) { + int error; + FT_UInt i, j, num_axis, name_count; + FT_MM_Var *master; + FT_Var_Axis axis; + FT_SfntName name; + PyObject *list_axes, *list_axis, *axis_name; + error = FT_Get_MM_Var(self->face, &master); + if (error) { + return geterror(error); } - static PyObject* - font_getvaraxes(FontObject* self) - { - int error; - FT_UInt i, j, num_axis, name_count; - FT_MM_Var* master; - FT_Var_Axis axis; - FT_SfntName name; - PyObject *list_axes, *list_axis, *axis_name; - error = FT_Get_MM_Var(self->face, &master); - if (error) { - return geterror(error); - } + num_axis = master->num_axis; + name_count = FT_Get_Sfnt_Name_Count(self->face); - num_axis = master->num_axis; - name_count = FT_Get_Sfnt_Name_Count(self->face); - - list_axes = PyList_New(num_axis); - for (i = 0; i < num_axis; i++) { - axis = master->axis[i]; - - list_axis = PyDict_New(); - PyDict_SetItemString(list_axis, "minimum", - PyLong_FromLong(axis.minimum / 65536)); - PyDict_SetItemString(list_axis, "default", - PyLong_FromLong(axis.def / 65536)); - PyDict_SetItemString(list_axis, "maximum", - PyLong_FromLong(axis.maximum / 65536)); - - for (j = 0; j < name_count; j++) { - error = FT_Get_Sfnt_Name(self->face, j, &name); - if (error) { - return geterror(error); - } + list_axes = PyList_New(num_axis); + for (i = 0; i < num_axis; i++) { + axis = master->axis[i]; - if (name.name_id == axis.strid) { - axis_name = Py_BuildValue("y#", name.string, name.string_len); - PyDict_SetItemString(list_axis, "name", axis_name); - break; - } + list_axis = PyDict_New(); + PyDict_SetItemString( + list_axis, "minimum", PyLong_FromLong(axis.minimum / 65536)); + PyDict_SetItemString(list_axis, "default", PyLong_FromLong(axis.def / 65536)); + PyDict_SetItemString( + list_axis, "maximum", PyLong_FromLong(axis.maximum / 65536)); + + for (j = 0; j < name_count; j++) { + error = FT_Get_Sfnt_Name(self->face, j, &name); + if (error) { + return geterror(error); } - PyList_SetItem(list_axes, i, list_axis); + if (name.name_id == axis.strid) { + axis_name = Py_BuildValue("y#", name.string, name.string_len); + PyDict_SetItemString(list_axis, "name", axis_name); + break; + } } - FT_Done_MM_Var(library, master); - - return list_axes; + PyList_SetItem(list_axes, i, list_axis); } - static PyObject* - font_setvarname(FontObject* self, PyObject* args) - { - int error; + FT_Done_MM_Var(library, master); - int instance_index; - if (!PyArg_ParseTuple(args, "i", &instance_index)) { - return NULL; - } + return list_axes; +} - error = FT_Set_Named_Instance(self->face, instance_index); - if (error) { - return geterror(error); - } +static PyObject * +font_setvarname(FontObject *self, PyObject *args) { + int error; - Py_INCREF(Py_None); - return Py_None; + int instance_index; + if (!PyArg_ParseTuple(args, "i", &instance_index)) { + return NULL; } - static PyObject* - font_setvaraxes(FontObject* self, PyObject* args) - { - int error; + error = FT_Set_Named_Instance(self->face, instance_index); + if (error) { + return geterror(error); + } - PyObject *axes, *item; - Py_ssize_t i, num_coords; - FT_Fixed *coords; - FT_Fixed coord; - if (!PyArg_ParseTuple(args, "O", &axes)) { - return NULL; - } + Py_INCREF(Py_None); + return Py_None; +} - if (!PyList_Check(axes)) { - PyErr_SetString(PyExc_TypeError, "argument must be a list"); - return NULL; - } +static PyObject * +font_setvaraxes(FontObject *self, PyObject *args) { + int error; - num_coords = PyObject_Length(axes); - coords = malloc(2 * sizeof(coords)); - if (coords == NULL) { - return PyErr_NoMemory(); - } - for (i = 0; i < num_coords; i++) { - item = PyList_GET_ITEM(axes, i); - if (PyFloat_Check(item)) { - coord = PyFloat_AS_DOUBLE(item); - } else if (PyLong_Check(item)) { - coord = (float) PyLong_AS_LONG(item); - } else if (PyNumber_Check(item)) { - coord = PyFloat_AsDouble(item); - } else { - free(coords); - PyErr_SetString(PyExc_TypeError, "list must contain numbers"); - return NULL; - } - coords[i] = coord * 65536; - } + PyObject *axes, *item; + Py_ssize_t i, num_coords; + FT_Fixed *coords; + FT_Fixed coord; + if (!PyArg_ParseTuple(args, "O", &axes)) { + return NULL; + } - error = FT_Set_Var_Design_Coordinates(self->face, num_coords, coords); - free(coords); - if (error) { - return geterror(error); + if (!PyList_Check(axes)) { + PyErr_SetString(PyExc_TypeError, "argument must be a list"); + return NULL; + } + + num_coords = PyObject_Length(axes); + coords = malloc(2 * sizeof(coords)); + if (coords == NULL) { + return PyErr_NoMemory(); + } + for (i = 0; i < num_coords; i++) { + item = PyList_GET_ITEM(axes, i); + if (PyFloat_Check(item)) { + coord = PyFloat_AS_DOUBLE(item); + } else if (PyLong_Check(item)) { + coord = (float)PyLong_AS_LONG(item); + } else if (PyNumber_Check(item)) { + coord = PyFloat_AsDouble(item); + } else { + free(coords); + PyErr_SetString(PyExc_TypeError, "list must contain numbers"); + return NULL; } + coords[i] = coord * 65536; + } - Py_INCREF(Py_None); - return Py_None; + error = FT_Set_Var_Design_Coordinates(self->face, num_coords, coords); + free(coords); + if (error) { + return geterror(error); } + + Py_INCREF(Py_None); + return Py_None; +} #endif static void -font_dealloc(FontObject* self) -{ +font_dealloc(FontObject *self) { if (self->face) { FT_Done_Face(self->face); } @@ -1120,127 +1145,114 @@ font_dealloc(FontObject* self) } static PyMethodDef font_methods[] = { - {"render", (PyCFunction) font_render, METH_VARARGS}, - {"getsize", (PyCFunction) font_getsize, METH_VARARGS}, -#if FREETYPE_MAJOR > 2 ||\ - (FREETYPE_MAJOR == 2 && FREETYPE_MINOR > 9) ||\ + {"render", (PyCFunction)font_render, METH_VARARGS}, + {"getsize", (PyCFunction)font_getsize, METH_VARARGS}, +#if FREETYPE_MAJOR > 2 || (FREETYPE_MAJOR == 2 && FREETYPE_MINOR > 9) || \ (FREETYPE_MAJOR == 2 && FREETYPE_MINOR == 9 && FREETYPE_PATCH == 1) - {"getvarnames", (PyCFunction) font_getvarnames, METH_NOARGS }, - {"getvaraxes", (PyCFunction) font_getvaraxes, METH_NOARGS }, - {"setvarname", (PyCFunction) font_setvarname, METH_VARARGS}, - {"setvaraxes", (PyCFunction) font_setvaraxes, METH_VARARGS}, + {"getvarnames", (PyCFunction)font_getvarnames, METH_NOARGS}, + {"getvaraxes", (PyCFunction)font_getvaraxes, METH_NOARGS}, + {"setvarname", (PyCFunction)font_setvarname, METH_VARARGS}, + {"setvaraxes", (PyCFunction)font_setvaraxes, METH_VARARGS}, #endif - {NULL, NULL} -}; + {NULL, NULL}}; -static PyObject* -font_getattr_family(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_family(FontObject *self, void *closure) { if (self->face->family_name) { return PyUnicode_FromString(self->face->family_name); } Py_RETURN_NONE; } -static PyObject* -font_getattr_style(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_style(FontObject *self, void *closure) { if (self->face->style_name) { return PyUnicode_FromString(self->face->style_name); } Py_RETURN_NONE; } -static PyObject* -font_getattr_ascent(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_ascent(FontObject *self, void *closure) { return PyLong_FromLong(PIXEL(self->face->size->metrics.ascender)); } -static PyObject* -font_getattr_descent(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_descent(FontObject *self, void *closure) { return PyLong_FromLong(-PIXEL(self->face->size->metrics.descender)); } -static PyObject* -font_getattr_height(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_height(FontObject *self, void *closure) { return PyLong_FromLong(PIXEL(self->face->size->metrics.height)); } -static PyObject* -font_getattr_x_ppem(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_x_ppem(FontObject *self, void *closure) { return PyLong_FromLong(self->face->size->metrics.x_ppem); } -static PyObject* -font_getattr_y_ppem(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_y_ppem(FontObject *self, void *closure) { return PyLong_FromLong(self->face->size->metrics.y_ppem); } - -static PyObject* -font_getattr_glyphs(FontObject* self, void* closure) -{ +static PyObject * +font_getattr_glyphs(FontObject *self, void *closure) { return PyLong_FromLong(self->face->num_glyphs); } static struct PyGetSetDef font_getsetters[] = { - { "family", (getter) font_getattr_family }, - { "style", (getter) font_getattr_style }, - { "ascent", (getter) font_getattr_ascent }, - { "descent", (getter) font_getattr_descent }, - { "height", (getter) font_getattr_height }, - { "x_ppem", (getter) font_getattr_x_ppem }, - { "y_ppem", (getter) font_getattr_y_ppem }, - { "glyphs", (getter) font_getattr_glyphs }, - { NULL } -}; + {"family", (getter)font_getattr_family}, + {"style", (getter)font_getattr_style}, + {"ascent", (getter)font_getattr_ascent}, + {"descent", (getter)font_getattr_descent}, + {"height", (getter)font_getattr_height}, + {"x_ppem", (getter)font_getattr_x_ppem}, + {"y_ppem", (getter)font_getattr_y_ppem}, + {"glyphs", (getter)font_getattr_glyphs}, + {NULL}}; static PyTypeObject Font_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "Font", sizeof(FontObject), 0, + PyVarObject_HEAD_INIT(NULL, 0) "Font", + sizeof(FontObject), + 0, /* methods */ (destructor)font_dealloc, /* tp_dealloc */ - 0, /* tp_print */ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - font_methods, /*tp_methods*/ - 0, /*tp_members*/ - font_getsetters, /*tp_getset*/ + 0, /* tp_print */ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + font_methods, /*tp_methods*/ + 0, /*tp_members*/ + font_getsetters, /*tp_getset*/ }; static PyMethodDef _functions[] = { - {"getfont", (PyCFunction) getfont, METH_VARARGS|METH_KEYWORDS}, - {NULL, NULL} -}; + {"getfont", (PyCFunction)getfont, METH_VARARGS | METH_KEYWORDS}, {NULL, NULL}}; static int -setup_module(PyObject* m) { - PyObject* d; - PyObject* v; +setup_module(PyObject *m) { + PyObject *d; + PyObject *v; int major, minor, patch; d = PyModule_GetDict(m); @@ -1257,12 +1269,12 @@ setup_module(PyObject* m) { v = PyUnicode_FromFormat("%d.%d.%d", major, minor, patch); PyDict_SetItemString(d, "freetype2_version", v); - setraqm(); v = PyBool_FromLong(!!p_raqm.raqm); PyDict_SetItemString(d, "HAVE_RAQM", v); if (p_raqm.version_string) { - PyDict_SetItemString(d, "raqm_version", PyUnicode_FromString(p_raqm.version_string())); + PyDict_SetItemString( + d, "raqm_version", PyUnicode_FromString(p_raqm.version_string())); } return 0; @@ -1270,14 +1282,14 @@ setup_module(PyObject* m) { PyMODINIT_FUNC PyInit__imagingft(void) { - PyObject* m; + PyObject *m; static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_imagingft", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - _functions, /* m_methods */ + "_imagingft", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + _functions, /* m_methods */ }; m = PyModule_Create(&module_def); diff --git a/src/_imagingmath.c b/src/_imagingmath.c index 959859a1d3e..457c803098c 100644 --- a/src/_imagingmath.c +++ b/src/_imagingmath.c @@ -23,50 +23,51 @@ #define MAX_INT32 2147483647.0 #define MIN_INT32 -2147483648.0 -#define UNOP(name, op, type)\ -void name(Imaging out, Imaging im1)\ -{\ - int x, y;\ - for (y = 0; y < out->ysize; y++) {\ - type* p0 = (type*) out->image[y];\ - type* p1 = (type*) im1->image[y];\ - for (x = 0; x < out->xsize; x++) {\ - *p0 = op(type, *p1);\ - p0++; p1++;\ - }\ - }\ -} +#define UNOP(name, op, type) \ + void name(Imaging out, Imaging im1) { \ + int x, y; \ + for (y = 0; y < out->ysize; y++) { \ + type *p0 = (type *)out->image[y]; \ + type *p1 = (type *)im1->image[y]; \ + for (x = 0; x < out->xsize; x++) { \ + *p0 = op(type, *p1); \ + p0++; \ + p1++; \ + } \ + } \ + } -#define BINOP(name, op, type)\ -void name(Imaging out, Imaging im1, Imaging im2)\ -{\ - int x, y;\ - for (y = 0; y < out->ysize; y++) {\ - type* p0 = (type*) out->image[y];\ - type* p1 = (type*) im1->image[y];\ - type* p2 = (type*) im2->image[y];\ - for (x = 0; x < out->xsize; x++) {\ - *p0 = op(type, *p1, *p2);\ - p0++; p1++; p2++;\ - }\ - }\ -} +#define BINOP(name, op, type) \ + void name(Imaging out, Imaging im1, Imaging im2) { \ + int x, y; \ + for (y = 0; y < out->ysize; y++) { \ + type *p0 = (type *)out->image[y]; \ + type *p1 = (type *)im1->image[y]; \ + type *p2 = (type *)im2->image[y]; \ + for (x = 0; x < out->xsize; x++) { \ + *p0 = op(type, *p1, *p2); \ + p0++; \ + p1++; \ + p2++; \ + } \ + } \ + } #define NEG(type, v1) -(v1) #define INVERT(type, v1) ~(v1) -#define ADD(type, v1, v2) (v1)+(v2) -#define SUB(type, v1, v2) (v1)-(v2) -#define MUL(type, v1, v2) (v1)*(v2) +#define ADD(type, v1, v2) (v1) + (v2) +#define SUB(type, v1, v2) (v1) - (v2) +#define MUL(type, v1, v2) (v1) * (v2) -#define MIN(type, v1, v2) ((v1)<(v2))?(v1):(v2) -#define MAX(type, v1, v2) ((v1)>(v2))?(v1):(v2) +#define MIN(type, v1, v2) ((v1) < (v2)) ? (v1) : (v2) +#define MAX(type, v1, v2) ((v1) > (v2)) ? (v1) : (v2) -#define AND(type, v1, v2) (v1)&(v2) -#define OR(type, v1, v2) (v1)|(v2) -#define XOR(type, v1, v2) (v1)^(v2) -#define LSHIFT(type, v1, v2) (v1)<<(v2) -#define RSHIFT(type, v1, v2) (v1)>>(v2) +#define AND(type, v1, v2) (v1) & (v2) +#define OR(type, v1, v2) (v1) | (v2) +#define XOR(type, v1, v2) (v1) ^ (v2) +#define LSHIFT(type, v1, v2) (v1) << (v2) +#define RSHIFT(type, v1, v2) (v1) >> (v2) #define ABS_I(type, v1) abs((v1)) #define ABS_F(type, v1) fabs((v1)) @@ -79,14 +80,14 @@ void name(Imaging out, Imaging im1, Imaging im2)\ * PyFPE_END_PROTECT(result) */ -#define DIV_I(type, v1, v2) ((v2)!=0)?(v1)/(v2):0 -#define DIV_F(type, v1, v2) ((v2)!=0.0F)?(v1)/(v2):0.0F +#define DIV_I(type, v1, v2) ((v2) != 0) ? (v1) / (v2) : 0 +#define DIV_F(type, v1, v2) ((v2) != 0.0F) ? (v1) / (v2) : 0.0F -#define MOD_I(type, v1, v2) ((v2)!=0)?(v1)%(v2):0 -#define MOD_F(type, v1, v2) ((v2)!=0.0F)?fmod((v1),(v2)):0.0F +#define MOD_I(type, v1, v2) ((v2) != 0) ? (v1) % (v2) : 0 +#define MOD_F(type, v1, v2) ((v2) != 0.0F) ? fmod((v1), (v2)) : 0.0F -static int powi(int x, int y) -{ +static int +powi(int x, int y) { double v = pow(x, y) + 0.5; if (errno == EDOM) { return 0; @@ -96,21 +97,21 @@ static int powi(int x, int y) } else if (v > MAX_INT32) { v = MAX_INT32; } - return (int) v; + return (int)v; } #define POW_I(type, v1, v2) powi(v1, v2) #define POW_F(type, v1, v2) powf(v1, v2) /* FIXME: EDOM handling */ -#define DIFF_I(type, v1, v2) abs((v1)-(v2)) -#define DIFF_F(type, v1, v2) fabs((v1)-(v2)) +#define DIFF_I(type, v1, v2) abs((v1) - (v2)) +#define DIFF_F(type, v1, v2) fabs((v1) - (v2)) -#define EQ(type, v1, v2) (v1)==(v2) -#define NE(type, v1, v2) (v1)!=(v2) -#define LT(type, v1, v2) (v1)<(v2) -#define LE(type, v1, v2) (v1)<=(v2) -#define GT(type, v1, v2) (v1)>(v2) -#define GE(type, v1, v2) (v1)>=(v2) +#define EQ(type, v1, v2) (v1) == (v2) +#define NE(type, v1, v2) (v1) != (v2) +#define LT(type, v1, v2) (v1) < (v2) +#define LE(type, v1, v2) (v1) <= (v2) +#define GT(type, v1, v2) (v1) > (v2) +#define GE(type, v1, v2) (v1) >= (v2) UNOP(abs_I, ABS_I, INT32) UNOP(neg_I, NEG, INT32) @@ -162,8 +163,7 @@ BINOP(gt_F, GT, FLOAT32) BINOP(ge_F, GE, FLOAT32) static PyObject * -_unop(PyObject* self, PyObject* args) -{ +_unop(PyObject *self, PyObject *args) { Imaging out; Imaging im1; void (*unop)(Imaging, Imaging); @@ -173,10 +173,10 @@ _unop(PyObject* self, PyObject* args) return NULL; } - out = (Imaging) i0; - im1 = (Imaging) i1; + out = (Imaging)i0; + im1 = (Imaging)i1; - unop = (void*) op; + unop = (void *)op; unop(out, im1); @@ -185,8 +185,7 @@ _unop(PyObject* self, PyObject* args) } static PyObject * -_binop(PyObject* self, PyObject* args) -{ +_binop(PyObject *self, PyObject *args) { Imaging out; Imaging im1; Imaging im2; @@ -197,11 +196,11 @@ _binop(PyObject* self, PyObject* args) return NULL; } - out = (Imaging) i0; - im1 = (Imaging) i1; - im2 = (Imaging) i2; + out = (Imaging)i0; + im1 = (Imaging)i1; + im2 = (Imaging)i2; - binop = (void*) op; + binop = (void *)op; binop(out, im1, im2); @@ -210,15 +209,11 @@ _binop(PyObject* self, PyObject* args) } static PyMethodDef _functions[] = { - {"unop", _unop, 1}, - {"binop", _binop, 1}, - {NULL, NULL} -}; + {"unop", _unop, 1}, {"binop", _binop, 1}, {NULL, NULL}}; static void -install(PyObject *d, char* name, void* value) -{ - PyObject *v = PyLong_FromSsize_t((Py_ssize_t) value); +install(PyObject *d, char *name, void *value) { + PyObject *v = PyLong_FromSsize_t((Py_ssize_t)value); if (!v || PyDict_SetItemString(d, name, v)) { PyErr_Clear(); } @@ -226,8 +221,8 @@ install(PyObject *d, char* name, void* value) } static int -setup_module(PyObject* m) { - PyObject* d = PyModule_GetDict(m); +setup_module(PyObject *m) { + PyObject *d = PyModule_GetDict(m); install(d, "abs_I", abs_I); install(d, "neg_I", neg_I); @@ -279,14 +274,14 @@ setup_module(PyObject* m) { PyMODINIT_FUNC PyInit__imagingmath(void) { - PyObject* m; + PyObject *m; static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_imagingmath", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - _functions, /* m_methods */ + "_imagingmath", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + _functions, /* m_methods */ }; m = PyModule_Create(&module_def); diff --git a/src/_imagingmorph.c b/src/_imagingmorph.c index 4f7844604c6..428150b4b7a 100644 --- a/src/_imagingmorph.c +++ b/src/_imagingmorph.c @@ -14,7 +14,7 @@ #include "Python.h" #include "Imaging.h" -#define LUT_SIZE (1<<9) +#define LUT_SIZE (1 << 9) /* Apply a morphologic LUT to a binary image. Outputs a a new binary image. @@ -27,9 +27,8 @@ Returns number of changed pixels. */ -static PyObject* -apply(PyObject *self, PyObject* args) -{ +static PyObject * +apply(PyObject *self, PyObject *args) { const char *lut; PyObject *py_lut; Py_ssize_t lut_len, i0, i1; @@ -58,18 +57,16 @@ apply(PyObject *self, PyObject* args) lut = PyBytes_AsString(py_lut); - imgin = (Imaging) i0; - imgout = (Imaging) i1; + imgin = (Imaging)i0; + imgout = (Imaging)i1; width = imgin->xsize; height = imgin->ysize; - if (imgin->type != IMAGING_TYPE_UINT8 || - imgin->bands != 1) { + if (imgin->type != IMAGING_TYPE_UINT8 || imgin->bands != 1) { PyErr_SetString(PyExc_RuntimeError, "Unsupported image type"); return NULL; } - if (imgout->type != IMAGING_TYPE_UINT8 || - imgout->bands != 1) { + if (imgout->type != IMAGING_TYPE_UINT8 || imgout->bands != 1) { PyErr_SetString(PyExc_RuntimeError, "Unsupported image type"); return NULL; } @@ -77,52 +74,46 @@ apply(PyObject *self, PyObject* args) inrows = imgin->image8; outrows = imgout->image8; - for (row_idx=0; row_idx < height; row_idx++) { + for (row_idx = 0; row_idx < height; row_idx++) { UINT8 *outrow = outrows[row_idx]; UINT8 *inrow = inrows[row_idx]; UINT8 *prow, *nrow; /* Previous and next row */ /* zero boundary conditions. TBD support other modes */ - outrow[0] = outrow[width-1] = 0; - if (row_idx==0 || row_idx == height-1) { - for(col_idx=0; col_idxtype != IMAGING_TYPE_UINT8 || - imgin->bands != 1) { + if (imgin->type != IMAGING_TYPE_UINT8 || imgin->bands != 1) { PyErr_SetString(PyExc_RuntimeError, "Unsupported image type"); return NULL; } @@ -177,39 +166,33 @@ match(PyObject *self, PyObject* args) width = imgin->xsize; height = imgin->ysize; - for (row_idx=1; row_idx < height-1; row_idx++) { + for (row_idx = 1; row_idx < height - 1; row_idx++) { UINT8 *inrow = inrows[row_idx]; UINT8 *prow, *nrow; - prow = inrows[row_idx-1]; - nrow = inrows[row_idx+1]; - - for (col_idx=1; col_idximage8; width = img->xsize; height = img->ysize; - for (row_idx=0; row_idx < height; row_idx++) { + for (row_idx = 0; row_idx < height; row_idx++) { UINT8 *row = rows[row_idx]; - for (col_idx=0; col_idxinterp; } @@ -69,10 +68,10 @@ PyMODINIT_FUNC PyInit__imagingtk(void) { static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_imagingtk", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - functions, /* m_methods */ + "_imagingtk", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + functions, /* m_methods */ }; PyObject *m; m = PyModule_Create(&module_def); diff --git a/src/_webp.c b/src/_webp.c index 468a9ff73c6..34f559a913b 100644 --- a/src/_webp.c +++ b/src/_webp.c @@ -21,12 +21,14 @@ #endif -void ImagingSectionEnter(ImagingSectionCookie* cookie) { - *cookie = (PyThreadState *) PyEval_SaveThread(); +void +ImagingSectionEnter(ImagingSectionCookie *cookie) { + *cookie = (PyThreadState *)PyEval_SaveThread(); } -void ImagingSectionLeave(ImagingSectionCookie* cookie) { - PyEval_RestoreThread((PyThreadState*) *cookie); +void +ImagingSectionLeave(ImagingSectionCookie *cookie) { + PyEval_RestoreThread((PyThreadState *)*cookie); } /* -------------------------------------------------------------------- */ @@ -35,12 +37,15 @@ void ImagingSectionLeave(ImagingSectionCookie* cookie) { #ifdef HAVE_WEBPMUX -static const char* const kErrorMessages[-WEBP_MUX_NOT_ENOUGH_DATA + 1] = { - "WEBP_MUX_NOT_FOUND", "WEBP_MUX_INVALID_ARGUMENT", "WEBP_MUX_BAD_DATA", - "WEBP_MUX_MEMORY_ERROR", "WEBP_MUX_NOT_ENOUGH_DATA" -}; +static const char *const kErrorMessages[-WEBP_MUX_NOT_ENOUGH_DATA + 1] = { + "WEBP_MUX_NOT_FOUND", + "WEBP_MUX_INVALID_ARGUMENT", + "WEBP_MUX_BAD_DATA", + "WEBP_MUX_MEMORY_ERROR", + "WEBP_MUX_NOT_ENOUGH_DATA"}; -PyObject* HandleMuxError(WebPMuxError err, char* chunk) { +PyObject * +HandleMuxError(WebPMuxError err, char *chunk) { char message[100]; int message_len; assert(err <= WEBP_MUX_NOT_FOUND && err >= WEBP_MUX_NOT_ENOUGH_DATA); @@ -52,9 +57,11 @@ PyObject* HandleMuxError(WebPMuxError err, char* chunk) { // Create the error message if (chunk == NULL) { - message_len = sprintf(message, "could not assemble chunks: %s", kErrorMessages[-err]); + message_len = + sprintf(message, "could not assemble chunks: %s", kErrorMessages[-err]); } else { - message_len = sprintf(message, "could not set %.4s chunk: %s", chunk, kErrorMessages[-err]); + message_len = sprintf( + message, "could not set %.4s chunk: %s", chunk, kErrorMessages[-err]); } if (message_len < 0) { PyErr_SetString(PyExc_RuntimeError, "failed to construct error message"); @@ -90,8 +97,7 @@ PyObject* HandleMuxError(WebPMuxError err, char* chunk) { // Encoder type typedef struct { - PyObject_HEAD - WebPAnimEncoder* enc; + PyObject_HEAD WebPAnimEncoder *enc; WebPPicture frame; } WebPAnimEncoderObject; @@ -99,18 +105,17 @@ static PyTypeObject WebPAnimEncoder_Type; // Decoder type typedef struct { - PyObject_HEAD - WebPAnimDecoder* dec; + PyObject_HEAD WebPAnimDecoder *dec; WebPAnimInfo info; WebPData data; - char* mode; + char *mode; } WebPAnimDecoderObject; static PyTypeObject WebPAnimDecoder_Type; // Encoder functions -PyObject* _anim_encoder_new(PyObject* self, PyObject* args) -{ +PyObject * +_anim_encoder_new(PyObject *self, PyObject *args) { int width, height; uint32_t bgcolor; int loop_count; @@ -119,12 +124,21 @@ PyObject* _anim_encoder_new(PyObject* self, PyObject* args) int allow_mixed; int verbose; WebPAnimEncoderOptions enc_options; - WebPAnimEncoderObject* encp = NULL; - WebPAnimEncoder* enc = NULL; - - if (!PyArg_ParseTuple(args, "iiIiiiiii", - &width, &height, &bgcolor, &loop_count, &minimize_size, - &kmin, &kmax, &allow_mixed, &verbose)) { + WebPAnimEncoderObject *encp = NULL; + WebPAnimEncoder *enc = NULL; + + if (!PyArg_ParseTuple( + args, + "iiIiiiiii", + &width, + &height, + &bgcolor, + &loop_count, + &minimize_size, + &kmin, + &kmax, + &allow_mixed, + &verbose)) { return NULL; } @@ -154,7 +168,7 @@ PyObject* _anim_encoder_new(PyObject* self, PyObject* args) enc = WebPAnimEncoderNew(width, height, &enc_options); if (enc) { encp->enc = enc; - return (PyObject*) encp; + return (PyObject *)encp; } WebPPictureFree(&(encp->frame)); } @@ -164,33 +178,42 @@ PyObject* _anim_encoder_new(PyObject* self, PyObject* args) return NULL; } -PyObject* _anim_encoder_dealloc(PyObject* self) -{ - WebPAnimEncoderObject* encp = (WebPAnimEncoderObject*)self; +PyObject * +_anim_encoder_dealloc(PyObject *self) { + WebPAnimEncoderObject *encp = (WebPAnimEncoderObject *)self; WebPPictureFree(&(encp->frame)); WebPAnimEncoderDelete(encp->enc); Py_RETURN_NONE; } -PyObject* _anim_encoder_add(PyObject* self, PyObject* args) -{ - uint8_t* rgb; +PyObject * +_anim_encoder_add(PyObject *self, PyObject *args) { + uint8_t *rgb; Py_ssize_t size; int timestamp; int width; int height; - char* mode; + char *mode; int lossless; float quality_factor; int method; WebPConfig config; - WebPAnimEncoderObject* encp = (WebPAnimEncoderObject*)self; - WebPAnimEncoder* enc = encp->enc; - WebPPicture* frame = &(encp->frame); - - if (!PyArg_ParseTuple(args, "z#iiisifi", - (char**)&rgb, &size, ×tamp, &width, &height, &mode, - &lossless, &quality_factor, &method)) { + WebPAnimEncoderObject *encp = (WebPAnimEncoderObject *)self; + WebPAnimEncoder *enc = encp->enc; + WebPPicture *frame = &(encp->frame); + + if (!PyArg_ParseTuple( + args, + "z#iiisifi", + (char **)&rgb, + &size, + ×tamp, + &width, + &height, + &mode, + &lossless, + &quality_factor, + &method)) { return NULL; } @@ -218,10 +241,10 @@ PyObject* _anim_encoder_add(PyObject* self, PyObject* args) // Populate the frame with raw bytes passed to us frame->width = width; frame->height = height; - frame->use_argb = 1; // Don't convert RGB pixels to YUV - if (strcmp(mode, "RGBA")==0) { + frame->use_argb = 1; // Don't convert RGB pixels to YUV + if (strcmp(mode, "RGBA") == 0) { WebPPictureImportRGBA(frame, rgb, 4 * width); - } else if (strcmp(mode, "RGBX")==0) { + } else if (strcmp(mode, "RGBX") == 0) { WebPPictureImportRGBX(frame, rgb, 4 * width); } else { WebPPictureImportRGB(frame, rgb, 3 * width); @@ -236,22 +259,29 @@ PyObject* _anim_encoder_add(PyObject* self, PyObject* args) Py_RETURN_NONE; } -PyObject* _anim_encoder_assemble(PyObject* self, PyObject* args) -{ - uint8_t* icc_bytes; - uint8_t* exif_bytes; - uint8_t* xmp_bytes; +PyObject * +_anim_encoder_assemble(PyObject *self, PyObject *args) { + uint8_t *icc_bytes; + uint8_t *exif_bytes; + uint8_t *xmp_bytes; Py_ssize_t icc_size; Py_ssize_t exif_size; Py_ssize_t xmp_size; WebPData webp_data; - WebPAnimEncoderObject* encp = (WebPAnimEncoderObject*)self; - WebPAnimEncoder* enc = encp->enc; - WebPMux* mux = NULL; - PyObject* ret = NULL; - - if (!PyArg_ParseTuple(args, "s#s#s#", - &icc_bytes, &icc_size, &exif_bytes, &exif_size, &xmp_bytes, &xmp_size)) { + WebPAnimEncoderObject *encp = (WebPAnimEncoderObject *)self; + WebPAnimEncoder *enc = encp->enc; + WebPMux *mux = NULL; + PyObject *ret = NULL; + + if (!PyArg_ParseTuple( + args, + "s#s#s#", + &icc_bytes, + &icc_size, + &exif_bytes, + &exif_size, + &xmp_bytes, + &xmp_size)) { return NULL; } @@ -270,9 +300,9 @@ PyObject* _anim_encoder_assemble(PyObject* self, PyObject* args) int i_icc_size = (int)icc_size; int i_exif_size = (int)exif_size; int i_xmp_size = (int)xmp_size; - WebPData icc_profile = { icc_bytes, i_icc_size }; - WebPData exif = { exif_bytes, i_exif_size }; - WebPData xmp = { xmp_bytes, i_xmp_size }; + WebPData icc_profile = {icc_bytes, i_icc_size}; + WebPData exif = {exif_bytes, i_exif_size}; + WebPData xmp = {xmp_bytes, i_xmp_size}; mux = WebPMuxCreate(&webp_data, 1); if (mux == NULL) { @@ -312,7 +342,7 @@ PyObject* _anim_encoder_assemble(PyObject* self, PyObject* args) } // Convert to Python bytes - ret = PyBytes_FromStringAndSize((char*)webp_data.bytes, webp_data.size); + ret = PyBytes_FromStringAndSize((char *)webp_data.bytes, webp_data.size); WebPDataClear(&webp_data); // If we had to re-mux, we should free it now that we're done with it @@ -324,21 +354,21 @@ PyObject* _anim_encoder_assemble(PyObject* self, PyObject* args) } // Decoder functions -PyObject* _anim_decoder_new(PyObject* self, PyObject* args) -{ +PyObject * +_anim_decoder_new(PyObject *self, PyObject *args) { PyBytesObject *webp_string; const uint8_t *webp; Py_ssize_t size; WebPData webp_src; - char* mode; + char *mode; WebPDecoderConfig config; - WebPAnimDecoderObject* decp = NULL; - WebPAnimDecoder* dec = NULL; + WebPAnimDecoderObject *decp = NULL; + WebPAnimDecoder *dec = NULL; if (!PyArg_ParseTuple(args, "S", &webp_string)) { return NULL; } - PyBytes_AsStringAndSize((PyObject *)webp_string, (char**)&webp, &size); + PyBytes_AsStringAndSize((PyObject *)webp_string, (char **)&webp, &size); webp_src.bytes = webp; webp_src.size = size; @@ -359,7 +389,7 @@ PyObject* _anim_decoder_new(PyObject* self, PyObject* args) if (dec) { if (WebPAnimDecoderGetInfo(dec, &(decp->info))) { decp->dec = dec; - return (PyObject*)decp; + return (PyObject *)decp; } } } @@ -369,33 +399,34 @@ PyObject* _anim_decoder_new(PyObject* self, PyObject* args) return NULL; } -PyObject* _anim_decoder_dealloc(PyObject* self) -{ - WebPAnimDecoderObject* decp = (WebPAnimDecoderObject *)self; +PyObject * +_anim_decoder_dealloc(PyObject *self) { + WebPAnimDecoderObject *decp = (WebPAnimDecoderObject *)self; WebPDataClear(&(decp->data)); WebPAnimDecoderDelete(decp->dec); Py_RETURN_NONE; } -PyObject* _anim_decoder_get_info(PyObject* self) -{ - WebPAnimDecoderObject* decp = (WebPAnimDecoderObject *)self; - WebPAnimInfo* info = &(decp->info); +PyObject * +_anim_decoder_get_info(PyObject *self) { + WebPAnimDecoderObject *decp = (WebPAnimDecoderObject *)self; + WebPAnimInfo *info = &(decp->info); - return Py_BuildValue("IIIIIs", - info->canvas_width, info->canvas_height, + return Py_BuildValue( + "IIIIIs", + info->canvas_width, + info->canvas_height, info->loop_count, info->bgcolor, info->frame_count, - decp->mode - ); + decp->mode); } -PyObject* _anim_decoder_get_chunk(PyObject* self, PyObject* args) -{ - char* mode; - WebPAnimDecoderObject* decp = (WebPAnimDecoderObject *)self; - const WebPDemuxer* demux; +PyObject * +_anim_decoder_get_chunk(PyObject *self, PyObject *args) { + char *mode; + WebPAnimDecoderObject *decp = (WebPAnimDecoderObject *)self; + const WebPDemuxer *demux; WebPChunkIterator iter; PyObject *ret; @@ -408,27 +439,27 @@ PyObject* _anim_decoder_get_chunk(PyObject* self, PyObject* args) Py_RETURN_NONE; } - ret = PyBytes_FromStringAndSize((const char*)iter.chunk.bytes, iter.chunk.size); + ret = PyBytes_FromStringAndSize((const char *)iter.chunk.bytes, iter.chunk.size); WebPDemuxReleaseChunkIterator(&iter); return ret; } -PyObject* _anim_decoder_get_next(PyObject* self) -{ - uint8_t* buf; +PyObject * +_anim_decoder_get_next(PyObject *self) { + uint8_t *buf; int timestamp; - PyObject* bytes; - PyObject* ret; - WebPAnimDecoderObject* decp = (WebPAnimDecoderObject*)self; + PyObject *bytes; + PyObject *ret; + WebPAnimDecoderObject *decp = (WebPAnimDecoderObject *)self; if (!WebPAnimDecoderGetNext(decp->dec, &buf, ×tamp)) { PyErr_SetString(PyExc_OSError, "failed to read next frame"); return NULL; } - bytes = PyBytes_FromStringAndSize((char *)buf, - decp->info.canvas_width * 4 * decp->info.canvas_height); + bytes = PyBytes_FromStringAndSize( + (char *)buf, decp->info.canvas_width * 4 * decp->info.canvas_height); ret = Py_BuildValue("Si", bytes, timestamp); @@ -436,9 +467,9 @@ PyObject* _anim_decoder_get_next(PyObject* self) return ret; } -PyObject* _anim_decoder_reset(PyObject* self) -{ - WebPAnimDecoderObject* decp = (WebPAnimDecoderObject *)self; +PyObject * +_anim_decoder_reset(PyObject *self) { + WebPAnimDecoderObject *decp = (WebPAnimDecoderObject *)self; WebPAnimDecoderReset(decp->dec); Py_RETURN_NONE; } @@ -456,37 +487,36 @@ static struct PyMethodDef _anim_encoder_methods[] = { // WebPAnimDecoder type definition static PyTypeObject WebPAnimEncoder_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "WebPAnimEncoder", /*tp_name */ - sizeof(WebPAnimEncoderObject), /*tp_size */ - 0, /*tp_itemsize */ + PyVarObject_HEAD_INIT(NULL, 0) "WebPAnimEncoder", /*tp_name */ + sizeof(WebPAnimEncoderObject), /*tp_size */ + 0, /*tp_itemsize */ /* methods */ (destructor)_anim_encoder_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - _anim_encoder_methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + _anim_encoder_methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; // WebPAnimDecoder methods @@ -500,37 +530,36 @@ static struct PyMethodDef _anim_decoder_methods[] = { // WebPAnimDecoder type definition static PyTypeObject WebPAnimDecoder_Type = { - PyVarObject_HEAD_INIT(NULL, 0) - "WebPAnimDecoder", /*tp_name */ - sizeof(WebPAnimDecoderObject), /*tp_size */ - 0, /*tp_itemsize */ + PyVarObject_HEAD_INIT(NULL, 0) "WebPAnimDecoder", /*tp_name */ + sizeof(WebPAnimDecoderObject), /*tp_size */ + 0, /*tp_itemsize */ /* methods */ (destructor)_anim_decoder_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - _anim_decoder_methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + _anim_decoder_methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; #endif @@ -539,19 +568,19 @@ static PyTypeObject WebPAnimDecoder_Type = { /* Legacy WebP Support */ /* -------------------------------------------------------------------- */ -PyObject* WebPEncode_wrapper(PyObject* self, PyObject* args) -{ +PyObject * +WebPEncode_wrapper(PyObject *self, PyObject *args) { int width; int height; int lossless; float quality_factor; int method; - uint8_t* rgb; - uint8_t* icc_bytes; - uint8_t* exif_bytes; - uint8_t* xmp_bytes; - uint8_t* output; - char* mode; + uint8_t *rgb; + uint8_t *icc_bytes; + uint8_t *exif_bytes; + uint8_t *xmp_bytes; + uint8_t *output; + char *mode; Py_ssize_t size; Py_ssize_t icc_size; Py_ssize_t exif_size; @@ -565,9 +594,23 @@ PyObject* WebPEncode_wrapper(PyObject* self, PyObject* args) WebPMemoryWriter writer; WebPPicture pic; - if (!PyArg_ParseTuple(args, "y#iiifss#is#s#", - (char**)&rgb, &size, &width, &height, &lossless, &quality_factor, &mode, - &icc_bytes, &icc_size, &method, &exif_bytes, &exif_size, &xmp_bytes, &xmp_size)) { + if (!PyArg_ParseTuple( + args, + "y#iiifss#is#s#", + (char **)&rgb, + &size, + &width, + &height, + &lossless, + &quality_factor, + &mode, + &icc_bytes, + &icc_size, + &method, + &exif_bytes, + &exif_size, + &xmp_bytes, + &xmp_size)) { return NULL; } @@ -602,7 +645,7 @@ PyObject* WebPEncode_wrapper(PyObject* self, PyObject* args) } pic.width = width; pic.height = height; - pic.use_argb = 1; // Don't convert RGB pixels to YUV + pic.use_argb = 1; // Don't convert RGB pixels to YUV if (rgba_mode) { WebPPictureImportRGBA(&pic, rgb, channels * width); @@ -628,98 +671,100 @@ PyObject* WebPEncode_wrapper(PyObject* self, PyObject* args) #ifndef HAVE_WEBPMUX if (ret_size > 0) { - PyObject *ret = PyBytes_FromStringAndSize((char*)output, ret_size); + PyObject *ret = PyBytes_FromStringAndSize((char *)output, ret_size); free(output); return ret; } #else { - /* I want to truncate the *_size items that get passed into WebP - data. Pypy2.1.0 had some issues where the Py_ssize_t items had - data in the upper byte. (Not sure why, it shouldn't have been there) - */ - int i_icc_size = (int)icc_size; - int i_exif_size = (int)exif_size; - int i_xmp_size = (int)xmp_size; - WebPData output_data = {0}; - WebPData image = { output, ret_size }; - WebPData icc_profile = { icc_bytes, i_icc_size }; - WebPData exif = { exif_bytes, i_exif_size }; - WebPData xmp = { xmp_bytes, i_xmp_size }; - WebPMuxError err; - int dbg = 0; - - int copy_data = 0; // value 1 indicates given data WILL be copied to the mux - // and value 0 indicates data will NOT be copied. - - WebPMux* mux = WebPMuxNew(); - WebPMuxSetImage(mux, &image, copy_data); - - if (dbg) { - /* was getting %ld icc_size == 0, icc_size>0 was true */ - fprintf(stderr, "icc size %d, %d \n", i_icc_size, i_icc_size > 0); - } - - if (i_icc_size > 0) { + /* I want to truncate the *_size items that get passed into WebP + data. Pypy2.1.0 had some issues where the Py_ssize_t items had + data in the upper byte. (Not sure why, it shouldn't have been there) + */ + int i_icc_size = (int)icc_size; + int i_exif_size = (int)exif_size; + int i_xmp_size = (int)xmp_size; + WebPData output_data = {0}; + WebPData image = {output, ret_size}; + WebPData icc_profile = {icc_bytes, i_icc_size}; + WebPData exif = {exif_bytes, i_exif_size}; + WebPData xmp = {xmp_bytes, i_xmp_size}; + WebPMuxError err; + int dbg = 0; + + int copy_data = 0; // value 1 indicates given data WILL be copied to the mux + // and value 0 indicates data will NOT be copied. + + WebPMux *mux = WebPMuxNew(); + WebPMuxSetImage(mux, &image, copy_data); + if (dbg) { - fprintf(stderr, "Adding ICC Profile\n"); + /* was getting %ld icc_size == 0, icc_size>0 was true */ + fprintf(stderr, "icc size %d, %d \n", i_icc_size, i_icc_size > 0); } - err = WebPMuxSetChunk(mux, "ICCP", &icc_profile, copy_data); - if (err != WEBP_MUX_OK) { - return HandleMuxError(err, "ICCP"); + + if (i_icc_size > 0) { + if (dbg) { + fprintf(stderr, "Adding ICC Profile\n"); + } + err = WebPMuxSetChunk(mux, "ICCP", &icc_profile, copy_data); + if (err != WEBP_MUX_OK) { + return HandleMuxError(err, "ICCP"); + } } - } - if (dbg) { - fprintf(stderr, "exif size %d \n", i_exif_size); - } - if (i_exif_size > 0) { if (dbg) { - fprintf(stderr, "Adding Exif Data\n"); + fprintf(stderr, "exif size %d \n", i_exif_size); } - err = WebPMuxSetChunk(mux, "EXIF", &exif, copy_data); - if (err != WEBP_MUX_OK) { - return HandleMuxError(err, "EXIF"); + if (i_exif_size > 0) { + if (dbg) { + fprintf(stderr, "Adding Exif Data\n"); + } + err = WebPMuxSetChunk(mux, "EXIF", &exif, copy_data); + if (err != WEBP_MUX_OK) { + return HandleMuxError(err, "EXIF"); + } } - } - if (dbg) { - fprintf(stderr, "xmp size %d \n", i_xmp_size); - } - if (i_xmp_size > 0) { - if (dbg){ - fprintf(stderr, "Adding XMP Data\n"); + if (dbg) { + fprintf(stderr, "xmp size %d \n", i_xmp_size); } - err = WebPMuxSetChunk(mux, "XMP ", &xmp, copy_data); - if (err != WEBP_MUX_OK) { - return HandleMuxError(err, "XMP "); + if (i_xmp_size > 0) { + if (dbg) { + fprintf(stderr, "Adding XMP Data\n"); + } + err = WebPMuxSetChunk(mux, "XMP ", &xmp, copy_data); + if (err != WEBP_MUX_OK) { + return HandleMuxError(err, "XMP "); + } } - } - WebPMuxAssemble(mux, &output_data); - WebPMuxDelete(mux); - free(output); + WebPMuxAssemble(mux, &output_data); + WebPMuxDelete(mux); + free(output); - ret_size = output_data.size; - if (ret_size > 0) { - PyObject *ret = PyBytes_FromStringAndSize((char*)output_data.bytes, ret_size); - WebPDataClear(&output_data); - return ret; - } + ret_size = output_data.size; + if (ret_size > 0) { + PyObject *ret = + PyBytes_FromStringAndSize((char *)output_data.bytes, ret_size); + WebPDataClear(&output_data); + return ret; + } } #endif Py_RETURN_NONE; } -PyObject* WebPDecode_wrapper(PyObject* self, PyObject* args) -{ - PyBytesObject* webp_string; - const uint8_t* webp; +PyObject * +WebPDecode_wrapper(PyObject *self, PyObject *args) { + PyBytesObject *webp_string; + const uint8_t *webp; Py_ssize_t size; - PyObject *ret = Py_None, *bytes = NULL, *pymode = NULL, *icc_profile = NULL, *exif = NULL; + PyObject *ret = Py_None, *bytes = NULL, *pymode = NULL, *icc_profile = NULL, + *exif = NULL; WebPDecoderConfig config; VP8StatusCode vp8_status_code = VP8_STATUS_OK; - char* mode = "RGB"; + char *mode = "RGB"; if (!PyArg_ParseTuple(args, "S", &webp_string)) { return NULL; @@ -729,7 +774,7 @@ PyObject* WebPDecode_wrapper(PyObject* self, PyObject* args) Py_RETURN_NONE; } - PyBytes_AsStringAndSize((PyObject*) webp_string, (char**)&webp, &size); + PyBytes_AsStringAndSize((PyObject *)webp_string, (char **)&webp, &size); vp8_status_code = WebPGetFeatures(webp, size, &config.input); if (vp8_status_code == VP8_STATUS_OK) { @@ -743,39 +788,40 @@ PyObject* WebPDecode_wrapper(PyObject* self, PyObject* args) #ifndef HAVE_WEBPMUX vp8_status_code = WebPDecode(webp, size, &config); #else - { - int copy_data = 0; - WebPData data = { webp, size }; - WebPMuxFrameInfo image; - WebPData icc_profile_data = {0}; - WebPData exif_data = {0}; - - WebPMux* mux = WebPMuxCreate(&data, copy_data); - if (NULL == mux) { - goto end; - } - - if (WEBP_MUX_OK != WebPMuxGetFrame(mux, 1, &image)) { - WebPMuxDelete(mux); - goto end; - } + int copy_data = 0; + WebPData data = {webp, size}; + WebPMuxFrameInfo image; + WebPData icc_profile_data = {0}; + WebPData exif_data = {0}; + + WebPMux *mux = WebPMuxCreate(&data, copy_data); + if (NULL == mux) { + goto end; + } - webp = image.bitstream.bytes; - size = image.bitstream.size; + if (WEBP_MUX_OK != WebPMuxGetFrame(mux, 1, &image)) { + WebPMuxDelete(mux); + goto end; + } - vp8_status_code = WebPDecode(webp, size, &config); + webp = image.bitstream.bytes; + size = image.bitstream.size; - if (WEBP_MUX_OK == WebPMuxGetChunk(mux, "ICCP", &icc_profile_data)) { - icc_profile = PyBytes_FromStringAndSize((const char*)icc_profile_data.bytes, icc_profile_data.size); - } + vp8_status_code = WebPDecode(webp, size, &config); - if (WEBP_MUX_OK == WebPMuxGetChunk(mux, "EXIF", &exif_data)) { - exif = PyBytes_FromStringAndSize((const char*)exif_data.bytes, exif_data.size); - } + if (WEBP_MUX_OK == WebPMuxGetChunk(mux, "ICCP", &icc_profile_data)) { + icc_profile = PyBytes_FromStringAndSize( + (const char *)icc_profile_data.bytes, icc_profile_data.size); + } - WebPDataClear(&image.bitstream); - WebPMuxDelete(mux); + if (WEBP_MUX_OK == WebPMuxGetChunk(mux, "EXIF", &exif_data)) { + exif = PyBytes_FromStringAndSize( + (const char *)exif_data.bytes, exif_data.size); + } + + WebPDataClear(&image.bitstream); + WebPMuxDelete(mux); } #endif } @@ -785,20 +831,24 @@ PyObject* WebPDecode_wrapper(PyObject* self, PyObject* args) } if (config.output.colorspace < MODE_YUV) { - bytes = PyBytes_FromStringAndSize((char*)config.output.u.RGBA.rgba, - config.output.u.RGBA.size); + bytes = PyBytes_FromStringAndSize( + (char *)config.output.u.RGBA.rgba, config.output.u.RGBA.size); } else { // Skipping YUV for now. Need Test Images. // UNDONE -- unclear if we'll ever get here if we set mode_rgb* - bytes = PyBytes_FromStringAndSize((char*)config.output.u.YUVA.y, - config.output.u.YUVA.y_size); + bytes = PyBytes_FromStringAndSize( + (char *)config.output.u.YUVA.y, config.output.u.YUVA.y_size); } pymode = PyUnicode_FromString(mode); - ret = Py_BuildValue("SiiSSS", bytes, config.output.width, - config.output.height, pymode, - NULL == icc_profile ? Py_None : icc_profile, - NULL == exif ? Py_None : exif); + ret = Py_BuildValue( + "SiiSSS", + bytes, + config.output.width, + config.output.height, + pymode, + NULL == icc_profile ? Py_None : icc_profile, + NULL == exif ? Py_None : exif); end: WebPFreeDecBuffer(&config.output); @@ -817,17 +867,22 @@ PyObject* WebPDecode_wrapper(PyObject* self, PyObject* args) // Return the decoder's version number, packed in hexadecimal using 8bits for // each of major/minor/revision. E.g: v2.5.7 is 0x020507. -PyObject* WebPDecoderVersion_wrapper() { +PyObject * +WebPDecoderVersion_wrapper() { return Py_BuildValue("i", WebPGetDecoderVersion()); } // Version as string -const char* -WebPDecoderVersion_str(void) -{ +const char * +WebPDecoderVersion_str(void) { static char version[20]; int version_number = WebPGetDecoderVersion(); - sprintf(version, "%d.%d.%d", version_number >> 16, (version_number >> 8) % 0x100, version_number % 0x100); + sprintf( + version, + "%d.%d.%d", + version_number >> 16, + (version_number >> 8) % 0x100, + version_number % 0x100); return version; } @@ -835,11 +890,13 @@ WebPDecoderVersion_str(void) * The version of webp that ships with (0.1.3) Ubuntu 12.04 doesn't handle alpha well. * Files that are valid with 0.3 are reported as being invalid. */ -int WebPDecoderBuggyAlpha(void) { - return WebPGetDecoderVersion()==0x0103; +int +WebPDecoderBuggyAlpha(void) { + return WebPGetDecoderVersion() == 0x0103; } -PyObject* WebPDecoderBuggyAlpha_wrapper() { +PyObject * +WebPDecoderBuggyAlpha_wrapper() { return Py_BuildValue("i", WebPDecoderBuggyAlpha()); } @@ -847,8 +904,7 @@ PyObject* WebPDecoderBuggyAlpha_wrapper() { /* Module Setup */ /* -------------------------------------------------------------------- */ -static PyMethodDef webpMethods[] = -{ +static PyMethodDef webpMethods[] = { #ifdef HAVE_WEBPANIM {"WebPAnimDecoder", _anim_decoder_new, METH_VARARGS, "WebPAnimDecoder"}, {"WebPAnimEncoder", _anim_encoder_new, METH_VARARGS, "WebPAnimEncoder"}, @@ -856,11 +912,14 @@ static PyMethodDef webpMethods[] = {"WebPEncode", WebPEncode_wrapper, METH_VARARGS, "WebPEncode"}, {"WebPDecode", WebPDecode_wrapper, METH_VARARGS, "WebPDecode"}, {"WebPDecoderVersion", WebPDecoderVersion_wrapper, METH_NOARGS, "WebPVersion"}, - {"WebPDecoderBuggyAlpha", WebPDecoderBuggyAlpha_wrapper, METH_NOARGS, "WebPDecoderBuggyAlpha"}, - {NULL, NULL} -}; - -void addMuxFlagToModule(PyObject* m) { + {"WebPDecoderBuggyAlpha", + WebPDecoderBuggyAlpha_wrapper, + METH_NOARGS, + "WebPDecoderBuggyAlpha"}, + {NULL, NULL}}; + +void +addMuxFlagToModule(PyObject *m) { #ifdef HAVE_WEBPMUX PyModule_AddObject(m, "HAVE_WEBPMUX", Py_True); #else @@ -868,7 +927,8 @@ void addMuxFlagToModule(PyObject* m) { #endif } -void addAnimFlagToModule(PyObject* m) { +void +addAnimFlagToModule(PyObject *m) { #ifdef HAVE_WEBPANIM PyModule_AddObject(m, "HAVE_WEBPANIM", Py_True); #else @@ -876,18 +936,21 @@ void addAnimFlagToModule(PyObject* m) { #endif } -void addTransparencyFlagToModule(PyObject* m) { - PyModule_AddObject(m, "HAVE_TRANSPARENCY", - PyBool_FromLong(!WebPDecoderBuggyAlpha())); +void +addTransparencyFlagToModule(PyObject *m) { + PyModule_AddObject( + m, "HAVE_TRANSPARENCY", PyBool_FromLong(!WebPDecoderBuggyAlpha())); } -static int setup_module(PyObject* m) { - PyObject* d = PyModule_GetDict(m); +static int +setup_module(PyObject *m) { + PyObject *d = PyModule_GetDict(m); addMuxFlagToModule(m); addAnimFlagToModule(m); addTransparencyFlagToModule(m); - PyDict_SetItemString(d, "webpdecoder_version", PyUnicode_FromString(WebPDecoderVersion_str())); + PyDict_SetItemString( + d, "webpdecoder_version", PyUnicode_FromString(WebPDecoderVersion_str())); #ifdef HAVE_WEBPANIM /* Ready object types */ @@ -901,14 +964,14 @@ static int setup_module(PyObject* m) { PyMODINIT_FUNC PyInit__webp(void) { - PyObject* m; + PyObject *m; static PyModuleDef module_def = { PyModuleDef_HEAD_INIT, - "_webp", /* m_name */ - NULL, /* m_doc */ - -1, /* m_size */ - webpMethods, /* m_methods */ + "_webp", /* m_name */ + NULL, /* m_doc */ + -1, /* m_size */ + webpMethods, /* m_methods */ }; m = PyModule_Create(&module_def); diff --git a/src/decode.c b/src/decode.c index 25ce7316bc3..db6a5edcf14 100644 --- a/src/decode.c +++ b/src/decode.c @@ -39,31 +39,28 @@ #include "Bit.h" #include "Sgi.h" - /* -------------------------------------------------------------------- */ /* Common */ /* -------------------------------------------------------------------- */ typedef struct { - PyObject_HEAD - int (*decode)(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); + PyObject_HEAD int (*decode)( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); int (*cleanup)(ImagingCodecState state); struct ImagingCodecStateInstance state; Imaging im; - PyObject* lock; + PyObject *lock; int pulls_fd; } ImagingDecoderObject; static PyTypeObject ImagingDecoderType; -static ImagingDecoderObject* -PyImaging_DecoderNew(int contextsize) -{ +static ImagingDecoderObject * +PyImaging_DecoderNew(int contextsize) { ImagingDecoderObject *decoder; void *context; - if(PyType_Ready(&ImagingDecoderType) < 0) { + if (PyType_Ready(&ImagingDecoderType) < 0) { return NULL; } @@ -77,10 +74,10 @@ PyImaging_DecoderNew(int contextsize) /* Allocate decoder context */ if (contextsize > 0) { - context = (void*) calloc(1, contextsize); + context = (void *)calloc(1, contextsize); if (!context) { Py_DECREF(decoder); - (void) PyErr_NoMemory(); + (void)PyErr_NoMemory(); return NULL; } } else { @@ -105,8 +102,7 @@ PyImaging_DecoderNew(int contextsize) } static void -_dealloc(ImagingDecoderObject* decoder) -{ +_dealloc(ImagingDecoderObject *decoder) { if (decoder->cleanup) { decoder->cleanup(&decoder->state); } @@ -117,10 +113,9 @@ _dealloc(ImagingDecoderObject* decoder) PyObject_Del(decoder); } -static PyObject* -_decode(ImagingDecoderObject* decoder, PyObject* args) -{ - UINT8* buffer; +static PyObject * +_decode(ImagingDecoderObject *decoder, PyObject *args) { + UINT8 *buffer; Py_ssize_t bufsize; int status; ImagingSectionCookie cookie; @@ -142,26 +137,23 @@ _decode(ImagingDecoderObject* decoder, PyObject* args) return Py_BuildValue("ii", status, decoder->state.errcode); } -static PyObject* -_decode_cleanup(ImagingDecoderObject* decoder, PyObject* args) -{ +static PyObject * +_decode_cleanup(ImagingDecoderObject *decoder, PyObject *args) { int status = 0; - if (decoder->cleanup){ + if (decoder->cleanup) { status = decoder->cleanup(&decoder->state); } return Py_BuildValue("i", status); } +extern Imaging +PyImaging_AsImaging(PyObject *op); - -extern Imaging PyImaging_AsImaging(PyObject *op); - -static PyObject* -_setimage(ImagingDecoderObject* decoder, PyObject* args) -{ - PyObject* op; +static PyObject * +_setimage(ImagingDecoderObject *decoder, PyObject *args) { + PyObject *op; Imaging im; ImagingCodecState state; int x0, y0, x1, y1; @@ -192,10 +184,8 @@ _setimage(ImagingDecoderObject* decoder, PyObject* args) state->ysize = y1 - y0; } - if (state->xsize <= 0 || - state->xsize + state->xoff > (int) im->xsize || - state->ysize <= 0 || - state->ysize + state->yoff > (int) im->ysize) { + if (state->xsize <= 0 || state->xsize + state->xoff > (int)im->xsize || + state->ysize <= 0 || state->ysize + state->yoff > (int)im->ysize) { PyErr_SetString(PyExc_ValueError, "tile cannot extend outside image"); return NULL; } @@ -203,13 +193,13 @@ _setimage(ImagingDecoderObject* decoder, PyObject* args) /* Allocate memory buffer (if bits field is set) */ if (state->bits > 0) { if (!state->bytes) { - if (state->xsize > ((INT_MAX / state->bits)-7)){ + if (state->xsize > ((INT_MAX / state->bits) - 7)) { return PyErr_NoMemory(); } - state->bytes = (state->bits * state->xsize+7)/8; + state->bytes = (state->bits * state->xsize + 7) / 8; } /* malloc check ok, overflow checked above */ - state->buffer = (UINT8*) malloc(state->bytes); + state->buffer = (UINT8 *)malloc(state->bytes); if (!state->buffer) { return PyErr_NoMemory(); } @@ -225,10 +215,9 @@ _setimage(ImagingDecoderObject* decoder, PyObject* args) return Py_None; } -static PyObject* -_setfd(ImagingDecoderObject* decoder, PyObject* args) -{ - PyObject* fd; +static PyObject * +_setfd(ImagingDecoderObject *decoder, PyObject *args) { + PyObject *fd; ImagingCodecState state; if (!PyArg_ParseTuple(args, "O", &fd)) { @@ -244,10 +233,8 @@ _setfd(ImagingDecoderObject* decoder, PyObject* args) return Py_None; } - static PyObject * -_get_pulls_fd(ImagingDecoderObject *decoder) -{ +_get_pulls_fd(ImagingDecoderObject *decoder) { return PyBool_FromLong(decoder->pulls_fd); } @@ -260,52 +247,51 @@ static struct PyMethodDef methods[] = { }; static struct PyGetSetDef getseters[] = { - {"pulls_fd", (getter)_get_pulls_fd, NULL, + {"pulls_fd", + (getter)_get_pulls_fd, + NULL, "True if this decoder expects to pull from self.fd itself.", NULL}, {NULL, NULL, NULL, NULL, NULL} /* sentinel */ }; static PyTypeObject ImagingDecoderType = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingDecoder", /*tp_name*/ - sizeof(ImagingDecoderObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingDecoder", /*tp_name*/ + sizeof(ImagingDecoderObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - getseters, /*tp_getset*/ + (destructor)_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + getseters, /*tp_getset*/ }; /* -------------------------------------------------------------------- */ int -get_unpacker(ImagingDecoderObject* decoder, const char* mode, - const char* rawmode) -{ +get_unpacker(ImagingDecoderObject *decoder, const char *mode, const char *rawmode) { int bits; ImagingShuffler unpack; @@ -322,24 +308,21 @@ get_unpacker(ImagingDecoderObject* decoder, const char* mode, return 0; } - /* -------------------------------------------------------------------- */ /* BIT (packed fields) */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_BitDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_BitDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - int bits = 8; - int pad = 8; - int fill = 0; - int sign = 0; + char *mode; + int bits = 8; + int pad = 8; + int fill = 0; + int sign = 0; int ystep = 1; - if (!PyArg_ParseTuple(args, "s|iiiii", &mode, &bits, &pad, &fill, - &sign, &ystep)) { + if (!PyArg_ParseTuple(args, "s|iiiii", &mode, &bits, &pad, &fill, &sign, &ystep)) { return NULL; } @@ -357,26 +340,24 @@ PyImaging_BitDecoderNew(PyObject* self, PyObject* args) decoder->state.ystep = ystep; - ((BITSTATE*)decoder->state.context)->bits = bits; - ((BITSTATE*)decoder->state.context)->pad = pad; - ((BITSTATE*)decoder->state.context)->fill = fill; - ((BITSTATE*)decoder->state.context)->sign = sign; + ((BITSTATE *)decoder->state.context)->bits = bits; + ((BITSTATE *)decoder->state.context)->pad = pad; + ((BITSTATE *)decoder->state.context)->fill = fill; + ((BITSTATE *)decoder->state.context)->sign = sign; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* BCn: GPU block-compressed texture formats */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_BcnDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_BcnDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* actual; + char *mode; + char *actual; int n = 0; int ystep = 1; if (!PyArg_ParseTuple(args, "s|ii", &mode, &n, &ystep)) { @@ -384,20 +365,23 @@ PyImaging_BcnDecoderNew(PyObject* self, PyObject* args) } switch (n) { - case 1: /* BC1: 565 color, 1-bit alpha */ - case 2: /* BC2: 565 color, 4-bit alpha */ - case 3: /* BC3: 565 color, 2-endpoint 8-bit interpolated alpha */ - case 5: /* BC5: 2-channel 8-bit via 2 BC3 alpha blocks */ - case 7: /* BC7: 4-channel 8-bit via everything */ - actual = "RGBA"; break; - case 4: /* BC4: 1-channel 8-bit via 1 BC3 alpha block */ - actual = "L"; break; - case 6: /* BC6: 3-channel 16-bit float */ - /* TODO: support 4-channel floating point images */ - actual = "RGBAF"; break; - default: - PyErr_SetString(PyExc_ValueError, "block compression type unknown"); - return NULL; + case 1: /* BC1: 565 color, 1-bit alpha */ + case 2: /* BC2: 565 color, 4-bit alpha */ + case 3: /* BC3: 565 color, 2-endpoint 8-bit interpolated alpha */ + case 5: /* BC5: 2-channel 8-bit via 2 BC3 alpha blocks */ + case 7: /* BC7: 4-channel 8-bit via everything */ + actual = "RGBA"; + break; + case 4: /* BC4: 1-channel 8-bit via 1 BC3 alpha block */ + actual = "L"; + break; + case 6: /* BC6: 3-channel 16-bit float */ + /* TODO: support 4-channel floating point images */ + actual = "RGBAF"; + break; + default: + PyErr_SetString(PyExc_ValueError, "block compression type unknown"); + return NULL; } if (strcmp(mode, actual) != 0) { @@ -414,18 +398,16 @@ PyImaging_BcnDecoderNew(PyObject* self, PyObject* args) decoder->state.state = n; decoder->state.ystep = ystep; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* FLI */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_FliDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_FliDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; decoder = PyImaging_DecoderNew(0); if (decoder == NULL) { @@ -434,20 +416,18 @@ PyImaging_FliDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingFliDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* GIF */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_GifDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_GifDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; + char *mode; int bits = 8; int interlace = 0; if (!PyArg_ParseTuple(args, "s|ii", &mode, &bits, &interlace)) { @@ -466,24 +446,22 @@ PyImaging_GifDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingGifDecode; - ((GIFDECODERSTATE*)decoder->state.context)->bits = bits; - ((GIFDECODERSTATE*)decoder->state.context)->interlace = interlace; + ((GIFDECODERSTATE *)decoder->state.context)->bits = bits; + ((GIFDECODERSTATE *)decoder->state.context)->interlace = interlace; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* HEX */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_HexDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_HexDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; if (!PyArg_ParseTuple(args, "ss", &mode, &rawmode)) { return NULL; } @@ -499,10 +477,9 @@ PyImaging_HexDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingHexDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* LibTiff */ /* -------------------------------------------------------------------- */ @@ -513,17 +490,16 @@ PyImaging_HexDecoderNew(PyObject* self, PyObject* args) #include -PyObject* -PyImaging_LibTiffDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; - char* mode; - char* rawmode; - char* compname; +PyObject * +PyImaging_LibTiffDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; + char *mode; + char *rawmode; + char *compname; int fp; uint32 ifdoffset; - if (! PyArg_ParseTuple(args, "sssiI", &mode, &rawmode, &compname, &fp, &ifdoffset)) { + if (!PyArg_ParseTuple(args, "sssiI", &mode, &rawmode, &compname, &fp, &ifdoffset)) { return NULL; } @@ -538,31 +514,29 @@ PyImaging_LibTiffDecoderNew(PyObject* self, PyObject* args) return NULL; } - if (! ImagingLibTiffInit(&decoder->state, fp, ifdoffset)) { + if (!ImagingLibTiffInit(&decoder->state, fp, ifdoffset)) { Py_DECREF(decoder); PyErr_SetString(PyExc_RuntimeError, "tiff codec initialization failed"); return NULL; } - decoder->decode = ImagingLibTiffDecode; + decoder->decode = ImagingLibTiffDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } #endif - /* -------------------------------------------------------------------- */ /* PackBits */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_PackbitsDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_PackbitsDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; if (!PyArg_ParseTuple(args, "ss", &mode, &rawmode)) { return NULL; } @@ -578,18 +552,16 @@ PyImaging_PackbitsDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingPackbitsDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* PCD */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_PcdDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_PcdDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; decoder = PyImaging_DecoderNew(0); if (decoder == NULL) { @@ -603,21 +575,19 @@ PyImaging_PcdDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingPcdDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* PCX */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_PcxDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_PcxDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; int stride; if (!PyArg_ParseTuple(args, "ssi", &mode, &rawmode, &stride)) { return NULL; @@ -636,23 +606,21 @@ PyImaging_PcxDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingPcxDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* RAW */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_RawDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_RawDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; int stride = 0; - int ystep = 1; + int ystep = 1; if (!PyArg_ParseTuple(args, "ss|ii", &mode, &rawmode, &stride, &ystep)) { return NULL; } @@ -670,23 +638,21 @@ PyImaging_RawDecoderNew(PyObject* self, PyObject* args) decoder->state.ystep = ystep; - ((RAWSTATE*)decoder->state.context)->stride = stride; + ((RAWSTATE *)decoder->state.context)->stride = stride; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* SGI RLE */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_SgiRleDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_SgiRleDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; int ystep = 1; int bpc = 1; if (!PyArg_ParseTuple(args, "ss|ii", &mode, &rawmode, &ystep, &bpc)) { @@ -706,23 +672,21 @@ PyImaging_SgiRleDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingSgiRleDecode; decoder->state.ystep = ystep; - ((SGISTATE*)decoder->state.context)->bpc = bpc; + ((SGISTATE *)decoder->state.context)->bpc = bpc; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* SUN RLE */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_SunRleDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_SunRleDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; if (!PyArg_ParseTuple(args, "ss", &mode, &rawmode)) { return NULL; } @@ -738,21 +702,19 @@ PyImaging_SunRleDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingSunRleDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* TGA RLE */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_TgaRleDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_TgaRleDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; int ystep = 1; int depth = 8; if (!PyArg_ParseTuple(args, "ss|ii", &mode, &rawmode, &ystep, &depth)) { @@ -773,18 +735,16 @@ PyImaging_TgaRleDecoderNew(PyObject* self, PyObject* args) decoder->state.ystep = ystep; decoder->state.count = depth / 8; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* XBM */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_XbmDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_XbmDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; decoder = PyImaging_DecoderNew(0); if (decoder == NULL) { @@ -797,10 +757,9 @@ PyImaging_XbmDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingXbmDecode; - return (PyObject*) decoder; + return (PyObject *)decoder; } - /* -------------------------------------------------------------------- */ /* ZIP */ /* -------------------------------------------------------------------- */ @@ -809,13 +768,12 @@ PyImaging_XbmDecoderNew(PyObject* self, PyObject* args) #include "Zip.h" -PyObject* -PyImaging_ZipDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_ZipDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; int interlaced = 0; if (!PyArg_ParseTuple(args, "ss|i", &mode, &rawmode, &interlaced)) { return NULL; @@ -833,13 +791,12 @@ PyImaging_ZipDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingZipDecode; decoder->cleanup = ImagingZipDecodeCleanup; - ((ZIPSTATE*)decoder->state.context)->interlaced = interlaced; + ((ZIPSTATE *)decoder->state.context)->interlaced = interlaced; - return (PyObject*) decoder; + return (PyObject *)decoder; } #endif - /* -------------------------------------------------------------------- */ /* JPEG */ /* -------------------------------------------------------------------- */ @@ -849,31 +806,29 @@ PyImaging_ZipDecoderNew(PyObject* self, PyObject* args) /* We better define this decoder last in this file, so the following undef's won't mess things up for the Imaging library proper. */ -#undef HAVE_PROTOTYPES -#undef HAVE_STDDEF_H -#undef HAVE_STDLIB_H -#undef UINT8 -#undef UINT16 -#undef UINT32 -#undef INT8 -#undef INT16 -#undef INT32 +#undef HAVE_PROTOTYPES +#undef HAVE_STDDEF_H +#undef HAVE_STDLIB_H +#undef UINT8 +#undef UINT16 +#undef UINT32 +#undef INT8 +#undef INT16 +#undef INT32 #include "Jpeg.h" -PyObject* -PyImaging_JpegDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_JpegDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; - char* mode; - char* rawmode; /* what we want from the decoder */ - char* jpegmode; /* what's in the file */ + char *mode; + char *rawmode; /* what we want from the decoder */ + char *jpegmode; /* what's in the file */ int scale = 1; int draft = 0; - if (!PyArg_ParseTuple(args, "ssz|ii", &mode, &rawmode, &jpegmode, - &scale, &draft)) { + if (!PyArg_ParseTuple(args, "ssz|ii", &mode, &rawmode, &jpegmode, &scale, &draft)) { return NULL; } @@ -900,13 +855,13 @@ PyImaging_JpegDecoderNew(PyObject* self, PyObject* args) decoder->decode = ImagingJpegDecode; decoder->cleanup = ImagingJpegDecodeCleanup; - strncpy(((JPEGSTATE*)decoder->state.context)->rawmode, rawmode, 8); - strncpy(((JPEGSTATE*)decoder->state.context)->jpegmode, jpegmode, 8); + strncpy(((JPEGSTATE *)decoder->state.context)->rawmode, rawmode, 8); + strncpy(((JPEGSTATE *)decoder->state.context)->jpegmode, jpegmode, 8); - ((JPEGSTATE*)decoder->state.context)->scale = scale; - ((JPEGSTATE*)decoder->state.context)->draft = draft; + ((JPEGSTATE *)decoder->state.context)->scale = scale; + ((JPEGSTATE *)decoder->state.context)->draft = draft; - return (PyObject*) decoder; + return (PyObject *)decoder; } #endif @@ -918,22 +873,21 @@ PyImaging_JpegDecoderNew(PyObject* self, PyObject* args) #include "Jpeg2K.h" -PyObject* -PyImaging_Jpeg2KDecoderNew(PyObject* self, PyObject* args) -{ - ImagingDecoderObject* decoder; +PyObject * +PyImaging_Jpeg2KDecoderNew(PyObject *self, PyObject *args) { + ImagingDecoderObject *decoder; JPEG2KDECODESTATE *context; - char* mode; - char* format; + char *mode; + char *format; OPJ_CODEC_FORMAT codec_format; int reduce = 0; int layers = 0; int fd = -1; PY_LONG_LONG length = -1; - if (!PyArg_ParseTuple(args, "ss|iiiL", &mode, &format, - &reduce, &layers, &fd, &length)) { + if (!PyArg_ParseTuple( + args, "ss|iiiL", &mode, &format, &reduce, &layers, &fd, &length)) { return NULL; } @@ -964,7 +918,6 @@ PyImaging_Jpeg2KDecoderNew(PyObject* self, PyObject* args) context->reduce = reduce; context->layers = layers; - return (PyObject*) decoder; + return (PyObject *)decoder; } #endif /* HAVE_OPENJPEG */ - diff --git a/src/display.c b/src/display.c index 6ca922e43f7..eefba38a9df 100644 --- a/src/display.c +++ b/src/display.c @@ -22,7 +22,6 @@ * See the README file for information on usage and redistribution. */ - #include "Python.h" #include "Imaging.h" @@ -41,15 +40,13 @@ #endif typedef struct { - PyObject_HEAD - ImagingDIB dib; + PyObject_HEAD ImagingDIB dib; } ImagingDisplayObject; static PyTypeObject ImagingDisplayType; -static ImagingDisplayObject* -_new(const char* mode, int xsize, int ysize) -{ +static ImagingDisplayObject * +_new(const char *mode, int xsize, int ysize) { ImagingDisplayObject *display; if (PyType_Ready(&ImagingDisplayType) < 0) { @@ -71,17 +68,15 @@ _new(const char* mode, int xsize, int ysize) } static void -_delete(ImagingDisplayObject* display) -{ +_delete(ImagingDisplayObject *display) { if (display->dib) { ImagingDeleteDIB(display->dib); } PyObject_Del(display); } -static PyObject* -_expose(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_expose(ImagingDisplayObject *display, PyObject *args) { HDC hdc; if (!PyArg_ParseTuple(args, F_HANDLE, &hdc)) { return NULL; @@ -93,15 +88,23 @@ _expose(ImagingDisplayObject* display, PyObject* args) return Py_None; } -static PyObject* -_draw(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_draw(ImagingDisplayObject *display, PyObject *args) { HDC hdc; int dst[4]; int src[4]; - if (!PyArg_ParseTuple(args, F_HANDLE "(iiii)(iiii)", &hdc, - dst+0, dst+1, dst+2, dst+3, - src+0, src+1, src+2, src+3)) { + if (!PyArg_ParseTuple( + args, + F_HANDLE "(iiii)(iiii)", + &hdc, + dst + 0, + dst + 1, + dst + 2, + dst + 3, + src + 0, + src + 1, + src + 2, + src + 3)) { return NULL; } @@ -111,17 +114,17 @@ _draw(ImagingDisplayObject* display, PyObject* args) return Py_None; } -extern Imaging PyImaging_AsImaging(PyObject *op); +extern Imaging +PyImaging_AsImaging(PyObject *op); -static PyObject* -_paste(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_paste(ImagingDisplayObject *display, PyObject *args) { Imaging im; - PyObject* op; + PyObject *op; int xy[4]; xy[0] = xy[1] = xy[2] = xy[3] = 0; - if (!PyArg_ParseTuple(args, "O|(iiii)", &op, xy+0, xy+1, xy+2, xy+3)) { + if (!PyArg_ParseTuple(args, "O|(iiii)", &op, xy + 0, xy + 1, xy + 2, xy + 3)) { return NULL; } im = PyImaging_AsImaging(op); @@ -142,9 +145,8 @@ _paste(ImagingDisplayObject* display, PyObject* args) return Py_None; } -static PyObject* -_query_palette(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_query_palette(ImagingDisplayObject *display, PyObject *args) { HDC hdc; int status; @@ -157,9 +159,8 @@ _query_palette(ImagingDisplayObject* display, PyObject* args) return Py_BuildValue("i", status); } -static PyObject* -_getdc(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_getdc(ImagingDisplayObject *display, PyObject *args) { HWND window; HDC dc; @@ -176,9 +177,8 @@ _getdc(ImagingDisplayObject* display, PyObject* args) return Py_BuildValue(F_HANDLE, dc); } -static PyObject* -_releasedc(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_releasedc(ImagingDisplayObject *display, PyObject *args) { HWND window; HDC dc; @@ -192,10 +192,9 @@ _releasedc(ImagingDisplayObject* display, PyObject* args) return Py_None; } -static PyObject* -_frombytes(ImagingDisplayObject* display, PyObject* args) -{ - char* ptr; +static PyObject * +_frombytes(ImagingDisplayObject *display, PyObject *args) { + char *ptr; int bytes; if (!PyArg_ParseTuple(args, "y#:frombytes", &ptr, &bytes)) { @@ -213,16 +212,14 @@ _frombytes(ImagingDisplayObject* display, PyObject* args) return Py_None; } -static PyObject* -_tobytes(ImagingDisplayObject* display, PyObject* args) -{ +static PyObject * +_tobytes(ImagingDisplayObject *display, PyObject *args) { if (!PyArg_ParseTuple(args, ":tobytes")) { return NULL; } return PyBytes_FromStringAndSize( - display->dib->bits, display->dib->ysize * display->dib->linesize - ); + display->dib->bits, display->dib->ysize * display->dib->linesize); } static struct PyMethodDef methods[] = { @@ -239,62 +236,55 @@ static struct PyMethodDef methods[] = { {NULL, NULL} /* sentinel */ }; -static PyObject* -_getattr_mode(ImagingDisplayObject* self, void* closure) -{ +static PyObject * +_getattr_mode(ImagingDisplayObject *self, void *closure) { return Py_BuildValue("s", self->dib->mode); } -static PyObject* -_getattr_size(ImagingDisplayObject* self, void* closure) -{ +static PyObject * +_getattr_size(ImagingDisplayObject *self, void *closure) { return Py_BuildValue("ii", self->dib->xsize, self->dib->ysize); } static struct PyGetSetDef getsetters[] = { - { "mode", (getter) _getattr_mode }, - { "size", (getter) _getattr_size }, - { NULL } -}; + {"mode", (getter)_getattr_mode}, {"size", (getter)_getattr_size}, {NULL}}; static PyTypeObject ImagingDisplayType = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingDisplay", /*tp_name*/ - sizeof(ImagingDisplayObject),/*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingDisplay", /*tp_name*/ + sizeof(ImagingDisplayObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_delete, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - getsetters, /*tp_getset*/ + (destructor)_delete, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + getsetters, /*tp_getset*/ }; -PyObject* -PyImaging_DisplayWin32(PyObject* self, PyObject* args) -{ - ImagingDisplayObject* display; +PyObject * +PyImaging_DisplayWin32(PyObject *self, PyObject *args) { + ImagingDisplayObject *display; char *mode; int xsize, ysize; @@ -307,12 +297,11 @@ PyImaging_DisplayWin32(PyObject* self, PyObject* args) return NULL; } - return (PyObject*) display; + return (PyObject *)display; } -PyObject* -PyImaging_DisplayModeWin32(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_DisplayModeWin32(PyObject *self, PyObject *args) { char *mode; int size[2]; @@ -324,18 +313,17 @@ PyImaging_DisplayModeWin32(PyObject* self, PyObject* args) /* -------------------------------------------------------------------- */ /* Windows screen grabber */ -typedef HANDLE(__stdcall* Func_SetThreadDpiAwarenessContext)(HANDLE); +typedef HANDLE(__stdcall *Func_SetThreadDpiAwarenessContext)(HANDLE); -PyObject* -PyImaging_GrabScreenWin32(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_GrabScreenWin32(PyObject *self, PyObject *args) { int x = 0, y = 0, width, height; int includeLayeredWindows = 0, all_screens = 0; HBITMAP bitmap; BITMAPCOREHEADER core; HDC screen, screen_copy; DWORD rop; - PyObject* buffer; + PyObject *buffer; HANDLE dpiAwareness; HMODULE user32; Func_SetThreadDpiAwarenessContext SetThreadDpiAwarenessContext_function; @@ -354,11 +342,11 @@ PyImaging_GrabScreenWin32(PyObject* self, PyObject* args) // loaded dynamically to avoid link errors user32 = LoadLibraryA("User32.dll"); SetThreadDpiAwarenessContext_function = - (Func_SetThreadDpiAwarenessContext) - GetProcAddress(user32, "SetThreadDpiAwarenessContext"); + (Func_SetThreadDpiAwarenessContext)GetProcAddress( + user32, "SetThreadDpiAwarenessContext"); if (SetThreadDpiAwarenessContext_function != NULL) { // DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE = ((DPI_CONTEXT_HANDLE)-3) - dpiAwareness = SetThreadDpiAwarenessContext_function((HANDLE) -3); + dpiAwareness = SetThreadDpiAwarenessContext_function((HANDLE)-3); } if (all_screens) { @@ -398,7 +386,7 @@ PyImaging_GrabScreenWin32(PyObject* self, PyObject* args) /* step 3: extract bits from bitmap */ - buffer = PyBytes_FromStringAndSize(NULL, height * ((width*3 + 3) & -4)); + buffer = PyBytes_FromStringAndSize(NULL, height * ((width * 3 + 3) & -4)); if (!buffer) { return NULL; } @@ -408,8 +396,14 @@ PyImaging_GrabScreenWin32(PyObject* self, PyObject* args) core.bcHeight = height; core.bcPlanes = 1; core.bcBitCount = 24; - if (!GetDIBits(screen_copy, bitmap, 0, height, PyBytes_AS_STRING(buffer), - (BITMAPINFO*) &core, DIB_RGB_COLORS)) { + if (!GetDIBits( + screen_copy, + bitmap, + 0, + height, + PyBytes_AS_STRING(buffer), + (BITMAPINFO *)&core, + DIB_RGB_COLORS)) { goto error; } @@ -428,11 +422,11 @@ PyImaging_GrabScreenWin32(PyObject* self, PyObject* args) return NULL; } -static BOOL CALLBACK list_windows_callback(HWND hwnd, LPARAM lParam) -{ - PyObject* window_list = (PyObject*) lParam; - PyObject* item; - PyObject* title; +static BOOL CALLBACK +list_windows_callback(HWND hwnd, LPARAM lParam) { + PyObject *window_list = (PyObject *)lParam; + PyObject *item; + PyObject *title; RECT inner, outer; int title_size; int status; @@ -442,7 +436,7 @@ static BOOL CALLBACK list_windows_callback(HWND hwnd, LPARAM lParam) if (title_size > 0) { title = PyUnicode_FromStringAndSize(NULL, title_size); if (title) { - GetWindowTextW(hwnd, PyUnicode_AS_UNICODE(title), title_size+1); + GetWindowTextW(hwnd, PyUnicode_AS_UNICODE(title), title_size + 1); } } else { title = PyUnicode_FromString(""); @@ -456,10 +450,17 @@ static BOOL CALLBACK list_windows_callback(HWND hwnd, LPARAM lParam) GetWindowRect(hwnd, &outer); item = Py_BuildValue( - F_HANDLE "N(iiii)(iiii)", hwnd, title, - inner.left, inner.top, inner.right, inner.bottom, - outer.left, outer.top, outer.right, outer.bottom - ); + F_HANDLE "N(iiii)(iiii)", + hwnd, + title, + inner.left, + inner.top, + inner.right, + inner.bottom, + outer.left, + outer.top, + outer.right, + outer.bottom); if (!item) { return 0; } @@ -475,17 +476,16 @@ static BOOL CALLBACK list_windows_callback(HWND hwnd, LPARAM lParam) return 1; } -PyObject* -PyImaging_ListWindowsWin32(PyObject* self, PyObject* args) -{ - PyObject* window_list; +PyObject * +PyImaging_ListWindowsWin32(PyObject *self, PyObject *args) { + PyObject *window_list; window_list = PyList_New(0); if (!window_list) { return NULL; } - EnumWindows(list_windows_callback, (LPARAM) window_list); + EnumWindows(list_windows_callback, (LPARAM)window_list); if (PyErr_Occurred()) { Py_DECREF(window_list); @@ -498,17 +498,16 @@ PyImaging_ListWindowsWin32(PyObject* self, PyObject* args) /* -------------------------------------------------------------------- */ /* Windows clipboard grabber */ -PyObject* -PyImaging_GrabClipboardWin32(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_GrabClipboardWin32(PyObject *self, PyObject *args) { int clip; HANDLE handle = NULL; int size; - void* data; - PyObject* result; + void *data; + PyObject *result; UINT format; - UINT formats[] = { CF_DIB, CF_DIBV5, CF_HDROP, RegisterClipboardFormatA("PNG"), 0 }; - LPCSTR format_names[] = { "DIB", "DIB", "file", "png", NULL }; + UINT formats[] = {CF_DIB, CF_DIBV5, CF_HDROP, RegisterClipboardFormatA("PNG"), 0}; + LPCSTR format_names[] = {"DIB", "DIB", "file", "png", NULL}; if (!OpenClipboard(NULL)) { PyErr_SetString(PyExc_OSError, "failed to open clipboard"); @@ -553,15 +552,14 @@ PyImaging_GrabClipboardWin32(PyObject* self, PyObject* args) static int mainloop = 0; static void -callback_error(const char* handler) -{ - PyObject* sys_stderr; +callback_error(const char *handler) { + PyObject *sys_stderr; sys_stderr = PySys_GetObject("stderr"); if (sys_stderr) { PyFile_WriteString("*** ImageWin: error in ", sys_stderr); - PyFile_WriteString((char*) handler, sys_stderr); + PyFile_WriteString((char *)handler, sys_stderr); PyFile_WriteString(":\n", sys_stderr); } @@ -570,109 +568,119 @@ callback_error(const char* handler) } static LRESULT CALLBACK -windowCallback(HWND wnd, UINT message, WPARAM wParam, LPARAM lParam) -{ +windowCallback(HWND wnd, UINT message, WPARAM wParam, LPARAM lParam) { PAINTSTRUCT ps; - PyObject* callback = NULL; - PyObject* result; - PyThreadState* threadstate; - PyThreadState* current_threadstate; + PyObject *callback = NULL; + PyObject *result; + PyThreadState *threadstate; + PyThreadState *current_threadstate; HDC dc; RECT rect; LRESULT status = 0; /* set up threadstate for messages that calls back into python */ switch (message) { - case WM_CREATE: - mainloop++; - break; - case WM_DESTROY: - mainloop--; - /* fall through... */ - case WM_PAINT: - case WM_SIZE: - callback = (PyObject*) GetWindowLongPtr(wnd, 0); - if (callback) { - threadstate = (PyThreadState*) - GetWindowLongPtr(wnd, sizeof(PyObject*)); - current_threadstate = PyThreadState_Swap(NULL); - PyEval_RestoreThread(threadstate); - } else { - return DefWindowProc(wnd, message, wParam, lParam); - } + case WM_CREATE: + mainloop++; + break; + case WM_DESTROY: + mainloop--; + /* fall through... */ + case WM_PAINT: + case WM_SIZE: + callback = (PyObject *)GetWindowLongPtr(wnd, 0); + if (callback) { + threadstate = + (PyThreadState *)GetWindowLongPtr(wnd, sizeof(PyObject *)); + current_threadstate = PyThreadState_Swap(NULL); + PyEval_RestoreThread(threadstate); + } else { + return DefWindowProc(wnd, message, wParam, lParam); + } } /* process message */ switch (message) { + case WM_PAINT: + /* redraw (part of) window. this generates a WCK-style + damage/clear/repair cascade */ + BeginPaint(wnd, &ps); + dc = GetDC(wnd); + GetWindowRect(wnd, &rect); /* in screen coordinates */ + + result = PyObject_CallFunction( + callback, + "siiii", + "damage", + ps.rcPaint.left, + ps.rcPaint.top, + ps.rcPaint.right, + ps.rcPaint.bottom); + if (result) { + Py_DECREF(result); + } else { + callback_error("window damage callback"); + } - case WM_PAINT: - /* redraw (part of) window. this generates a WCK-style - damage/clear/repair cascade */ - BeginPaint(wnd, &ps); - dc = GetDC(wnd); - GetWindowRect(wnd, &rect); /* in screen coordinates */ - - result = PyObject_CallFunction( - callback, "siiii", "damage", - ps.rcPaint.left, ps.rcPaint.top, - ps.rcPaint.right, ps.rcPaint.bottom - ); - if (result) { - Py_DECREF(result); - } else { - callback_error("window damage callback"); - } + result = PyObject_CallFunction( + callback, + "s" F_HANDLE "iiii", + "clear", + dc, + 0, + 0, + rect.right - rect.left, + rect.bottom - rect.top); + if (result) { + Py_DECREF(result); + } else { + callback_error("window clear callback"); + } - result = PyObject_CallFunction( - callback, "s" F_HANDLE "iiii", "clear", dc, - 0, 0, rect.right-rect.left, rect.bottom-rect.top - ); - if (result) { - Py_DECREF(result); - } else { - callback_error("window clear callback"); - } + result = PyObject_CallFunction( + callback, + "s" F_HANDLE "iiii", + "repair", + dc, + 0, + 0, + rect.right - rect.left, + rect.bottom - rect.top); + if (result) { + Py_DECREF(result); + } else { + callback_error("window repair callback"); + } - result = PyObject_CallFunction( - callback, "s" F_HANDLE "iiii", "repair", dc, - 0, 0, rect.right-rect.left, rect.bottom-rect.top - ); - if (result) { - Py_DECREF(result); - } else { - callback_error("window repair callback"); - } + ReleaseDC(wnd, dc); + EndPaint(wnd, &ps); + break; - ReleaseDC(wnd, dc); - EndPaint(wnd, &ps); - break; - - case WM_SIZE: - /* resize window */ - result = PyObject_CallFunction( - callback, "sii", "resize", LOWORD(lParam), HIWORD(lParam) - ); - if (result) { - InvalidateRect(wnd, NULL, 1); - Py_DECREF(result); - } else { - callback_error("window resize callback"); - } - break; - - case WM_DESTROY: - /* destroy window */ - result = PyObject_CallFunction(callback, "s", "destroy"); - if (result) { - Py_DECREF(result); - } else { - callback_error("window destroy callback"); - } - Py_DECREF(callback); - break; + case WM_SIZE: + /* resize window */ + result = PyObject_CallFunction( + callback, "sii", "resize", LOWORD(lParam), HIWORD(lParam)); + if (result) { + InvalidateRect(wnd, NULL, 1); + Py_DECREF(result); + } else { + callback_error("window resize callback"); + } + break; + + case WM_DESTROY: + /* destroy window */ + result = PyObject_CallFunction(callback, "s", "destroy"); + if (result) { + Py_DECREF(result); + } else { + callback_error("window destroy callback"); + } + Py_DECREF(callback); + break; - default: - status = DefWindowProc(wnd, message, wParam, lParam); + default: + status = DefWindowProc(wnd, message, wParam, lParam); } if (callback) { @@ -684,14 +692,13 @@ windowCallback(HWND wnd, UINT message, WPARAM wParam, LPARAM lParam) return status; } -PyObject* -PyImaging_CreateWindowWin32(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_CreateWindowWin32(PyObject *self, PyObject *args) { HWND wnd; WNDCLASS windowClass; - char* title; - PyObject* callback; + char *title; + PyObject *callback; int width = 0, height = 0; if (!PyArg_ParseTuple(args, "sO|ii", &title, &callback, &width, &height)) { return NULL; @@ -707,7 +714,7 @@ PyImaging_CreateWindowWin32(PyObject* self, PyObject* args) /* register toplevel window class */ windowClass.style = CS_CLASSDC; windowClass.cbClsExtra = 0; - windowClass.cbWndExtra = sizeof(PyObject*) + sizeof(PyThreadState*); + windowClass.cbWndExtra = sizeof(PyObject *) + sizeof(PyThreadState *); windowClass.hInstance = GetModuleHandle(NULL); /* windowClass.hbrBackground = (HBRUSH) (COLOR_BTNFACE + 1); */ windowClass.hbrBackground = NULL; @@ -720,11 +727,18 @@ PyImaging_CreateWindowWin32(PyObject* self, PyObject* args) RegisterClass(&windowClass); /* FIXME: check return status */ wnd = CreateWindowEx( - 0, windowClass.lpszClassName, title, + 0, + windowClass.lpszClassName, + title, WS_OVERLAPPEDWINDOW, - CW_USEDEFAULT, CW_USEDEFAULT, width, height, - HWND_DESKTOP, NULL, NULL, NULL - ); + CW_USEDEFAULT, + CW_USEDEFAULT, + width, + height, + HWND_DESKTOP, + NULL, + NULL, + NULL); if (!wnd) { PyErr_SetString(PyExc_OSError, "failed to create window"); @@ -733,76 +747,76 @@ PyImaging_CreateWindowWin32(PyObject* self, PyObject* args) /* register window callback */ Py_INCREF(callback); - SetWindowLongPtr(wnd, 0, (LONG_PTR) callback); - SetWindowLongPtr(wnd, sizeof(callback), (LONG_PTR) PyThreadState_Get()); + SetWindowLongPtr(wnd, 0, (LONG_PTR)callback); + SetWindowLongPtr(wnd, sizeof(callback), (LONG_PTR)PyThreadState_Get()); - Py_BEGIN_ALLOW_THREADS - ShowWindow(wnd, SW_SHOWNORMAL); + Py_BEGIN_ALLOW_THREADS ShowWindow(wnd, SW_SHOWNORMAL); SetForegroundWindow(wnd); /* to make sure it's visible */ Py_END_ALLOW_THREADS - return Py_BuildValue(F_HANDLE, wnd); + return Py_BuildValue(F_HANDLE, wnd); } -PyObject* -PyImaging_EventLoopWin32(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_EventLoopWin32(PyObject *self, PyObject *args) { MSG msg; - Py_BEGIN_ALLOW_THREADS - while (mainloop && GetMessage(&msg, NULL, 0, 0)) { + Py_BEGIN_ALLOW_THREADS while (mainloop && GetMessage(&msg, NULL, 0, 0)) { TranslateMessage(&msg); DispatchMessage(&msg); } Py_END_ALLOW_THREADS - Py_INCREF(Py_None); + Py_INCREF(Py_None); return Py_None; } /* -------------------------------------------------------------------- */ /* windows WMF renderer */ -#define GET32(p,o) ((DWORD*)(p+o))[0] +#define GET32(p, o) ((DWORD *)(p + o))[0] PyObject * -PyImaging_DrawWmf(PyObject* self, PyObject* args) -{ +PyImaging_DrawWmf(PyObject *self, PyObject *args) { HBITMAP bitmap; HENHMETAFILE meta; BITMAPCOREHEADER core; HDC dc; RECT rect; - PyObject* buffer = NULL; - char* ptr; + PyObject *buffer = NULL; + char *ptr; - char* data; + char *data; int datasize; int width, height; int x0, y0, x1, y1; - if (!PyArg_ParseTuple(args, "y#(ii)(iiii):_load", &data, &datasize, - &width, &height, &x0, &x1, &y0, &y1)) { + if (!PyArg_ParseTuple( + args, + "y#(ii)(iiii):_load", + &data, + &datasize, + &width, + &height, + &x0, + &x1, + &y0, + &y1)) { return NULL; } /* step 1: copy metafile contents into METAFILE object */ if (datasize > 22 && GET32(data, 0) == 0x9ac6cdd7) { - /* placeable windows metafile (22-byte aldus header) */ - meta = SetWinMetaFileBits(datasize-22, data+22, NULL, NULL); - - } else if (datasize > 80 && GET32(data, 0) == 1 && - GET32(data, 40) == 0x464d4520) { + meta = SetWinMetaFileBits(datasize - 22, data + 22, NULL, NULL); + } else if (datasize > 80 && GET32(data, 0) == 1 && GET32(data, 40) == 0x464d4520) { /* enhanced metafile */ meta = SetEnhMetaFileBits(datasize, data); } else { - /* unknown meta format */ meta = NULL; - } if (!meta) { @@ -820,9 +834,7 @@ PyImaging_DrawWmf(PyObject* self, PyObject* args) dc = CreateCompatibleDC(NULL); - bitmap = CreateDIBSection( - dc, (BITMAPINFO*) &core, DIB_RGB_COLORS, &ptr, NULL, 0 - ); + bitmap = CreateDIBSection(dc, (BITMAPINFO *)&core, DIB_RGB_COLORS, &ptr, NULL, 0); if (!bitmap) { PyErr_SetString(PyExc_OSError, "cannot create bitmap"); @@ -852,7 +864,7 @@ PyImaging_DrawWmf(PyObject* self, PyObject* args) GdiFlush(); - buffer = PyBytes_FromStringAndSize(ptr, height * ((width*3 + 3) & -4)); + buffer = PyBytes_FromStringAndSize(ptr, height * ((width * 3 + 3) & -4)); error: DeleteEnhMetaFile(meta); @@ -877,18 +889,17 @@ PyImaging_DrawWmf(PyObject* self, PyObject* args) /* -------------------------------------------------------------------- */ /* X11 screen grabber */ -PyObject* -PyImaging_GrabScreenX11(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_GrabScreenX11(PyObject *self, PyObject *args) { int width, height; - char* display_name; - xcb_connection_t* connection; + char *display_name; + xcb_connection_t *connection; int screen_number; xcb_screen_iterator_t iter; - xcb_screen_t* screen = NULL; - xcb_get_image_reply_t* reply; - xcb_generic_error_t* error; - PyObject* buffer = NULL; + xcb_screen_t *screen = NULL; + xcb_get_image_reply_t *reply; + xcb_generic_error_t *error; + PyObject *buffer = NULL; if (!PyArg_ParseTuple(args, "|z", &display_name)) { return NULL; @@ -898,7 +909,10 @@ PyImaging_GrabScreenX11(PyObject* self, PyObject* args) connection = xcb_connect(display_name, &screen_number); if (xcb_connection_has_error(connection)) { - PyErr_Format(PyExc_OSError, "X connection failed: error %i", xcb_connection_has_error(connection)); + PyErr_Format( + PyExc_OSError, + "X connection failed: error %i", + xcb_connection_has_error(connection)); xcb_disconnect(connection); return NULL; } @@ -922,13 +936,26 @@ PyImaging_GrabScreenX11(PyObject* self, PyObject* args) /* get image data */ - reply = xcb_get_image_reply(connection, - xcb_get_image(connection, XCB_IMAGE_FORMAT_Z_PIXMAP, screen->root, - 0, 0, width, height, 0x00ffffff), - &error); + reply = xcb_get_image_reply( + connection, + xcb_get_image( + connection, + XCB_IMAGE_FORMAT_Z_PIXMAP, + screen->root, + 0, + 0, + width, + height, + 0x00ffffff), + &error); if (reply == NULL) { - PyErr_Format(PyExc_OSError, "X get_image failed: error %i (%i, %i, %i)", - error->error_code, error->major_code, error->minor_code, error->resource_id); + PyErr_Format( + PyExc_OSError, + "X get_image failed: error %i (%i, %i, %i)", + error->error_code, + error->major_code, + error->minor_code, + error->resource_id); free(error); xcb_disconnect(connection); return NULL; @@ -937,8 +964,8 @@ PyImaging_GrabScreenX11(PyObject* self, PyObject* args) /* store data in Python buffer */ if (reply->depth == 24) { - buffer = PyBytes_FromStringAndSize((char*)xcb_get_image_data(reply), - xcb_get_image_data_length(reply)); + buffer = PyBytes_FromStringAndSize( + (char *)xcb_get_image_data(reply), xcb_get_image_data_length(reply)); } else { PyErr_Format(PyExc_OSError, "unsupported bit depth: %i", reply->depth); } diff --git a/src/encode.c b/src/encode.c index d64f47d2b13..b7ff8263e8e 100644 --- a/src/encode.c +++ b/src/encode.c @@ -37,25 +37,23 @@ /* -------------------------------------------------------------------- */ typedef struct { - PyObject_HEAD - int (*encode)(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); + PyObject_HEAD int (*encode)( + Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); int (*cleanup)(ImagingCodecState state); struct ImagingCodecStateInstance state; Imaging im; - PyObject* lock; + PyObject *lock; int pushes_fd; } ImagingEncoderObject; static PyTypeObject ImagingEncoderType; -static ImagingEncoderObject* -PyImaging_EncoderNew(int contextsize) -{ +static ImagingEncoderObject * +PyImaging_EncoderNew(int contextsize) { ImagingEncoderObject *encoder; void *context; - if(PyType_Ready(&ImagingEncoderType) < 0) { + if (PyType_Ready(&ImagingEncoderType) < 0) { return NULL; } @@ -69,10 +67,10 @@ PyImaging_EncoderNew(int contextsize) /* Allocate encoder context */ if (contextsize > 0) { - context = (void*) calloc(1, contextsize); + context = (void *)calloc(1, contextsize); if (!context) { Py_DECREF(encoder); - (void) PyErr_NoMemory(); + (void)PyErr_NoMemory(); return NULL; } } else { @@ -94,8 +92,7 @@ PyImaging_EncoderNew(int contextsize) } static void -_dealloc(ImagingEncoderObject* encoder) -{ +_dealloc(ImagingEncoderObject *encoder) { if (encoder->cleanup) { encoder->cleanup(&encoder->state); } @@ -106,23 +103,21 @@ _dealloc(ImagingEncoderObject* encoder) PyObject_Del(encoder); } -static PyObject* -_encode_cleanup(ImagingEncoderObject* encoder, PyObject* args) -{ +static PyObject * +_encode_cleanup(ImagingEncoderObject *encoder, PyObject *args) { int status = 0; - if (encoder->cleanup){ + if (encoder->cleanup) { status = encoder->cleanup(&encoder->state); } return Py_BuildValue("i", status); } -static PyObject* -_encode(ImagingEncoderObject* encoder, PyObject* args) -{ - PyObject* buf; - PyObject* result; +static PyObject * +_encode(ImagingEncoderObject *encoder, PyObject *args) { + PyObject *buf; + PyObject *result; int status; /* Encode to a Python string (allocated by this method) */ @@ -138,8 +133,8 @@ _encode(ImagingEncoderObject* encoder, PyObject* args) return NULL; } - status = encoder->encode(encoder->im, &encoder->state, - (UINT8*) PyBytes_AsString(buf), bufsize); + status = encoder->encode( + encoder->im, &encoder->state, (UINT8 *)PyBytes_AsString(buf), bufsize); /* adjust string length to avoid slicing in encoder */ if (_PyBytes_Resize(&buf, (status > 0) ? status : 0) < 0) { @@ -153,31 +148,28 @@ _encode(ImagingEncoderObject* encoder, PyObject* args) return result; } -static PyObject* -_encode_to_pyfd(ImagingEncoderObject* encoder, PyObject* args) -{ - +static PyObject * +_encode_to_pyfd(ImagingEncoderObject *encoder, PyObject *args) { PyObject *result; int status; if (!encoder->pushes_fd) { // UNDONE, appropriate errcode??? - result = Py_BuildValue("ii", 0, IMAGING_CODEC_CONFIG);; + result = Py_BuildValue("ii", 0, IMAGING_CODEC_CONFIG); + ; return result; } - status = encoder->encode(encoder->im, &encoder->state, - (UINT8*) NULL, 0); + status = encoder->encode(encoder->im, &encoder->state, (UINT8 *)NULL, 0); result = Py_BuildValue("ii", status, encoder->state.errcode); return result; } -static PyObject* -_encode_to_file(ImagingEncoderObject* encoder, PyObject* args) -{ - UINT8* buf; +static PyObject * +_encode_to_file(ImagingEncoderObject *encoder, PyObject *args) { + UINT8 *buf; int status; ImagingSectionCookie cookie; @@ -192,7 +184,7 @@ _encode_to_file(ImagingEncoderObject* encoder, PyObject* args) /* Allocate an encoder buffer */ /* malloc check ok, either constant int, or checked by PyArg_ParseTuple */ - buf = (UINT8*) malloc(bufsize); + buf = (UINT8 *)malloc(bufsize); if (!buf) { return PyErr_NoMemory(); } @@ -200,7 +192,6 @@ _encode_to_file(ImagingEncoderObject* encoder, PyObject* args) ImagingSectionEnter(&cookie); do { - /* This replaces the inner loop in the ImageFile _save function. */ @@ -223,12 +214,12 @@ _encode_to_file(ImagingEncoderObject* encoder, PyObject* args) return Py_BuildValue("i", encoder->state.errcode); } -extern Imaging PyImaging_AsImaging(PyObject *op); +extern Imaging +PyImaging_AsImaging(PyObject *op); -static PyObject* -_setimage(ImagingEncoderObject* encoder, PyObject* args) -{ - PyObject* op; +static PyObject * +_setimage(ImagingEncoderObject *encoder, PyObject *args) { + PyObject *op; Imaging im; ImagingCodecState state; Py_ssize_t x0, y0, x1, y1; @@ -260,22 +251,20 @@ _setimage(ImagingEncoderObject* encoder, PyObject* args) state->ysize = y1 - y0; } - if (state->xsize <= 0 || - state->xsize + state->xoff > im->xsize || - state->ysize <= 0 || - state->ysize + state->yoff > im->ysize) { + if (state->xsize <= 0 || state->xsize + state->xoff > im->xsize || + state->ysize <= 0 || state->ysize + state->yoff > im->ysize) { PyErr_SetString(PyExc_SystemError, "tile cannot extend outside image"); return NULL; } /* Allocate memory buffer (if bits field is set) */ if (state->bits > 0) { - if (state->xsize > ((INT_MAX / state->bits)-7)) { + if (state->xsize > ((INT_MAX / state->bits) - 7)) { return PyErr_NoMemory(); } - state->bytes = (state->bits * state->xsize+7)/8; + state->bytes = (state->bits * state->xsize + 7) / 8; /* malloc check ok, overflow checked above */ - state->buffer = (UINT8*) malloc(state->bytes); + state->buffer = (UINT8 *)malloc(state->bytes); if (!state->buffer) { return PyErr_NoMemory(); } @@ -291,10 +280,9 @@ _setimage(ImagingEncoderObject* encoder, PyObject* args) return Py_None; } -static PyObject* -_setfd(ImagingEncoderObject* encoder, PyObject* args) -{ - PyObject* fd; +static PyObject * +_setfd(ImagingEncoderObject *encoder, PyObject *args) { + PyObject *fd; ImagingCodecState state; if (!PyArg_ParseTuple(args, "O", &fd)) { @@ -311,8 +299,7 @@ _setfd(ImagingEncoderObject* encoder, PyObject* args) } static PyObject * -_get_pushes_fd(ImagingEncoderObject *encoder) -{ +_get_pushes_fd(ImagingEncoderObject *encoder) { return PyBool_FromLong(encoder->pushes_fd); } @@ -327,52 +314,51 @@ static struct PyMethodDef methods[] = { }; static struct PyGetSetDef getseters[] = { - {"pushes_fd", (getter)_get_pushes_fd, NULL, + {"pushes_fd", + (getter)_get_pushes_fd, + NULL, "True if this decoder expects to push directly to self.fd", NULL}, {NULL, NULL, NULL, NULL, NULL} /* sentinel */ }; static PyTypeObject ImagingEncoderType = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingEncoder", /*tp_name*/ - sizeof(ImagingEncoderObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingEncoder", /*tp_name*/ + sizeof(ImagingEncoderObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - getseters, /*tp_getset*/ + (destructor)_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + getseters, /*tp_getset*/ }; /* -------------------------------------------------------------------- */ int -get_packer(ImagingEncoderObject* encoder, const char* mode, - const char* rawmode) -{ +get_packer(ImagingEncoderObject *encoder, const char *mode, const char *rawmode) { int bits; ImagingShuffler pack; @@ -389,15 +375,13 @@ get_packer(ImagingEncoderObject* encoder, const char* mode, return 0; } - /* -------------------------------------------------------------------- */ /* EPS */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_EpsEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_EpsEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; encoder = PyImaging_EncoderNew(0); if (encoder == NULL) { @@ -406,18 +390,16 @@ PyImaging_EpsEncoderNew(PyObject* self, PyObject* args) encoder->encode = ImagingEpsEncode; - return (PyObject*) encoder; + return (PyObject *)encoder; } - /* -------------------------------------------------------------------- */ /* GIF */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_GifEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_GifEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; char *mode; char *rawmode; @@ -438,21 +420,19 @@ PyImaging_GifEncoderNew(PyObject* self, PyObject* args) encoder->encode = ImagingGifEncode; - ((GIFENCODERSTATE*)encoder->state.context)->bits = bits; - ((GIFENCODERSTATE*)encoder->state.context)->interlace = interlace; + ((GIFENCODERSTATE *)encoder->state.context)->bits = bits; + ((GIFENCODERSTATE *)encoder->state.context)->interlace = interlace; - return (PyObject*) encoder; + return (PyObject *)encoder; } - /* -------------------------------------------------------------------- */ /* PCX */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_PcxEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_PcxEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; char *mode; char *rawmode; @@ -473,18 +453,16 @@ PyImaging_PcxEncoderNew(PyObject* self, PyObject* args) encoder->encode = ImagingPcxEncode; - return (PyObject*) encoder; + return (PyObject *)encoder; } - /* -------------------------------------------------------------------- */ /* RAW */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_RawEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_RawEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; char *mode; char *rawmode; @@ -509,18 +487,16 @@ PyImaging_RawEncoderNew(PyObject* self, PyObject* args) encoder->state.ystep = ystep; encoder->state.count = stride; - return (PyObject*) encoder; + return (PyObject *)encoder; } - /* -------------------------------------------------------------------- */ /* TGA */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_TgaRleEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_TgaRleEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; char *mode; char *rawmode; @@ -543,19 +519,16 @@ PyImaging_TgaRleEncoderNew(PyObject* self, PyObject* args) encoder->state.ystep = ystep; - return (PyObject*) encoder; + return (PyObject *)encoder; } - - /* -------------------------------------------------------------------- */ /* XBM */ /* -------------------------------------------------------------------- */ -PyObject* -PyImaging_XbmEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_XbmEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; encoder = PyImaging_EncoderNew(0); if (encoder == NULL) { @@ -568,10 +541,9 @@ PyImaging_XbmEncoderNew(PyObject* self, PyObject* args) encoder->encode = ImagingXbmEncode; - return (PyObject*) encoder; + return (PyObject *)encoder; } - /* -------------------------------------------------------------------- */ /* ZIP */ /* -------------------------------------------------------------------- */ @@ -580,29 +552,34 @@ PyImaging_XbmEncoderNew(PyObject* self, PyObject* args) #include "Zip.h" -PyObject* -PyImaging_ZipEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_ZipEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; - char* mode; - char* rawmode; + char *mode; + char *rawmode; Py_ssize_t optimize = 0; Py_ssize_t compress_level = -1; Py_ssize_t compress_type = -1; - char* dictionary = NULL; + char *dictionary = NULL; Py_ssize_t dictionary_size = 0; - if (!PyArg_ParseTuple(args, "ss|nnny#", &mode, &rawmode, - &optimize, - &compress_level, &compress_type, - &dictionary, &dictionary_size)) { + if (!PyArg_ParseTuple( + args, + "ss|nnny#", + &mode, + &rawmode, + &optimize, + &compress_level, + &compress_type, + &dictionary, + &dictionary_size)) { return NULL; } /* Copy to avoid referencing Python's memory */ if (dictionary && dictionary_size > 0) { /* malloc check ok, size comes from PyArg_ParseTuple */ - char* p = malloc(dictionary_size); + char *p = malloc(dictionary_size); if (!p) { return PyErr_NoMemory(); } @@ -628,20 +605,19 @@ PyImaging_ZipEncoderNew(PyObject* self, PyObject* args) if (rawmode[0] == 'P') { /* disable filtering */ - ((ZIPSTATE*)encoder->state.context)->mode = ZIP_PNG_PALETTE; + ((ZIPSTATE *)encoder->state.context)->mode = ZIP_PNG_PALETTE; } - ((ZIPSTATE*)encoder->state.context)->optimize = optimize; - ((ZIPSTATE*)encoder->state.context)->compress_level = compress_level; - ((ZIPSTATE*)encoder->state.context)->compress_type = compress_type; - ((ZIPSTATE*)encoder->state.context)->dictionary = dictionary; - ((ZIPSTATE*)encoder->state.context)->dictionary_size = dictionary_size; + ((ZIPSTATE *)encoder->state.context)->optimize = optimize; + ((ZIPSTATE *)encoder->state.context)->compress_level = compress_level; + ((ZIPSTATE *)encoder->state.context)->compress_type = compress_type; + ((ZIPSTATE *)encoder->state.context)->dictionary = dictionary; + ((ZIPSTATE *)encoder->state.context)->dictionary_size = dictionary_size; - return (PyObject*) encoder; + return (PyObject *)encoder; } #endif - /* -------------------------------------------------------------------- */ /* LibTiff */ /* -------------------------------------------------------------------- */ @@ -652,15 +628,14 @@ PyImaging_ZipEncoderNew(PyObject* self, PyObject* args) #include -PyObject* -PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_LibTiffEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; - char* mode; - char* rawmode; - char* compname; - char* filename; + char *mode; + char *rawmode; + char *compname; + char *filename; Py_ssize_t fp; PyObject *tags, *types; @@ -669,16 +644,24 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) int key_int, status, is_core_tag, is_var_length, num_core_tags, i; TIFFDataType type = TIFF_NOTYPE; // This list also exists in TiffTags.py - const int core_tags[] = { - 256, 257, 258, 259, 262, 263, 266, 269, 274, 277, 278, 280, 281, 340, - 341, 282, 283, 284, 286, 287, 296, 297, 320, 321, 338, 32995, 32998, 32996, - 339, 32997, 330, 531, 530, 65537 - }; + const int core_tags[] = {256, 257, 258, 259, 262, 263, 266, 269, 274, + 277, 278, 280, 281, 340, 341, 282, 283, 284, + 286, 287, 296, 297, 320, 321, 338, 32995, 32998, + 32996, 339, 32997, 330, 531, 530, 65537}; Py_ssize_t tags_size; PyObject *item; - if (! PyArg_ParseTuple(args, "sssnsOO", &mode, &rawmode, &compname, &fp, &filename, &tags, &types)) { + if (!PyArg_ParseTuple( + args, + "sssnsOO", + &mode, + &rawmode, + &compname, + &fp, + &filename, + &tags, + &types)) { return NULL; } @@ -688,11 +671,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) } else { tags_size = PyList_Size(tags); TRACE(("tags size: %d\n", (int)tags_size)); - for (pos=0;posstate, filename, fp)) { + if (!ImagingLibTiffEncodeInit(&encoder->state, filename, fp)) { Py_DECREF(encoder); PyErr_SetString(PyExc_RuntimeError, "tiff codec initialization failed"); return NULL; @@ -731,7 +714,7 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) is_var_length = 0; type = TIFF_NOTYPE; - for (i=0; istate, type, key_int, is_var_length)) { + if (ImagingLibTiffMergeFieldInfo( + &encoder->state, type, key_int, is_var_length)) { continue; } } if (type == TIFF_BYTE || type == TIFF_UNDEFINED) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - PyBytes_Size(value), PyBytes_AsString(value)); + status = ImagingLibTiffSetField( + &encoder->state, + (ttag_t)key_int, + PyBytes_Size(value), + PyBytes_AsString(value)); } else if (is_var_length) { - Py_ssize_t len,i; + Py_ssize_t len, i; TRACE(("Setting from Tuple: %d \n", key_int)); len = PyTuple_Size(value); if (key_int == TIFFTAG_COLORMAP) { int stride = 256; if (len != 768) { - PyErr_SetString(PyExc_ValueError, "Requiring 768 items for for Colormap"); + PyErr_SetString( + PyExc_ValueError, "Requiring 768 items for for Colormap"); return NULL; } UINT16 *av; /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(UINT16)); if (av) { - for (i=0;istate, (ttag_t) key_int, - av, - av + stride, - av + stride * 2); + status = ImagingLibTiffSetField( + &encoder->state, + (ttag_t)key_int, + av, + av + stride, + av + stride * 2); free(av); } } else if (type == TIFF_SHORT) { @@ -825,10 +813,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(UINT16)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_LONG) { @@ -836,10 +825,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(UINT32)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_SBYTE) { @@ -847,10 +837,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(INT8)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_SSHORT) { @@ -858,10 +849,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(INT16)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_SLONG) { @@ -869,10 +861,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(INT32)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_FLOAT) { @@ -880,10 +873,11 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(FLOAT32)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } else if (type == TIFF_DOUBLE) { @@ -891,54 +885,47 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* malloc check ok, calloc checks for overflow */ av = calloc(len, sizeof(FLOAT64)); if (av) { - for (i=0;istate, (ttag_t) key_int, len, av); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, len, av); free(av); } } } else { if (type == TIFF_SHORT) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (UINT16)PyLong_AsLong(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (UINT16)PyLong_AsLong(value)); } else if (type == TIFF_LONG) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (UINT32)PyLong_AsLong(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (UINT32)PyLong_AsLong(value)); } else if (type == TIFF_SSHORT) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (INT16)PyLong_AsLong(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (INT16)PyLong_AsLong(value)); } else if (type == TIFF_SLONG) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (INT32)PyLong_AsLong(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (INT32)PyLong_AsLong(value)); } else if (type == TIFF_FLOAT) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (FLOAT32)PyFloat_AsDouble(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (FLOAT32)PyFloat_AsDouble(value)); } else if (type == TIFF_DOUBLE) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (FLOAT64)PyFloat_AsDouble(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (FLOAT64)PyFloat_AsDouble(value)); } else if (type == TIFF_SBYTE) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (INT8)PyLong_AsLong(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (INT8)PyLong_AsLong(value)); } else if (type == TIFF_ASCII) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - PyBytes_AsString(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, PyBytes_AsString(value)); } else if (type == TIFF_RATIONAL) { - status = ImagingLibTiffSetField(&encoder->state, - (ttag_t) key_int, - (FLOAT64)PyFloat_AsDouble(value)); + status = ImagingLibTiffSetField( + &encoder->state, (ttag_t)key_int, (FLOAT64)PyFloat_AsDouble(value)); } else { - TRACE(("Unhandled type for key %d : %s \n", - key_int, - PyBytes_AsString(PyObject_Str(value)))); + TRACE( + ("Unhandled type for key %d : %s \n", + key_int, + PyBytes_AsString(PyObject_Str(value)))); } } if (!status) { @@ -949,9 +936,9 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) } } - encoder->encode = ImagingLibTiffEncode; + encoder->encode = ImagingLibTiffEncode; - return (PyObject*) encoder; + return (PyObject *)encoder; } #endif @@ -965,26 +952,27 @@ PyImaging_LibTiffEncoderNew(PyObject* self, PyObject* args) /* We better define this encoder last in this file, so the following undef's won't mess things up for the Imaging library proper. */ -#undef HAVE_PROTOTYPES -#undef HAVE_STDDEF_H -#undef HAVE_STDLIB_H -#undef UINT8 -#undef UINT16 -#undef UINT32 -#undef INT8 -#undef INT16 -#undef INT32 +#undef HAVE_PROTOTYPES +#undef HAVE_STDDEF_H +#undef HAVE_STDLIB_H +#undef UINT8 +#undef UINT16 +#undef UINT32 +#undef INT8 +#undef INT16 +#undef INT32 #include "Jpeg.h" -static unsigned int* get_qtables_arrays(PyObject* qtables, int* qtablesLen) { - PyObject* tables; - PyObject* table; - PyObject* table_data; +static unsigned int * +get_qtables_arrays(PyObject *qtables, int *qtablesLen) { + PyObject *tables; + PyObject *table; + PyObject *table_data; int i, j, num_tables; unsigned int *qarrays; - if ((qtables == NULL) || (qtables == Py_None)) { + if ((qtables == NULL) || (qtables == Py_None)) { return NULL; } @@ -996,13 +984,14 @@ static unsigned int* get_qtables_arrays(PyObject* qtables, int* qtablesLen) { tables = PySequence_Fast(qtables, "expected a sequence"); num_tables = PySequence_Size(qtables); if (num_tables < 1 || num_tables > NUM_QUANT_TBLS) { - PyErr_SetString(PyExc_ValueError, + PyErr_SetString( + PyExc_ValueError, "Not a valid number of quantization tables. Should be between 1 and 4."); Py_DECREF(tables); return NULL; } /* malloc check ok, num_tables <4, DCTSIZE2 == 64 from jpeglib.h */ - qarrays = (unsigned int*) malloc(num_tables * DCTSIZE2 * sizeof(unsigned int)); + qarrays = (unsigned int *)malloc(num_tables * DCTSIZE2 * sizeof(unsigned int)); if (!qarrays) { Py_DECREF(tables); PyErr_NoMemory(); @@ -1020,7 +1009,8 @@ static unsigned int* get_qtables_arrays(PyObject* qtables, int* qtablesLen) { } table_data = PySequence_Fast(table, "expected a sequence"); for (j = 0; j < DCTSIZE2; j++) { - qarrays[i * DCTSIZE2 + j] = PyLong_AS_LONG(PySequence_Fast_GET_ITEM(table_data, j)); + qarrays[i * DCTSIZE2 + j] = + PyLong_AS_LONG(PySequence_Fast_GET_ITEM(table_data, j)); } Py_DECREF(table_data); } @@ -1038,10 +1028,9 @@ static unsigned int* get_qtables_arrays(PyObject* qtables, int* qtablesLen) { return qarrays; } -PyObject* -PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) -{ - ImagingEncoderObject* encoder; +PyObject * +PyImaging_JpegEncoderNew(PyObject *self, PyObject *args) { + ImagingEncoderObject *encoder; char *mode; char *rawmode; @@ -1052,19 +1041,32 @@ PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) Py_ssize_t streamtype = 0; /* 0=interchange, 1=tables only, 2=image only */ Py_ssize_t xdpi = 0, ydpi = 0; Py_ssize_t subsampling = -1; /* -1=default, 0=none, 1=medium, 2=high */ - PyObject* qtables=NULL; + PyObject *qtables = NULL; unsigned int *qarrays = NULL; int qtablesLen = 0; - char* extra = NULL; + char *extra = NULL; Py_ssize_t extra_size; - char* rawExif = NULL; + char *rawExif = NULL; Py_ssize_t rawExifLen = 0; - if (!PyArg_ParseTuple(args, "ss|nnnnnnnnOy#y#", - &mode, &rawmode, &quality, - &progressive, &smooth, &optimize, &streamtype, - &xdpi, &ydpi, &subsampling, &qtables, &extra, &extra_size, - &rawExif, &rawExifLen)) { + if (!PyArg_ParseTuple( + args, + "ss|nnnnnnnnOy#y#", + &mode, + &rawmode, + &quality, + &progressive, + &smooth, + &optimize, + &streamtype, + &xdpi, + &ydpi, + &subsampling, + &qtables, + &extra, + &extra_size, + &rawExif, + &rawExifLen)) { return NULL; } @@ -1089,7 +1091,7 @@ PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) if (extra && extra_size > 0) { /* malloc check ok, length is from python parsearg */ - char* p = malloc(extra_size); // Freed in JpegEncode, Case 5 + char *p = malloc(extra_size); // Freed in JpegEncode, Case 5 if (!p) { return PyErr_NoMemory(); } @@ -1101,7 +1103,7 @@ PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) if (rawExif && rawExifLen > 0) { /* malloc check ok, length is from python parsearg */ - char* pp = malloc(rawExifLen); // Freed in JpegEncode, Case 5 + char *pp = malloc(rawExifLen); // Freed in JpegEncode, Case 5 if (!pp) { if (extra) { free(extra); @@ -1116,29 +1118,28 @@ PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) encoder->encode = ImagingJpegEncode; - strncpy(((JPEGENCODERSTATE*)encoder->state.context)->rawmode, rawmode, 8); - - ((JPEGENCODERSTATE*)encoder->state.context)->quality = quality; - ((JPEGENCODERSTATE*)encoder->state.context)->qtables = qarrays; - ((JPEGENCODERSTATE*)encoder->state.context)->qtablesLen = qtablesLen; - ((JPEGENCODERSTATE*)encoder->state.context)->subsampling = subsampling; - ((JPEGENCODERSTATE*)encoder->state.context)->progressive = progressive; - ((JPEGENCODERSTATE*)encoder->state.context)->smooth = smooth; - ((JPEGENCODERSTATE*)encoder->state.context)->optimize = optimize; - ((JPEGENCODERSTATE*)encoder->state.context)->streamtype = streamtype; - ((JPEGENCODERSTATE*)encoder->state.context)->xdpi = xdpi; - ((JPEGENCODERSTATE*)encoder->state.context)->ydpi = ydpi; - ((JPEGENCODERSTATE*)encoder->state.context)->extra = extra; - ((JPEGENCODERSTATE*)encoder->state.context)->extra_size = extra_size; - ((JPEGENCODERSTATE*)encoder->state.context)->rawExif = rawExif; - ((JPEGENCODERSTATE*)encoder->state.context)->rawExifLen = rawExifLen; - - return (PyObject*) encoder; + strncpy(((JPEGENCODERSTATE *)encoder->state.context)->rawmode, rawmode, 8); + + ((JPEGENCODERSTATE *)encoder->state.context)->quality = quality; + ((JPEGENCODERSTATE *)encoder->state.context)->qtables = qarrays; + ((JPEGENCODERSTATE *)encoder->state.context)->qtablesLen = qtablesLen; + ((JPEGENCODERSTATE *)encoder->state.context)->subsampling = subsampling; + ((JPEGENCODERSTATE *)encoder->state.context)->progressive = progressive; + ((JPEGENCODERSTATE *)encoder->state.context)->smooth = smooth; + ((JPEGENCODERSTATE *)encoder->state.context)->optimize = optimize; + ((JPEGENCODERSTATE *)encoder->state.context)->streamtype = streamtype; + ((JPEGENCODERSTATE *)encoder->state.context)->xdpi = xdpi; + ((JPEGENCODERSTATE *)encoder->state.context)->ydpi = ydpi; + ((JPEGENCODERSTATE *)encoder->state.context)->extra = extra; + ((JPEGENCODERSTATE *)encoder->state.context)->extra_size = extra_size; + ((JPEGENCODERSTATE *)encoder->state.context)->rawExif = rawExif; + ((JPEGENCODERSTATE *)encoder->state.context)->rawExifLen = rawExifLen; + + return (PyObject *)encoder; } #endif - /* -------------------------------------------------------------------- */ /* JPEG 2000 */ /* -------------------------------------------------------------------- */ @@ -1148,8 +1149,7 @@ PyImaging_JpegEncoderNew(PyObject* self, PyObject* args) #include "Jpeg2K.h" static void -j2k_decode_coord_tuple(PyObject *tuple, int *x, int *y) -{ +j2k_decode_coord_tuple(PyObject *tuple, int *x, int *y) { *x = *y = 0; if (tuple && PyTuple_Check(tuple) && PyTuple_GET_SIZE(tuple) == 2) { @@ -1165,9 +1165,8 @@ j2k_decode_coord_tuple(PyObject *tuple, int *x, int *y) } } -PyObject* -PyImaging_Jpeg2KEncoderNew(PyObject *self, PyObject *args) -{ +PyObject * +PyImaging_Jpeg2KEncoderNew(PyObject *self, PyObject *args) { ImagingEncoderObject *encoder; JPEG2KENCODESTATE *context; @@ -1186,20 +1185,31 @@ PyImaging_Jpeg2KEncoderNew(PyObject *self, PyObject *args) OPJ_CINEMA_MODE cine_mode; Py_ssize_t fd = -1; - if (!PyArg_ParseTuple(args, "ss|OOOsOnOOOssn", &mode, &format, - &offset, &tile_offset, &tile_size, - &quality_mode, &quality_layers, &num_resolutions, - &cblk_size, &precinct_size, - &irreversible, &progression, &cinema_mode, - &fd)) { + if (!PyArg_ParseTuple( + args, + "ss|OOOsOnOOOssn", + &mode, + &format, + &offset, + &tile_offset, + &tile_size, + &quality_mode, + &quality_layers, + &num_resolutions, + &cblk_size, + &precinct_size, + &irreversible, + &progression, + &cinema_mode, + &fd)) { return NULL; } - if (strcmp (format, "j2k") == 0) { + if (strcmp(format, "j2k") == 0) { codec_format = OPJ_CODEC_J2K; - } else if (strcmp (format, "jpt") == 0) { + } else if (strcmp(format, "jpt") == 0) { codec_format = OPJ_CODEC_JPT; - } else if (strcmp (format, "jp2") == 0) { + } else if (strcmp(format, "jp2") == 0) { codec_format = OPJ_CODEC_JP2; } else { return NULL; @@ -1246,49 +1256,44 @@ PyImaging_Jpeg2KEncoderNew(PyObject *self, PyObject *args) context->format = codec_format; context->offset_x = context->offset_y = 0; - j2k_decode_coord_tuple(offset, &context->offset_x, &context->offset_y); - j2k_decode_coord_tuple(tile_offset, - &context->tile_offset_x, - &context->tile_offset_y); - j2k_decode_coord_tuple(tile_size, - &context->tile_size_x, - &context->tile_size_y); + j2k_decode_coord_tuple( + tile_offset, &context->tile_offset_x, &context->tile_offset_y); + j2k_decode_coord_tuple(tile_size, &context->tile_size_x, &context->tile_size_y); /* Error on illegal tile offsets */ if (context->tile_size_x && context->tile_size_y) { - if (context->tile_offset_x <= context->offset_x - context->tile_size_x - || context->tile_offset_y <= context->offset_y - context->tile_size_y) { - PyErr_SetString(PyExc_ValueError, - "JPEG 2000 tile offset too small; top left tile must " - "intersect image area"); + if (context->tile_offset_x <= context->offset_x - context->tile_size_x || + context->tile_offset_y <= context->offset_y - context->tile_size_y) { + PyErr_SetString( + PyExc_ValueError, + "JPEG 2000 tile offset too small; top left tile must " + "intersect image area"); Py_DECREF(encoder); return NULL; } - if (context->tile_offset_x > context->offset_x - || context->tile_offset_y > context->offset_y) { - PyErr_SetString(PyExc_ValueError, - "JPEG 2000 tile offset too large to cover image area"); + if (context->tile_offset_x > context->offset_x || + context->tile_offset_y > context->offset_y) { + PyErr_SetString( + PyExc_ValueError, + "JPEG 2000 tile offset too large to cover image area"); Py_DECREF(encoder); return NULL; } } if (quality_layers && PySequence_Check(quality_layers)) { - context->quality_is_in_db = strcmp (quality_mode, "dB") == 0; + context->quality_is_in_db = strcmp(quality_mode, "dB") == 0; context->quality_layers = quality_layers; Py_INCREF(quality_layers); } context->num_resolutions = num_resolutions; - j2k_decode_coord_tuple(cblk_size, - &context->cblk_width, - &context->cblk_height); - j2k_decode_coord_tuple(precinct_size, - &context->precinct_width, - &context->precinct_height); + j2k_decode_coord_tuple(cblk_size, &context->cblk_width, &context->cblk_height); + j2k_decode_coord_tuple( + precinct_size, &context->precinct_width, &context->precinct_height); context->irreversible = PyObject_IsTrue(irreversible); context->progression = prog_order; diff --git a/src/libImaging/Access.c b/src/libImaging/Access.c index 755e2639afe..6bb16fe3a54 100644 --- a/src/libImaging/Access.c +++ b/src/libImaging/Access.c @@ -9,7 +9,6 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" /* use Tests/make_hash.py to calculate these values */ @@ -19,23 +18,25 @@ static struct ImagingAccessInstance access_table[ACCESS_TABLE_SIZE]; static inline UINT32 -hash(const char* mode) -{ +hash(const char *mode) { UINT32 i = ACCESS_TABLE_HASH; while (*mode) { - i = ((i<<5) + i) ^ (UINT8) *mode++; + i = ((i << 5) + i) ^ (UINT8)*mode++; } return i % ACCESS_TABLE_SIZE; } static ImagingAccess -add_item(const char* mode) -{ +add_item(const char *mode) { UINT32 i = hash(mode); /* printf("hash %s => %d\n", mode, i); */ if (access_table[i].mode && strcmp(access_table[i].mode, mode) != 0) { - fprintf(stderr, "AccessInit: hash collision: %d for both %s and %s\n", - i, mode, access_table[i].mode); + fprintf( + stderr, + "AccessInit: hash collision: %d for both %s and %s\n", + i, + mode, + access_table[i].mode); exit(1); } access_table[i].mode = mode; @@ -44,37 +45,33 @@ add_item(const char* mode) /* fetch pointer to pixel line */ -static void* -line_8(Imaging im, int x, int y) -{ +static void * +line_8(Imaging im, int x, int y) { return &im->image8[y][x]; } -static void* -line_16(Imaging im, int x, int y) -{ - return &im->image8[y][x+x]; +static void * +line_16(Imaging im, int x, int y) { + return &im->image8[y][x + x]; } -static void* -line_32(Imaging im, int x, int y) -{ +static void * +line_32(Imaging im, int x, int y) { return &im->image32[y][x]; } /* fetch individual pixel */ static void -get_pixel(Imaging im, int x, int y, void* color) -{ - char* out = color; +get_pixel(Imaging im, int x, int y, void *color) { + char *out = color; /* generic pixel access*/ if (im->image8) { out[0] = im->image8[y][x]; } else { - UINT8* p = (UINT8*) &im->image32[y][x]; + UINT8 *p = (UINT8 *)&im->image32[y][x]; if (im->type == IMAGING_TYPE_UINT8 && im->bands == 2) { out[0] = p[0]; out[1] = p[3]; @@ -85,18 +82,16 @@ get_pixel(Imaging im, int x, int y, void* color) } static void -get_pixel_8(Imaging im, int x, int y, void* color) -{ - char* out = color; +get_pixel_8(Imaging im, int x, int y, void *color) { + char *out = color; out[0] = im->image8[y][x]; } static void -get_pixel_16L(Imaging im, int x, int y, void* color) -{ - UINT8* in = (UINT8*) &im->image[y][x+x]; +get_pixel_16L(Imaging im, int x, int y, void *color) { + UINT8 *in = (UINT8 *)&im->image[y][x + x]; #ifdef WORDS_BIGENDIAN - UINT16 out = in[0] + (in[1]<<8); + UINT16 out = in[0] + (in[1] << 8); memcpy(color, &out, sizeof(out)); #else memcpy(color, in, sizeof(UINT16)); @@ -104,29 +99,26 @@ get_pixel_16L(Imaging im, int x, int y, void* color) } static void -get_pixel_16B(Imaging im, int x, int y, void* color) -{ - UINT8* in = (UINT8*) &im->image[y][x+x]; +get_pixel_16B(Imaging im, int x, int y, void *color) { + UINT8 *in = (UINT8 *)&im->image[y][x + x]; #ifdef WORDS_BIGENDIAN memcpy(color, in, sizeof(UINT16)); #else - UINT16 out = in[1] + (in[0]<<8); + UINT16 out = in[1] + (in[0] << 8); memcpy(color, &out, sizeof(out)); #endif } static void -get_pixel_32(Imaging im, int x, int y, void* color) -{ +get_pixel_32(Imaging im, int x, int y, void *color) { memcpy(color, &im->image32[y][x], sizeof(INT32)); } static void -get_pixel_32L(Imaging im, int x, int y, void* color) -{ - UINT8* in = (UINT8*) &im->image[y][x*4]; +get_pixel_32L(Imaging im, int x, int y, void *color) { + UINT8 *in = (UINT8 *)&im->image[y][x * 4]; #ifdef WORDS_BIGENDIAN - INT32 out = in[0] + (in[1]<<8) + (in[2]<<16) + (in[3]<<24); + INT32 out = in[0] + (in[1] << 8) + (in[2] << 16) + (in[3] << 24); memcpy(color, &out, sizeof(out)); #else memcpy(color, in, sizeof(INT32)); @@ -134,13 +126,12 @@ get_pixel_32L(Imaging im, int x, int y, void* color) } static void -get_pixel_32B(Imaging im, int x, int y, void* color) -{ - UINT8* in = (UINT8*) &im->image[y][x*4]; +get_pixel_32B(Imaging im, int x, int y, void *color) { + UINT8 *in = (UINT8 *)&im->image[y][x * 4]; #ifdef WORDS_BIGENDIAN memcpy(color, in, sizeof(INT32)); #else - INT32 out = in[3] + (in[2]<<8) + (in[1]<<16) + (in[0]<<24); + INT32 out = in[3] + (in[2] << 8) + (in[1] << 16) + (in[0] << 24); memcpy(color, &out, sizeof(out)); #endif } @@ -148,47 +139,41 @@ get_pixel_32B(Imaging im, int x, int y, void* color) /* store individual pixel */ static void -put_pixel(Imaging im, int x, int y, const void* color) -{ +put_pixel(Imaging im, int x, int y, const void *color) { if (im->image8) { - im->image8[y][x] = *((UINT8*) color); + im->image8[y][x] = *((UINT8 *)color); } else { memcpy(&im->image32[y][x], color, sizeof(INT32)); } } static void -put_pixel_8(Imaging im, int x, int y, const void* color) -{ - im->image8[y][x] = *((UINT8*) color); +put_pixel_8(Imaging im, int x, int y, const void *color) { + im->image8[y][x] = *((UINT8 *)color); } static void -put_pixel_16L(Imaging im, int x, int y, const void* color) -{ - memcpy(&im->image8[y][x+x], color, 2); +put_pixel_16L(Imaging im, int x, int y, const void *color) { + memcpy(&im->image8[y][x + x], color, 2); } static void -put_pixel_16B(Imaging im, int x, int y, const void* color) -{ - const char* in = color; - UINT8* out = (UINT8*) &im->image8[y][x+x]; +put_pixel_16B(Imaging im, int x, int y, const void *color) { + const char *in = color; + UINT8 *out = (UINT8 *)&im->image8[y][x + x]; out[0] = in[1]; out[1] = in[0]; } static void -put_pixel_32L(Imaging im, int x, int y, const void* color) -{ - memcpy(&im->image8[y][x*4], color, 4); +put_pixel_32L(Imaging im, int x, int y, const void *color) { + memcpy(&im->image8[y][x * 4], color, 4); } static void -put_pixel_32B(Imaging im, int x, int y, const void* color) -{ - const char* in = color; - UINT8* out = (UINT8*) &im->image8[y][x*4]; +put_pixel_32B(Imaging im, int x, int y, const void *color) { + const char *in = color; + UINT8 *out = (UINT8 *)&im->image8[y][x * 4]; out[0] = in[3]; out[1] = in[2]; out[2] = in[1]; @@ -196,19 +181,18 @@ put_pixel_32B(Imaging im, int x, int y, const void* color) } static void -put_pixel_32(Imaging im, int x, int y, const void* color) -{ +put_pixel_32(Imaging im, int x, int y, const void *color) { memcpy(&im->image32[y][x], color, sizeof(INT32)); } void -ImagingAccessInit() -{ -#define ADD(mode_, line_, get_pixel_, put_pixel_) \ - { ImagingAccess access = add_item(mode_); \ - access->line = line_; \ - access->get_pixel = get_pixel_; \ - access->put_pixel = put_pixel_; \ +ImagingAccessInit() { +#define ADD(mode_, line_, get_pixel_, put_pixel_) \ + { \ + ImagingAccess access = add_item(mode_); \ + access->line = line_; \ + access->get_pixel = get_pixel_; \ + access->put_pixel = put_pixel_; \ } /* populate access table */ @@ -236,8 +220,7 @@ ImagingAccessInit() } ImagingAccess -ImagingAccessNew(Imaging im) -{ +ImagingAccessNew(Imaging im) { ImagingAccess access = &access_table[hash(im->mode)]; if (im->mode[0] != access->mode[0] || strcmp(im->mode, access->mode) != 0) { return NULL; @@ -246,7 +229,4 @@ ImagingAccessNew(Imaging im) } void -_ImagingAccessDelete(Imaging im, ImagingAccess access) -{ - -} +_ImagingAccessDelete(Imaging im, ImagingAccess access) {} diff --git a/src/libImaging/AlphaComposite.c b/src/libImaging/AlphaComposite.c index 20b1df9e53a..6d728f9088b 100644 --- a/src/libImaging/AlphaComposite.c +++ b/src/libImaging/AlphaComposite.c @@ -8,39 +8,30 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" #define PRECISION_BITS 7 -typedef struct -{ +typedef struct { UINT8 r; UINT8 g; UINT8 b; UINT8 a; } rgba8; - - Imaging -ImagingAlphaComposite(Imaging imDst, Imaging imSrc) -{ +ImagingAlphaComposite(Imaging imDst, Imaging imSrc) { Imaging imOut; int x, y; /* Check arguments */ - if (!imDst || !imSrc || - strcmp(imDst->mode, "RGBA") || - imDst->type != IMAGING_TYPE_UINT8 || - imDst->bands != 4) { + if (!imDst || !imSrc || strcmp(imDst->mode, "RGBA") || + imDst->type != IMAGING_TYPE_UINT8 || imDst->bands != 4) { return ImagingError_ModeError(); } - if (strcmp(imDst->mode, imSrc->mode) || - imDst->type != imSrc->type || - imDst->bands != imSrc->bands || - imDst->xsize != imSrc->xsize || + if (strcmp(imDst->mode, imSrc->mode) || imDst->type != imSrc->type || + imDst->bands != imSrc->bands || imDst->xsize != imSrc->xsize || imDst->ysize != imSrc->ysize) { return ImagingError_Mismatch(); } @@ -51,11 +42,11 @@ ImagingAlphaComposite(Imaging imDst, Imaging imSrc) } for (y = 0; y < imDst->ysize; y++) { - rgba8* dst = (rgba8*) imDst->image[y]; - rgba8* src = (rgba8*) imSrc->image[y]; - rgba8* out = (rgba8*) imOut->image[y]; + rgba8 *dst = (rgba8 *)imDst->image[y]; + rgba8 *src = (rgba8 *)imSrc->image[y]; + rgba8 *out = (rgba8 *)imOut->image[y]; - for (x = 0; x < imDst->xsize; x ++) { + for (x = 0; x < imDst->xsize; x++) { if (src->a == 0) { // Copy 4 bytes at once. *out = *dst; @@ -69,21 +60,25 @@ ImagingAlphaComposite(Imaging imDst, Imaging imSrc) UINT32 outa255 = src->a * 255 + blend; // There we use 7 bits for precision. // We could use more, but we go beyond 32 bits. - UINT32 coef1 = src->a * 255 * 255 * (1<a * 255 * 255 * (1 << PRECISION_BITS) / outa255; + UINT32 coef2 = 255 * (1 << PRECISION_BITS) - coef1; tmpr = src->r * coef1 + dst->r * coef2; tmpg = src->g * coef1 + dst->g * coef2; tmpb = src->b * coef1 + dst->b * coef2; - out->r = SHIFTFORDIV255(tmpr + (0x80<> PRECISION_BITS; - out->g = SHIFTFORDIV255(tmpg + (0x80<> PRECISION_BITS; - out->b = SHIFTFORDIV255(tmpb + (0x80<> PRECISION_BITS; + out->r = + SHIFTFORDIV255(tmpr + (0x80 << PRECISION_BITS)) >> PRECISION_BITS; + out->g = + SHIFTFORDIV255(tmpg + (0x80 << PRECISION_BITS)) >> PRECISION_BITS; + out->b = + SHIFTFORDIV255(tmpb + (0x80 << PRECISION_BITS)) >> PRECISION_BITS; out->a = SHIFTFORDIV255(outa255 + 0x80); } - dst++; src++; out++; + dst++; + src++; + out++; } - } return imOut; diff --git a/src/libImaging/Bands.c b/src/libImaging/Bands.c index 39ce5c49c18..e1b16b34ac0 100644 --- a/src/libImaging/Bands.c +++ b/src/libImaging/Bands.c @@ -15,23 +15,20 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" - Imaging -ImagingGetBand(Imaging imIn, int band) -{ +ImagingGetBand(Imaging imIn, int band) { Imaging imOut; int x, y; /* Check arguments */ if (!imIn || imIn->type != IMAGING_TYPE_UINT8) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (band < 0 || band >= imIn->bands) { - return (Imaging) ImagingError_ValueError("band index out of range"); + return (Imaging)ImagingError_ValueError("band index out of range"); } /* Shortcuts */ @@ -51,8 +48,8 @@ ImagingGetBand(Imaging imIn, int band) /* Extract band from image */ for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y] + band; - UINT8* out = imOut->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y] + band; + UINT8 *out = imOut->image8[y]; x = 0; for (; x < imIn->xsize - 3; x += 4) { UINT32 v = MAKE_UINT32(in[0], in[4], in[8], in[12]); @@ -68,15 +65,13 @@ ImagingGetBand(Imaging imIn, int band) return imOut; } - int -ImagingSplit(Imaging imIn, Imaging bands[4]) -{ +ImagingSplit(Imaging imIn, Imaging bands[4]) { int i, j, x, y; /* Check arguments */ if (!imIn || imIn->type != IMAGING_TYPE_UINT8) { - (void) ImagingError_ModeError(); + (void)ImagingError_ModeError(); return 0; } @@ -88,7 +83,7 @@ ImagingSplit(Imaging imIn, Imaging bands[4]) for (i = 0; i < imIn->bands; i++) { bands[i] = ImagingNewDirty("L", imIn->xsize, imIn->ysize); - if ( ! bands[i]) { + if (!bands[i]) { for (j = 0; j < i; ++j) { ImagingDelete(bands[j]); } @@ -99,14 +94,14 @@ ImagingSplit(Imaging imIn, Imaging bands[4]) /* Extract bands from image */ if (imIn->bands == 2) { for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out0 = bands[0]->image8[y]; - UINT8* out1 = bands[1]->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out0 = bands[0]->image8[y]; + UINT8 *out1 = bands[1]->image8[y]; x = 0; for (; x < imIn->xsize - 3; x += 4) { UINT32 v = MAKE_UINT32(in[0], in[4], in[8], in[12]); memcpy(out0 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+3], in[4+3], in[8+3], in[12+3]); + v = MAKE_UINT32(in[0 + 3], in[4 + 3], in[8 + 3], in[12 + 3]); memcpy(out1 + x, &v, sizeof(v)); in += 16; } @@ -118,17 +113,17 @@ ImagingSplit(Imaging imIn, Imaging bands[4]) } } else if (imIn->bands == 3) { for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out0 = bands[0]->image8[y]; - UINT8* out1 = bands[1]->image8[y]; - UINT8* out2 = bands[2]->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out0 = bands[0]->image8[y]; + UINT8 *out1 = bands[1]->image8[y]; + UINT8 *out2 = bands[2]->image8[y]; x = 0; for (; x < imIn->xsize - 3; x += 4) { UINT32 v = MAKE_UINT32(in[0], in[4], in[8], in[12]); memcpy(out0 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+1], in[4+1], in[8+1], in[12+1]); + v = MAKE_UINT32(in[0 + 1], in[4 + 1], in[8 + 1], in[12 + 1]); memcpy(out1 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+2], in[4+2], in[8+2], in[12+2]); + v = MAKE_UINT32(in[0 + 2], in[4 + 2], in[8 + 2], in[12 + 2]); memcpy(out2 + x, &v, sizeof(v)); in += 16; } @@ -141,20 +136,20 @@ ImagingSplit(Imaging imIn, Imaging bands[4]) } } else { for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out0 = bands[0]->image8[y]; - UINT8* out1 = bands[1]->image8[y]; - UINT8* out2 = bands[2]->image8[y]; - UINT8* out3 = bands[3]->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out0 = bands[0]->image8[y]; + UINT8 *out1 = bands[1]->image8[y]; + UINT8 *out2 = bands[2]->image8[y]; + UINT8 *out3 = bands[3]->image8[y]; x = 0; for (; x < imIn->xsize - 3; x += 4) { UINT32 v = MAKE_UINT32(in[0], in[4], in[8], in[12]); memcpy(out0 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+1], in[4+1], in[8+1], in[12+1]); + v = MAKE_UINT32(in[0 + 1], in[4 + 1], in[8 + 1], in[12 + 1]); memcpy(out1 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+2], in[4+2], in[8+2], in[12+2]); + v = MAKE_UINT32(in[0 + 2], in[4 + 2], in[8 + 2], in[12 + 2]); memcpy(out2 + x, &v, sizeof(v)); - v = MAKE_UINT32(in[0+3], in[4+3], in[8+3], in[12+3]); + v = MAKE_UINT32(in[0 + 3], in[4 + 3], in[8 + 3], in[12 + 3]); memcpy(out3 + x, &v, sizeof(v)); in += 16; } @@ -171,25 +166,22 @@ ImagingSplit(Imaging imIn, Imaging bands[4]) return imIn->bands; } - Imaging -ImagingPutBand(Imaging imOut, Imaging imIn, int band) -{ +ImagingPutBand(Imaging imOut, Imaging imIn, int band) { int x, y; /* Check arguments */ if (!imIn || imIn->bands != 1 || !imOut) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (band < 0 || band >= imOut->bands) { - return (Imaging) ImagingError_ValueError("band index out of range"); + return (Imaging)ImagingError_ValueError("band index out of range"); } - if (imIn->type != imOut->type || - imIn->xsize != imOut->xsize || + if (imIn->type != imOut->type || imIn->xsize != imOut->xsize || imIn->ysize != imOut->ysize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } /* Shortcuts */ @@ -204,8 +196,8 @@ ImagingPutBand(Imaging imOut, Imaging imIn, int band) /* Insert band into image */ for (y = 0; y < imIn->ysize; y++) { - UINT8* in = imIn->image8[y]; - UINT8* out = (UINT8*) imOut->image[y] + band; + UINT8 *in = imIn->image8[y]; + UINT8 *out = (UINT8 *)imOut->image[y] + band; for (x = 0; x < imIn->xsize; x++) { *out = in[x]; out += 4; @@ -216,17 +208,16 @@ ImagingPutBand(Imaging imOut, Imaging imIn, int band) } Imaging -ImagingFillBand(Imaging imOut, int band, int color) -{ +ImagingFillBand(Imaging imOut, int band, int color) { int x, y; /* Check arguments */ if (!imOut || imOut->type != IMAGING_TYPE_UINT8) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (band < 0 || band >= imOut->bands) { - return (Imaging) ImagingError_ValueError("band index out of range"); + return (Imaging)ImagingError_ValueError("band index out of range"); } /* Special case for LXXA etc */ @@ -238,9 +229,9 @@ ImagingFillBand(Imaging imOut, int band, int color) /* Insert color into image */ for (y = 0; y < imOut->ysize; y++) { - UINT8* out = (UINT8*) imOut->image[y] + band; + UINT8 *out = (UINT8 *)imOut->image[y] + band; for (x = 0; x < imOut->xsize; x++) { - *out = (UINT8) color; + *out = (UINT8)color; out += 4; } } @@ -249,40 +240,39 @@ ImagingFillBand(Imaging imOut, int band, int color) } Imaging -ImagingMerge(const char* mode, Imaging bands[4]) -{ +ImagingMerge(const char *mode, Imaging bands[4]) { int i, x, y; int bandsCount = 0; Imaging imOut; Imaging firstBand; firstBand = bands[0]; - if ( ! firstBand) { - return (Imaging) ImagingError_ValueError("wrong number of bands"); + if (!firstBand) { + return (Imaging)ImagingError_ValueError("wrong number of bands"); } for (i = 0; i < 4; ++i) { - if ( ! bands[i]) { + if (!bands[i]) { break; } if (bands[i]->bands != 1) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } - if (bands[i]->xsize != firstBand->xsize - || bands[i]->ysize != firstBand->ysize) { - return (Imaging) ImagingError_Mismatch(); + if (bands[i]->xsize != firstBand->xsize || + bands[i]->ysize != firstBand->ysize) { + return (Imaging)ImagingError_Mismatch(); } } bandsCount = i; imOut = ImagingNewDirty(mode, firstBand->xsize, firstBand->ysize); - if ( ! imOut) { + if (!imOut) { return NULL; } if (imOut->bands != bandsCount) { ImagingDelete(imOut); - return (Imaging) ImagingError_ValueError("wrong number of bands"); + return (Imaging)ImagingError_ValueError("wrong number of bands"); } if (imOut->bands == 1) { @@ -291,30 +281,30 @@ ImagingMerge(const char* mode, Imaging bands[4]) if (imOut->bands == 2) { for (y = 0; y < imOut->ysize; y++) { - UINT8* in0 = bands[0]->image8[y]; - UINT8* in1 = bands[1]->image8[y]; - UINT32* out = (UINT32*) imOut->image32[y]; + UINT8 *in0 = bands[0]->image8[y]; + UINT8 *in1 = bands[1]->image8[y]; + UINT32 *out = (UINT32 *)imOut->image32[y]; for (x = 0; x < imOut->xsize; x++) { out[x] = MAKE_UINT32(in0[x], 0, 0, in1[x]); } } } else if (imOut->bands == 3) { for (y = 0; y < imOut->ysize; y++) { - UINT8* in0 = bands[0]->image8[y]; - UINT8* in1 = bands[1]->image8[y]; - UINT8* in2 = bands[2]->image8[y]; - UINT32* out = (UINT32*) imOut->image32[y]; + UINT8 *in0 = bands[0]->image8[y]; + UINT8 *in1 = bands[1]->image8[y]; + UINT8 *in2 = bands[2]->image8[y]; + UINT32 *out = (UINT32 *)imOut->image32[y]; for (x = 0; x < imOut->xsize; x++) { out[x] = MAKE_UINT32(in0[x], in1[x], in2[x], 0); } } } else if (imOut->bands == 4) { for (y = 0; y < imOut->ysize; y++) { - UINT8* in0 = bands[0]->image8[y]; - UINT8* in1 = bands[1]->image8[y]; - UINT8* in2 = bands[2]->image8[y]; - UINT8* in3 = bands[3]->image8[y]; - UINT32* out = (UINT32*) imOut->image32[y]; + UINT8 *in0 = bands[0]->image8[y]; + UINT8 *in1 = bands[1]->image8[y]; + UINT8 *in2 = bands[2]->image8[y]; + UINT8 *in3 = bands[3]->image8[y]; + UINT32 *out = (UINT32 *)imOut->image32[y]; for (x = 0; x < imOut->xsize; x++) { out[x] = MAKE_UINT32(in0[x], in1[x], in2[x], in3[x]); } diff --git a/src/libImaging/BcnDecode.c b/src/libImaging/BcnDecode.c index f908a03adad..edc3ca58d4d 100644 --- a/src/libImaging/BcnDecode.c +++ b/src/libImaging/BcnDecode.c @@ -11,10 +11,8 @@ * https://creativecommons.org/publicdomain/zero/1.0/ */ - #include "Imaging.h" - typedef struct { UINT8 r, g, b, a; } rgba; @@ -37,23 +35,24 @@ typedef struct { UINT8 lut[6]; } bc3_alpha; -#define LOAD16(p) \ - (p)[0] | ((p)[1] << 8) +#define LOAD16(p) (p)[0] | ((p)[1] << 8) -#define LOAD32(p) \ - (p)[0] | ((p)[1] << 8) | ((p)[2] << 16) | ((p)[3] << 24) +#define LOAD32(p) (p)[0] | ((p)[1] << 8) | ((p)[2] << 16) | ((p)[3] << 24) -static void bc1_color_load(bc1_color *dst, const UINT8 *src) { +static void +bc1_color_load(bc1_color *dst, const UINT8 *src) { dst->c0 = LOAD16(src); dst->c1 = LOAD16(src + 2); dst->lut = LOAD32(src + 4); } -static void bc3_alpha_load(bc3_alpha *dst, const UINT8 *src) { +static void +bc3_alpha_load(bc3_alpha *dst, const UINT8 *src) { memcpy(dst, src, sizeof(bc3_alpha)); } -static rgba decode_565(UINT16 x) { +static rgba +decode_565(UINT16 x) { rgba c; int r, g, b; r = (x & 0xf800) >> 8; @@ -69,7 +68,8 @@ static rgba decode_565(UINT16 x) { return c; } -static void decode_bc1_color(rgba *dst, const UINT8 *src) { +static void +decode_bc1_color(rgba *dst, const UINT8 *src) { bc1_color col; rgba p[4]; int n, cw; @@ -85,13 +85,13 @@ static void decode_bc1_color(rgba *dst, const UINT8 *src) { g1 = p[1].g; b1 = p[1].b; if (col.c0 > col.c1) { - p[2].r = (2*r0 + 1*r1) / 3; - p[2].g = (2*g0 + 1*g1) / 3; - p[2].b = (2*b0 + 1*b1) / 3; + p[2].r = (2 * r0 + 1 * r1) / 3; + p[2].g = (2 * g0 + 1 * g1) / 3; + p[2].b = (2 * b0 + 1 * b1) / 3; p[2].a = 0xff; - p[3].r = (1*r0 + 2*r1) / 3; - p[3].g = (1*g0 + 2*g1) / 3; - p[3].b = (1*b0 + 2*b1) / 3; + p[3].r = (1 * r0 + 2 * r1) / 3; + p[3].g = (1 * g0 + 2 * g1) / 3; + p[3].b = (1 * b0 + 2 * b1) / 3; p[3].a = 0xff; } else { p[2].r = (r0 + r1) / 2; @@ -109,7 +109,8 @@ static void decode_bc1_color(rgba *dst, const UINT8 *src) { } } -static void decode_bc3_alpha(char *dst, const UINT8 *src, int stride, int o) { +static void +decode_bc3_alpha(char *dst, const UINT8 *src, int stride, int o) { bc3_alpha b; UINT16 a0, a1; UINT8 a[8]; @@ -121,17 +122,17 @@ static void decode_bc3_alpha(char *dst, const UINT8 *src, int stride, int o) { a[0] = (UINT8)a0; a[1] = (UINT8)a1; if (a0 > a1) { - a[2] = (6*a0 + 1*a1) / 7; - a[3] = (5*a0 + 2*a1) / 7; - a[4] = (4*a0 + 3*a1) / 7; - a[5] = (3*a0 + 4*a1) / 7; - a[6] = (2*a0 + 5*a1) / 7; - a[7] = (1*a0 + 6*a1) / 7; + a[2] = (6 * a0 + 1 * a1) / 7; + a[3] = (5 * a0 + 2 * a1) / 7; + a[4] = (4 * a0 + 3 * a1) / 7; + a[5] = (3 * a0 + 4 * a1) / 7; + a[6] = (2 * a0 + 5 * a1) / 7; + a[7] = (1 * a0 + 6 * a1) / 7; } else { - a[2] = (4*a0 + 1*a1) / 5; - a[3] = (3*a0 + 2*a1) / 5; - a[4] = (2*a0 + 3*a1) / 5; - a[5] = (1*a0 + 4*a1) / 5; + a[2] = (4 * a0 + 1 * a1) / 5; + a[3] = (3 * a0 + 2 * a1) / 5; + a[4] = (2 * a0 + 3 * a1) / 5; + a[5] = (1 * a0 + 4 * a1) / 5; a[6] = 0; a[7] = 0xff; } @@ -143,15 +144,17 @@ static void decode_bc3_alpha(char *dst, const UINT8 *src, int stride, int o) { lut = b.lut[3] | (b.lut[4] << 8) | (b.lut[5] << 16); for (n = 0; n < 8; n++) { aw = 7 & (lut >> (3 * n)); - dst[stride * (8+n) + o] = a[aw]; + dst[stride * (8 + n) + o] = a[aw]; } } -static void decode_bc1_block(rgba *col, const UINT8* src) { +static void +decode_bc1_block(rgba *col, const UINT8 *src) { decode_bc1_color(col, src); } -static void decode_bc2_block(rgba *col, const UINT8* src) { +static void +decode_bc2_block(rgba *col, const UINT8 *src) { int n, bitI, byI, av; decode_bc1_color(col, src + 8); for (n = 0; n < 16; n++) { @@ -163,30 +166,36 @@ static void decode_bc2_block(rgba *col, const UINT8* src) { } } -static void decode_bc3_block(rgba *col, const UINT8* src) { +static void +decode_bc3_block(rgba *col, const UINT8 *src) { decode_bc1_color(col, src + 8); decode_bc3_alpha((char *)col, src, sizeof(col[0]), 3); } -static void decode_bc4_block(lum *col, const UINT8* src) { +static void +decode_bc4_block(lum *col, const UINT8 *src) { decode_bc3_alpha((char *)col, src, sizeof(col[0]), 0); } -static void decode_bc5_block(rgba *col, const UINT8* src) { +static void +decode_bc5_block(rgba *col, const UINT8 *src) { decode_bc3_alpha((char *)col, src, sizeof(col[0]), 0); decode_bc3_alpha((char *)col, src + 8, sizeof(col[0]), 1); } /* BC6 and BC7 are described here: - https://www.khronos.org/registry/OpenGL/extensions/ARB/ARB_texture_compression_bptc.txt */ + https://www.khronos.org/registry/OpenGL/extensions/ARB/ARB_texture_compression_bptc.txt + */ -static UINT8 get_bit(const UINT8* src, int bit) { +static UINT8 +get_bit(const UINT8 *src, int bit) { int by = bit >> 3; bit &= 7; return (src[by] >> bit) & 1; } -static UINT8 get_bits(const UINT8* src, int bit, int count) { +static UINT8 +get_bits(const UINT8 *src, int bit, int count) { UINT8 v; int x; int by = bit >> 3; @@ -197,7 +206,7 @@ static UINT8 get_bits(const UINT8* src, int bit, int count) { if (bit + count <= 8) { v = (src[by] >> bit) & ((1 << count) - 1); } else { - x = src[by] | (src[by+1] << 8); + x = src[by] | (src[by + 1] << 8); v = (x >> bit) & ((1 << count) - 1); } return v; @@ -217,81 +226,58 @@ typedef struct { char ib2; } bc7_mode_info; -static const bc7_mode_info bc7_modes[] = { - {3, 4, 0, 0, 4, 0, 1, 0, 3, 0}, - {2, 6, 0, 0, 6, 0, 0, 1, 3, 0}, - {3, 6, 0, 0, 5, 0, 0, 0, 2, 0}, - {2, 6, 0, 0, 7, 0, 1, 0, 2, 0}, - {1, 0, 2, 1, 5, 6, 0, 0, 2, 3}, - {1, 0, 2, 0, 7, 8, 0, 0, 2, 2}, - {1, 0, 0, 0, 7, 7, 1, 0, 4, 0}, - {2, 6, 0, 0, 5, 5, 1, 0, 2, 0} -}; +static const bc7_mode_info bc7_modes[] = {{3, 4, 0, 0, 4, 0, 1, 0, 3, 0}, + {2, 6, 0, 0, 6, 0, 0, 1, 3, 0}, + {3, 6, 0, 0, 5, 0, 0, 0, 2, 0}, + {2, 6, 0, 0, 7, 0, 1, 0, 2, 0}, + {1, 0, 2, 1, 5, 6, 0, 0, 2, 3}, + {1, 0, 2, 0, 7, 8, 0, 0, 2, 2}, + {1, 0, 0, 0, 7, 7, 1, 0, 4, 0}, + {2, 6, 0, 0, 5, 5, 1, 0, 2, 0}}; /* Subset indices: Table.P2, 1 bit per index */ static const UINT16 bc7_si2[] = { - 0xcccc, 0x8888, 0xeeee, 0xecc8, 0xc880, 0xfeec, 0xfec8, 0xec80, - 0xc800, 0xffec, 0xfe80, 0xe800, 0xffe8, 0xff00, 0xfff0, 0xf000, - 0xf710, 0x008e, 0x7100, 0x08ce, 0x008c, 0x7310, 0x3100, 0x8cce, - 0x088c, 0x3110, 0x6666, 0x366c, 0x17e8, 0x0ff0, 0x718e, 0x399c, - 0xaaaa, 0xf0f0, 0x5a5a, 0x33cc, 0x3c3c, 0x55aa, 0x9696, 0xa55a, - 0x73ce, 0x13c8, 0x324c, 0x3bdc, 0x6996, 0xc33c, 0x9966, 0x0660, - 0x0272, 0x04e4, 0x4e40, 0x2720, 0xc936, 0x936c, 0x39c6, 0x639c, - 0x9336, 0x9cc6, 0x817e, 0xe718, 0xccf0, 0x0fcc, 0x7744, 0xee22}; + 0xcccc, 0x8888, 0xeeee, 0xecc8, 0xc880, 0xfeec, 0xfec8, 0xec80, 0xc800, 0xffec, + 0xfe80, 0xe800, 0xffe8, 0xff00, 0xfff0, 0xf000, 0xf710, 0x008e, 0x7100, 0x08ce, + 0x008c, 0x7310, 0x3100, 0x8cce, 0x088c, 0x3110, 0x6666, 0x366c, 0x17e8, 0x0ff0, + 0x718e, 0x399c, 0xaaaa, 0xf0f0, 0x5a5a, 0x33cc, 0x3c3c, 0x55aa, 0x9696, 0xa55a, + 0x73ce, 0x13c8, 0x324c, 0x3bdc, 0x6996, 0xc33c, 0x9966, 0x0660, 0x0272, 0x04e4, + 0x4e40, 0x2720, 0xc936, 0x936c, 0x39c6, 0x639c, 0x9336, 0x9cc6, 0x817e, 0xe718, + 0xccf0, 0x0fcc, 0x7744, 0xee22}; /* Table.P3, 2 bits per index */ static const UINT32 bc7_si3[] = { - 0xaa685050, 0x6a5a5040, 0x5a5a4200, 0x5450a0a8, - 0xa5a50000, 0xa0a05050, 0x5555a0a0, 0x5a5a5050, - 0xaa550000, 0xaa555500, 0xaaaa5500, 0x90909090, - 0x94949494, 0xa4a4a4a4, 0xa9a59450, 0x2a0a4250, - 0xa5945040, 0x0a425054, 0xa5a5a500, 0x55a0a0a0, - 0xa8a85454, 0x6a6a4040, 0xa4a45000, 0x1a1a0500, - 0x0050a4a4, 0xaaa59090, 0x14696914, 0x69691400, - 0xa08585a0, 0xaa821414, 0x50a4a450, 0x6a5a0200, - 0xa9a58000, 0x5090a0a8, 0xa8a09050, 0x24242424, - 0x00aa5500, 0x24924924, 0x24499224, 0x50a50a50, - 0x500aa550, 0xaaaa4444, 0x66660000, 0xa5a0a5a0, - 0x50a050a0, 0x69286928, 0x44aaaa44, 0x66666600, - 0xaa444444, 0x54a854a8, 0x95809580, 0x96969600, - 0xa85454a8, 0x80959580, 0xaa141414, 0x96960000, - 0xaaaa1414, 0xa05050a0, 0xa0a5a5a0, 0x96000000, - 0x40804080, 0xa9a8a9a8, 0xaaaaaa44, 0x2a4a5254}; + 0xaa685050, 0x6a5a5040, 0x5a5a4200, 0x5450a0a8, 0xa5a50000, 0xa0a05050, 0x5555a0a0, + 0x5a5a5050, 0xaa550000, 0xaa555500, 0xaaaa5500, 0x90909090, 0x94949494, 0xa4a4a4a4, + 0xa9a59450, 0x2a0a4250, 0xa5945040, 0x0a425054, 0xa5a5a500, 0x55a0a0a0, 0xa8a85454, + 0x6a6a4040, 0xa4a45000, 0x1a1a0500, 0x0050a4a4, 0xaaa59090, 0x14696914, 0x69691400, + 0xa08585a0, 0xaa821414, 0x50a4a450, 0x6a5a0200, 0xa9a58000, 0x5090a0a8, 0xa8a09050, + 0x24242424, 0x00aa5500, 0x24924924, 0x24499224, 0x50a50a50, 0x500aa550, 0xaaaa4444, + 0x66660000, 0xa5a0a5a0, 0x50a050a0, 0x69286928, 0x44aaaa44, 0x66666600, 0xaa444444, + 0x54a854a8, 0x95809580, 0x96969600, 0xa85454a8, 0x80959580, 0xaa141414, 0x96960000, + 0xaaaa1414, 0xa05050a0, 0xa0a5a5a0, 0x96000000, 0x40804080, 0xa9a8a9a8, 0xaaaaaa44, + 0x2a4a5254}; /* Anchor indices: Table.A2 */ static const char bc7_ai0[] = { - 15,15,15,15,15,15,15,15, - 15,15,15,15,15,15,15,15, - 15, 2, 8, 2, 2, 8, 8,15, - 2, 8, 2, 2, 8, 8, 2, 2, - 15,15, 6, 8, 2, 8,15,15, - 2, 8, 2, 2, 2,15,15, 6, - 6, 2, 6, 8,15,15, 2, 2, - 15,15,15,15,15, 2, 2,15}; + 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 2, 8, 2, 2, 8, + 8, 15, 2, 8, 2, 2, 8, 8, 2, 2, 15, 15, 6, 8, 2, 8, 15, 15, 2, 8, 2, 2, + 2, 15, 15, 6, 6, 2, 6, 8, 15, 15, 2, 2, 15, 15, 15, 15, 15, 2, 2, 15}; /* Table.A3a */ static const char bc7_ai1[] = { - 3, 3,15,15, 8, 3,15,15, - 8, 8, 6, 6, 6, 5, 3, 3, - 3, 3, 8,15, 3, 3, 6,10, - 5, 8, 8, 6, 8, 5,15,15, - 8,15, 3, 5, 6,10, 8,15, - 15, 3,15, 5,15,15,15,15, - 3,15, 5, 5, 5, 8, 5,10, - 5,10, 8,13,15,12, 3, 3}; + 3, 3, 15, 15, 8, 3, 15, 15, 8, 8, 6, 6, 6, 5, 3, 3, 3, 3, 8, 15, 3, 3, + 6, 10, 5, 8, 8, 6, 8, 5, 15, 15, 8, 15, 3, 5, 6, 10, 8, 15, 15, 3, 15, 5, + 15, 15, 15, 15, 3, 15, 5, 5, 5, 8, 5, 10, 5, 10, 8, 13, 15, 12, 3, 3}; /* Table.A3b */ -static const char bc7_ai2[] = { - 15, 8, 8, 3,15,15, 3, 8, - 15,15,15,15,15,15,15, 8, - 15, 8,15, 3,15, 8,15, 8, - 3,15, 6,10,15,15,10, 8, - 15, 3,15,10,10, 8, 9,10, - 6,15, 8,15, 3, 6, 6, 8, - 15, 3,15,15,15,15,15,15, - 15,15,15,15, 3,15,15, 8}; +static const char bc7_ai2[] = {15, 8, 8, 3, 15, 15, 3, 8, 15, 15, 15, 15, 15, + 15, 15, 8, 15, 8, 15, 3, 15, 8, 15, 8, 3, 15, + 6, 10, 15, 15, 10, 8, 15, 3, 15, 10, 10, 8, 9, + 10, 6, 15, 8, 15, 3, 6, 6, 8, 15, 3, 15, 15, + 15, 15, 15, 15, 15, 15, 15, 15, 3, 15, 15, 8}; /* Interpolation weights */ static const char bc7_weights2[] = {0, 21, 43, 64}; @@ -299,7 +285,8 @@ static const char bc7_weights3[] = {0, 9, 18, 27, 37, 46, 55, 64}; static const char bc7_weights4[] = { 0, 4, 9, 13, 17, 21, 26, 30, 34, 38, 43, 47, 51, 55, 60, 64}; -static const char *bc7_get_weights(int n) { +static const char * +bc7_get_weights(int n) { if (n == 2) { return bc7_weights2; } @@ -309,7 +296,8 @@ static const char *bc7_get_weights(int n) { return bc7_weights4; } -static int bc7_get_subset(int ns, int partition, int n) { +static int +bc7_get_subset(int ns, int partition, int n) { if (ns == 2) { return 1 & (bc7_si2[partition] >> n); } @@ -319,12 +307,14 @@ static int bc7_get_subset(int ns, int partition, int n) { return 0; } -static UINT8 expand_quantized(UINT8 v, int bits) { +static UINT8 +expand_quantized(UINT8 v, int bits) { v = v << (8 - bits); return v | (v >> bits); } -static void bc7_lerp(rgba *dst, const rgba *e, int s0, int s1) { +static void +bc7_lerp(rgba *dst, const rgba *e, int s0, int s1) { int t0 = 64 - s0; int t1 = 64 - s1; dst->r = (UINT8)((t0 * e[0].r + s0 * e[1].r + 32) >> 6); @@ -333,7 +323,8 @@ static void bc7_lerp(rgba *dst, const rgba *e, int s0, int s1) { dst->a = (UINT8)((t1 * e[0].a + s1 * e[1].a + 32) >> 6); } -static void decode_bc7_block(rgba *col, const UINT8* src) { +static void +decode_bc7_block(rgba *col, const UINT8 *src) { rgba endpoints[6]; int bit = 0, cibit, aibit; int mode = src[0]; @@ -352,7 +343,8 @@ static void decode_bc7_block(rgba *col, const UINT8* src) { } return; } - while (!(mode & (1 << bit++))) ; + while (!(mode & (1 << bit++))) + ; mode = bit - 1; info = &bc7_modes[mode]; /* color selection bits: {subset}{endpoint} */ @@ -361,7 +353,7 @@ static void decode_bc7_block(rgba *col, const UINT8* src) { cw = bc7_get_weights(info->ib); aw = bc7_get_weights((ab && info->ib2) ? info->ib2 : info->ib); -#define LOAD(DST, N) \ +#define LOAD(DST, N) \ DST = get_bits(src, bit, N); \ bit += N; LOAD(partition, info->pb); @@ -421,14 +413,14 @@ static void decode_bc7_block(rgba *col, const UINT8* src) { if (ab) { ab++; } - for (i = 0; i < numep; i+=2) { + for (i = 0; i < numep; i += 2) { LOAD(val, 1); for (j = 0; j < 2; j++) { - ASSIGN_P(endpoints[i+j].r); - ASSIGN_P(endpoints[i+j].g); - ASSIGN_P(endpoints[i+j].b); + ASSIGN_P(endpoints[i + j].r); + ASSIGN_P(endpoints[i + j].g); + ASSIGN_P(endpoints[i + j].b); if (ab) { - ASSIGN_P(endpoints[i+j].a); + ASSIGN_P(endpoints[i + j].a); } } } @@ -482,9 +474,9 @@ static void decode_bc7_block(rgba *col, const UINT8* src) { bc7_lerp(&col[i], &endpoints[s], cw[i0], cw[i0]); } #define ROTATE(x, y) \ - val = x; \ - x = y; \ - y = val + val = x; \ + x = y; \ + y = val if (rotation == 1) { ROTATE(col[i].r, col[i].a); } else if (rotation == 2) { @@ -498,106 +490,102 @@ static void decode_bc7_block(rgba *col, const UINT8* src) { /* BC6 */ typedef struct { - char ns; /* number of subsets (also called regions) */ - char tr; /* whether endpoints are delta-compressed */ - char pb; /* partition bits */ + char ns; /* number of subsets (also called regions) */ + char tr; /* whether endpoints are delta-compressed */ + char pb; /* partition bits */ char epb; /* endpoint bits */ - char rb; /* red bits (delta) */ - char gb; /* green bits (delta) */ - char bb; /* blue bits (delta) */ + char rb; /* red bits (delta) */ + char gb; /* green bits (delta) */ + char bb; /* blue bits (delta) */ } bc6_mode_info; static const bc6_mode_info bc6_modes[] = { // 00 {2, 1, 5, 10, 5, 5, 5}, // 01 - {2, 1, 5, 7, 6, 6, 6}, + {2, 1, 5, 7, 6, 6, 6}, // 10 {2, 1, 5, 11, 5, 4, 4}, {2, 1, 5, 11, 4, 5, 4}, {2, 1, 5, 11, 4, 4, 5}, - {2, 1, 5, 9, 5, 5, 5}, - {2, 1, 5, 8, 6, 5, 5}, - {2, 1, 5, 8, 5, 6, 5}, - {2, 1, 5, 8, 5, 5, 6}, - {2, 0, 5, 6, 6, 6, 6}, + {2, 1, 5, 9, 5, 5, 5}, + {2, 1, 5, 8, 6, 5, 5}, + {2, 1, 5, 8, 5, 6, 5}, + {2, 1, 5, 8, 5, 5, 6}, + {2, 0, 5, 6, 6, 6, 6}, // 11 {1, 0, 0, 10, 10, 10, 10}, - {1, 1, 0, 11, 9, 9, 9}, - {1, 1, 0, 12, 8, 8, 8}, - {1, 1, 0, 16, 4, 4, 4} -}; + {1, 1, 0, 11, 9, 9, 9}, + {1, 1, 0, 12, 8, 8, 8}, + {1, 1, 0, 16, 4, 4, 4}}; /* Table.F, encoded as a sequence of bit indices */ static const UINT8 bc6_bit_packings[][75] = { - {116, 132, 176, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, - 23, 24, 25, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, - 164, 112, 113, 114, 115, 64, 65, 66, 67, 68, 172, 160, 161, 162, 163, 80, - 81, 82, 83, 84, 173, 128, 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, - 145, 146, 147, 148, 175}, - {117, 164, 165, 0, 1, 2, 3, 4, 5, 6, 172, 173, 132, 16, 17, 18, 19, 20, 21, - 22, 133, 174, 116, 32, 33, 34, 35, 36, 37, 38, 175, 177, 176, 48, 49, 50, - 51, 52, 53, 112, 113, 114, 115, 64, 65, 66, 67, 68, 69, 160, 161, 162, 163, - 80, 81, 82, 83, 84, 85, 128, 129, 130, 131, 96, 97, 98, 99, 100, 101, 144, - 145, 146, 147, 148, 149}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 10, 112, 113, 114, - 115, 64, 65, 66, 67, 26, 172, 160, 161, 162, 163, 80, 81, 82, 83, 42, 173, - 128, 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, - 175}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 10, 164, 112, 113, 114, - 115, 64, 65, 66, 67, 68, 26, 160, 161, 162, 163, 80, 81, 82, 83, 42, 173, - 128, 129, 130, 131, 96, 97, 98, 99, 172, 174, 144, 145, 146, 147, 116, - 175}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 10, 132, 112, 113, 114, - 115, 64, 65, 66, 67, 26, 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 42, - 128, 129, 130, 131, 96, 97, 98, 99, 173, 174, 144, 145, 146, 147, 176, - 175}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 132, 16, 17, 18, 19, 20, 21, 22, 23, 24, 116, - 32, 33, 34, 35, 36, 37, 38, 39, 40, 176, 48, 49, 50, 51, 52, 164, 112, 113, - 114, 115, 64, 65, 66, 67, 68, 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, - 173, 128, 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, - 175}, - {0, 1, 2, 3, 4, 5, 6, 7, 164, 132, 16, 17, 18, 19, 20, 21, 22, 23, 174, 116, - 32, 33, 34, 35, 36, 37, 38, 39, 175, 176, 48, 49, 50, 51, 52, 53, 112, 113, - 114, 115, 64, 65, 66, 67, 68, 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, - 173, 128, 129, 130, 131, 96, 97, 98, 99, 100, 101, 144, 145, 146, 147, 148, - 149}, - {0, 1, 2, 3, 4, 5, 6, 7, 172, 132, 16, 17, 18, 19, 20, 21, 22, 23, 117, 116, - 32, 33, 34, 35, 36, 37, 38, 39, 165, 176, 48, 49, 50, 51, 52, 164, 112, - 113, 114, 115, 64, 65, 66, 67, 68, 69, 160, 161, 162, 163, 80, 81, 82, 83, - 84, 173, 128, 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, - 148, 175}, - {0, 1, 2, 3, 4, 5, 6, 7, 173, 132, 16, 17, 18, 19, 20, 21, 22, 23, 133, 116, - 32, 33, 34, 35, 36, 37, 38, 39, 177, 176, 48, 49, 50, 51, 52, 164, 112, - 113, 114, 115, 64, 65, 66, 67, 68, 172, 160, 161, 162, 163, 80, 81, 82, 83, - 84, 85, 128, 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, - 148, 175}, - {0, 1, 2, 3, 4, 5, 164, 172, 173, 132, 16, 17, 18, 19, 20, 21, 117, 133, - 174, 116, 32, 33, 34, 35, 36, 37, 165, 175, 177, 176, 48, 49, 50, 51, 52, - 53, 112, 113, 114, 115, 64, 65, 66, 67, 68, 69, 160, 161, 162, 163, 80, 81, - 82, 83, 84, 85, 128, 129, 130, 131, 96, 97, 98, 99, 100, 101, 144, 145, - 146, 147, 148, 149}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, - 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 80, 81, 82, 83, 84, 85, 86, 87, 88, - 89}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 56, 10, - 64, 65, 66, 67, 68, 69, 70, 71, 72, 26, 80, 81, 82, 83, 84, 85, 86, 87, 88, - 42}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 11, 10, - 64, 65, 66, 67, 68, 69, 70, 71, 27, 26, 80, 81, 82, 83, 84, 85, 86, 87, 43, - 42}, - {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 32, - 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 15, 14, 13, 12, 11, 10, - 64, 65, 66, 67, 31, 30, 29, 28, 27, 26, 80, 81, 82, 83, 47, 46, 45, 44, 43, - 42}}; - -static void bc6_sign_extend(UINT16 *v, int prec) { + {116, 132, 176, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, + 18, 19, 20, 21, 22, 23, 24, 25, 32, 33, 34, 35, 36, 37, 38, + 39, 40, 41, 48, 49, 50, 51, 52, 164, 112, 113, 114, 115, 64, 65, + 66, 67, 68, 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 173, 128, + 129, 130, 131, 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, 175}, + {117, 164, 165, 0, 1, 2, 3, 4, 5, 6, 172, 173, 132, 16, 17, + 18, 19, 20, 21, 22, 133, 174, 116, 32, 33, 34, 35, 36, 37, 38, + 175, 177, 176, 48, 49, 50, 51, 52, 53, 112, 113, 114, 115, 64, 65, + 66, 67, 68, 69, 160, 161, 162, 163, 80, 81, 82, 83, 84, 85, 128, + 129, 130, 131, 96, 97, 98, 99, 100, 101, 144, 145, 146, 147, 148, 149}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, + 48, 49, 50, 51, 52, 10, 112, 113, 114, 115, 64, 65, 66, 67, 26, + 172, 160, 161, 162, 163, 80, 81, 82, 83, 42, 173, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, 175}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, + 48, 49, 50, 51, 10, 164, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 26, 160, 161, 162, 163, 80, 81, 82, 83, 42, 173, 128, 129, 130, 131, + 96, 97, 98, 99, 172, 174, 144, 145, 146, 147, 116, 175}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, + 48, 49, 50, 51, 10, 132, 112, 113, 114, 115, 64, 65, 66, 67, 26, + 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 42, 128, 129, 130, 131, + 96, 97, 98, 99, 173, 174, 144, 145, 146, 147, 176, 175}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 132, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 116, 32, 33, 34, 35, 36, 37, 38, 39, 40, 176, + 48, 49, 50, 51, 52, 164, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 173, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, 175}, + {0, 1, 2, 3, 4, 5, 6, 7, 164, 132, 16, 17, 18, 19, 20, + 21, 22, 23, 174, 116, 32, 33, 34, 35, 36, 37, 38, 39, 175, 176, + 48, 49, 50, 51, 52, 53, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 173, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 101, 144, 145, 146, 147, 148, 149}, + {0, 1, 2, 3, 4, 5, 6, 7, 172, 132, 16, 17, 18, 19, 20, + 21, 22, 23, 117, 116, 32, 33, 34, 35, 36, 37, 38, 39, 165, 176, + 48, 49, 50, 51, 52, 164, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 69, 160, 161, 162, 163, 80, 81, 82, 83, 84, 173, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, 175}, + {0, 1, 2, 3, 4, 5, 6, 7, 173, 132, 16, 17, 18, 19, 20, + 21, 22, 23, 133, 116, 32, 33, 34, 35, 36, 37, 38, 39, 177, 176, + 48, 49, 50, 51, 52, 164, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 172, 160, 161, 162, 163, 80, 81, 82, 83, 84, 85, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 174, 144, 145, 146, 147, 148, 175}, + {0, 1, 2, 3, 4, 5, 164, 172, 173, 132, 16, 17, 18, 19, 20, + 21, 117, 133, 174, 116, 32, 33, 34, 35, 36, 37, 165, 175, 177, 176, + 48, 49, 50, 51, 52, 53, 112, 113, 114, 115, 64, 65, 66, 67, 68, + 69, 160, 161, 162, 163, 80, 81, 82, 83, 84, 85, 128, 129, 130, 131, + 96, 97, 98, 99, 100, 101, 144, 145, 146, 147, 148, 149}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, + 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 56, 10, + 64, 65, 66, 67, 68, 69, 70, 71, 72, 26, 80, 81, 82, 83, 84, 85, 86, 87, 88, 42}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 52, 53, 54, 55, 11, 10, + 64, 65, 66, 67, 68, 69, 70, 71, 27, 26, 80, 81, 82, 83, 84, 85, 86, 87, 43, 42}, + {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 48, 49, 50, 51, 15, 14, 13, 12, 11, 10, + 64, 65, 66, 67, 31, 30, 29, 28, 27, 26, 80, 81, 82, 83, 47, 46, 45, 44, 43, 42}}; + +static void +bc6_sign_extend(UINT16 *v, int prec) { int x = *v; if (x & (1 << (prec - 1))) { x |= -1 << prec; @@ -605,7 +593,8 @@ static void bc6_sign_extend(UINT16 *v, int prec) { *v = (UINT16)x; } -static int bc6_unquantize(UINT16 v, int prec, int sign) { +static int +bc6_unquantize(UINT16 v, int prec, int sign) { int s = 0; int x; if (!sign) { @@ -645,7 +634,8 @@ static int bc6_unquantize(UINT16 v, int prec, int sign) { } } -static float half_to_float(UINT16 h) { +static float +half_to_float(UINT16 h) { /* https://gist.github.com/rygorous/2144712 */ union { UINT32 u; @@ -662,7 +652,8 @@ static float half_to_float(UINT16 h) { return o.f; } -static float bc6_finalize(int v, int sign) { +static float +bc6_finalize(int v, int sign) { if (sign) { if (v < 0) { v = ((-v) * 31) / 32; @@ -675,7 +666,8 @@ static float bc6_finalize(int v, int sign) { } } -static void bc6_lerp(rgb32f *col, int *e0, int *e1, int s, int sign) { +static void +bc6_lerp(rgb32f *col, int *e0, int *e1, int s, int sign) { int r, g, b; int t = 64 - s; r = (e0[0] * t + e1[0] * s) >> 6; @@ -686,7 +678,8 @@ static void bc6_lerp(rgb32f *col, int *e0, int *e1, int s, int sign) { col->b = bc6_finalize(b, sign); } -static void decode_bc6_block(rgb32f *col, const UINT8* src, int sign) { +static void +decode_bc6_block(rgb32f *col, const UINT8 *src, int sign) { UINT16 endpoints[12]; /* storage for r0, g0, b0, r1, ... */ int ueps[12]; int i, i0, ib2, di, dw, mask, numep, s; @@ -736,9 +729,9 @@ static void decode_bc6_block(rgb32f *col, const UINT8* src, int sign) { } if (sign || info->tr) { /* sign-extend e1,2,3 if signed or deltas */ for (i = 3; i < numep; i += 3) { - bc6_sign_extend(&endpoints[i+0], info->rb); - bc6_sign_extend(&endpoints[i+1], info->gb); - bc6_sign_extend(&endpoints[i+2], info->bb); + bc6_sign_extend(&endpoints[i + 0], info->rb); + bc6_sign_extend(&endpoints[i + 1], info->gb); + bc6_sign_extend(&endpoints[i + 2], info->bb); } } if (info->tr) { /* apply deltas */ @@ -747,9 +740,9 @@ static void decode_bc6_block(rgb32f *col, const UINT8* src, int sign) { } if (sign) { for (i = 3; i < numep; i += 3) { - bc6_sign_extend(&endpoints[i+0], info->rb); - bc6_sign_extend(&endpoints[i+1], info->gb); - bc6_sign_extend(&endpoints[i+2], info->bb); + bc6_sign_extend(&endpoints[i + 0], info->rb); + bc6_sign_extend(&endpoints[i + 1], info->gb); + bc6_sign_extend(&endpoints[i + 2], info->bb); } } } @@ -769,11 +762,12 @@ static void decode_bc6_block(rgb32f *col, const UINT8* src, int sign) { i0 = get_bits(src, bit, ib2); bit += ib2; - bc6_lerp(&col[i], &ueps[s], &ueps[s+3], cw[i0], sign); + bc6_lerp(&col[i], &ueps[s], &ueps[s + 3], cw[i0], sign); } } -static void put_block(Imaging im, ImagingCodecState state, const char *col, int sz, int C) { +static void +put_block(Imaging im, ImagingCodecState state, const char *col, int sz, int C) { int width = state->xsize; int height = state->ysize; int xmax = width + state->xoff; @@ -795,15 +789,15 @@ static void put_block(Imaging im, ImagingCodecState state, const char *col, int if (x >= width) { continue; } - memcpy(dst + sz*x, col + sz*(j*4 + i), sz); + memcpy(dst + sz * x, col + sz * (j * 4 + i), sz); } } else { if (state->ystep < 0) { y = state->yoff + ymax - y - 1; } x = state->x; - dst = im->image[y] + sz*x; - memcpy(dst, col + sz*(j*4), 4 * sz); + dst = im->image[y] + sz * x; + memcpy(dst, col + sz * (j * 4), 4 * sz); } } state->x += 4; @@ -813,23 +807,25 @@ static void put_block(Imaging im, ImagingCodecState state, const char *col, int } } -static int decode_bcn(Imaging im, ImagingCodecState state, const UINT8* src, int bytes, int N, int C) { +static int +decode_bcn( + Imaging im, ImagingCodecState state, const UINT8 *src, int bytes, int N, int C) { int ymax = state->ysize + state->yoff; const UINT8 *ptr = src; switch (N) { -#define DECODE_LOOP(NN, SZ, TY, ...) \ - case NN: \ - while (bytes >= SZ) { \ - TY col[16]; \ - memset(col, 0, 16 * sizeof(col[0])); \ - decode_bc##NN##_block(col, ptr); \ +#define DECODE_LOOP(NN, SZ, TY, ...) \ + case NN: \ + while (bytes >= SZ) { \ + TY col[16]; \ + memset(col, 0, 16 * sizeof(col[0])); \ + decode_bc##NN##_block(col, ptr); \ put_block(im, state, (const char *)col, sizeof(col[0]), C); \ - ptr += SZ; \ - bytes -= SZ; \ - if (state->y >= ymax) {\ - return -1; \ - }\ - } \ + ptr += SZ; \ + bytes -= SZ; \ + if (state->y >= ymax) { \ + return -1; \ + } \ + } \ break DECODE_LOOP(1, 8, rgba); @@ -844,18 +840,19 @@ static int decode_bcn(Imaging im, ImagingCodecState state, const UINT8* src, int put_block(im, state, (const char *)col, sizeof(col[0]), C); ptr += 16; bytes -= 16; - if (state->y >= ymax) {\ - return -1; \ - }\ + if (state->y >= ymax) { + return -1; + } } break; - DECODE_LOOP(7, 16, rgba); + DECODE_LOOP(7, 16, rgba); #undef DECODE_LOOP } return (int)(ptr - src); } -int ImagingBcnDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) { +int +ImagingBcnDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { int N = state->state & 0xf; int width = state->xsize; int height = state->ysize; diff --git a/src/libImaging/Bit.h b/src/libImaging/Bit.h index 56e3a17d2e7..f64bfb46990 100644 --- a/src/libImaging/Bit.h +++ b/src/libImaging/Bit.h @@ -1,7 +1,6 @@ /* Bit.h */ typedef struct { - /* CONFIGURATION */ /* Number of bits per pixel */ @@ -19,7 +18,7 @@ typedef struct { /* Lookup table (not implemented) */ unsigned long lutsize; - FLOAT32* lut; + FLOAT32 *lut; /* INTERNAL */ unsigned long mask; diff --git a/src/libImaging/BitDecode.c b/src/libImaging/BitDecode.c index 92edd746f08..28baa8b7ea8 100644 --- a/src/libImaging/BitDecode.c +++ b/src/libImaging/BitDecode.c @@ -13,20 +13,16 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include "Bit.h" - int -ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - BITSTATE* bitstate = state->context; - UINT8* ptr; +ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + BITSTATE *bitstate = state->context; + UINT8 *ptr; if (state->state == 0) { - /* Initialize context variables */ /* this decoder only works for float32 image buffers */ @@ -41,37 +37,35 @@ ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt return -1; } - bitstate->mask = (1<bits)-1; + bitstate->mask = (1 << bitstate->bits) - 1; if (bitstate->sign) { - bitstate->signmask = (1<<(bitstate->bits-1)); + bitstate->signmask = (1 << (bitstate->bits - 1)); } /* check image orientation */ if (state->ystep < 0) { - state->y = state->ysize-1; + state->y = state->ysize - 1; state->ystep = -1; } else { state->ystep = 1; } state->state = 1; - } ptr = buf; while (bytes > 0) { - UINT8 byte = *ptr; ptr++; bytes--; /* get a byte from the input stream and insert in the bit buffer */ - if (bitstate->fill&1) { + if (bitstate->fill & 1) { /* fill MSB first */ - bitstate->bitbuffer |= (unsigned long) byte << bitstate->bitcount; + bitstate->bitbuffer |= (unsigned long)byte << bitstate->bitcount; } else { /* fill LSB first */ bitstate->bitbuffer = (bitstate->bitbuffer << 8) | byte; @@ -80,26 +74,24 @@ ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt bitstate->bitcount += 8; while (bitstate->bitcount >= bitstate->bits) { - /* get a pixel from the bit buffer */ unsigned long data; FLOAT32 pixel; - if (bitstate->fill&2) { + if (bitstate->fill & 2) { /* store LSB first */ data = bitstate->bitbuffer & bitstate->mask; if (bitstate->bitcount > 32) { /* bitbuffer overflow; restore it from last input byte */ - bitstate->bitbuffer = byte >> (8 - (bitstate->bitcount - - bitstate->bits)); + bitstate->bitbuffer = + byte >> (8 - (bitstate->bitcount - bitstate->bits)); } else { bitstate->bitbuffer >>= bitstate->bits; } } else { /* store MSB first */ - data = (bitstate->bitbuffer >> (bitstate->bitcount - - bitstate->bits)) - & bitstate->mask; + data = (bitstate->bitbuffer >> (bitstate->bitcount - bitstate->bits)) & + bitstate->mask; } bitstate->bitcount -= bitstate->bits; @@ -109,7 +101,7 @@ ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt if (data <= 0) { pixel = bitstate->lut[0]; } else if (data >= bitstate->lutsize) { - pixel = bitstate->lut[bitstate->lutsize-1]; + pixel = bitstate->lut[bitstate->lutsize - 1]; } else { pixel = bitstate->lut[data]; } @@ -117,13 +109,13 @@ ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* convert */ if (data & bitstate->signmask) { /* image memory contains signed data */ - pixel = (FLOAT32) (INT32) (data | ~bitstate->mask); + pixel = (FLOAT32)(INT32)(data | ~bitstate->mask); } else { - pixel = (FLOAT32) data; + pixel = (FLOAT32)data; } } - *(FLOAT32*)(&im->image32[state->y][state->x]) = pixel; + *(FLOAT32 *)(&im->image32[state->y][state->x]) = pixel; /* step forward */ if (++state->x >= state->xsize) { diff --git a/src/libImaging/Blend.c b/src/libImaging/Blend.c index 0bac4cda9cb..a53ae0fad53 100644 --- a/src/libImaging/Blend.c +++ b/src/libImaging/Blend.c @@ -15,27 +15,22 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" - Imaging -ImagingBlend(Imaging imIn1, Imaging imIn2, float alpha) -{ +ImagingBlend(Imaging imIn1, Imaging imIn2, float alpha) { Imaging imOut; int x, y; /* Check arguments */ - if (!imIn1 || !imIn2 || imIn1->type != IMAGING_TYPE_UINT8 - || imIn1->palette || strcmp(imIn1->mode, "1") == 0 - || imIn2->palette || strcmp(imIn2->mode, "1") == 0) { + if (!imIn1 || !imIn2 || imIn1->type != IMAGING_TYPE_UINT8 || imIn1->palette || + strcmp(imIn1->mode, "1") == 0 || imIn2->palette || + strcmp(imIn2->mode, "1") == 0) { return ImagingError_ModeError(); } - if (imIn1->type != imIn2->type || - imIn1->bands != imIn2->bands || - imIn1->xsize != imIn2->xsize || - imIn1->ysize != imIn2->ysize) { + if (imIn1->type != imIn2->type || imIn1->bands != imIn2->bands || + imIn1->xsize != imIn2->xsize || imIn1->ysize != imIn2->ysize) { return ImagingError_Mismatch(); } @@ -54,29 +49,27 @@ ImagingBlend(Imaging imIn1, Imaging imIn2, float alpha) if (alpha >= 0 && alpha <= 1.0) { /* Interpolate between bands */ for (y = 0; y < imIn1->ysize; y++) { - UINT8* in1 = (UINT8*) imIn1->image[y]; - UINT8* in2 = (UINT8*) imIn2->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in1 = (UINT8 *)imIn1->image[y]; + UINT8 *in2 = (UINT8 *)imIn2->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < imIn1->linesize; x++) { - out[x] = (UINT8) - ((int) in1[x] + alpha * ((int) in2[x] - (int) in1[x])); + out[x] = (UINT8)((int)in1[x] + alpha * ((int)in2[x] - (int)in1[x])); } } } else { /* Extrapolation; must make sure to clip resulting values */ for (y = 0; y < imIn1->ysize; y++) { - UINT8* in1 = (UINT8*) imIn1->image[y]; - UINT8* in2 = (UINT8*) imIn2->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in1 = (UINT8 *)imIn1->image[y]; + UINT8 *in2 = (UINT8 *)imIn2->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < imIn1->linesize; x++) { - float temp = (float) - ((int) in1[x] + alpha * ((int) in2[x] - (int) in1[x])); + float temp = (float)((int)in1[x] + alpha * ((int)in2[x] - (int)in1[x])); if (temp <= 0.0) { out[x] = 0; } else if (temp >= 255.0) { out[x] = 255; } else { - out[x] = (UINT8) temp; + out[x] = (UINT8)temp; } } } diff --git a/src/libImaging/BoxBlur.c b/src/libImaging/BoxBlur.c index dcdc52cbc27..88862eb73bd 100644 --- a/src/libImaging/BoxBlur.c +++ b/src/libImaging/BoxBlur.c @@ -1,37 +1,40 @@ #include "Imaging.h" - #define MAX(x, y) (((x) > (y)) ? (x) : (y)) #define MIN(x, y) (((x) < (y)) ? (x) : (y)) - typedef UINT8 pixel[4]; -void static inline -ImagingLineBoxBlur32(pixel *lineOut, pixel *lineIn, int lastx, int radius, int edgeA, - int edgeB, UINT32 ww, UINT32 fw) -{ +void static inline ImagingLineBoxBlur32( + pixel *lineOut, + pixel *lineIn, + int lastx, + int radius, + int edgeA, + int edgeB, + UINT32 ww, + UINT32 fw) { int x; UINT32 acc[4]; UINT32 bulk[4]; - #define MOVE_ACC(acc, subtract, add) \ - acc[0] += lineIn[add][0] - lineIn[subtract][0]; \ - acc[1] += lineIn[add][1] - lineIn[subtract][1]; \ - acc[2] += lineIn[add][2] - lineIn[subtract][2]; \ - acc[3] += lineIn[add][3] - lineIn[subtract][3]; +#define MOVE_ACC(acc, subtract, add) \ + acc[0] += lineIn[add][0] - lineIn[subtract][0]; \ + acc[1] += lineIn[add][1] - lineIn[subtract][1]; \ + acc[2] += lineIn[add][2] - lineIn[subtract][2]; \ + acc[3] += lineIn[add][3] - lineIn[subtract][3]; - #define ADD_FAR(bulk, acc, left, right) \ - bulk[0] = (acc[0] * ww) + (lineIn[left][0] + lineIn[right][0]) * fw; \ - bulk[1] = (acc[1] * ww) + (lineIn[left][1] + lineIn[right][1]) * fw; \ - bulk[2] = (acc[2] * ww) + (lineIn[left][2] + lineIn[right][2]) * fw; \ - bulk[3] = (acc[3] * ww) + (lineIn[left][3] + lineIn[right][3]) * fw; +#define ADD_FAR(bulk, acc, left, right) \ + bulk[0] = (acc[0] * ww) + (lineIn[left][0] + lineIn[right][0]) * fw; \ + bulk[1] = (acc[1] * ww) + (lineIn[left][1] + lineIn[right][1]) * fw; \ + bulk[2] = (acc[2] * ww) + (lineIn[left][2] + lineIn[right][2]) * fw; \ + bulk[3] = (acc[3] * ww) + (lineIn[left][3] + lineIn[right][3]) * fw; - #define SAVE(x, bulk) \ - lineOut[x][0] = (UINT8)((bulk[0] + (1 << 23)) >> 24); \ - lineOut[x][1] = (UINT8)((bulk[1] + (1 << 23)) >> 24); \ - lineOut[x][2] = (UINT8)((bulk[2] + (1 << 23)) >> 24); \ - lineOut[x][3] = (UINT8)((bulk[3] + (1 << 23)) >> 24); +#define SAVE(x, bulk) \ + lineOut[x][0] = (UINT8)((bulk[0] + (1 << 23)) >> 24); \ + lineOut[x][1] = (UINT8)((bulk[1] + (1 << 23)) >> 24); \ + lineOut[x][2] = (UINT8)((bulk[2] + (1 << 23)) >> 24); \ + lineOut[x][3] = (UINT8)((bulk[3] + (1 << 23)) >> 24); /* Compute acc for -1 pixel (outside of image): From "-radius-1" to "-1" get first pixel, @@ -53,8 +56,7 @@ ImagingLineBoxBlur32(pixel *lineOut, pixel *lineIn, int lastx, int radius, int e acc[2] += lineIn[lastx][2] * (radius - edgeA + 1); acc[3] += lineIn[lastx][3] * (radius - edgeA + 1); - if (edgeA <= edgeB) - { + if (edgeA <= edgeB) { /* Subtract pixel from left ("0"). Add pixels from radius. */ for (x = 0; x < edgeA; x++) { @@ -76,9 +78,7 @@ ImagingLineBoxBlur32(pixel *lineOut, pixel *lineIn, int lastx, int radius, int e ADD_FAR(bulk, acc, x - radius - 1, lastx); SAVE(x, bulk); } - } - else - { + } else { for (x = 0; x < edgeB; x++) { MOVE_ACC(acc, 0, x + radius); ADD_FAR(bulk, acc, 0, x + radius + 1); @@ -96,28 +96,30 @@ ImagingLineBoxBlur32(pixel *lineOut, pixel *lineIn, int lastx, int radius, int e } } - #undef MOVE_ACC - #undef ADD_FAR - #undef SAVE +#undef MOVE_ACC +#undef ADD_FAR +#undef SAVE } - -void static inline -ImagingLineBoxBlur8(UINT8 *lineOut, UINT8 *lineIn, int lastx, int radius, int edgeA, - int edgeB, UINT32 ww, UINT32 fw) -{ +void static inline ImagingLineBoxBlur8( + UINT8 *lineOut, + UINT8 *lineIn, + int lastx, + int radius, + int edgeA, + int edgeB, + UINT32 ww, + UINT32 fw) { int x; UINT32 acc; UINT32 bulk; - #define MOVE_ACC(acc, subtract, add) \ - acc += lineIn[add] - lineIn[subtract]; +#define MOVE_ACC(acc, subtract, add) acc += lineIn[add] - lineIn[subtract]; - #define ADD_FAR(bulk, acc, left, right) \ - bulk = (acc * ww) + (lineIn[left] + lineIn[right]) * fw; +#define ADD_FAR(bulk, acc, left, right) \ + bulk = (acc * ww) + (lineIn[left] + lineIn[right]) * fw; - #define SAVE(x, bulk) \ - lineOut[x] = (UINT8)((bulk + (1 << 23)) >> 24) +#define SAVE(x, bulk) lineOut[x] = (UINT8)((bulk + (1 << 23)) >> 24) acc = lineIn[0] * (radius + 1); for (x = 0; x < edgeA - 1; x++) { @@ -125,8 +127,7 @@ ImagingLineBoxBlur8(UINT8 *lineOut, UINT8 *lineIn, int lastx, int radius, int ed } acc += lineIn[lastx] * (radius - edgeA + 1); - if (edgeA <= edgeB) - { + if (edgeA <= edgeB) { for (x = 0; x < edgeA; x++) { MOVE_ACC(acc, 0, x + radius); ADD_FAR(bulk, acc, 0, x + radius + 1); @@ -142,9 +143,7 @@ ImagingLineBoxBlur8(UINT8 *lineOut, UINT8 *lineIn, int lastx, int radius, int ed ADD_FAR(bulk, acc, x - radius - 1, lastx); SAVE(x, bulk); } - } - else - { + } else { for (x = 0; x < edgeB; x++) { MOVE_ACC(acc, 0, x + radius); ADD_FAR(bulk, acc, 0, x + radius + 1); @@ -162,22 +161,19 @@ ImagingLineBoxBlur8(UINT8 *lineOut, UINT8 *lineIn, int lastx, int radius, int ed } } - #undef MOVE_ACC - #undef ADD_FAR - #undef SAVE +#undef MOVE_ACC +#undef ADD_FAR +#undef SAVE } - - Imaging -ImagingHorizontalBoxBlur(Imaging imOut, Imaging imIn, float floatRadius) -{ +ImagingHorizontalBoxBlur(Imaging imOut, Imaging imIn, float floatRadius) { ImagingSectionCookie cookie; int y; - int radius = (int) floatRadius; - UINT32 ww = (UINT32) (1 << 24) / (floatRadius * 2 + 1); + int radius = (int)floatRadius; + UINT32 ww = (UINT32)(1 << 24) / (floatRadius * 2 + 1); UINT32 fw = ((1 << 24) - (radius * 2 + 1) * ww) / 2; int edgeA = MIN(radius + 1, imIn->xsize); @@ -192,32 +188,33 @@ ImagingHorizontalBoxBlur(Imaging imOut, Imaging imIn, float floatRadius) ImagingSectionEnter(&cookie); - if (imIn->image8) - { + if (imIn->image8) { for (y = 0; y < imIn->ysize; y++) { ImagingLineBoxBlur8( - (imIn == imOut ? (UINT8 *) lineOut : imOut->image8[y]), + (imIn == imOut ? (UINT8 *)lineOut : imOut->image8[y]), imIn->image8[y], imIn->xsize - 1, - radius, edgeA, edgeB, - ww, fw - ); + radius, + edgeA, + edgeB, + ww, + fw); if (imIn == imOut) { // Commit. memcpy(imOut->image8[y], lineOut, imIn->xsize); } } - } - else - { + } else { for (y = 0; y < imIn->ysize; y++) { ImagingLineBoxBlur32( - imIn == imOut ? (pixel *) lineOut : (pixel *) imOut->image32[y], - (pixel *) imIn->image32[y], + imIn == imOut ? (pixel *)lineOut : (pixel *)imOut->image32[y], + (pixel *)imIn->image32[y], imIn->xsize - 1, - radius, edgeA, edgeB, - ww, fw - ); + radius, + edgeA, + edgeB, + ww, + fw); if (imIn == imOut) { // Commit. memcpy(imOut->image32[y], lineOut, imIn->xsize * 4); @@ -232,23 +229,17 @@ ImagingHorizontalBoxBlur(Imaging imOut, Imaging imIn, float floatRadius) return imOut; } - Imaging -ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n) -{ +ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n) { int i; Imaging imTransposed; if (n < 1) { - return ImagingError_ValueError( - "number of passes must be greater than zero" - ); + return ImagingError_ValueError("number of passes must be greater than zero"); } - if (strcmp(imIn->mode, imOut->mode) || - imIn->type != imOut->type || - imIn->bands != imOut->bands || - imIn->xsize != imOut->xsize || + if (strcmp(imIn->mode, imOut->mode) || imIn->type != imOut->type || + imIn->bands != imOut->bands || imIn->xsize != imOut->xsize || imIn->ysize != imOut->ysize) { return ImagingError_Mismatch(); } @@ -257,14 +248,10 @@ ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n) return ImagingError_ModeError(); } - if (!(strcmp(imIn->mode, "RGB") == 0 || - strcmp(imIn->mode, "RGBA") == 0 || - strcmp(imIn->mode, "RGBa") == 0 || - strcmp(imIn->mode, "RGBX") == 0 || - strcmp(imIn->mode, "CMYK") == 0 || - strcmp(imIn->mode, "L") == 0 || - strcmp(imIn->mode, "LA") == 0 || - strcmp(imIn->mode, "La") == 0)) { + if (!(strcmp(imIn->mode, "RGB") == 0 || strcmp(imIn->mode, "RGBA") == 0 || + strcmp(imIn->mode, "RGBa") == 0 || strcmp(imIn->mode, "RGBX") == 0 || + strcmp(imIn->mode, "CMYK") == 0 || strcmp(imIn->mode, "L") == 0 || + strcmp(imIn->mode, "LA") == 0 || strcmp(imIn->mode, "La") == 0)) { return ImagingError_ModeError(); } @@ -277,14 +264,14 @@ ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n) Use imOut as a destination at first pass, then use imOut as a source too. */ ImagingHorizontalBoxBlur(imOut, imIn, radius); - for (i = 1; i < n; i ++) { + for (i = 1; i < n; i++) { ImagingHorizontalBoxBlur(imOut, imOut, radius); } /* Transpose result for blur in another direction. */ ImagingTranspose(imTransposed, imOut); /* Reuse imTransposed as a source and destination there. */ - for (i = 0; i < n; i ++) { + for (i = 0; i < n; i++) { ImagingHorizontalBoxBlur(imTransposed, imTransposed, radius); } /* Restore original orientation. */ @@ -295,10 +282,8 @@ ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n) return imOut; } - -Imaging ImagingGaussianBlur(Imaging imOut, Imaging imIn, float radius, - int passes) -{ +Imaging +ImagingGaussianBlur(Imaging imOut, Imaging imIn, float radius, int passes) { float sigma2, L, l, a; sigma2 = radius * radius / passes; diff --git a/src/libImaging/Chops.c b/src/libImaging/Chops.c index a0a70abd97a..f9c005efe3a 100644 --- a/src/libImaging/Chops.c +++ b/src/libImaging/Chops.c @@ -16,62 +16,59 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" -#define CHOP(operation)\ - int x, y;\ - Imaging imOut;\ - imOut = create(imIn1, imIn2, NULL);\ - if (!imOut) {\ - return NULL;\ - }\ - for (y = 0; y < imOut->ysize; y++) {\ - UINT8* out = (UINT8*) imOut->image[y];\ - UINT8* in1 = (UINT8*) imIn1->image[y];\ - UINT8* in2 = (UINT8*) imIn2->image[y];\ - for (x = 0; x < imOut->linesize; x++) {\ - int temp = operation;\ - if (temp <= 0) {\ - out[x] = 0;\ - } else if (temp >= 255) {\ - out[x] = 255;\ - } else {\ - out[x] = temp;\ - }\ - }\ - }\ +#define CHOP(operation) \ + int x, y; \ + Imaging imOut; \ + imOut = create(imIn1, imIn2, NULL); \ + if (!imOut) { \ + return NULL; \ + } \ + for (y = 0; y < imOut->ysize; y++) { \ + UINT8 *out = (UINT8 *)imOut->image[y]; \ + UINT8 *in1 = (UINT8 *)imIn1->image[y]; \ + UINT8 *in2 = (UINT8 *)imIn2->image[y]; \ + for (x = 0; x < imOut->linesize; x++) { \ + int temp = operation; \ + if (temp <= 0) { \ + out[x] = 0; \ + } else if (temp >= 255) { \ + out[x] = 255; \ + } else { \ + out[x] = temp; \ + } \ + } \ + } \ return imOut; -#define CHOP2(operation, mode)\ - int x, y;\ - Imaging imOut;\ - imOut = create(imIn1, imIn2, mode);\ - if (!imOut) {\ - return NULL;\ - }\ - for (y = 0; y < imOut->ysize; y++) {\ - UINT8* out = (UINT8*) imOut->image[y];\ - UINT8* in1 = (UINT8*) imIn1->image[y];\ - UINT8* in2 = (UINT8*) imIn2->image[y];\ - for (x = 0; x < imOut->linesize; x++) {\ - out[x] = operation;\ - }\ - }\ +#define CHOP2(operation, mode) \ + int x, y; \ + Imaging imOut; \ + imOut = create(imIn1, imIn2, mode); \ + if (!imOut) { \ + return NULL; \ + } \ + for (y = 0; y < imOut->ysize; y++) { \ + UINT8 *out = (UINT8 *)imOut->image[y]; \ + UINT8 *in1 = (UINT8 *)imIn1->image[y]; \ + UINT8 *in2 = (UINT8 *)imIn2->image[y]; \ + for (x = 0; x < imOut->linesize; x++) { \ + out[x] = operation; \ + } \ + } \ return imOut; static Imaging -create(Imaging im1, Imaging im2, char* mode) -{ +create(Imaging im1, Imaging im2, char *mode) { int xsize, ysize; if (!im1 || !im2 || im1->type != IMAGING_TYPE_UINT8 || (mode != NULL && (strcmp(im1->mode, "1") || strcmp(im2->mode, "1")))) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } - if (im1->type != im2->type || - im1->bands != im2->bands) { - return (Imaging) ImagingError_Mismatch(); + if (im1->type != im2->type || im1->bands != im2->bands) { + return (Imaging)ImagingError_Mismatch(); } xsize = (im1->xsize < im2->xsize) ? im1->xsize : im2->xsize; @@ -81,97 +78,85 @@ create(Imaging im1, Imaging im2, char* mode) } Imaging -ImagingChopLighter(Imaging imIn1, Imaging imIn2) -{ +ImagingChopLighter(Imaging imIn1, Imaging imIn2) { CHOP((in1[x] > in2[x]) ? in1[x] : in2[x]); } Imaging -ImagingChopDarker(Imaging imIn1, Imaging imIn2) -{ +ImagingChopDarker(Imaging imIn1, Imaging imIn2) { CHOP((in1[x] < in2[x]) ? in1[x] : in2[x]); } Imaging -ImagingChopDifference(Imaging imIn1, Imaging imIn2) -{ - CHOP(abs((int) in1[x] - (int) in2[x])); +ImagingChopDifference(Imaging imIn1, Imaging imIn2) { + CHOP(abs((int)in1[x] - (int)in2[x])); } Imaging -ImagingChopMultiply(Imaging imIn1, Imaging imIn2) -{ - CHOP((int) in1[x] * (int) in2[x] / 255); +ImagingChopMultiply(Imaging imIn1, Imaging imIn2) { + CHOP((int)in1[x] * (int)in2[x] / 255); } Imaging -ImagingChopScreen(Imaging imIn1, Imaging imIn2) -{ - CHOP(255 - ((int) (255 - in1[x]) * (int) (255 - in2[x])) / 255); +ImagingChopScreen(Imaging imIn1, Imaging imIn2) { + CHOP(255 - ((int)(255 - in1[x]) * (int)(255 - in2[x])) / 255); } Imaging -ImagingChopAdd(Imaging imIn1, Imaging imIn2, float scale, int offset) -{ - CHOP(((int) in1[x] + (int) in2[x]) / scale + offset); +ImagingChopAdd(Imaging imIn1, Imaging imIn2, float scale, int offset) { + CHOP(((int)in1[x] + (int)in2[x]) / scale + offset); } Imaging -ImagingChopSubtract(Imaging imIn1, Imaging imIn2, float scale, int offset) -{ - CHOP(((int) in1[x] - (int) in2[x]) / scale + offset); +ImagingChopSubtract(Imaging imIn1, Imaging imIn2, float scale, int offset) { + CHOP(((int)in1[x] - (int)in2[x]) / scale + offset); } Imaging -ImagingChopAnd(Imaging imIn1, Imaging imIn2) -{ +ImagingChopAnd(Imaging imIn1, Imaging imIn2) { CHOP2((in1[x] && in2[x]) ? 255 : 0, "1"); } Imaging -ImagingChopOr(Imaging imIn1, Imaging imIn2) -{ +ImagingChopOr(Imaging imIn1, Imaging imIn2) { CHOP2((in1[x] || in2[x]) ? 255 : 0, "1"); } Imaging -ImagingChopXor(Imaging imIn1, Imaging imIn2) -{ +ImagingChopXor(Imaging imIn1, Imaging imIn2) { CHOP2(((in1[x] != 0) ^ (in2[x] != 0)) ? 255 : 0, "1"); } Imaging -ImagingChopAddModulo(Imaging imIn1, Imaging imIn2) -{ +ImagingChopAddModulo(Imaging imIn1, Imaging imIn2) { CHOP2(in1[x] + in2[x], NULL); } Imaging -ImagingChopSubtractModulo(Imaging imIn1, Imaging imIn2) -{ +ImagingChopSubtractModulo(Imaging imIn1, Imaging imIn2) { CHOP2(in1[x] - in2[x], NULL); } Imaging -ImagingChopSoftLight(Imaging imIn1, Imaging imIn2) -{ - CHOP2( (((255-in1[x]) * (in1[x]*in2[x]) ) / 65536) + - (in1[x] * ( 255 - ( (255 - in1[x]) * (255 - in2[x] ) / 255) )) / 255 - , NULL ); +ImagingChopSoftLight(Imaging imIn1, Imaging imIn2) { + CHOP2( + (((255 - in1[x]) * (in1[x] * in2[x])) / 65536) + + (in1[x] * (255 - ((255 - in1[x]) * (255 - in2[x]) / 255))) / 255, + NULL); } Imaging -ImagingChopHardLight(Imaging imIn1, Imaging imIn2) -{ - CHOP2( (in2[x]<128) ? ( (in1[x]*in2[x])/127) - : 255 - ( ((255-in2[x]) * (255-in1[x])) / 127) - , NULL); +ImagingChopHardLight(Imaging imIn1, Imaging imIn2) { + CHOP2( + (in2[x] < 128) ? ((in1[x] * in2[x]) / 127) + : 255 - (((255 - in2[x]) * (255 - in1[x])) / 127), + NULL); } Imaging -ImagingOverlay(Imaging imIn1, Imaging imIn2) -{ - CHOP2( (in1[x]<128) ? ( (in1[x]*in2[x])/127) - : 255 - ( ((255-in1[x]) * (255-in2[x])) / 127) - , NULL); +ImagingOverlay(Imaging imIn1, Imaging imIn2) { + CHOP2( + (in1[x] < 128) ? ((in1[x] * in2[x]) / 127) + : 255 - (((255 - in1[x]) * (255 - in2[x])) / 127), + NULL); } diff --git a/src/libImaging/ColorLUT.c b/src/libImaging/ColorLUT.c index f01d38993d1..fd6e268b585 100644 --- a/src/libImaging/ColorLUT.c +++ b/src/libImaging/ColorLUT.c @@ -1,52 +1,45 @@ #include "Imaging.h" #include - /* 8 bits for result. Table can overflow [0, 1.0] range, so we need extra bits for overflow and negative values. NOTE: This value should be the same as in _imaging/_prepare_lut_table() */ #define PRECISION_BITS (16 - 8 - 2) -#define PRECISION_ROUNDING (1<<(PRECISION_BITS-1)) +#define PRECISION_ROUNDING (1 << (PRECISION_BITS - 1)) /* 8 — scales are multiplied on byte. 6 — max index in the table (max size is 65, but index 64 is not reachable) */ #define SCALE_BITS (32 - 8 - 6) -#define SCALE_MASK ((1<> PRECISION_BITS]; } static inline void -interpolate3(INT16 out[3], const INT16 a[3], const INT16 b[3], INT16 shift) -{ - out[0] = (a[0] * ((1<> SHIFT_BITS; - out[1] = (a[1] * ((1<> SHIFT_BITS; - out[2] = (a[2] * ((1<> SHIFT_BITS; +interpolate3(INT16 out[3], const INT16 a[3], const INT16 b[3], INT16 shift) { + out[0] = (a[0] * ((1 << SHIFT_BITS) - shift) + b[0] * shift) >> SHIFT_BITS; + out[1] = (a[1] * ((1 << SHIFT_BITS) - shift) + b[1] * shift) >> SHIFT_BITS; + out[2] = (a[2] * ((1 << SHIFT_BITS) - shift) + b[2] * shift) >> SHIFT_BITS; } static inline void -interpolate4(INT16 out[4], const INT16 a[4], const INT16 b[4], INT16 shift) -{ - out[0] = (a[0] * ((1<> SHIFT_BITS; - out[1] = (a[1] * ((1<> SHIFT_BITS; - out[2] = (a[2] * ((1<> SHIFT_BITS; - out[3] = (a[3] * ((1<> SHIFT_BITS; +interpolate4(INT16 out[4], const INT16 a[4], const INT16 b[4], INT16 shift) { + out[0] = (a[0] * ((1 << SHIFT_BITS) - shift) + b[0] * shift) >> SHIFT_BITS; + out[1] = (a[1] * ((1 << SHIFT_BITS) - shift) + b[1] * shift) >> SHIFT_BITS; + out[2] = (a[2] * ((1 << SHIFT_BITS) - shift) + b[2] * shift) >> SHIFT_BITS; + out[3] = (a[3] * ((1 << SHIFT_BITS) - shift) + b[3] * shift) >> SHIFT_BITS; } static inline int -table_index3D(int index1D, int index2D, int index3D, - int size1D, int size1D_2D) -{ +table_index3D(int index1D, int index2D, int index3D, int size1D, int size1D_2D) { return index1D + index2D * size1D + index3D * size1D_2D; } - /* Transforms colors of imIn using provided 3D lookup table and puts the result in imOut. Returns imOut on success or 0 on error. @@ -63,10 +56,14 @@ table_index3D(int index1D, int index2D, int index3D, and 255 << PRECISION_BITS (16320) is highest value. */ Imaging -ImagingColorLUT3D_linear(Imaging imOut, Imaging imIn, int table_channels, - int size1D, int size2D, int size3D, - INT16* table) -{ +ImagingColorLUT3D_linear( + Imaging imOut, + Imaging imIn, + int table_channels, + int size1D, + int size2D, + int size3D, + INT16 *table) { /* This float to int conversion doesn't have rounding error compensation (+0.5) for two reasons: 1. As we don't hit the highest value, @@ -77,9 +74,9 @@ ImagingColorLUT3D_linear(Imaging imOut, Imaging imIn, int table_channels, +1 cells will be outside of the table. With this compensation we never hit the upper cells but this also doesn't introduce any noticeable difference. */ - UINT32 scale1D = (size1D - 1) / 255.0 * (1<type != IMAGING_TYPE_UINT8 || - imOut->type != IMAGING_TYPE_UINT8 || - imIn->bands < 3 || - imOut->bands < table_channels - ) { - return (Imaging) ImagingError_ModeError(); + if (imIn->type != IMAGING_TYPE_UINT8 || imOut->type != IMAGING_TYPE_UINT8 || + imIn->bands < 3 || imOut->bands < table_channels) { + return (Imaging)ImagingError_ModeError(); } /* In case we have one extra band in imOut and don't have in imIn.*/ if (imOut->bands > table_channels && imOut->bands > imIn->bands) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } ImagingSectionEnter(&cookie); for (y = 0; y < imOut->ysize; y++) { - UINT8* rowIn = (UINT8 *)imIn->image[y]; - char* rowOut = (char *)imOut->image[y]; + UINT8 *rowIn = (UINT8 *)imIn->image[y]; + char *rowOut = (char *)imOut->image[y]; for (x = 0; x < imOut->xsize; x++) { - UINT32 index1D = rowIn[x*4 + 0] * scale1D; - UINT32 index2D = rowIn[x*4 + 1] * scale2D; - UINT32 index3D = rowIn[x*4 + 2] * scale3D; + UINT32 index1D = rowIn[x * 4 + 0] * scale1D; + UINT32 index2D = rowIn[x * 4 + 1] * scale2D; + UINT32 index3D = rowIn[x * 4 + 2] * scale3D; INT16 shift1D = (SCALE_MASK & index1D) >> (SCALE_BITS - SHIFT_BITS); INT16 shift2D = (SCALE_MASK & index2D) >> (SCALE_BITS - SHIFT_BITS); INT16 shift3D = (SCALE_MASK & index3D) >> (SCALE_BITS - SHIFT_BITS); int idx = table_channels * table_index3D( - index1D >> SCALE_BITS, index2D >> SCALE_BITS, - index3D >> SCALE_BITS, size1D, size1D_2D); + index1D >> SCALE_BITS, + index2D >> SCALE_BITS, + index3D >> SCALE_BITS, + size1D, + size1D_2D); INT16 result[4], left[4], right[4]; INT16 leftleft[4], leftright[4], rightleft[4], rightright[4]; if (table_channels == 3) { UINT32 v; interpolate3(leftleft, &table[idx + 0], &table[idx + 3], shift1D); - interpolate3(leftright, &table[idx + size1D*3], - &table[idx + size1D*3 + 3], shift1D); + interpolate3( + leftright, + &table[idx + size1D * 3], + &table[idx + size1D * 3 + 3], + shift1D); interpolate3(left, leftleft, leftright, shift2D); - interpolate3(rightleft, &table[idx + size1D_2D*3], - &table[idx + size1D_2D*3 + 3], shift1D); - interpolate3(rightright, &table[idx + size1D_2D*3 + size1D*3], - &table[idx + size1D_2D*3 + size1D*3 + 3], shift1D); + interpolate3( + rightleft, + &table[idx + size1D_2D * 3], + &table[idx + size1D_2D * 3 + 3], + shift1D); + interpolate3( + rightright, + &table[idx + size1D_2D * 3 + size1D * 3], + &table[idx + size1D_2D * 3 + size1D * 3 + 3], + shift1D); interpolate3(right, rightleft, rightright, shift2D); interpolate3(result, left, right, shift3D); v = MAKE_UINT32( - clip8(result[0]), clip8(result[1]), - clip8(result[2]), rowIn[x*4 + 3]); + clip8(result[0]), + clip8(result[1]), + clip8(result[2]), + rowIn[x * 4 + 3]); memcpy(rowOut + x * sizeof(v), &v, sizeof(v)); } if (table_channels == 4) { UINT32 v; interpolate4(leftleft, &table[idx + 0], &table[idx + 4], shift1D); - interpolate4(leftright, &table[idx + size1D*4], - &table[idx + size1D*4 + 4], shift1D); + interpolate4( + leftright, + &table[idx + size1D * 4], + &table[idx + size1D * 4 + 4], + shift1D); interpolate4(left, leftleft, leftright, shift2D); - interpolate4(rightleft, &table[idx + size1D_2D*4], - &table[idx + size1D_2D*4 + 4], shift1D); - interpolate4(rightright, &table[idx + size1D_2D*4 + size1D*4], - &table[idx + size1D_2D*4 + size1D*4 + 4], shift1D); + interpolate4( + rightleft, + &table[idx + size1D_2D * 4], + &table[idx + size1D_2D * 4 + 4], + shift1D); + interpolate4( + rightright, + &table[idx + size1D_2D * 4 + size1D * 4], + &table[idx + size1D_2D * 4 + size1D * 4 + 4], + shift1D); interpolate4(right, rightleft, rightright, shift2D); interpolate4(result, left, right, shift3D); v = MAKE_UINT32( - clip8(result[0]), clip8(result[1]), - clip8(result[2]), clip8(result[3])); + clip8(result[0]), + clip8(result[1]), + clip8(result[2]), + clip8(result[3])); memcpy(rowOut + x * sizeof(v), &v, sizeof(v)); } } diff --git a/src/libImaging/Convert.c b/src/libImaging/Convert.c index b0b794d722b..8c7be36a278 100644 --- a/src/libImaging/Convert.c +++ b/src/libImaging/Convert.c @@ -32,24 +32,21 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" -#define MAX(a, b) (a)>(b) ? (a) : (b) -#define MIN(a, b) (a)<(b) ? (a) : (b) +#define MAX(a, b) (a) > (b) ? (a) : (b) +#define MIN(a, b) (a) < (b) ? (a) : (b) #define CLIP16(v) ((v) <= -32768 ? -32768 : (v) >= 32767 ? 32767 : (v)) /* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */ -#define L(rgb)\ - ((INT32) (rgb)[0]*299 + (INT32) (rgb)[1]*587 + (INT32) (rgb)[2]*114) -#define L24(rgb)\ - ((rgb)[0]*19595 + (rgb)[1]*38470 + (rgb)[2]*7471 + 0x8000) - +#define L(rgb) ((INT32)(rgb)[0] * 299 + (INT32)(rgb)[1] * 587 + (INT32)(rgb)[2] * 114) +#define L24(rgb) ((rgb)[0] * 19595 + (rgb)[1] * 38470 + (rgb)[2] * 7471 + 0x8000) #ifndef round -double round(double x) { - return floor(x+0.5); +double +round(double x) { + return floor(x + 0.5); } #endif @@ -58,16 +55,13 @@ double round(double x) { /* ------------------- */ static void -bit2l(UINT8* out, const UINT8* in, int xsize) -{ +bit2l(UINT8 *out, const UINT8 *in, int xsize) { int x; - for (x = 0; x < xsize; x++) - *out++ = (*in++ != 0) ? 255 : 0; + for (x = 0; x < xsize; x++) *out++ = (*in++ != 0) ? 255 : 0; } static void -bit2rgb(UINT8* out, const UINT8* in, int xsize) -{ +bit2rgb(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { UINT8 v = (*in++ != 0) ? 255 : 0; @@ -79,8 +73,7 @@ bit2rgb(UINT8* out, const UINT8* in, int xsize) } static void -bit2cmyk(UINT8* out, const UINT8* in, int xsize) -{ +bit2cmyk(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = 0; @@ -91,8 +84,7 @@ bit2cmyk(UINT8* out, const UINT8* in, int xsize) } static void -bit2ycbcr(UINT8* out, const UINT8* in, int xsize) -{ +bit2ycbcr(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = (*in++ != 0) ? 255 : 0; @@ -103,8 +95,7 @@ bit2ycbcr(UINT8* out, const UINT8* in, int xsize) } static void -bit2hsv(UINT8* out, const UINT8* in, int xsize) -{ +bit2hsv(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out += 4) { UINT8 v = (*in++ != 0) ? 255 : 0; @@ -120,8 +111,7 @@ bit2hsv(UINT8* out, const UINT8* in, int xsize) /* ----------------- */ static void -l2bit(UINT8* out, const UINT8* in, int xsize) -{ +l2bit(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = (*in++ >= 128) ? 255 : 0; @@ -129,44 +119,41 @@ l2bit(UINT8* out, const UINT8* in, int xsize) } static void -lA2la(UINT8* out, const UINT8* in, int xsize) -{ +lA2la(UINT8 *out, const UINT8 *in, int xsize) { int x; unsigned int alpha, pixel, tmp; for (x = 0; x < xsize; x++, in += 4) { alpha = in[3]; pixel = MULDIV255(in[0], alpha, tmp); - *out++ = (UINT8) pixel; - *out++ = (UINT8) pixel; - *out++ = (UINT8) pixel; - *out++ = (UINT8) alpha; + *out++ = (UINT8)pixel; + *out++ = (UINT8)pixel; + *out++ = (UINT8)pixel; + *out++ = (UINT8)alpha; } } /* RGBa -> RGBA conversion to remove premultiplication Needed for correct transforms/resizing on RGBA images */ static void -la2lA(UINT8* out, const UINT8* in, int xsize) -{ +la2lA(UINT8 *out, const UINT8 *in, int xsize) { int x; unsigned int alpha, pixel; - for (x = 0; x < xsize; x++, in+=4) { + for (x = 0; x < xsize; x++, in += 4) { alpha = in[3]; if (alpha == 255 || alpha == 0) { pixel = in[0]; } else { pixel = CLIP8((255 * in[0]) / alpha); } - *out++ = (UINT8) pixel; - *out++ = (UINT8) pixel; - *out++ = (UINT8) pixel; - *out++ = (UINT8) alpha; + *out++ = (UINT8)pixel; + *out++ = (UINT8)pixel; + *out++ = (UINT8)pixel; + *out++ = (UINT8)alpha; } } static void -l2la(UINT8* out, const UINT8* in, int xsize) -{ +l2la(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { UINT8 v = *in++; @@ -178,8 +165,7 @@ l2la(UINT8* out, const UINT8* in, int xsize) } static void -l2rgb(UINT8* out, const UINT8* in, int xsize) -{ +l2rgb(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { UINT8 v = *in++; @@ -191,8 +177,7 @@ l2rgb(UINT8* out, const UINT8* in, int xsize) } static void -l2hsv(UINT8* out, const UINT8* in, int xsize) -{ +l2hsv(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out += 4) { UINT8 v = *in++; @@ -204,8 +189,7 @@ l2hsv(UINT8* out, const UINT8* in, int xsize) } static void -la2l(UINT8* out, const UINT8* in, int xsize) -{ +la2l(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { *out++ = in[0]; @@ -213,8 +197,7 @@ la2l(UINT8* out, const UINT8* in, int xsize) } static void -la2rgb(UINT8* out, const UINT8* in, int xsize) -{ +la2rgb(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { UINT8 v = in[0]; @@ -226,8 +209,7 @@ la2rgb(UINT8* out, const UINT8* in, int xsize) } static void -la2hsv(UINT8* out, const UINT8* in, int xsize) -{ +la2hsv(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { UINT8 v = in[0]; @@ -239,8 +221,7 @@ la2hsv(UINT8* out, const UINT8* in, int xsize) } static void -rgb2bit(UINT8* out, const UINT8* in, int xsize) -{ +rgb2bit(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { /* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */ @@ -249,8 +230,7 @@ rgb2bit(UINT8* out, const UINT8* in, int xsize) } static void -rgb2l(UINT8* out, const UINT8* in, int xsize) -{ +rgb2l(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { /* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */ @@ -259,8 +239,7 @@ rgb2l(UINT8* out, const UINT8* in, int xsize) } static void -rgb2la(UINT8* out, const UINT8* in, int xsize) -{ +rgb2la(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { /* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */ @@ -270,8 +249,7 @@ rgb2la(UINT8* out, const UINT8* in, int xsize) } static void -rgb2i(UINT8* out_, const UINT8* in, int xsize) -{ +rgb2i(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out_ += 4) { INT32 v = L24(in) >> 16; @@ -280,44 +258,38 @@ rgb2i(UINT8* out_, const UINT8* in, int xsize) } static void -rgb2f(UINT8* out_, const UINT8* in, int xsize) -{ +rgb2f(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out_ += 4) { - FLOAT32 v = (float) L(in) / 1000.0F; + FLOAT32 v = (float)L(in) / 1000.0F; memcpy(out_, &v, sizeof(v)); } } static void -rgb2bgr15(UINT8* out_, const UINT8* in, int xsize) -{ +rgb2bgr15(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out_ += 2) { - UINT16 v = - ((((UINT16)in[0])<<7)&0x7c00) + - ((((UINT16)in[1])<<2)&0x03e0) + - ((((UINT16)in[2])>>3)&0x001f); + UINT16 v = ((((UINT16)in[0]) << 7) & 0x7c00) + + ((((UINT16)in[1]) << 2) & 0x03e0) + + ((((UINT16)in[2]) >> 3) & 0x001f); memcpy(out_, &v, sizeof(v)); } } static void -rgb2bgr16(UINT8* out_, const UINT8* in, int xsize) -{ +rgb2bgr16(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out_ += 2) { - UINT16 v = - ((((UINT16)in[0])<<8)&0xf800) + - ((((UINT16)in[1])<<3)&0x07e0) + - ((((UINT16)in[2])>>3)&0x001f); + UINT16 v = ((((UINT16)in[0]) << 8) & 0xf800) + + ((((UINT16)in[1]) << 3) & 0x07e0) + + ((((UINT16)in[2]) >> 3) & 0x001f); memcpy(out_, &v, sizeof(v)); } } static void -rgb2bgr24(UINT8* out, const UINT8* in, int xsize) -{ +rgb2bgr24(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { *out++ = in[2]; @@ -327,40 +299,39 @@ rgb2bgr24(UINT8* out, const UINT8* in, int xsize) } static void -rgb2hsv_row(UINT8* out, const UINT8* in) -{ // following colorsys.py - float h,s,rc,gc,bc,cr; - UINT8 maxc,minc; +rgb2hsv_row(UINT8 *out, const UINT8 *in) { // following colorsys.py + float h, s, rc, gc, bc, cr; + UINT8 maxc, minc; UINT8 r, g, b; - UINT8 uh,us,uv; + UINT8 uh, us, uv; r = in[0]; g = in[1]; b = in[2]; - maxc = MAX(r,MAX(g,b)); - minc = MIN(r,MIN(g,b)); + maxc = MAX(r, MAX(g, b)); + minc = MIN(r, MIN(g, b)); uv = maxc; - if (minc == maxc){ + if (minc == maxc) { uh = 0; us = 0; } else { - cr = (float)(maxc-minc); - s = cr/(float)maxc; - rc = ((float)(maxc-r))/cr; - gc = ((float)(maxc-g))/cr; - bc = ((float)(maxc-b))/cr; + cr = (float)(maxc - minc); + s = cr / (float)maxc; + rc = ((float)(maxc - r)) / cr; + gc = ((float)(maxc - g)) / cr; + bc = ((float)(maxc - b)) / cr; if (r == maxc) { - h = bc-gc; + h = bc - gc; } else if (g == maxc) { - h = 2.0 + rc-bc; + h = 2.0 + rc - bc; } else { - h = 4.0 + gc-rc; + h = 4.0 + gc - rc; } // incorrect hue happens if h/6 is negative. - h = fmod((h/6.0 + 1.0), 1.0); + h = fmod((h / 6.0 + 1.0), 1.0); - uh = (UINT8)CLIP8((int)(h*255.0)); - us = (UINT8)CLIP8((int)(s*255.0)); + uh = (UINT8)CLIP8((int)(h * 255.0)); + us = (UINT8)CLIP8((int)(s * 255.0)); } out[0] = uh; out[1] = us; @@ -368,8 +339,7 @@ rgb2hsv_row(UINT8* out, const UINT8* in) } static void -rgb2hsv(UINT8* out, const UINT8* in, int xsize) -{ +rgb2hsv(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { rgb2hsv_row(out, in); @@ -377,98 +347,91 @@ rgb2hsv(UINT8* out, const UINT8* in, int xsize) } } - - static void -hsv2rgb(UINT8* out, const UINT8* in, int xsize) -{ // following colorsys.py +hsv2rgb(UINT8 *out, const UINT8 *in, int xsize) { // following colorsys.py - int p,q,t; - UINT8 up,uq,ut; + int p, q, t; + UINT8 up, uq, ut; int i, x; float f, fs; - UINT8 h,s,v; + UINT8 h, s, v; for (x = 0; x < xsize; x++, in += 4) { h = in[0]; s = in[1]; v = in[2]; - if (s==0){ + if (s == 0) { *out++ = v; *out++ = v; *out++ = v; } else { - i = floor((float)h * 6.0 / 255.0); // 0 - 6 - f = (float)h * 6.0 / 255.0 - (float)i; // 0-1 : remainder. - fs = ((float)s)/255.0; + i = floor((float)h * 6.0 / 255.0); // 0 - 6 + f = (float)h * 6.0 / 255.0 - (float)i; // 0-1 : remainder. + fs = ((float)s) / 255.0; - p = round((float)v * (1.0-fs)); - q = round((float)v * (1.0-fs*f)); - t = round((float)v * (1.0-fs*(1.0-f))); + p = round((float)v * (1.0 - fs)); + q = round((float)v * (1.0 - fs * f)); + t = round((float)v * (1.0 - fs * (1.0 - f))); up = (UINT8)CLIP8(p); uq = (UINT8)CLIP8(q); ut = (UINT8)CLIP8(t); - switch (i%6) { - case 0: - *out++ = v; - *out++ = ut; - *out++ = up; - break; - case 1: - *out++ = uq; - *out++ = v; - *out++ = up; - break; - case 2: - *out++ = up; - *out++ = v; - *out++ = ut; - break; - case 3: - *out++ = up; - *out++ = uq; - *out++ = v; - break; - case 4: - *out++ = ut; - *out++ = up; - *out++ = v; - break; - case 5: - *out++ = v; - *out++ = up; - *out++ = uq; - break; - + switch (i % 6) { + case 0: + *out++ = v; + *out++ = ut; + *out++ = up; + break; + case 1: + *out++ = uq; + *out++ = v; + *out++ = up; + break; + case 2: + *out++ = up; + *out++ = v; + *out++ = ut; + break; + case 3: + *out++ = up; + *out++ = uq; + *out++ = v; + break; + case 4: + *out++ = ut; + *out++ = up; + *out++ = v; + break; + case 5: + *out++ = v; + *out++ = up; + *out++ = uq; + break; } } *out++ = in[3]; } } - - /* ---------------- */ /* RGBA conversions */ /* ---------------- */ static void -rgb2rgba(UINT8* out, const UINT8* in, int xsize) -{ +rgb2rgba(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = *in++; *out++ = *in++; *out++ = *in++; - *out++ = 255; in++; + *out++ = 255; + in++; } } static void -rgba2la(UINT8* out, const UINT8* in, int xsize) -{ +rgba2la(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { /* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */ @@ -478,20 +441,19 @@ rgba2la(UINT8* out, const UINT8* in, int xsize) } static void -rgba2rgb(UINT8* out, const UINT8* in, int xsize) -{ +rgba2rgb(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = *in++; *out++ = *in++; *out++ = *in++; - *out++ = 255; in++; + *out++ = 255; + in++; } } static void -rgbA2rgba(UINT8* out, const UINT8* in, int xsize) -{ +rgbA2rgba(UINT8 *out, const UINT8 *in, int xsize) { int x; unsigned int alpha, tmp; for (x = 0; x < xsize; x++) { @@ -506,11 +468,10 @@ rgbA2rgba(UINT8* out, const UINT8* in, int xsize) /* RGBa -> RGBA conversion to remove premultiplication Needed for correct transforms/resizing on RGBA images */ static void -rgba2rgbA(UINT8* out, const UINT8* in, int xsize) -{ +rgba2rgbA(UINT8 *out, const UINT8 *in, int xsize) { int x; unsigned int alpha; - for (x = 0; x < xsize; x++, in+=4) { + for (x = 0; x < xsize; x++, in += 4) { alpha = in[3]; if (alpha == 255 || alpha == 0) { *out++ = in[0]; @@ -532,35 +493,32 @@ rgba2rgbA(UINT8* out, const UINT8* in, int xsize) */ static void -rgbT2rgba(UINT8* out, int xsize, int r, int g, int b) -{ +rgbT2rgba(UINT8 *out, int xsize, int r, int g, int b) { #ifdef WORDS_BIGENDIAN - UINT32 trns = ((r & 0xff)<<24) | ((g & 0xff)<<16) | ((b & 0xff)<<8) | 0xff; + UINT32 trns = ((r & 0xff) << 24) | ((g & 0xff) << 16) | ((b & 0xff) << 8) | 0xff; UINT32 repl = trns & 0xffffff00; #else - UINT32 trns = (0xff <<24) | ((b & 0xff)<<16) | ((g & 0xff)<<8) | (r & 0xff); + UINT32 trns = (0xff << 24) | ((b & 0xff) << 16) | ((g & 0xff) << 8) | (r & 0xff); UINT32 repl = trns & 0x00ffffff; #endif int i; - for (i=0; i < xsize; i++ ,out += sizeof(trns)) { + for (i = 0; i < xsize; i++, out += sizeof(trns)) { UINT32 v; memcpy(&v, out, sizeof(v)); - if (v==trns) { + if (v == trns) { memcpy(out, &repl, sizeof(repl)); } } } - /* ---------------- */ /* CMYK conversions */ /* ---------------- */ static void -l2cmyk(UINT8* out, const UINT8* in, int xsize) -{ +l2cmyk(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = 0; @@ -571,8 +529,7 @@ l2cmyk(UINT8* out, const UINT8* in, int xsize) } static void -la2cmyk(UINT8* out, const UINT8* in, int xsize) -{ +la2cmyk(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { *out++ = 0; @@ -583,21 +540,20 @@ la2cmyk(UINT8* out, const UINT8* in, int xsize) } static void -rgb2cmyk(UINT8* out, const UINT8* in, int xsize) -{ +rgb2cmyk(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { /* Note: no undercolour removal */ *out++ = ~(*in++); *out++ = ~(*in++); *out++ = ~(*in++); - *out++ = 0; in++; + *out++ = 0; + in++; } } static void -cmyk2rgb(UINT8* out, const UINT8* in, int xsize) -{ +cmyk2rgb(UINT8 *out, const UINT8 *in, int xsize) { int x, nk, tmp; for (x = 0; x < xsize; x++) { nk = 255 - in[3]; @@ -611,8 +567,7 @@ cmyk2rgb(UINT8* out, const UINT8* in, int xsize) } static void -cmyk2hsv(UINT8* out, const UINT8* in, int xsize) -{ +cmyk2hsv(UINT8 *out, const UINT8 *in, int xsize) { int x, nk, tmp; for (x = 0; x < xsize; x++) { nk = 255 - in[3]; @@ -631,8 +586,7 @@ cmyk2hsv(UINT8* out, const UINT8* in, int xsize) /* ------------- */ static void -bit2i(UINT8* out_, const UINT8* in, int xsize) -{ +bit2i(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out_ += 4) { INT32 v = (*in++ != 0) ? 255 : 0; @@ -641,8 +595,7 @@ bit2i(UINT8* out_, const UINT8* in, int xsize) } static void -l2i(UINT8* out_, const UINT8* in, int xsize) -{ +l2i(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out_ += 4) { INT32 v = *in++; @@ -651,8 +604,7 @@ l2i(UINT8* out_, const UINT8* in, int xsize) } static void -i2l(UINT8* out, const UINT8* in_, int xsize) -{ +i2l(UINT8 *out, const UINT8 *in_, int xsize) { int x; for (x = 0; x < xsize; x++, out++, in_ += 4) { INT32 v; @@ -662,14 +614,13 @@ i2l(UINT8* out, const UINT8* in_, int xsize) } else if (v >= 255) { *out = 255; } else { - *out = (UINT8) v; + *out = (UINT8)v; } } } static void -i2f(UINT8* out_, const UINT8* in_, int xsize) -{ +i2f(UINT8 *out_, const UINT8 *in_, int xsize) { int x; for (x = 0; x < xsize; x++, in_ += 4, out_ += 4) { INT32 i; @@ -681,28 +632,26 @@ i2f(UINT8* out_, const UINT8* in_, int xsize) } static void -i2rgb(UINT8* out, const UINT8* in_, int xsize) -{ +i2rgb(UINT8 *out, const UINT8 *in_, int xsize) { int x; - INT32* in = (INT32*) in_; - for (x = 0; x < xsize; x++, in++, out+=4) { + INT32 *in = (INT32 *)in_; + for (x = 0; x < xsize; x++, in++, out += 4) { if (*in <= 0) { out[0] = out[1] = out[2] = 0; } else if (*in >= 255) { out[0] = out[1] = out[2] = 255; } else { - out[0] = out[1] = out[2] = (UINT8) *in; + out[0] = out[1] = out[2] = (UINT8)*in; } out[3] = 255; } } static void -i2hsv(UINT8* out, const UINT8* in_, int xsize) -{ +i2hsv(UINT8 *out, const UINT8 *in_, int xsize) { int x; - INT32* in = (INT32*) in_; - for (x = 0; x < xsize; x++, in++, out+=4) { + INT32 *in = (INT32 *)in_; + for (x = 0; x < xsize; x++, in++, out += 4) { out[0] = 0; out[1] = 0; if (*in <= 0) { @@ -710,7 +659,7 @@ i2hsv(UINT8* out, const UINT8* in_, int xsize) } else if (*in >= 255) { out[2] = 255; } else { - out[2] = (UINT8) *in; + out[2] = (UINT8)*in; } out[3] = 255; } @@ -721,8 +670,7 @@ i2hsv(UINT8* out, const UINT8* in_, int xsize) /* ------------- */ static void -bit2f(UINT8* out_, const UINT8* in, int xsize) -{ +bit2f(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out_ += 4) { FLOAT32 f = (*in++ != 0) ? 255.0F : 0.0F; @@ -731,18 +679,16 @@ bit2f(UINT8* out_, const UINT8* in, int xsize) } static void -l2f(UINT8* out_, const UINT8* in, int xsize) -{ +l2f(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, out_ += 4) { - FLOAT32 f = (FLOAT32) *in++; + FLOAT32 f = (FLOAT32)*in++; memcpy(out_, &f, sizeof(f)); } } static void -f2l(UINT8* out, const UINT8* in_, int xsize) -{ +f2l(UINT8 *out, const UINT8 *in_, int xsize) { int x; for (x = 0; x < xsize; x++, out++, in_ += 4) { FLOAT32 v; @@ -752,14 +698,13 @@ f2l(UINT8* out, const UINT8* in_, int xsize) } else if (v >= 255.0) { *out = 255; } else { - *out = (UINT8) v; + *out = (UINT8)v; } } } static void -f2i(UINT8* out_, const UINT8* in_, int xsize) -{ +f2i(UINT8 *out_, const UINT8 *in_, int xsize) { int x; for (x = 0; x < xsize; x++, in_ += 4, out_ += 4) { FLOAT32 f; @@ -777,8 +722,7 @@ f2i(UINT8* out_, const UINT8* in_, int xsize) /* See ConvertYCbCr.c for RGB/YCbCr tables */ static void -l2ycbcr(UINT8* out, const UINT8* in, int xsize) -{ +l2ycbcr(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++) { *out++ = *in++; @@ -789,8 +733,7 @@ l2ycbcr(UINT8* out, const UINT8* in, int xsize) } static void -la2ycbcr(UINT8* out, const UINT8* in, int xsize) -{ +la2ycbcr(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { *out++ = in[0]; @@ -801,8 +744,7 @@ la2ycbcr(UINT8* out, const UINT8* in, int xsize) } static void -ycbcr2l(UINT8* out, const UINT8* in, int xsize) -{ +ycbcr2l(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4) { *out++ = in[0]; @@ -810,8 +752,7 @@ ycbcr2l(UINT8* out, const UINT8* in, int xsize) } static void -ycbcr2la(UINT8* out, const UINT8* in, int xsize) -{ +ycbcr2la(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { out[0] = out[1] = out[2] = in[0]; @@ -824,77 +765,67 @@ ycbcr2la(UINT8* out, const UINT8* in, int xsize) /* ------------------------- */ static void -I_I16L(UINT8* out, const UINT8* in_, int xsize) -{ +I_I16L(UINT8 *out, const UINT8 *in_, int xsize) { int x, v; for (x = 0; x < xsize; x++, in_ += 4) { INT32 i; memcpy(&i, in_, sizeof(i)); v = CLIP16(i); - *out++ = (UINT8) v; - *out++ = (UINT8) (v >> 8); + *out++ = (UINT8)v; + *out++ = (UINT8)(v >> 8); } } static void -I_I16B(UINT8* out, const UINT8* in_, int xsize) -{ +I_I16B(UINT8 *out, const UINT8 *in_, int xsize) { int x, v; for (x = 0; x < xsize; x++, in_ += 4) { INT32 i; memcpy(&i, in_, sizeof(i)); v = CLIP16(i); - *out++ = (UINT8) (v >> 8); - *out++ = (UINT8) v; + *out++ = (UINT8)(v >> 8); + *out++ = (UINT8)v; } } - static void -I16L_I(UINT8* out_, const UINT8* in, int xsize) -{ +I16L_I(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2, out_ += 4) { - INT32 v = in[0] + ((int) in[1] << 8); + INT32 v = in[0] + ((int)in[1] << 8); memcpy(out_, &v, sizeof(v)); } } - static void -I16B_I(UINT8* out_, const UINT8* in, int xsize) -{ +I16B_I(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2, out_ += 4) { - INT32 v = in[1] + ((int) in[0] << 8); + INT32 v = in[1] + ((int)in[0] << 8); memcpy(out_, &v, sizeof(v)); } } static void -I16L_F(UINT8* out_, const UINT8* in, int xsize) -{ +I16L_F(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2, out_ += 4) { - FLOAT32 v = in[0] + ((int) in[1] << 8); + FLOAT32 v = in[0] + ((int)in[1] << 8); memcpy(out_, &v, sizeof(v)); } } - static void -I16B_F(UINT8* out_, const UINT8* in, int xsize) -{ +I16B_F(UINT8 *out_, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2, out_ += 4) { - FLOAT32 v = in[1] + ((int) in[0] << 8); + FLOAT32 v = in[1] + ((int)in[0] << 8); memcpy(out_, &v, sizeof(v)); } } static void -L_I16L(UINT8* out, const UINT8* in, int xsize) -{ +L_I16L(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in++) { *out++ = *in; @@ -903,8 +834,7 @@ L_I16L(UINT8* out, const UINT8* in, int xsize) } static void -L_I16B(UINT8* out, const UINT8* in, int xsize) -{ +L_I16B(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in++) { *out++ = 0; @@ -913,8 +843,7 @@ L_I16B(UINT8* out, const UINT8* in, int xsize) } static void -I16L_L(UINT8* out, const UINT8* in, int xsize) -{ +I16L_L(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2) { if (in[1] != 0) { @@ -926,8 +855,7 @@ I16L_L(UINT8* out, const UINT8* in, int xsize) } static void -I16B_L(UINT8* out, const UINT8* in, int xsize) -{ +I16B_L(UINT8 *out, const UINT8 *in, int xsize) { int x; for (x = 0; x < xsize; x++, in += 2) { if (in[0] != 0) { @@ -939,123 +867,122 @@ I16B_L(UINT8* out, const UINT8* in, int xsize) } static struct { - const char* from; - const char* to; + const char *from; + const char *to; ImagingShuffler convert; } converters[] = { - { "1", "L", bit2l }, - { "1", "I", bit2i }, - { "1", "F", bit2f }, - { "1", "RGB", bit2rgb }, - { "1", "RGBA", bit2rgb }, - { "1", "RGBX", bit2rgb }, - { "1", "CMYK", bit2cmyk }, - { "1", "YCbCr", bit2ycbcr }, - { "1", "HSV", bit2hsv }, - - { "L", "1", l2bit }, - { "L", "LA", l2la }, - { "L", "I", l2i }, - { "L", "F", l2f }, - { "L", "RGB", l2rgb }, - { "L", "RGBA", l2rgb }, - { "L", "RGBX", l2rgb }, - { "L", "CMYK", l2cmyk }, - { "L", "YCbCr", l2ycbcr }, - { "L", "HSV", l2hsv }, - - { "LA", "L", la2l }, - { "LA", "La", lA2la }, - { "LA", "RGB", la2rgb }, - { "LA", "RGBA", la2rgb }, - { "LA", "RGBX", la2rgb }, - { "LA", "CMYK", la2cmyk }, - { "LA", "YCbCr", la2ycbcr }, - { "LA", "HSV", la2hsv }, - - { "La", "LA", la2lA }, - - { "I", "L", i2l }, - { "I", "F", i2f }, - { "I", "RGB", i2rgb }, - { "I", "RGBA", i2rgb }, - { "I", "RGBX", i2rgb }, - { "I", "HSV", i2hsv }, - - { "F", "L", f2l }, - { "F", "I", f2i }, - - { "RGB", "1", rgb2bit }, - { "RGB", "L", rgb2l }, - { "RGB", "LA", rgb2la }, - { "RGB", "I", rgb2i }, - { "RGB", "F", rgb2f }, - { "RGB", "BGR;15", rgb2bgr15 }, - { "RGB", "BGR;16", rgb2bgr16 }, - { "RGB", "BGR;24", rgb2bgr24 }, - { "RGB", "RGBA", rgb2rgba }, - { "RGB", "RGBX", rgb2rgba }, - { "RGB", "CMYK", rgb2cmyk }, - { "RGB", "YCbCr", ImagingConvertRGB2YCbCr }, - { "RGB", "HSV", rgb2hsv }, - - { "RGBA", "1", rgb2bit }, - { "RGBA", "L", rgb2l }, - { "RGBA", "LA", rgba2la }, - { "RGBA", "I", rgb2i }, - { "RGBA", "F", rgb2f }, - { "RGBA", "RGB", rgba2rgb }, - { "RGBA", "RGBa", rgbA2rgba }, - { "RGBA", "RGBX", rgb2rgba }, - { "RGBA", "CMYK", rgb2cmyk }, - { "RGBA", "YCbCr", ImagingConvertRGB2YCbCr }, - { "RGBA", "HSV", rgb2hsv }, - - { "RGBa", "RGBA", rgba2rgbA }, - - { "RGBX", "1", rgb2bit }, - { "RGBX", "L", rgb2l }, - { "RGBX", "LA", rgb2la }, - { "RGBX", "I", rgb2i }, - { "RGBX", "F", rgb2f }, - { "RGBX", "RGB", rgba2rgb }, - { "RGBX", "CMYK", rgb2cmyk }, - { "RGBX", "YCbCr", ImagingConvertRGB2YCbCr }, - { "RGBX", "HSV", rgb2hsv }, - - { "CMYK", "RGB", cmyk2rgb }, - { "CMYK", "RGBA", cmyk2rgb }, - { "CMYK", "RGBX", cmyk2rgb }, - { "CMYK", "HSV", cmyk2hsv }, - - { "YCbCr", "L", ycbcr2l }, - { "YCbCr", "LA", ycbcr2la }, - { "YCbCr", "RGB", ImagingConvertYCbCr2RGB }, - - { "HSV", "RGB", hsv2rgb }, - - { "I", "I;16", I_I16L }, - { "I;16", "I", I16L_I }, - { "L", "I;16", L_I16L }, - { "I;16", "L", I16L_L }, - - { "I", "I;16L", I_I16L }, - { "I;16L", "I", I16L_I }, - { "I", "I;16B", I_I16B }, - { "I;16B", "I", I16B_I }, - - { "L", "I;16L", L_I16L }, - { "I;16L", "L", I16L_L }, - { "L", "I;16B", L_I16B }, - { "I;16B", "L", I16B_L }, - - { "I;16", "F", I16L_F }, - { "I;16L", "F", I16L_F }, - { "I;16B", "F", I16B_F }, - - { NULL } -}; + {"1", "L", bit2l}, + {"1", "I", bit2i}, + {"1", "F", bit2f}, + {"1", "RGB", bit2rgb}, + {"1", "RGBA", bit2rgb}, + {"1", "RGBX", bit2rgb}, + {"1", "CMYK", bit2cmyk}, + {"1", "YCbCr", bit2ycbcr}, + {"1", "HSV", bit2hsv}, + + {"L", "1", l2bit}, + {"L", "LA", l2la}, + {"L", "I", l2i}, + {"L", "F", l2f}, + {"L", "RGB", l2rgb}, + {"L", "RGBA", l2rgb}, + {"L", "RGBX", l2rgb}, + {"L", "CMYK", l2cmyk}, + {"L", "YCbCr", l2ycbcr}, + {"L", "HSV", l2hsv}, + + {"LA", "L", la2l}, + {"LA", "La", lA2la}, + {"LA", "RGB", la2rgb}, + {"LA", "RGBA", la2rgb}, + {"LA", "RGBX", la2rgb}, + {"LA", "CMYK", la2cmyk}, + {"LA", "YCbCr", la2ycbcr}, + {"LA", "HSV", la2hsv}, + + {"La", "LA", la2lA}, + + {"I", "L", i2l}, + {"I", "F", i2f}, + {"I", "RGB", i2rgb}, + {"I", "RGBA", i2rgb}, + {"I", "RGBX", i2rgb}, + {"I", "HSV", i2hsv}, + + {"F", "L", f2l}, + {"F", "I", f2i}, + + {"RGB", "1", rgb2bit}, + {"RGB", "L", rgb2l}, + {"RGB", "LA", rgb2la}, + {"RGB", "I", rgb2i}, + {"RGB", "F", rgb2f}, + {"RGB", "BGR;15", rgb2bgr15}, + {"RGB", "BGR;16", rgb2bgr16}, + {"RGB", "BGR;24", rgb2bgr24}, + {"RGB", "RGBA", rgb2rgba}, + {"RGB", "RGBX", rgb2rgba}, + {"RGB", "CMYK", rgb2cmyk}, + {"RGB", "YCbCr", ImagingConvertRGB2YCbCr}, + {"RGB", "HSV", rgb2hsv}, + + {"RGBA", "1", rgb2bit}, + {"RGBA", "L", rgb2l}, + {"RGBA", "LA", rgba2la}, + {"RGBA", "I", rgb2i}, + {"RGBA", "F", rgb2f}, + {"RGBA", "RGB", rgba2rgb}, + {"RGBA", "RGBa", rgbA2rgba}, + {"RGBA", "RGBX", rgb2rgba}, + {"RGBA", "CMYK", rgb2cmyk}, + {"RGBA", "YCbCr", ImagingConvertRGB2YCbCr}, + {"RGBA", "HSV", rgb2hsv}, + + {"RGBa", "RGBA", rgba2rgbA}, + + {"RGBX", "1", rgb2bit}, + {"RGBX", "L", rgb2l}, + {"RGBX", "LA", rgb2la}, + {"RGBX", "I", rgb2i}, + {"RGBX", "F", rgb2f}, + {"RGBX", "RGB", rgba2rgb}, + {"RGBX", "CMYK", rgb2cmyk}, + {"RGBX", "YCbCr", ImagingConvertRGB2YCbCr}, + {"RGBX", "HSV", rgb2hsv}, + + {"CMYK", "RGB", cmyk2rgb}, + {"CMYK", "RGBA", cmyk2rgb}, + {"CMYK", "RGBX", cmyk2rgb}, + {"CMYK", "HSV", cmyk2hsv}, + + {"YCbCr", "L", ycbcr2l}, + {"YCbCr", "LA", ycbcr2la}, + {"YCbCr", "RGB", ImagingConvertYCbCr2RGB}, + + {"HSV", "RGB", hsv2rgb}, + + {"I", "I;16", I_I16L}, + {"I;16", "I", I16L_I}, + {"L", "I;16", L_I16L}, + {"I;16", "L", I16L_L}, + + {"I", "I;16L", I_I16L}, + {"I;16L", "I", I16L_I}, + {"I", "I;16B", I_I16B}, + {"I;16B", "I", I16B_I}, + + {"L", "I;16L", L_I16L}, + {"I;16L", "L", I16L_L}, + {"L", "I;16B", L_I16B}, + {"I;16B", "L", I16B_L}, + + {"I;16", "F", I16L_F}, + {"I;16L", "F", I16L_F}, + {"I;16B", "F", I16B_F}, + + {NULL}}; /* FIXME: translate indexed versions to pointer versions below this line */ @@ -1064,51 +991,46 @@ static struct { /* ------------------- */ static void -p2bit(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2bit(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ for (x = 0; x < xsize; x++) { - *out++ = (L(&palette[in[x]*4]) >= 128000) ? 255 : 0; + *out++ = (L(&palette[in[x] * 4]) >= 128000) ? 255 : 0; } } static void -pa2bit(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2bit(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ for (x = 0; x < xsize; x++, in += 4) { - *out++ = (L(&palette[in[0]*4]) >= 128000) ? 255 : 0; + *out++ = (L(&palette[in[0] * 4]) >= 128000) ? 255 : 0; } } static void -p2l(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2l(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ for (x = 0; x < xsize; x++) { - *out++ = L(&palette[in[x]*4]) / 1000; + *out++ = L(&palette[in[x] * 4]) / 1000; } } static void -pa2l(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2l(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ for (x = 0; x < xsize; x++, in += 4) { - *out++ = L(&palette[in[0]*4]) / 1000; + *out++ = L(&palette[in[0] * 4]) / 1000; } } static void -p2pa(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2pa(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, in++) { - const UINT8* rgba = &palette[in[0]]; + const UINT8 *rgba = &palette[in[0]]; *out++ = in[0]; *out++ = in[0]; *out++ = in[0]; @@ -1117,74 +1039,67 @@ p2pa(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) } static void -p2la(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2la(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ - for (x = 0; x < xsize; x++, out+=4) { - const UINT8* rgba = &palette[*in++ * 4]; + for (x = 0; x < xsize; x++, out += 4) { + const UINT8 *rgba = &palette[*in++ * 4]; out[0] = out[1] = out[2] = L(rgba) / 1000; out[3] = rgba[3]; } } static void -pa2la(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2la(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; /* FIXME: precalculate greyscale palette? */ for (x = 0; x < xsize; x++, in += 4, out += 4) { - out[0] = out[1] = out[2] = L(&palette[in[0]*4]) / 1000; + out[0] = out[1] = out[2] = L(&palette[in[0] * 4]) / 1000; out[3] = in[3]; } } static void -p2i(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette) -{ +p2i(UINT8 *out_, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, out_ += 4) { - INT32 v = L(&palette[in[x]*4]) / 1000; + INT32 v = L(&palette[in[x] * 4]) / 1000; memcpy(out_, &v, sizeof(v)); } } static void -pa2i(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2i(UINT8 *out_, const UINT8 *in, int xsize, const UINT8 *palette) { int x; - INT32* out = (INT32*) out_; + INT32 *out = (INT32 *)out_; for (x = 0; x < xsize; x++, in += 4) { - *out++ = L(&palette[in[0]*4]) / 1000; + *out++ = L(&palette[in[0] * 4]) / 1000; } } static void -p2f(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette) -{ +p2f(UINT8 *out_, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, out_ += 4) { - FLOAT32 v = L(&palette[in[x]*4]) / 1000.0F; + FLOAT32 v = L(&palette[in[x] * 4]) / 1000.0F; memcpy(out_, &v, sizeof(v)); } } static void -pa2f(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2f(UINT8 *out_, const UINT8 *in, int xsize, const UINT8 *palette) { int x; - FLOAT32* out = (FLOAT32*) out_; + FLOAT32 *out = (FLOAT32 *)out_; for (x = 0; x < xsize; x++, in += 4) { - *out++ = (float) L(&palette[in[0]*4]) / 1000.0F; + *out++ = (float)L(&palette[in[0] * 4]) / 1000.0F; } } static void -p2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2rgb(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++) { - const UINT8* rgb = &palette[*in++ * 4]; + const UINT8 *rgb = &palette[*in++ * 4]; *out++ = rgb[0]; *out++ = rgb[1]; *out++ = rgb[2]; @@ -1193,11 +1108,10 @@ p2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) } static void -pa2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2rgb(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, in += 4) { - const UINT8* rgb = &palette[in[0] * 4]; + const UINT8 *rgb = &palette[in[0] * 4]; *out++ = rgb[0]; *out++ = rgb[1]; *out++ = rgb[2]; @@ -1206,33 +1120,30 @@ pa2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) } static void -p2hsv(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2hsv(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, out += 4) { - const UINT8* rgb = &palette[*in++ * 4]; + const UINT8 *rgb = &palette[*in++ * 4]; rgb2hsv_row(out, rgb); out[3] = 255; } } static void -pa2hsv(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2hsv(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, in += 4, out += 4) { - const UINT8* rgb = &palette[in[0] * 4]; + const UINT8 *rgb = &palette[in[0] * 4]; rgb2hsv_row(out, rgb); out[3] = 255; } } static void -p2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2rgba(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++) { - const UINT8* rgba = &palette[*in++ * 4]; + const UINT8 *rgba = &palette[*in++ * 4]; *out++ = rgba[0]; *out++ = rgba[1]; *out++ = rgba[2]; @@ -1241,11 +1152,10 @@ p2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) } static void -pa2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2rgba(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { int x; for (x = 0; x < xsize; x++, in += 4) { - const UINT8* rgb = &palette[in[0] * 4]; + const UINT8 *rgb = &palette[in[0] * 4]; *out++ = rgb[0]; *out++ = rgb[1]; *out++ = rgb[2]; @@ -1254,45 +1164,40 @@ pa2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) } static void -p2cmyk(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2cmyk(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { p2rgb(out, in, xsize, palette); rgb2cmyk(out, out, xsize); } static void -pa2cmyk(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2cmyk(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { pa2rgb(out, in, xsize, palette); rgb2cmyk(out, out, xsize); } static void -p2ycbcr(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +p2ycbcr(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { p2rgb(out, in, xsize, palette); ImagingConvertRGB2YCbCr(out, out, xsize); } static void -pa2ycbcr(UINT8* out, const UINT8* in, int xsize, const UINT8* palette) -{ +pa2ycbcr(UINT8 *out, const UINT8 *in, int xsize, const UINT8 *palette) { pa2rgb(out, in, xsize, palette); ImagingConvertRGB2YCbCr(out, out, xsize); } static Imaging -frompalette(Imaging imOut, Imaging imIn, const char *mode) -{ +frompalette(Imaging imOut, Imaging imIn, const char *mode) { ImagingSectionCookie cookie; int alpha; int y; - void (*convert)(UINT8*, const UINT8*, int, const UINT8*); + void (*convert)(UINT8 *, const UINT8 *, int, const UINT8 *); /* Map palette image to L, RGB, RGBA, or CMYK */ if (!imIn->palette) { - return (Imaging) ImagingError_ValueError("no palette"); + return (Imaging)ImagingError_ValueError("no palette"); } alpha = !strcmp(imIn->mode, "PA"); @@ -1322,7 +1227,7 @@ frompalette(Imaging imOut, Imaging imIn, const char *mode) } else if (strcmp(mode, "HSV") == 0) { convert = alpha ? pa2hsv : p2hsv; } else { - return (Imaging) ImagingError_ValueError("conversion not supported"); + return (Imaging)ImagingError_ValueError("conversion not supported"); } imOut = ImagingNew2Dirty(mode, imOut, imIn); @@ -1332,8 +1237,11 @@ frompalette(Imaging imOut, Imaging imIn, const char *mode) ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - (*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y], - imIn->xsize, imIn->palette->palette); + (*convert)( + (UINT8 *)imOut->image[y], + (UINT8 *)imIn->image[y], + imIn->xsize, + imIn->palette->palette); } ImagingSectionLeave(&cookie); @@ -1344,39 +1252,44 @@ frompalette(Imaging imOut, Imaging imIn, const char *mode) #pragma optimize("", off) #endif static Imaging -topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalette, int dither) -{ +topalette( + Imaging imOut, + Imaging imIn, + const char *mode, + ImagingPalette inpalette, + int dither) { ImagingSectionCookie cookie; int alpha; int x, y; - ImagingPalette palette = inpalette;; + ImagingPalette palette = inpalette; + ; /* Map L or RGB/RGBX/RGBA to palette image */ if (strcmp(imIn->mode, "L") != 0 && strncmp(imIn->mode, "RGB", 3) != 0) { - return (Imaging) ImagingError_ValueError("conversion not supported"); + return (Imaging)ImagingError_ValueError("conversion not supported"); } alpha = !strcmp(mode, "PA"); if (palette == NULL) { - /* FIXME: make user configurable */ - if (imIn->bands == 1) { - palette = ImagingPaletteNew("RGB"); /* Initialised to grey ramp */ - } else { - palette = ImagingPaletteNewBrowser(); /* Standard colour cube */ - } + /* FIXME: make user configurable */ + if (imIn->bands == 1) { + palette = ImagingPaletteNew("RGB"); /* Initialised to grey ramp */ + } else { + palette = ImagingPaletteNewBrowser(); /* Standard colour cube */ + } } if (!palette) { - return (Imaging) ImagingError_ValueError("no palette"); + return (Imaging)ImagingError_ValueError("no palette"); } imOut = ImagingNew2Dirty(mode, imOut, imIn); if (!imOut) { - if (palette != inpalette) { - ImagingPaletteDelete(palette); - } - return NULL; + if (palette != inpalette) { + ImagingPaletteDelete(palette); + } + return NULL; } ImagingPaletteDelete(imOut->palette); @@ -1389,7 +1302,7 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { if (alpha) { - l2la((UINT8*) imOut->image[y], (UINT8*) imIn->image[y], imIn->xsize); + l2la((UINT8 *)imOut->image[y], (UINT8 *)imIn->image[y], imIn->xsize); } else { memcpy(imOut->image[y], imIn->image[y], imIn->linesize); } @@ -1403,7 +1316,7 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett if (ImagingPaletteCachePrepare(palette) < 0) { ImagingDelete(imOut); if (palette != inpalette) { - ImagingPaletteDelete(palette); + ImagingPaletteDelete(palette); } return NULL; } @@ -1411,7 +1324,7 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett if (dither) { /* floyd-steinberg dither */ - int* errors; + int *errors; errors = calloc(imIn->xsize + 1, sizeof(int) * 3); if (!errors) { ImagingDelete(imOut); @@ -1424,9 +1337,9 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett int r, r0, r1, r2; int g, g0, g1, g2; int b, b0, b1, b2; - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = alpha ? (UINT8*) imOut->image32[y] : imOut->image8[y]; - int* e = errors; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = alpha ? (UINT8 *)imOut->image32[y] : imOut->image8[y]; + int *e = errors; r = r0 = r1 = 0; g = g0 = g1 = 0; @@ -1434,11 +1347,11 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett for (x = 0; x < imIn->xsize; x++, in += 4) { int d2; - INT16* cache; + INT16 *cache; - r = CLIP8(in[0] + (r + e[3+0])/16); - g = CLIP8(in[1] + (g + e[3+1])/16); - b = CLIP8(in[2] + (b + e[3+2])/16); + r = CLIP8(in[0] + (r + e[3 + 0]) / 16); + g = CLIP8(in[1] + (g + e[3 + 1]) / 16); + b = CLIP8(in[2] + (b + e[3 + 2]) / 16); /* get closest colour */ cache = &ImagingPaletteCache(palette, r, g, b); @@ -1446,49 +1359,66 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett ImagingPaletteCacheUpdate(palette, r, g, b); } if (alpha) { - out[x*4] = out[x*4+1] = out[x*4+2] = (UINT8) cache[0]; - out[x*4+3] = 255; + out[x * 4] = out[x * 4 + 1] = out[x * 4 + 2] = (UINT8)cache[0]; + out[x * 4 + 3] = 255; } else { - out[x] = (UINT8) cache[0]; + out[x] = (UINT8)cache[0]; } - r -= (int) palette->palette[cache[0]*4]; - g -= (int) palette->palette[cache[0]*4+1]; - b -= (int) palette->palette[cache[0]*4+2]; + r -= (int)palette->palette[cache[0] * 4]; + g -= (int)palette->palette[cache[0] * 4 + 1]; + b -= (int)palette->palette[cache[0] * 4 + 2]; /* propagate errors (don't ask ;-) */ - r2 = r; d2 = r + r; r += d2; e[0] = r + r0; - r += d2; r0 = r + r1; r1 = r2; r += d2; - g2 = g; d2 = g + g; g += d2; e[1] = g + g0; - g += d2; g0 = g + g1; g1 = g2; g += d2; - b2 = b; d2 = b + b; b += d2; e[2] = b + b0; - b += d2; b0 = b + b1; b1 = b2; b += d2; + r2 = r; + d2 = r + r; + r += d2; + e[0] = r + r0; + r += d2; + r0 = r + r1; + r1 = r2; + r += d2; + g2 = g; + d2 = g + g; + g += d2; + e[1] = g + g0; + g += d2; + g0 = g + g1; + g1 = g2; + g += d2; + b2 = b; + d2 = b + b; + b += d2; + e[2] = b + b0; + b += d2; + b0 = b + b1; + b1 = b2; + b += d2; e += 3; - } e[0] = b0; e[1] = b1; e[2] = b2; - } ImagingSectionLeave(&cookie); free(errors); } else { - /* closest colour */ ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { int r, g, b; - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = alpha ? (UINT8*) imOut->image32[y] : imOut->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = alpha ? (UINT8 *)imOut->image32[y] : imOut->image8[y]; for (x = 0; x < imIn->xsize; x++, in += 4) { - INT16* cache; + INT16 *cache; - r = in[0]; g = in[1]; b = in[2]; + r = in[0]; + g = in[1]; + b = in[2]; /* get closest colour */ cache = &ImagingPaletteCache(palette, r, g, b); @@ -1496,38 +1426,36 @@ topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalett ImagingPaletteCacheUpdate(palette, r, g, b); } if (alpha) { - out[x*4] = out[x*4+1] = out[x*4+2] = (UINT8) cache[0]; - out[x*4+3] = 255; + out[x * 4] = out[x * 4 + 1] = out[x * 4 + 2] = (UINT8)cache[0]; + out[x * 4 + 3] = 255; } else { - out[x] = (UINT8) cache[0]; + out[x] = (UINT8)cache[0]; } } } ImagingSectionLeave(&cookie); - } if (inpalette != palette) { - ImagingPaletteCacheDelete(palette); + ImagingPaletteCacheDelete(palette); } } if (inpalette != palette) { - ImagingPaletteDelete(palette); + ImagingPaletteDelete(palette); } return imOut; } static Imaging -tobilevel(Imaging imOut, Imaging imIn, int dither) -{ +tobilevel(Imaging imOut, Imaging imIn, int dither) { ImagingSectionCookie cookie; int x, y; - int* errors; + int *errors; /* Map L or RGB to dithered 1 image */ if (strcmp(imIn->mode, "L") != 0 && strcmp(imIn->mode, "RGB") != 0) { - return (Imaging) ImagingError_ValueError("conversion not supported"); + return (Imaging)ImagingError_ValueError("conversion not supported"); } imOut = ImagingNew2Dirty("1", imOut, imIn); @@ -1542,59 +1470,64 @@ tobilevel(Imaging imOut, Imaging imIn, int dither) } if (imIn->bands == 1) { - /* map each pixel to black or white, using error diffusion */ ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { int l, l0, l1, l2, d2; - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = imOut->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = imOut->image8[y]; l = l0 = l1 = 0; for (x = 0; x < imIn->xsize; x++) { - /* pick closest colour */ - l = CLIP8(in[x] + (l + errors[x+1])/16); + l = CLIP8(in[x] + (l + errors[x + 1]) / 16); out[x] = (l > 128) ? 255 : 0; /* propagate errors */ - l -= (int) out[x]; - l2 = l; d2 = l + l; l += d2; errors[x] = l + l0; - l += d2; l0 = l + l1; l1 = l2; l += d2; + l -= (int)out[x]; + l2 = l; + d2 = l + l; + l += d2; + errors[x] = l + l0; + l += d2; + l0 = l + l1; + l1 = l2; + l += d2; } errors[x] = l0; - } ImagingSectionLeave(&cookie); } else { - /* map each pixel to black or white, using error diffusion */ ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { int l, l0, l1, l2, d2; - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = imOut->image8[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = imOut->image8[y]; l = l0 = l1 = 0; for (x = 0; x < imIn->xsize; x++, in += 4) { - /* pick closest colour */ - l = CLIP8(L(in)/1000 + (l + errors[x+1])/16); + l = CLIP8(L(in) / 1000 + (l + errors[x + 1]) / 16); out[x] = (l > 128) ? 255 : 0; /* propagate errors */ - l -= (int) out[x]; - l2 = l; d2 = l + l; l += d2; errors[x] = l + l0; - l += d2; l0 = l + l1; l1 = l2; l += d2; - + l -= (int)out[x]; + l2 = l; + d2 = l + l; + l += d2; + errors[x] = l + l0; + l += d2; + l0 = l + l1; + l1 = l2; + l += d2; } errors[x] = l0; - } ImagingSectionLeave(&cookie); } @@ -1608,21 +1541,20 @@ tobilevel(Imaging imOut, Imaging imIn, int dither) #endif static Imaging -convert(Imaging imOut, Imaging imIn, const char *mode, - ImagingPalette palette, int dither) -{ +convert( + Imaging imOut, Imaging imIn, const char *mode, ImagingPalette palette, int dither) { ImagingSectionCookie cookie; ImagingShuffler convert; int y; if (!imIn) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (!mode) { /* Map palette image to full depth */ if (!imIn->palette) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } mode = imIn->palette->mode; } else { @@ -1632,7 +1564,6 @@ convert(Imaging imOut, Imaging imIn, const char *mode, } } - /* test for special conversions */ if (strcmp(imIn->mode, "P") == 0 || strcmp(imIn->mode, "PA") == 0) { @@ -1647,7 +1578,6 @@ convert(Imaging imOut, Imaging imIn, const char *mode, return tobilevel(imOut, imIn, dither); } - /* standard conversion machinery */ convert = NULL; @@ -1662,12 +1592,12 @@ convert(Imaging imOut, Imaging imIn, const char *mode, if (!convert) { #ifdef notdef - return (Imaging) ImagingError_ValueError("conversion not supported"); + return (Imaging)ImagingError_ValueError("conversion not supported"); #else static char buf[256]; /* FIXME: may overflow if mode is too large */ sprintf(buf, "conversion from %s to %s not supported", imIn->mode, mode); - return (Imaging) ImagingError_ValueError(buf); + return (Imaging)ImagingError_ValueError(buf); #endif } @@ -1678,8 +1608,7 @@ convert(Imaging imOut, Imaging imIn, const char *mode, ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - (*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y], - imIn->xsize); + (*convert)((UINT8 *)imOut->image[y], (UINT8 *)imIn->image[y], imIn->xsize); } ImagingSectionLeave(&cookie); @@ -1687,47 +1616,43 @@ convert(Imaging imOut, Imaging imIn, const char *mode, } Imaging -ImagingConvert(Imaging imIn, const char *mode, - ImagingPalette palette, int dither) -{ +ImagingConvert(Imaging imIn, const char *mode, ImagingPalette palette, int dither) { return convert(NULL, imIn, mode, palette, dither); } Imaging -ImagingConvert2(Imaging imOut, Imaging imIn) -{ +ImagingConvert2(Imaging imOut, Imaging imIn) { return convert(imOut, imIn, imOut->mode, NULL, 0); } - Imaging -ImagingConvertTransparent(Imaging imIn, const char *mode, - int r, int g, int b) -{ +ImagingConvertTransparent(Imaging imIn, const char *mode, int r, int g, int b) { ImagingSectionCookie cookie; ImagingShuffler convert; Imaging imOut = NULL; int y; - if (!imIn){ - return (Imaging) ImagingError_ModeError(); + if (!imIn) { + return (Imaging)ImagingError_ModeError(); } - if (!((strcmp(imIn->mode, "RGB") == 0 || - strcmp(imIn->mode, "1") == 0 || - strcmp(imIn->mode, "I") == 0 || - strcmp(imIn->mode, "L") == 0) - && strcmp(mode, "RGBA") == 0)) + if (!((strcmp(imIn->mode, "RGB") == 0 || strcmp(imIn->mode, "1") == 0 || + strcmp(imIn->mode, "I") == 0 || strcmp(imIn->mode, "L") == 0) && + strcmp(mode, "RGBA") == 0)) #ifdef notdef { - return (Imaging) ImagingError_ValueError("conversion not supported"); + return (Imaging)ImagingError_ValueError("conversion not supported"); } #else { - static char buf[256]; - /* FIXME: may overflow if mode is too large */ - sprintf(buf, "conversion from %s to %s not supported in convert_transparent", imIn->mode, mode); - return (Imaging) ImagingError_ValueError(buf); + static char buf[256]; + /* FIXME: may overflow if mode is too large */ + sprintf( + buf, + "conversion from %s to %s not supported in convert_transparent", + imIn->mode, + mode); + return (Imaging)ImagingError_ValueError(buf); } #endif @@ -1745,25 +1670,22 @@ ImagingConvertTransparent(Imaging imIn, const char *mode, } imOut = ImagingNew2Dirty(mode, imOut, imIn); - if (!imOut){ + if (!imOut) { return NULL; } ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - (*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y], - imIn->xsize); - rgbT2rgba((UINT8*) imOut->image[y], imIn->xsize, r, g, b); + (*convert)((UINT8 *)imOut->image[y], (UINT8 *)imIn->image[y], imIn->xsize); + rgbT2rgba((UINT8 *)imOut->image[y], imIn->xsize, r, g, b); } ImagingSectionLeave(&cookie); return imOut; - } Imaging -ImagingConvertInPlace(Imaging imIn, const char* mode) -{ +ImagingConvertInPlace(Imaging imIn, const char *mode) { ImagingSectionCookie cookie; ImagingShuffler convert; int y; @@ -1779,8 +1701,7 @@ ImagingConvertInPlace(Imaging imIn, const char* mode) ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - (*convert)((UINT8*) imIn->image[y], (UINT8*) imIn->image[y], - imIn->xsize); + (*convert)((UINT8 *)imIn->image[y], (UINT8 *)imIn->image[y], imIn->xsize); } ImagingSectionLeave(&cookie); diff --git a/src/libImaging/ConvertYCbCr.c b/src/libImaging/ConvertYCbCr.c index 47de4ff7112..142f065e57d 100644 --- a/src/libImaging/ConvertYCbCr.c +++ b/src/libImaging/ConvertYCbCr.c @@ -28,356 +28,332 @@ #define SCALE 6 /* bits */ -static INT16 Y_R[] = { 0, 19, 38, 57, 77, 96, 115, 134, 153, 172, 191, -210, 230, 249, 268, 287, 306, 325, 344, 364, 383, 402, 421, 440, 459, -478, 498, 517, 536, 555, 574, 593, 612, 631, 651, 670, 689, 708, 727, -746, 765, 785, 804, 823, 842, 861, 880, 899, 919, 938, 957, 976, 995, -1014, 1033, 1052, 1072, 1091, 1110, 1129, 1148, 1167, 1186, 1206, -1225, 1244, 1263, 1282, 1301, 1320, 1340, 1359, 1378, 1397, 1416, -1435, 1454, 1473, 1493, 1512, 1531, 1550, 1569, 1588, 1607, 1627, -1646, 1665, 1684, 1703, 1722, 1741, 1761, 1780, 1799, 1818, 1837, -1856, 1875, 1894, 1914, 1933, 1952, 1971, 1990, 2009, 2028, 2048, -2067, 2086, 2105, 2124, 2143, 2162, 2182, 2201, 2220, 2239, 2258, -2277, 2296, 2315, 2335, 2354, 2373, 2392, 2411, 2430, 2449, 2469, -2488, 2507, 2526, 2545, 2564, 2583, 2602, 2622, 2641, 2660, 2679, -2698, 2717, 2736, 2756, 2775, 2794, 2813, 2832, 2851, 2870, 2890, -2909, 2928, 2947, 2966, 2985, 3004, 3023, 3043, 3062, 3081, 3100, -3119, 3138, 3157, 3177, 3196, 3215, 3234, 3253, 3272, 3291, 3311, -3330, 3349, 3368, 3387, 3406, 3425, 3444, 3464, 3483, 3502, 3521, -3540, 3559, 3578, 3598, 3617, 3636, 3655, 3674, 3693, 3712, 3732, -3751, 3770, 3789, 3808, 3827, 3846, 3865, 3885, 3904, 3923, 3942, -3961, 3980, 3999, 4019, 4038, 4057, 4076, 4095, 4114, 4133, 4153, -4172, 4191, 4210, 4229, 4248, 4267, 4286, 4306, 4325, 4344, 4363, -4382, 4401, 4420, 4440, 4459, 4478, 4497, 4516, 4535, 4554, 4574, -4593, 4612, 4631, 4650, 4669, 4688, 4707, 4727, 4746, 4765, 4784, -4803, 4822, 4841, 4861, 4880 }; +static INT16 Y_R[] = { + 0, 19, 38, 57, 77, 96, 115, 134, 153, 172, 191, 210, 230, 249, + 268, 287, 306, 325, 344, 364, 383, 402, 421, 440, 459, 478, 498, 517, + 536, 555, 574, 593, 612, 631, 651, 670, 689, 708, 727, 746, 765, 785, + 804, 823, 842, 861, 880, 899, 919, 938, 957, 976, 995, 1014, 1033, 1052, + 1072, 1091, 1110, 1129, 1148, 1167, 1186, 1206, 1225, 1244, 1263, 1282, 1301, 1320, + 1340, 1359, 1378, 1397, 1416, 1435, 1454, 1473, 1493, 1512, 1531, 1550, 1569, 1588, + 1607, 1627, 1646, 1665, 1684, 1703, 1722, 1741, 1761, 1780, 1799, 1818, 1837, 1856, + 1875, 1894, 1914, 1933, 1952, 1971, 1990, 2009, 2028, 2048, 2067, 2086, 2105, 2124, + 2143, 2162, 2182, 2201, 2220, 2239, 2258, 2277, 2296, 2315, 2335, 2354, 2373, 2392, + 2411, 2430, 2449, 2469, 2488, 2507, 2526, 2545, 2564, 2583, 2602, 2622, 2641, 2660, + 2679, 2698, 2717, 2736, 2756, 2775, 2794, 2813, 2832, 2851, 2870, 2890, 2909, 2928, + 2947, 2966, 2985, 3004, 3023, 3043, 3062, 3081, 3100, 3119, 3138, 3157, 3177, 3196, + 3215, 3234, 3253, 3272, 3291, 3311, 3330, 3349, 3368, 3387, 3406, 3425, 3444, 3464, + 3483, 3502, 3521, 3540, 3559, 3578, 3598, 3617, 3636, 3655, 3674, 3693, 3712, 3732, + 3751, 3770, 3789, 3808, 3827, 3846, 3865, 3885, 3904, 3923, 3942, 3961, 3980, 3999, + 4019, 4038, 4057, 4076, 4095, 4114, 4133, 4153, 4172, 4191, 4210, 4229, 4248, 4267, + 4286, 4306, 4325, 4344, 4363, 4382, 4401, 4420, 4440, 4459, 4478, 4497, 4516, 4535, + 4554, 4574, 4593, 4612, 4631, 4650, 4669, 4688, 4707, 4727, 4746, 4765, 4784, 4803, + 4822, 4841, 4861, 4880}; -static INT16 Y_G[] = { 0, 38, 75, 113, 150, 188, 225, 263, 301, 338, -376, 413, 451, 488, 526, 564, 601, 639, 676, 714, 751, 789, 826, 864, -902, 939, 977, 1014, 1052, 1089, 1127, 1165, 1202, 1240, 1277, 1315, -1352, 1390, 1428, 1465, 1503, 1540, 1578, 1615, 1653, 1691, 1728, -1766, 1803, 1841, 1878, 1916, 1954, 1991, 2029, 2066, 2104, 2141, -2179, 2217, 2254, 2292, 2329, 2367, 2404, 2442, 2479, 2517, 2555, -2592, 2630, 2667, 2705, 2742, 2780, 2818, 2855, 2893, 2930, 2968, -3005, 3043, 3081, 3118, 3156, 3193, 3231, 3268, 3306, 3344, 3381, -3419, 3456, 3494, 3531, 3569, 3607, 3644, 3682, 3719, 3757, 3794, -3832, 3870, 3907, 3945, 3982, 4020, 4057, 4095, 4132, 4170, 4208, -4245, 4283, 4320, 4358, 4395, 4433, 4471, 4508, 4546, 4583, 4621, -4658, 4696, 4734, 4771, 4809, 4846, 4884, 4921, 4959, 4997, 5034, -5072, 5109, 5147, 5184, 5222, 5260, 5297, 5335, 5372, 5410, 5447, -5485, 5522, 5560, 5598, 5635, 5673, 5710, 5748, 5785, 5823, 5861, -5898, 5936, 5973, 6011, 6048, 6086, 6124, 6161, 6199, 6236, 6274, -6311, 6349, 6387, 6424, 6462, 6499, 6537, 6574, 6612, 6650, 6687, -6725, 6762, 6800, 6837, 6875, 6913, 6950, 6988, 7025, 7063, 7100, -7138, 7175, 7213, 7251, 7288, 7326, 7363, 7401, 7438, 7476, 7514, -7551, 7589, 7626, 7664, 7701, 7739, 7777, 7814, 7852, 7889, 7927, -7964, 8002, 8040, 8077, 8115, 8152, 8190, 8227, 8265, 8303, 8340, -8378, 8415, 8453, 8490, 8528, 8566, 8603, 8641, 8678, 8716, 8753, -8791, 8828, 8866, 8904, 8941, 8979, 9016, 9054, 9091, 9129, 9167, -9204, 9242, 9279, 9317, 9354, 9392, 9430, 9467, 9505, 9542, 9580 }; +static INT16 Y_G[] = { + 0, 38, 75, 113, 150, 188, 225, 263, 301, 338, 376, 413, 451, 488, + 526, 564, 601, 639, 676, 714, 751, 789, 826, 864, 902, 939, 977, 1014, + 1052, 1089, 1127, 1165, 1202, 1240, 1277, 1315, 1352, 1390, 1428, 1465, 1503, 1540, + 1578, 1615, 1653, 1691, 1728, 1766, 1803, 1841, 1878, 1916, 1954, 1991, 2029, 2066, + 2104, 2141, 2179, 2217, 2254, 2292, 2329, 2367, 2404, 2442, 2479, 2517, 2555, 2592, + 2630, 2667, 2705, 2742, 2780, 2818, 2855, 2893, 2930, 2968, 3005, 3043, 3081, 3118, + 3156, 3193, 3231, 3268, 3306, 3344, 3381, 3419, 3456, 3494, 3531, 3569, 3607, 3644, + 3682, 3719, 3757, 3794, 3832, 3870, 3907, 3945, 3982, 4020, 4057, 4095, 4132, 4170, + 4208, 4245, 4283, 4320, 4358, 4395, 4433, 4471, 4508, 4546, 4583, 4621, 4658, 4696, + 4734, 4771, 4809, 4846, 4884, 4921, 4959, 4997, 5034, 5072, 5109, 5147, 5184, 5222, + 5260, 5297, 5335, 5372, 5410, 5447, 5485, 5522, 5560, 5598, 5635, 5673, 5710, 5748, + 5785, 5823, 5861, 5898, 5936, 5973, 6011, 6048, 6086, 6124, 6161, 6199, 6236, 6274, + 6311, 6349, 6387, 6424, 6462, 6499, 6537, 6574, 6612, 6650, 6687, 6725, 6762, 6800, + 6837, 6875, 6913, 6950, 6988, 7025, 7063, 7100, 7138, 7175, 7213, 7251, 7288, 7326, + 7363, 7401, 7438, 7476, 7514, 7551, 7589, 7626, 7664, 7701, 7739, 7777, 7814, 7852, + 7889, 7927, 7964, 8002, 8040, 8077, 8115, 8152, 8190, 8227, 8265, 8303, 8340, 8378, + 8415, 8453, 8490, 8528, 8566, 8603, 8641, 8678, 8716, 8753, 8791, 8828, 8866, 8904, + 8941, 8979, 9016, 9054, 9091, 9129, 9167, 9204, 9242, 9279, 9317, 9354, 9392, 9430, + 9467, 9505, 9542, 9580}; -static INT16 Y_B[] = { 0, 7, 15, 22, 29, 36, 44, 51, 58, 66, 73, 80, -88, 95, 102, 109, 117, 124, 131, 139, 146, 153, 161, 168, 175, 182, -190, 197, 204, 212, 219, 226, 233, 241, 248, 255, 263, 270, 277, 285, -292, 299, 306, 314, 321, 328, 336, 343, 350, 358, 365, 372, 379, 387, -394, 401, 409, 416, 423, 430, 438, 445, 452, 460, 467, 474, 482, 489, -496, 503, 511, 518, 525, 533, 540, 547, 554, 562, 569, 576, 584, 591, -598, 606, 613, 620, 627, 635, 642, 649, 657, 664, 671, 679, 686, 693, -700, 708, 715, 722, 730, 737, 744, 751, 759, 766, 773, 781, 788, 795, -803, 810, 817, 824, 832, 839, 846, 854, 861, 868, 876, 883, 890, 897, -905, 912, 919, 927, 934, 941, 948, 956, 963, 970, 978, 985, 992, 1000, -1007, 1014, 1021, 1029, 1036, 1043, 1051, 1058, 1065, 1073, 1080, -1087, 1094, 1102, 1109, 1116, 1124, 1131, 1138, 1145, 1153, 1160, -1167, 1175, 1182, 1189, 1197, 1204, 1211, 1218, 1226, 1233, 1240, -1248, 1255, 1262, 1270, 1277, 1284, 1291, 1299, 1306, 1313, 1321, -1328, 1335, 1342, 1350, 1357, 1364, 1372, 1379, 1386, 1394, 1401, -1408, 1415, 1423, 1430, 1437, 1445, 1452, 1459, 1466, 1474, 1481, -1488, 1496, 1503, 1510, 1518, 1525, 1532, 1539, 1547, 1554, 1561, -1569, 1576, 1583, 1591, 1598, 1605, 1612, 1620, 1627, 1634, 1642, -1649, 1656, 1663, 1671, 1678, 1685, 1693, 1700, 1707, 1715, 1722, -1729, 1736, 1744, 1751, 1758, 1766, 1773, 1780, 1788, 1795, 1802, -1809, 1817, 1824, 1831, 1839, 1846, 1853, 1860 }; +static INT16 Y_B[] = { + 0, 7, 15, 22, 29, 36, 44, 51, 58, 66, 73, 80, 88, 95, + 102, 109, 117, 124, 131, 139, 146, 153, 161, 168, 175, 182, 190, 197, + 204, 212, 219, 226, 233, 241, 248, 255, 263, 270, 277, 285, 292, 299, + 306, 314, 321, 328, 336, 343, 350, 358, 365, 372, 379, 387, 394, 401, + 409, 416, 423, 430, 438, 445, 452, 460, 467, 474, 482, 489, 496, 503, + 511, 518, 525, 533, 540, 547, 554, 562, 569, 576, 584, 591, 598, 606, + 613, 620, 627, 635, 642, 649, 657, 664, 671, 679, 686, 693, 700, 708, + 715, 722, 730, 737, 744, 751, 759, 766, 773, 781, 788, 795, 803, 810, + 817, 824, 832, 839, 846, 854, 861, 868, 876, 883, 890, 897, 905, 912, + 919, 927, 934, 941, 948, 956, 963, 970, 978, 985, 992, 1000, 1007, 1014, + 1021, 1029, 1036, 1043, 1051, 1058, 1065, 1073, 1080, 1087, 1094, 1102, 1109, 1116, + 1124, 1131, 1138, 1145, 1153, 1160, 1167, 1175, 1182, 1189, 1197, 1204, 1211, 1218, + 1226, 1233, 1240, 1248, 1255, 1262, 1270, 1277, 1284, 1291, 1299, 1306, 1313, 1321, + 1328, 1335, 1342, 1350, 1357, 1364, 1372, 1379, 1386, 1394, 1401, 1408, 1415, 1423, + 1430, 1437, 1445, 1452, 1459, 1466, 1474, 1481, 1488, 1496, 1503, 1510, 1518, 1525, + 1532, 1539, 1547, 1554, 1561, 1569, 1576, 1583, 1591, 1598, 1605, 1612, 1620, 1627, + 1634, 1642, 1649, 1656, 1663, 1671, 1678, 1685, 1693, 1700, 1707, 1715, 1722, 1729, + 1736, 1744, 1751, 1758, 1766, 1773, 1780, 1788, 1795, 1802, 1809, 1817, 1824, 1831, + 1839, 1846, 1853, 1860}; -static INT16 Cb_R[] = { 0, -10, -21, -31, -42, -53, -64, -75, -85, --96, -107, -118, -129, -139, -150, -161, -172, -183, -193, -204, -215, --226, -237, -247, -258, -269, -280, -291, -301, -312, -323, -334, --345, -355, -366, -377, -388, -399, -409, -420, -431, -442, -453, --463, -474, -485, -496, -507, -517, -528, -539, -550, -561, -571, --582, -593, -604, -615, -625, -636, -647, -658, -669, -679, -690, --701, -712, -723, -733, -744, -755, -766, -777, -787, -798, -809, --820, -831, -841, -852, -863, -874, -885, -895, -906, -917, -928, --939, -949, -960, -971, -982, -993, -1003, -1014, -1025, -1036, -1047, --1057, -1068, -1079, -1090, -1101, -1111, -1122, -1133, -1144, -1155, --1165, -1176, -1187, -1198, -1209, -1219, -1230, -1241, -1252, -1263, --1273, -1284, -1295, -1306, -1317, -1327, -1338, -1349, -1360, -1371, --1381, -1392, -1403, -1414, -1425, -1435, -1446, -1457, -1468, -1479, --1489, -1500, -1511, -1522, -1533, -1543, -1554, -1565, -1576, -1587, --1597, -1608, -1619, -1630, -1641, -1651, -1662, -1673, -1684, -1694, --1705, -1716, -1727, -1738, -1748, -1759, -1770, -1781, -1792, -1802, --1813, -1824, -1835, -1846, -1856, -1867, -1878, -1889, -1900, -1910, --1921, -1932, -1943, -1954, -1964, -1975, -1986, -1997, -2008, -2018, --2029, -2040, -2051, -2062, -2072, -2083, -2094, -2105, -2116, -2126, --2137, -2148, -2159, -2170, -2180, -2191, -2202, -2213, -2224, -2234, --2245, -2256, -2267, -2278, -2288, -2299, -2310, -2321, -2332, -2342, --2353, -2364, -2375, -2386, -2396, -2407, -2418, -2429, -2440, -2450, --2461, -2472, -2483, -2494, -2504, -2515, -2526, -2537, -2548, -2558, --2569, -2580, -2591, -2602, -2612, -2623, -2634, -2645, -2656, -2666, --2677, -2688, -2699, -2710, -2720, -2731, -2742, -2753 }; +static INT16 Cb_R[] = { + 0, -10, -21, -31, -42, -53, -64, -75, -85, -96, -107, -118, + -129, -139, -150, -161, -172, -183, -193, -204, -215, -226, -237, -247, + -258, -269, -280, -291, -301, -312, -323, -334, -345, -355, -366, -377, + -388, -399, -409, -420, -431, -442, -453, -463, -474, -485, -496, -507, + -517, -528, -539, -550, -561, -571, -582, -593, -604, -615, -625, -636, + -647, -658, -669, -679, -690, -701, -712, -723, -733, -744, -755, -766, + -777, -787, -798, -809, -820, -831, -841, -852, -863, -874, -885, -895, + -906, -917, -928, -939, -949, -960, -971, -982, -993, -1003, -1014, -1025, + -1036, -1047, -1057, -1068, -1079, -1090, -1101, -1111, -1122, -1133, -1144, -1155, + -1165, -1176, -1187, -1198, -1209, -1219, -1230, -1241, -1252, -1263, -1273, -1284, + -1295, -1306, -1317, -1327, -1338, -1349, -1360, -1371, -1381, -1392, -1403, -1414, + -1425, -1435, -1446, -1457, -1468, -1479, -1489, -1500, -1511, -1522, -1533, -1543, + -1554, -1565, -1576, -1587, -1597, -1608, -1619, -1630, -1641, -1651, -1662, -1673, + -1684, -1694, -1705, -1716, -1727, -1738, -1748, -1759, -1770, -1781, -1792, -1802, + -1813, -1824, -1835, -1846, -1856, -1867, -1878, -1889, -1900, -1910, -1921, -1932, + -1943, -1954, -1964, -1975, -1986, -1997, -2008, -2018, -2029, -2040, -2051, -2062, + -2072, -2083, -2094, -2105, -2116, -2126, -2137, -2148, -2159, -2170, -2180, -2191, + -2202, -2213, -2224, -2234, -2245, -2256, -2267, -2278, -2288, -2299, -2310, -2321, + -2332, -2342, -2353, -2364, -2375, -2386, -2396, -2407, -2418, -2429, -2440, -2450, + -2461, -2472, -2483, -2494, -2504, -2515, -2526, -2537, -2548, -2558, -2569, -2580, + -2591, -2602, -2612, -2623, -2634, -2645, -2656, -2666, -2677, -2688, -2699, -2710, + -2720, -2731, -2742, -2753}; -static INT16 Cb_G[] = { 0, -20, -41, -63, -84, -105, -126, -147, -169, --190, -211, -232, -253, -275, -296, -317, -338, -359, -381, -402, --423, -444, -465, -487, -508, -529, -550, -571, -593, -614, -635, --656, -677, -699, -720, -741, -762, -783, -805, -826, -847, -868, --889, -911, -932, -953, -974, -995, -1017, -1038, -1059, -1080, -1101, --1123, -1144, -1165, -1186, -1207, -1229, -1250, -1271, -1292, -1313, --1335, -1356, -1377, -1398, -1419, -1441, -1462, -1483, -1504, -1525, --1547, -1568, -1589, -1610, -1631, -1653, -1674, -1695, -1716, -1737, --1759, -1780, -1801, -1822, -1843, -1865, -1886, -1907, -1928, -1949, --1971, -1992, -2013, -2034, -2055, -2077, -2098, -2119, -2140, -2161, --2183, -2204, -2225, -2246, -2267, -2289, -2310, -2331, -2352, -2373, --2395, -2416, -2437, -2458, -2479, -2501, -2522, -2543, -2564, -2585, --2607, -2628, -2649, -2670, -2691, -2713, -2734, -2755, -2776, -2797, --2819, -2840, -2861, -2882, -2903, -2925, -2946, -2967, -2988, -3009, --3031, -3052, -3073, -3094, -3115, -3137, -3158, -3179, -3200, -3221, --3243, -3264, -3285, -3306, -3328, -3349, -3370, -3391, -3412, -3434, --3455, -3476, -3497, -3518, -3540, -3561, -3582, -3603, -3624, -3646, --3667, -3688, -3709, -3730, -3752, -3773, -3794, -3815, -3836, -3858, --3879, -3900, -3921, -3942, -3964, -3985, -4006, -4027, -4048, -4070, --4091, -4112, -4133, -4154, -4176, -4197, -4218, -4239, -4260, -4282, --4303, -4324, -4345, -4366, -4388, -4409, -4430, -4451, -4472, -4494, --4515, -4536, -4557, -4578, -4600, -4621, -4642, -4663, -4684, -4706, --4727, -4748, -4769, -4790, -4812, -4833, -4854, -4875, -4896, -4918, --4939, -4960, -4981, -5002, -5024, -5045, -5066, -5087, -5108, -5130, --5151, -5172, -5193, -5214, -5236, -5257, -5278, -5299, -5320, -5342, --5363, -5384, -5405 }; +static INT16 Cb_G[] = { + 0, -20, -41, -63, -84, -105, -126, -147, -169, -190, -211, -232, + -253, -275, -296, -317, -338, -359, -381, -402, -423, -444, -465, -487, + -508, -529, -550, -571, -593, -614, -635, -656, -677, -699, -720, -741, + -762, -783, -805, -826, -847, -868, -889, -911, -932, -953, -974, -995, + -1017, -1038, -1059, -1080, -1101, -1123, -1144, -1165, -1186, -1207, -1229, -1250, + -1271, -1292, -1313, -1335, -1356, -1377, -1398, -1419, -1441, -1462, -1483, -1504, + -1525, -1547, -1568, -1589, -1610, -1631, -1653, -1674, -1695, -1716, -1737, -1759, + -1780, -1801, -1822, -1843, -1865, -1886, -1907, -1928, -1949, -1971, -1992, -2013, + -2034, -2055, -2077, -2098, -2119, -2140, -2161, -2183, -2204, -2225, -2246, -2267, + -2289, -2310, -2331, -2352, -2373, -2395, -2416, -2437, -2458, -2479, -2501, -2522, + -2543, -2564, -2585, -2607, -2628, -2649, -2670, -2691, -2713, -2734, -2755, -2776, + -2797, -2819, -2840, -2861, -2882, -2903, -2925, -2946, -2967, -2988, -3009, -3031, + -3052, -3073, -3094, -3115, -3137, -3158, -3179, -3200, -3221, -3243, -3264, -3285, + -3306, -3328, -3349, -3370, -3391, -3412, -3434, -3455, -3476, -3497, -3518, -3540, + -3561, -3582, -3603, -3624, -3646, -3667, -3688, -3709, -3730, -3752, -3773, -3794, + -3815, -3836, -3858, -3879, -3900, -3921, -3942, -3964, -3985, -4006, -4027, -4048, + -4070, -4091, -4112, -4133, -4154, -4176, -4197, -4218, -4239, -4260, -4282, -4303, + -4324, -4345, -4366, -4388, -4409, -4430, -4451, -4472, -4494, -4515, -4536, -4557, + -4578, -4600, -4621, -4642, -4663, -4684, -4706, -4727, -4748, -4769, -4790, -4812, + -4833, -4854, -4875, -4896, -4918, -4939, -4960, -4981, -5002, -5024, -5045, -5066, + -5087, -5108, -5130, -5151, -5172, -5193, -5214, -5236, -5257, -5278, -5299, -5320, + -5342, -5363, -5384, -5405}; -static INT16 Cb_B[] = { 0, 32, 64, 96, 128, 160, 192, 224, 256, 288, -320, 352, 384, 416, 448, 480, 512, 544, 576, 608, 640, 672, 704, 736, -768, 800, 832, 864, 896, 928, 960, 992, 1024, 1056, 1088, 1120, 1152, -1184, 1216, 1248, 1280, 1312, 1344, 1376, 1408, 1440, 1472, 1504, -1536, 1568, 1600, 1632, 1664, 1696, 1728, 1760, 1792, 1824, 1856, -1888, 1920, 1952, 1984, 2016, 2048, 2080, 2112, 2144, 2176, 2208, -2240, 2272, 2304, 2336, 2368, 2400, 2432, 2464, 2496, 2528, 2560, -2592, 2624, 2656, 2688, 2720, 2752, 2784, 2816, 2848, 2880, 2912, -2944, 2976, 3008, 3040, 3072, 3104, 3136, 3168, 3200, 3232, 3264, -3296, 3328, 3360, 3392, 3424, 3456, 3488, 3520, 3552, 3584, 3616, -3648, 3680, 3712, 3744, 3776, 3808, 3840, 3872, 3904, 3936, 3968, -4000, 4032, 4064, 4096, 4128, 4160, 4192, 4224, 4256, 4288, 4320, -4352, 4384, 4416, 4448, 4480, 4512, 4544, 4576, 4608, 4640, 4672, -4704, 4736, 4768, 4800, 4832, 4864, 4896, 4928, 4960, 4992, 5024, -5056, 5088, 5120, 5152, 5184, 5216, 5248, 5280, 5312, 5344, 5376, -5408, 5440, 5472, 5504, 5536, 5568, 5600, 5632, 5664, 5696, 5728, -5760, 5792, 5824, 5856, 5888, 5920, 5952, 5984, 6016, 6048, 6080, -6112, 6144, 6176, 6208, 6240, 6272, 6304, 6336, 6368, 6400, 6432, -6464, 6496, 6528, 6560, 6592, 6624, 6656, 6688, 6720, 6752, 6784, -6816, 6848, 6880, 6912, 6944, 6976, 7008, 7040, 7072, 7104, 7136, -7168, 7200, 7232, 7264, 7296, 7328, 7360, 7392, 7424, 7456, 7488, -7520, 7552, 7584, 7616, 7648, 7680, 7712, 7744, 7776, 7808, 7840, -7872, 7904, 7936, 7968, 8000, 8032, 8064, 8096, 8128, 8160 }; +static INT16 Cb_B[] = { + 0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, + 448, 480, 512, 544, 576, 608, 640, 672, 704, 736, 768, 800, 832, 864, + 896, 928, 960, 992, 1024, 1056, 1088, 1120, 1152, 1184, 1216, 1248, 1280, 1312, + 1344, 1376, 1408, 1440, 1472, 1504, 1536, 1568, 1600, 1632, 1664, 1696, 1728, 1760, + 1792, 1824, 1856, 1888, 1920, 1952, 1984, 2016, 2048, 2080, 2112, 2144, 2176, 2208, + 2240, 2272, 2304, 2336, 2368, 2400, 2432, 2464, 2496, 2528, 2560, 2592, 2624, 2656, + 2688, 2720, 2752, 2784, 2816, 2848, 2880, 2912, 2944, 2976, 3008, 3040, 3072, 3104, + 3136, 3168, 3200, 3232, 3264, 3296, 3328, 3360, 3392, 3424, 3456, 3488, 3520, 3552, + 3584, 3616, 3648, 3680, 3712, 3744, 3776, 3808, 3840, 3872, 3904, 3936, 3968, 4000, + 4032, 4064, 4096, 4128, 4160, 4192, 4224, 4256, 4288, 4320, 4352, 4384, 4416, 4448, + 4480, 4512, 4544, 4576, 4608, 4640, 4672, 4704, 4736, 4768, 4800, 4832, 4864, 4896, + 4928, 4960, 4992, 5024, 5056, 5088, 5120, 5152, 5184, 5216, 5248, 5280, 5312, 5344, + 5376, 5408, 5440, 5472, 5504, 5536, 5568, 5600, 5632, 5664, 5696, 5728, 5760, 5792, + 5824, 5856, 5888, 5920, 5952, 5984, 6016, 6048, 6080, 6112, 6144, 6176, 6208, 6240, + 6272, 6304, 6336, 6368, 6400, 6432, 6464, 6496, 6528, 6560, 6592, 6624, 6656, 6688, + 6720, 6752, 6784, 6816, 6848, 6880, 6912, 6944, 6976, 7008, 7040, 7072, 7104, 7136, + 7168, 7200, 7232, 7264, 7296, 7328, 7360, 7392, 7424, 7456, 7488, 7520, 7552, 7584, + 7616, 7648, 7680, 7712, 7744, 7776, 7808, 7840, 7872, 7904, 7936, 7968, 8000, 8032, + 8064, 8096, 8128, 8160}; #define Cr_R Cb_B -static INT16 Cr_G[] = { 0, -26, -53, -79, -106, -133, -160, -187, --213, -240, -267, -294, -321, -347, -374, -401, -428, -455, -481, --508, -535, -562, -589, -615, -642, -669, -696, -722, -749, -776, --803, -830, -856, -883, -910, -937, -964, -990, -1017, -1044, -1071, --1098, -1124, -1151, -1178, -1205, -1232, -1258, -1285, -1312, -1339, --1366, -1392, -1419, -1446, -1473, -1500, -1526, -1553, -1580, -1607, --1634, -1660, -1687, -1714, -1741, -1768, -1794, -1821, -1848, -1875, --1902, -1928, -1955, -1982, -2009, -2036, -2062, -2089, -2116, -2143, --2169, -2196, -2223, -2250, -2277, -2303, -2330, -2357, -2384, -2411, --2437, -2464, -2491, -2518, -2545, -2571, -2598, -2625, -2652, -2679, --2705, -2732, -2759, -2786, -2813, -2839, -2866, -2893, -2920, -2947, --2973, -3000, -3027, -3054, -3081, -3107, -3134, -3161, -3188, -3215, --3241, -3268, -3295, -3322, -3349, -3375, -3402, -3429, -3456, -3483, --3509, -3536, -3563, -3590, -3616, -3643, -3670, -3697, -3724, -3750, --3777, -3804, -3831, -3858, -3884, -3911, -3938, -3965, -3992, -4018, --4045, -4072, -4099, -4126, -4152, -4179, -4206, -4233, -4260, -4286, --4313, -4340, -4367, -4394, -4420, -4447, -4474, -4501, -4528, -4554, --4581, -4608, -4635, -4662, -4688, -4715, -4742, -4769, -4796, -4822, --4849, -4876, -4903, -4929, -4956, -4983, -5010, -5037, -5063, -5090, --5117, -5144, -5171, -5197, -5224, -5251, -5278, -5305, -5331, -5358, --5385, -5412, -5439, -5465, -5492, -5519, -5546, -5573, -5599, -5626, --5653, -5680, -5707, -5733, -5760, -5787, -5814, -5841, -5867, -5894, --5921, -5948, -5975, -6001, -6028, -6055, -6082, -6109, -6135, -6162, --6189, -6216, -6243, -6269, -6296, -6323, -6350, -6376, -6403, -6430, --6457, -6484, -6510, -6537, -6564, -6591, -6618, -6644, -6671, -6698, --6725, -6752, -6778, -6805, -6832 }; +static INT16 Cr_G[] = { + 0, -26, -53, -79, -106, -133, -160, -187, -213, -240, -267, -294, + -321, -347, -374, -401, -428, -455, -481, -508, -535, -562, -589, -615, + -642, -669, -696, -722, -749, -776, -803, -830, -856, -883, -910, -937, + -964, -990, -1017, -1044, -1071, -1098, -1124, -1151, -1178, -1205, -1232, -1258, + -1285, -1312, -1339, -1366, -1392, -1419, -1446, -1473, -1500, -1526, -1553, -1580, + -1607, -1634, -1660, -1687, -1714, -1741, -1768, -1794, -1821, -1848, -1875, -1902, + -1928, -1955, -1982, -2009, -2036, -2062, -2089, -2116, -2143, -2169, -2196, -2223, + -2250, -2277, -2303, -2330, -2357, -2384, -2411, -2437, -2464, -2491, -2518, -2545, + -2571, -2598, -2625, -2652, -2679, -2705, -2732, -2759, -2786, -2813, -2839, -2866, + -2893, -2920, -2947, -2973, -3000, -3027, -3054, -3081, -3107, -3134, -3161, -3188, + -3215, -3241, -3268, -3295, -3322, -3349, -3375, -3402, -3429, -3456, -3483, -3509, + -3536, -3563, -3590, -3616, -3643, -3670, -3697, -3724, -3750, -3777, -3804, -3831, + -3858, -3884, -3911, -3938, -3965, -3992, -4018, -4045, -4072, -4099, -4126, -4152, + -4179, -4206, -4233, -4260, -4286, -4313, -4340, -4367, -4394, -4420, -4447, -4474, + -4501, -4528, -4554, -4581, -4608, -4635, -4662, -4688, -4715, -4742, -4769, -4796, + -4822, -4849, -4876, -4903, -4929, -4956, -4983, -5010, -5037, -5063, -5090, -5117, + -5144, -5171, -5197, -5224, -5251, -5278, -5305, -5331, -5358, -5385, -5412, -5439, + -5465, -5492, -5519, -5546, -5573, -5599, -5626, -5653, -5680, -5707, -5733, -5760, + -5787, -5814, -5841, -5867, -5894, -5921, -5948, -5975, -6001, -6028, -6055, -6082, + -6109, -6135, -6162, -6189, -6216, -6243, -6269, -6296, -6323, -6350, -6376, -6403, + -6430, -6457, -6484, -6510, -6537, -6564, -6591, -6618, -6644, -6671, -6698, -6725, + -6752, -6778, -6805, -6832}; -static INT16 Cr_B[] = { 0, -4, -9, -15, -20, -25, -30, -35, -41, -46, --51, -56, -61, -67, -72, -77, -82, -87, -93, -98, -103, -108, -113, --119, -124, -129, -134, -140, -145, -150, -155, -160, -166, -171, --176, -181, -186, -192, -197, -202, -207, -212, -218, -223, -228, --233, -238, -244, -249, -254, -259, -264, -270, -275, -280, -285, --290, -296, -301, -306, -311, -316, -322, -327, -332, -337, -342, --348, -353, -358, -363, -368, -374, -379, -384, -389, -394, -400, --405, -410, -415, -421, -426, -431, -436, -441, -447, -452, -457, --462, -467, -473, -478, -483, -488, -493, -499, -504, -509, -514, --519, -525, -530, -535, -540, -545, -551, -556, -561, -566, -571, --577, -582, -587, -592, -597, -603, -608, -613, -618, -623, -629, --634, -639, -644, -649, -655, -660, -665, -670, -675, -681, -686, --691, -696, -702, -707, -712, -717, -722, -728, -733, -738, -743, --748, -754, -759, -764, -769, -774, -780, -785, -790, -795, -800, --806, -811, -816, -821, -826, -832, -837, -842, -847, -852, -858, --863, -868, -873, -878, -884, -889, -894, -899, -904, -910, -915, --920, -925, -930, -936, -941, -946, -951, -957, -962, -967, -972, --977, -983, -988, -993, -998, -1003, -1009, -1014, -1019, -1024, --1029, -1035, -1040, -1045, -1050, -1055, -1061, -1066, -1071, -1076, --1081, -1087, -1092, -1097, -1102, -1107, -1113, -1118, -1123, -1128, --1133, -1139, -1144, -1149, -1154, -1159, -1165, -1170, -1175, -1180, --1185, -1191, -1196, -1201, -1206, -1211, -1217, -1222, -1227, -1232, --1238, -1243, -1248, -1253, -1258, -1264, -1269, -1274, -1279, -1284, --1290, -1295, -1300, -1305, -1310, -1316, -1321, -1326 }; +static INT16 Cr_B[] = { + 0, -4, -9, -15, -20, -25, -30, -35, -41, -46, -51, -56, + -61, -67, -72, -77, -82, -87, -93, -98, -103, -108, -113, -119, + -124, -129, -134, -140, -145, -150, -155, -160, -166, -171, -176, -181, + -186, -192, -197, -202, -207, -212, -218, -223, -228, -233, -238, -244, + -249, -254, -259, -264, -270, -275, -280, -285, -290, -296, -301, -306, + -311, -316, -322, -327, -332, -337, -342, -348, -353, -358, -363, -368, + -374, -379, -384, -389, -394, -400, -405, -410, -415, -421, -426, -431, + -436, -441, -447, -452, -457, -462, -467, -473, -478, -483, -488, -493, + -499, -504, -509, -514, -519, -525, -530, -535, -540, -545, -551, -556, + -561, -566, -571, -577, -582, -587, -592, -597, -603, -608, -613, -618, + -623, -629, -634, -639, -644, -649, -655, -660, -665, -670, -675, -681, + -686, -691, -696, -702, -707, -712, -717, -722, -728, -733, -738, -743, + -748, -754, -759, -764, -769, -774, -780, -785, -790, -795, -800, -806, + -811, -816, -821, -826, -832, -837, -842, -847, -852, -858, -863, -868, + -873, -878, -884, -889, -894, -899, -904, -910, -915, -920, -925, -930, + -936, -941, -946, -951, -957, -962, -967, -972, -977, -983, -988, -993, + -998, -1003, -1009, -1014, -1019, -1024, -1029, -1035, -1040, -1045, -1050, -1055, + -1061, -1066, -1071, -1076, -1081, -1087, -1092, -1097, -1102, -1107, -1113, -1118, + -1123, -1128, -1133, -1139, -1144, -1149, -1154, -1159, -1165, -1170, -1175, -1180, + -1185, -1191, -1196, -1201, -1206, -1211, -1217, -1222, -1227, -1232, -1238, -1243, + -1248, -1253, -1258, -1264, -1269, -1274, -1279, -1284, -1290, -1295, -1300, -1305, + -1310, -1316, -1321, -1326}; -static INT16 R_Cr[] = { -11484, -11394, -11305, -11215, -11125, --11036, -10946, -10856, -10766, -10677, -10587, -10497, -10407, --10318, -10228, -10138, -10049, -9959, -9869, -9779, -9690, -9600, --9510, -9420, -9331, -9241, -9151, -9062, -8972, -8882, -8792, -8703, --8613, -8523, -8433, -8344, -8254, -8164, -8075, -7985, -7895, -7805, --7716, -7626, -7536, -7446, -7357, -7267, -7177, -7088, -6998, -6908, --6818, -6729, -6639, -6549, -6459, -6370, -6280, -6190, -6101, -6011, --5921, -5831, -5742, -5652, -5562, -5472, -5383, -5293, -5203, -5113, --5024, -4934, -4844, -4755, -4665, -4575, -4485, -4396, -4306, -4216, --4126, -4037, -3947, -3857, -3768, -3678, -3588, -3498, -3409, -3319, --3229, -3139, -3050, -2960, -2870, -2781, -2691, -2601, -2511, -2422, --2332, -2242, -2152, -2063, -1973, -1883, -1794, -1704, -1614, -1524, --1435, -1345, -1255, -1165, -1076, -986, -896, -807, -717, -627, -537, --448, -358, -268, -178, -89, 0, 90, 179, 269, 359, 449, 538, 628, 718, -808, 897, 987, 1077, 1166, 1256, 1346, 1436, 1525, 1615, 1705, 1795, -1884, 1974, 2064, 2153, 2243, 2333, 2423, 2512, 2602, 2692, 2782, -2871, 2961, 3051, 3140, 3230, 3320, 3410, 3499, 3589, 3679, 3769, -3858, 3948, 4038, 4127, 4217, 4307, 4397, 4486, 4576, 4666, 4756, -4845, 4935, 5025, 5114, 5204, 5294, 5384, 5473, 5563, 5653, 5743, -5832, 5922, 6012, 6102, 6191, 6281, 6371, 6460, 6550, 6640, 6730, -6819, 6909, 6999, 7089, 7178, 7268, 7358, 7447, 7537, 7627, 7717, -7806, 7896, 7986, 8076, 8165, 8255, 8345, 8434, 8524, 8614, 8704, -8793, 8883, 8973, 9063, 9152, 9242, 9332, 9421, 9511, 9601, 9691, -9780, 9870, 9960, 10050, 10139, 10229, 10319, 10408, 10498, 10588, -10678, 10767, 10857, 10947, 11037, 11126, 11216, 11306, 11395 }; +static INT16 R_Cr[] = { + -11484, -11394, -11305, -11215, -11125, -11036, -10946, -10856, -10766, -10677, + -10587, -10497, -10407, -10318, -10228, -10138, -10049, -9959, -9869, -9779, + -9690, -9600, -9510, -9420, -9331, -9241, -9151, -9062, -8972, -8882, + -8792, -8703, -8613, -8523, -8433, -8344, -8254, -8164, -8075, -7985, + -7895, -7805, -7716, -7626, -7536, -7446, -7357, -7267, -7177, -7088, + -6998, -6908, -6818, -6729, -6639, -6549, -6459, -6370, -6280, -6190, + -6101, -6011, -5921, -5831, -5742, -5652, -5562, -5472, -5383, -5293, + -5203, -5113, -5024, -4934, -4844, -4755, -4665, -4575, -4485, -4396, + -4306, -4216, -4126, -4037, -3947, -3857, -3768, -3678, -3588, -3498, + -3409, -3319, -3229, -3139, -3050, -2960, -2870, -2781, -2691, -2601, + -2511, -2422, -2332, -2242, -2152, -2063, -1973, -1883, -1794, -1704, + -1614, -1524, -1435, -1345, -1255, -1165, -1076, -986, -896, -807, + -717, -627, -537, -448, -358, -268, -178, -89, 0, 90, + 179, 269, 359, 449, 538, 628, 718, 808, 897, 987, + 1077, 1166, 1256, 1346, 1436, 1525, 1615, 1705, 1795, 1884, + 1974, 2064, 2153, 2243, 2333, 2423, 2512, 2602, 2692, 2782, + 2871, 2961, 3051, 3140, 3230, 3320, 3410, 3499, 3589, 3679, + 3769, 3858, 3948, 4038, 4127, 4217, 4307, 4397, 4486, 4576, + 4666, 4756, 4845, 4935, 5025, 5114, 5204, 5294, 5384, 5473, + 5563, 5653, 5743, 5832, 5922, 6012, 6102, 6191, 6281, 6371, + 6460, 6550, 6640, 6730, 6819, 6909, 6999, 7089, 7178, 7268, + 7358, 7447, 7537, 7627, 7717, 7806, 7896, 7986, 8076, 8165, + 8255, 8345, 8434, 8524, 8614, 8704, 8793, 8883, 8973, 9063, + 9152, 9242, 9332, 9421, 9511, 9601, 9691, 9780, 9870, 9960, + 10050, 10139, 10229, 10319, 10408, 10498, 10588, 10678, 10767, 10857, + 10947, 11037, 11126, 11216, 11306, 11395}; -static INT16 G_Cb[] = { 2819, 2797, 2775, 2753, 2731, 2709, 2687, -2665, 2643, 2621, 2599, 2577, 2555, 2533, 2511, 2489, 2467, 2445, -2423, 2401, 2379, 2357, 2335, 2313, 2291, 2269, 2247, 2225, 2202, -2180, 2158, 2136, 2114, 2092, 2070, 2048, 2026, 2004, 1982, 1960, -1938, 1916, 1894, 1872, 1850, 1828, 1806, 1784, 1762, 1740, 1718, -1696, 1674, 1652, 1630, 1608, 1586, 1564, 1542, 1520, 1498, 1476, -1454, 1432, 1410, 1388, 1366, 1344, 1321, 1299, 1277, 1255, 1233, -1211, 1189, 1167, 1145, 1123, 1101, 1079, 1057, 1035, 1013, 991, 969, -947, 925, 903, 881, 859, 837, 815, 793, 771, 749, 727, 705, 683, 661, -639, 617, 595, 573, 551, 529, 507, 485, 463, 440, 418, 396, 374, 352, -330, 308, 286, 264, 242, 220, 198, 176, 154, 132, 110, 88, 66, 44, 22, -0, -21, -43, -65, -87, -109, -131, -153, -175, -197, -219, -241, -263, --285, -307, -329, -351, -373, -395, -417, -439, -462, -484, -506, --528, -550, -572, -594, -616, -638, -660, -682, -704, -726, -748, --770, -792, -814, -836, -858, -880, -902, -924, -946, -968, -990, --1012, -1034, -1056, -1078, -1100, -1122, -1144, -1166, -1188, -1210, --1232, -1254, -1276, -1298, -1320, -1343, -1365, -1387, -1409, -1431, --1453, -1475, -1497, -1519, -1541, -1563, -1585, -1607, -1629, -1651, --1673, -1695, -1717, -1739, -1761, -1783, -1805, -1827, -1849, -1871, --1893, -1915, -1937, -1959, -1981, -2003, -2025, -2047, -2069, -2091, --2113, -2135, -2157, -2179, -2201, -2224, -2246, -2268, -2290, -2312, --2334, -2356, -2378, -2400, -2422, -2444, -2466, -2488, -2510, -2532, --2554, -2576, -2598, -2620, -2642, -2664, -2686, -2708, -2730, -2752, --2774, -2796 }; +static INT16 G_Cb[] = { + 2819, 2797, 2775, 2753, 2731, 2709, 2687, 2665, 2643, 2621, 2599, 2577, + 2555, 2533, 2511, 2489, 2467, 2445, 2423, 2401, 2379, 2357, 2335, 2313, + 2291, 2269, 2247, 2225, 2202, 2180, 2158, 2136, 2114, 2092, 2070, 2048, + 2026, 2004, 1982, 1960, 1938, 1916, 1894, 1872, 1850, 1828, 1806, 1784, + 1762, 1740, 1718, 1696, 1674, 1652, 1630, 1608, 1586, 1564, 1542, 1520, + 1498, 1476, 1454, 1432, 1410, 1388, 1366, 1344, 1321, 1299, 1277, 1255, + 1233, 1211, 1189, 1167, 1145, 1123, 1101, 1079, 1057, 1035, 1013, 991, + 969, 947, 925, 903, 881, 859, 837, 815, 793, 771, 749, 727, + 705, 683, 661, 639, 617, 595, 573, 551, 529, 507, 485, 463, + 440, 418, 396, 374, 352, 330, 308, 286, 264, 242, 220, 198, + 176, 154, 132, 110, 88, 66, 44, 22, 0, -21, -43, -65, + -87, -109, -131, -153, -175, -197, -219, -241, -263, -285, -307, -329, + -351, -373, -395, -417, -439, -462, -484, -506, -528, -550, -572, -594, + -616, -638, -660, -682, -704, -726, -748, -770, -792, -814, -836, -858, + -880, -902, -924, -946, -968, -990, -1012, -1034, -1056, -1078, -1100, -1122, + -1144, -1166, -1188, -1210, -1232, -1254, -1276, -1298, -1320, -1343, -1365, -1387, + -1409, -1431, -1453, -1475, -1497, -1519, -1541, -1563, -1585, -1607, -1629, -1651, + -1673, -1695, -1717, -1739, -1761, -1783, -1805, -1827, -1849, -1871, -1893, -1915, + -1937, -1959, -1981, -2003, -2025, -2047, -2069, -2091, -2113, -2135, -2157, -2179, + -2201, -2224, -2246, -2268, -2290, -2312, -2334, -2356, -2378, -2400, -2422, -2444, + -2466, -2488, -2510, -2532, -2554, -2576, -2598, -2620, -2642, -2664, -2686, -2708, + -2730, -2752, -2774, -2796}; -static INT16 G_Cr[] = { 5850, 5805, 5759, 5713, 5667, 5622, 5576, -5530, 5485, 5439, 5393, 5347, 5302, 5256, 5210, 5165, 5119, 5073, -5028, 4982, 4936, 4890, 4845, 4799, 4753, 4708, 4662, 4616, 4570, -4525, 4479, 4433, 4388, 4342, 4296, 4251, 4205, 4159, 4113, 4068, -4022, 3976, 3931, 3885, 3839, 3794, 3748, 3702, 3656, 3611, 3565, -3519, 3474, 3428, 3382, 3336, 3291, 3245, 3199, 3154, 3108, 3062, -3017, 2971, 2925, 2879, 2834, 2788, 2742, 2697, 2651, 2605, 2559, -2514, 2468, 2422, 2377, 2331, 2285, 2240, 2194, 2148, 2102, 2057, -2011, 1965, 1920, 1874, 1828, 1782, 1737, 1691, 1645, 1600, 1554, -1508, 1463, 1417, 1371, 1325, 1280, 1234, 1188, 1143, 1097, 1051, -1006, 960, 914, 868, 823, 777, 731, 686, 640, 594, 548, 503, 457, 411, -366, 320, 274, 229, 183, 137, 91, 46, 0, -45, -90, -136, -182, -228, --273, -319, -365, -410, -456, -502, -547, -593, -639, -685, -730, --776, -822, -867, -913, -959, -1005, -1050, -1096, -1142, -1187, --1233, -1279, -1324, -1370, -1416, -1462, -1507, -1553, -1599, -1644, --1690, -1736, -1781, -1827, -1873, -1919, -1964, -2010, -2056, -2101, --2147, -2193, -2239, -2284, -2330, -2376, -2421, -2467, -2513, -2558, --2604, -2650, -2696, -2741, -2787, -2833, -2878, -2924, -2970, -3016, --3061, -3107, -3153, -3198, -3244, -3290, -3335, -3381, -3427, -3473, --3518, -3564, -3610, -3655, -3701, -3747, -3793, -3838, -3884, -3930, --3975, -4021, -4067, -4112, -4158, -4204, -4250, -4295, -4341, -4387, --4432, -4478, -4524, -4569, -4615, -4661, -4707, -4752, -4798, -4844, --4889, -4935, -4981, -5027, -5072, -5118, -5164, -5209, -5255, -5301, --5346, -5392, -5438, -5484, -5529, -5575, -5621, -5666, -5712, -5758, --5804 }; - -static INT16 B_Cb[] = { -14515, -14402, -14288, -14175, -14062, --13948, -13835, -13721, -13608, -13495, -13381, -13268, -13154, --13041, -12928, -12814, -12701, -12587, -12474, -12360, -12247, --12134, -12020, -11907, -11793, -11680, -11567, -11453, -11340, --11226, -11113, -11000, -10886, -10773, -10659, -10546, -10433, --10319, -10206, -10092, -9979, -9865, -9752, -9639, -9525, -9412, --9298, -9185, -9072, -8958, -8845, -8731, -8618, -8505, -8391, -8278, --8164, -8051, -7938, -7824, -7711, -7597, -7484, -7371, -7257, -7144, --7030, -6917, -6803, -6690, -6577, -6463, -6350, -6236, -6123, -6010, --5896, -5783, -5669, -5556, -5443, -5329, -5216, -5102, -4989, -4876, --4762, -4649, -4535, -4422, -4309, -4195, -4082, -3968, -3855, -3741, --3628, -3515, -3401, -3288, -3174, -3061, -2948, -2834, -2721, -2607, --2494, -2381, -2267, -2154, -2040, -1927, -1814, -1700, -1587, -1473, --1360, -1246, -1133, -1020, -906, -793, -679, -566, -453, -339, -226, --112, 0, 113, 227, 340, 454, 567, 680, 794, 907, 1021, 1134, 1247, -1361, 1474, 1588, 1701, 1815, 1928, 2041, 2155, 2268, 2382, 2495, -2608, 2722, 2835, 2949, 3062, 3175, 3289, 3402, 3516, 3629, 3742, -3856, 3969, 4083, 4196, 4310, 4423, 4536, 4650, 4763, 4877, 4990, -5103, 5217, 5330, 5444, 5557, 5670, 5784, 5897, 6011, 6124, 6237, -6351, 6464, 6578, 6691, 6804, 6918, 7031, 7145, 7258, 7372, 7485, -7598, 7712, 7825, 7939, 8052, 8165, 8279, 8392, 8506, 8619, 8732, -8846, 8959, 9073, 9186, 9299, 9413, 9526, 9640, 9753, 9866, 9980, -10093, 10207, 10320, 10434, 10547, 10660, 10774, 10887, 11001, 11114, -11227, 11341, 11454, 11568, 11681, 11794, 11908, 12021, 12135, 12248, -12361, 12475, 12588, 12702, 12815, 12929, 13042, 13155, 13269, 13382, -13496, 13609, 13722, 13836, 13949, 14063, 14176, 14289, 14403 }; +static INT16 G_Cr[] = { + 5850, 5805, 5759, 5713, 5667, 5622, 5576, 5530, 5485, 5439, 5393, 5347, + 5302, 5256, 5210, 5165, 5119, 5073, 5028, 4982, 4936, 4890, 4845, 4799, + 4753, 4708, 4662, 4616, 4570, 4525, 4479, 4433, 4388, 4342, 4296, 4251, + 4205, 4159, 4113, 4068, 4022, 3976, 3931, 3885, 3839, 3794, 3748, 3702, + 3656, 3611, 3565, 3519, 3474, 3428, 3382, 3336, 3291, 3245, 3199, 3154, + 3108, 3062, 3017, 2971, 2925, 2879, 2834, 2788, 2742, 2697, 2651, 2605, + 2559, 2514, 2468, 2422, 2377, 2331, 2285, 2240, 2194, 2148, 2102, 2057, + 2011, 1965, 1920, 1874, 1828, 1782, 1737, 1691, 1645, 1600, 1554, 1508, + 1463, 1417, 1371, 1325, 1280, 1234, 1188, 1143, 1097, 1051, 1006, 960, + 914, 868, 823, 777, 731, 686, 640, 594, 548, 503, 457, 411, + 366, 320, 274, 229, 183, 137, 91, 46, 0, -45, -90, -136, + -182, -228, -273, -319, -365, -410, -456, -502, -547, -593, -639, -685, + -730, -776, -822, -867, -913, -959, -1005, -1050, -1096, -1142, -1187, -1233, + -1279, -1324, -1370, -1416, -1462, -1507, -1553, -1599, -1644, -1690, -1736, -1781, + -1827, -1873, -1919, -1964, -2010, -2056, -2101, -2147, -2193, -2239, -2284, -2330, + -2376, -2421, -2467, -2513, -2558, -2604, -2650, -2696, -2741, -2787, -2833, -2878, + -2924, -2970, -3016, -3061, -3107, -3153, -3198, -3244, -3290, -3335, -3381, -3427, + -3473, -3518, -3564, -3610, -3655, -3701, -3747, -3793, -3838, -3884, -3930, -3975, + -4021, -4067, -4112, -4158, -4204, -4250, -4295, -4341, -4387, -4432, -4478, -4524, + -4569, -4615, -4661, -4707, -4752, -4798, -4844, -4889, -4935, -4981, -5027, -5072, + -5118, -5164, -5209, -5255, -5301, -5346, -5392, -5438, -5484, -5529, -5575, -5621, + -5666, -5712, -5758, -5804}; +static INT16 B_Cb[] = { + -14515, -14402, -14288, -14175, -14062, -13948, -13835, -13721, -13608, -13495, + -13381, -13268, -13154, -13041, -12928, -12814, -12701, -12587, -12474, -12360, + -12247, -12134, -12020, -11907, -11793, -11680, -11567, -11453, -11340, -11226, + -11113, -11000, -10886, -10773, -10659, -10546, -10433, -10319, -10206, -10092, + -9979, -9865, -9752, -9639, -9525, -9412, -9298, -9185, -9072, -8958, + -8845, -8731, -8618, -8505, -8391, -8278, -8164, -8051, -7938, -7824, + -7711, -7597, -7484, -7371, -7257, -7144, -7030, -6917, -6803, -6690, + -6577, -6463, -6350, -6236, -6123, -6010, -5896, -5783, -5669, -5556, + -5443, -5329, -5216, -5102, -4989, -4876, -4762, -4649, -4535, -4422, + -4309, -4195, -4082, -3968, -3855, -3741, -3628, -3515, -3401, -3288, + -3174, -3061, -2948, -2834, -2721, -2607, -2494, -2381, -2267, -2154, + -2040, -1927, -1814, -1700, -1587, -1473, -1360, -1246, -1133, -1020, + -906, -793, -679, -566, -453, -339, -226, -112, 0, 113, + 227, 340, 454, 567, 680, 794, 907, 1021, 1134, 1247, + 1361, 1474, 1588, 1701, 1815, 1928, 2041, 2155, 2268, 2382, + 2495, 2608, 2722, 2835, 2949, 3062, 3175, 3289, 3402, 3516, + 3629, 3742, 3856, 3969, 4083, 4196, 4310, 4423, 4536, 4650, + 4763, 4877, 4990, 5103, 5217, 5330, 5444, 5557, 5670, 5784, + 5897, 6011, 6124, 6237, 6351, 6464, 6578, 6691, 6804, 6918, + 7031, 7145, 7258, 7372, 7485, 7598, 7712, 7825, 7939, 8052, + 8165, 8279, 8392, 8506, 8619, 8732, 8846, 8959, 9073, 9186, + 9299, 9413, 9526, 9640, 9753, 9866, 9980, 10093, 10207, 10320, + 10434, 10547, 10660, 10774, 10887, 11001, 11114, 11227, 11341, 11454, + 11568, 11681, 11794, 11908, 12021, 12135, 12248, 12361, 12475, 12588, + 12702, 12815, 12929, 13042, 13155, 13269, 13382, 13496, 13609, 13722, + 13836, 13949, 14063, 14176, 14289, 14403}; void -ImagingConvertRGB2YCbCr(UINT8* out, const UINT8* in, int pixels) -{ +ImagingConvertRGB2YCbCr(UINT8 *out, const UINT8 *in, int pixels) { int x; UINT8 a; int r, g, b; int y, cr, cb; - for (x = 0; x < pixels; x++, in +=4, out += 4) { - + for (x = 0; x < pixels; x++, in += 4, out += 4) { r = in[0]; g = in[1]; b = in[2]; a = in[3]; - y = (Y_R[r] + Y_G[g] + Y_B[b]) >> SCALE; + y = (Y_R[r] + Y_G[g] + Y_B[b]) >> SCALE; cb = ((Cb_R[r] + Cb_G[g] + Cb_B[b]) >> SCALE) + 128; cr = ((Cr_R[r] + Cr_G[g] + Cr_B[b]) >> SCALE) + 128; - out[0] = (UINT8) y; - out[1] = (UINT8) cb; - out[2] = (UINT8) cr; + out[0] = (UINT8)y; + out[1] = (UINT8)cb; + out[2] = (UINT8)cr; out[3] = a; } } void -ImagingConvertYCbCr2RGB(UINT8* out, const UINT8* in, int pixels) -{ +ImagingConvertYCbCr2RGB(UINT8 *out, const UINT8 *in, int pixels) { int x; UINT8 a; int r, g, b; int y, cr, cb; for (x = 0; x < pixels; x++, in += 4, out += 4) { - y = in[0]; cb = in[1]; cr = in[2]; a = in[3]; - r = y + (( R_Cr[cr]) >> SCALE); + r = y + ((R_Cr[cr]) >> SCALE); g = y + ((G_Cb[cb] + G_Cr[cr]) >> SCALE); - b = y + ((B_Cb[cb] ) >> SCALE); + b = y + ((B_Cb[cb]) >> SCALE); out[0] = (r <= 0) ? 0 : (r >= 255) ? 255 : r; out[1] = (g <= 0) ? 0 : (g >= 255) ? 255 : g; diff --git a/src/libImaging/Copy.c b/src/libImaging/Copy.c index 5b4899f398f..571133e14b6 100644 --- a/src/libImaging/Copy.c +++ b/src/libImaging/Copy.c @@ -15,18 +15,15 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" - static Imaging -_copy(Imaging imOut, Imaging imIn) -{ +_copy(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int y; if (!imIn) { - return (Imaging) ImagingError_ValueError(NULL); + return (Imaging)ImagingError_ValueError(NULL); } imOut = ImagingNew2Dirty(imIn->mode, imOut, imIn); @@ -50,13 +47,11 @@ _copy(Imaging imOut, Imaging imIn) } Imaging -ImagingCopy(Imaging imIn) -{ +ImagingCopy(Imaging imIn) { return _copy(NULL, imIn); } Imaging -ImagingCopy2(Imaging imOut, Imaging imIn) -{ +ImagingCopy2(Imaging imOut, Imaging imIn) { return _copy(imOut, imIn); } diff --git a/src/libImaging/Crop.c b/src/libImaging/Crop.c index d136edbfc74..2425b4cd589 100644 --- a/src/libImaging/Crop.c +++ b/src/libImaging/Crop.c @@ -15,20 +15,17 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - Imaging -ImagingCrop(Imaging imIn, int sx0, int sy0, int sx1, int sy1) -{ +ImagingCrop(Imaging imIn, int sx0, int sy0, int sx1, int sy1) { Imaging imOut; int xsize, ysize; int dx0, dy0, dx1, dy1; INT32 zero = 0; if (!imIn) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } xsize = sx1 - sx0; @@ -48,7 +45,7 @@ ImagingCrop(Imaging imIn, int sx0, int sy0, int sx1, int sy1) ImagingCopyPalette(imOut, imIn); if (sx0 < 0 || sy0 < 0 || sx1 > imIn->xsize || sy1 > imIn->ysize) { - (void) ImagingFill(imOut, &zero); + (void)ImagingFill(imOut, &zero); } dx0 = -sx0; diff --git a/src/libImaging/Dib.c b/src/libImaging/Dib.c index 202b0c9fab9..f8a2901b8c7 100644 --- a/src/libImaging/Dib.c +++ b/src/libImaging/Dib.c @@ -19,21 +19,18 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #ifdef _WIN32 #include "ImDib.h" - -char* -ImagingGetModeDIB(int size_out[2]) -{ +char * +ImagingGetModeDIB(int size_out[2]) { /* Get device characteristics */ HDC dc; - char* mode; + char *mode; dc = CreateCompatibleDC(NULL); @@ -55,10 +52,8 @@ ImagingGetModeDIB(int size_out[2]) return mode; } - ImagingDIB -ImagingNewDIB(const char *mode, int xsize, int ysize) -{ +ImagingNewDIB(const char *mode, int xsize, int ysize) { /* Create a Windows bitmap */ ImagingDIB dib; @@ -66,23 +61,21 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) int i; /* Check mode */ - if (strcmp(mode, "1") != 0 && strcmp(mode, "L") != 0 && - strcmp(mode, "RGB") != 0) { - return (ImagingDIB) ImagingError_ModeError(); + if (strcmp(mode, "1") != 0 && strcmp(mode, "L") != 0 && strcmp(mode, "RGB") != 0) { + return (ImagingDIB)ImagingError_ModeError(); } /* Create DIB context and info header */ /* malloc check ok, small constant allocation */ - dib = (ImagingDIB) malloc(sizeof(*dib)); + dib = (ImagingDIB)malloc(sizeof(*dib)); if (!dib) { - return (ImagingDIB) ImagingError_MemoryError(); + return (ImagingDIB)ImagingError_MemoryError(); } /* malloc check ok, small constant allocation */ - dib->info = (BITMAPINFO*) malloc(sizeof(BITMAPINFOHEADER) + - 256 * sizeof(RGBQUAD)); + dib->info = (BITMAPINFO *)malloc(sizeof(BITMAPINFOHEADER) + 256 * sizeof(RGBQUAD)); if (!dib->info) { free(dib); - return (ImagingDIB) ImagingError_MemoryError(); + return (ImagingDIB)ImagingError_MemoryError(); } memset(dib->info, 0, sizeof(BITMAPINFOHEADER)); @@ -90,7 +83,7 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) dib->info->bmiHeader.biWidth = xsize; dib->info->bmiHeader.biHeight = ysize; dib->info->bmiHeader.biPlanes = 1; - dib->info->bmiHeader.biBitCount = strlen(mode)*8; + dib->info->bmiHeader.biBitCount = strlen(mode) * 8; dib->info->bmiHeader.biCompression = BI_RGB; /* Create DIB */ @@ -98,15 +91,15 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) if (!dib->dc) { free(dib->info); free(dib); - return (ImagingDIB) ImagingError_MemoryError(); + return (ImagingDIB)ImagingError_MemoryError(); } - dib->bitmap = CreateDIBSection(dib->dc, dib->info, DIB_RGB_COLORS, - &dib->bits, NULL, 0); + dib->bitmap = + CreateDIBSection(dib->dc, dib->info, DIB_RGB_COLORS, &dib->bits, NULL, 0); if (!dib->bitmap) { free(dib->info); free(dib); - return (ImagingDIB) ImagingError_MemoryError(); + return (ImagingDIB)ImagingError_MemoryError(); } strcpy(dib->mode, mode); @@ -117,7 +110,7 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) dib->linesize = (xsize * dib->pixelsize + 3) & -4; if (dib->pixelsize == 1) { - dib->pack = dib->unpack = (ImagingShuffler) memcpy; + dib->pack = dib->unpack = (ImagingShuffler)memcpy; } else { dib->pack = ImagingPackBGR; dib->unpack = ImagingPackBGR; @@ -131,9 +124,7 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) /* Bind a palette to it as well (only required for 8-bit DIBs) */ if (dib->pixelsize == 1) { for (i = 0; i < 256; i++) { - palette[i].rgbRed = - palette[i].rgbGreen = - palette[i].rgbBlue = i; + palette[i].rgbRed = palette[i].rgbGreen = palette[i].rgbBlue = i; palette[i].rgbReserved = 0; } SetDIBColorTable(dib->dc, 0, 256, palette); @@ -141,9 +132,8 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) /* Create an associated palette (for 8-bit displays only) */ if (strcmp(ImagingGetModeDIB(NULL), "P") == 0) { - - char palbuf[sizeof(LOGPALETTE)+256*sizeof(PALETTEENTRY)]; - LPLOGPALETTE pal = (LPLOGPALETTE) palbuf; + char palbuf[sizeof(LOGPALETTE) + 256 * sizeof(PALETTEENTRY)]; + LPLOGPALETTE pal = (LPLOGPALETTE)palbuf; int i, r, g, b; /* Load system palette */ @@ -152,7 +142,6 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) GetSystemPaletteEntries(dib->dc, 0, 256, pal->palPalEntry); if (strcmp(mode, "L") == 0) { - /* Greyscale DIB. Fill all 236 slots with a greyscale ramp * (this is usually overkill on Windows since VGA only offers * 6 bits greyscale resolution). Ignore the slots already @@ -160,16 +149,14 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) i = 10; for (r = 0; r < 236; r++) { - pal->palPalEntry[i].peRed = - pal->palPalEntry[i].peGreen = - pal->palPalEntry[i].peBlue = i; + pal->palPalEntry[i].peRed = pal->palPalEntry[i].peGreen = + pal->palPalEntry[i].peBlue = i; i++; } dib->palette = CreatePalette(pal); } else if (strcmp(mode, "RGB") == 0) { - #ifdef CUBE216 /* Colour DIB. Create a 6x6x6 colour cube (216 entries) and @@ -187,11 +174,10 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) } } } - for (r = 1; r < 22-1; r++) { + for (r = 1; r < 22 - 1; r++) { /* Black and white are already provided by the cube. */ - pal->palPalEntry[i].peRed = - pal->palPalEntry[i].peGreen = - pal->palPalEntry[i].peBlue = r * 255 / (22-1); + pal->palPalEntry[i].peRed = pal->palPalEntry[i].peGreen = + pal->palPalEntry[i].peBlue = r * 255 / (22 - 1); i++; } @@ -214,76 +200,91 @@ ImagingNewDIB(const char *mode, int xsize, int ysize) #endif dib->palette = CreatePalette(pal); - } - } return dib; } void -ImagingPasteDIB(ImagingDIB dib, Imaging im, int xy[4]) -{ +ImagingPasteDIB(ImagingDIB dib, Imaging im, int xy[4]) { /* Paste image data into a bitmap */ /* FIXME: check size! */ int y; for (y = 0; y < im->ysize; y++) { - dib->pack(dib->bits + dib->linesize*(dib->ysize-(xy[1]+y)-1) + - xy[0]*dib->pixelsize, im->image[y], im->xsize); + dib->pack( + dib->bits + dib->linesize * (dib->ysize - (xy[1] + y) - 1) + + xy[0] * dib->pixelsize, + im->image[y], + im->xsize); } - } void -ImagingExposeDIB(ImagingDIB dib, void *dc) -{ +ImagingExposeDIB(ImagingDIB dib, void *dc) { /* Copy bitmap to display */ if (dib->palette != 0) { - SelectPalette((HDC) dc, dib->palette, FALSE); + SelectPalette((HDC)dc, dib->palette, FALSE); } - BitBlt((HDC) dc, 0, 0, dib->xsize, dib->ysize, dib->dc, 0, 0, SRCCOPY); + BitBlt((HDC)dc, 0, 0, dib->xsize, dib->ysize, dib->dc, 0, 0, SRCCOPY); } void -ImagingDrawDIB(ImagingDIB dib, void *dc, int dst[4], int src[4]) -{ +ImagingDrawDIB(ImagingDIB dib, void *dc, int dst[4], int src[4]) { /* Copy bitmap to printer/display */ - if (GetDeviceCaps((HDC) dc, RASTERCAPS) & RC_STRETCHDIB) { + if (GetDeviceCaps((HDC)dc, RASTERCAPS) & RC_STRETCHDIB) { /* stretchdib (printers) */ - StretchDIBits((HDC) dc, dst[0], dst[1], dst[2]-dst[0], dst[3]-dst[1], - src[0], src[1], src[2]-src[0], src[3]-src[1], dib->bits, - dib->info, DIB_RGB_COLORS, SRCCOPY); + StretchDIBits( + (HDC)dc, + dst[0], + dst[1], + dst[2] - dst[0], + dst[3] - dst[1], + src[0], + src[1], + src[2] - src[0], + src[3] - src[1], + dib->bits, + dib->info, + DIB_RGB_COLORS, + SRCCOPY); } else { /* stretchblt (displays) */ if (dib->palette != 0) { - SelectPalette((HDC) dc, dib->palette, FALSE); + SelectPalette((HDC)dc, dib->palette, FALSE); } - StretchBlt((HDC) dc, dst[0], dst[1], dst[2]-dst[0], dst[3]-dst[1], - dib->dc, src[0], src[1], src[2]-src[0], src[3]-src[1], - SRCCOPY); + StretchBlt( + (HDC)dc, + dst[0], + dst[1], + dst[2] - dst[0], + dst[3] - dst[1], + dib->dc, + src[0], + src[1], + src[2] - src[0], + src[3] - src[1], + SRCCOPY); } } int -ImagingQueryPaletteDIB(ImagingDIB dib, void *dc) -{ +ImagingQueryPaletteDIB(ImagingDIB dib, void *dc) { /* Install bitmap palette */ int n; if (dib->palette != 0) { - /* Realize associated palette */ - HPALETTE now = SelectPalette((HDC) dc, dib->palette, FALSE); - n = RealizePalette((HDC) dc); + HPALETTE now = SelectPalette((HDC)dc, dib->palette, FALSE); + n = RealizePalette((HDC)dc); /* Restore palette */ - SelectPalette((HDC) dc, now, FALSE); + SelectPalette((HDC)dc, now, FALSE); } else { n = 0; @@ -293,8 +294,7 @@ ImagingQueryPaletteDIB(ImagingDIB dib, void *dc) } void -ImagingDeleteDIB(ImagingDIB dib) -{ +ImagingDeleteDIB(ImagingDIB dib) { /* Clean up */ if (dib->palette) { diff --git a/src/libImaging/Draw.c b/src/libImaging/Draw.c index 08f6c38437b..dfb460b9e67 100644 --- a/src/libImaging/Draw.c +++ b/src/libImaging/Draw.c @@ -36,17 +36,17 @@ #include -#define CEIL(v) (int) ceil(v) -#define FLOOR(v) ((v) >= 0.0 ? (int) (v) : (int) floor(v)) +#define CEIL(v) (int)ceil(v) +#define FLOOR(v) ((v) >= 0.0 ? (int)(v) : (int)floor(v)) -#define INK8(ink) (*(UINT8*)ink) +#define INK8(ink) (*(UINT8 *)ink) /* * Rounds around zero (up=away from zero, down=towards zero) * This guarantees that ROUND_UP|DOWN(f) == -ROUND_UP|DOWN(-f) */ -#define ROUND_UP(f) ((int) ((f) >= 0.0 ? floor((f) + 0.5F) : -floor(fabs(f) + 0.5F))) -#define ROUND_DOWN(f) ((int) ((f) >= 0.0 ? ceil((f) - 0.5F) : -ceil(fabs(f) - 0.5F))) +#define ROUND_UP(f) ((int)((f) >= 0.0 ? floor((f) + 0.5F) : -floor(fabs(f) + 0.5F))) +#define ROUND_DOWN(f) ((int)((f) >= 0.0 ? ceil((f)-0.5F) : -ceil(fabs(f) - 0.5F))) /* -------------------------------------------------------------------- */ /* Primitives */ @@ -64,34 +64,31 @@ typedef struct { typedef void (*hline_handler)(Imaging, int, int, int, int); static inline void -point8(Imaging im, int x, int y, int ink) -{ +point8(Imaging im, int x, int y, int ink) { if (x >= 0 && x < im->xsize && y >= 0 && y < im->ysize) { if (strncmp(im->mode, "I;16", 4) == 0) { - im->image8[y][x*2] = (UINT8) ink; - im->image8[y][x*2+1] = (UINT8) ink; + im->image8[y][x * 2] = (UINT8)ink; + im->image8[y][x * 2 + 1] = (UINT8)ink; } else { - im->image8[y][x] = (UINT8) ink; + im->image8[y][x] = (UINT8)ink; } } } static inline void -point32(Imaging im, int x, int y, int ink) -{ +point32(Imaging im, int x, int y, int ink) { if (x >= 0 && x < im->xsize && y >= 0 && y < im->ysize) { im->image32[y][x] = ink; } } static inline void -point32rgba(Imaging im, int x, int y, int ink) -{ +point32rgba(Imaging im, int x, int y, int ink) { unsigned int tmp1; if (x >= 0 && x < im->xsize && y >= 0 && y < im->ysize) { - UINT8* out = (UINT8*) im->image[y]+x*4; - UINT8* in = (UINT8*) &ink; + UINT8 *out = (UINT8 *)im->image[y] + x * 4; + UINT8 *in = (UINT8 *)&ink; out[0] = BLEND(in[3], out[0], in[0], tmp1); out[1] = BLEND(in[3], out[1], in[1], tmp1); out[2] = BLEND(in[3], out[2], in[2], tmp1); @@ -99,8 +96,7 @@ point32rgba(Imaging im, int x, int y, int ink) } static inline void -hline8(Imaging im, int x0, int y0, int x1, int ink) -{ +hline8(Imaging im, int x0, int y0, int x1, int ink) { int tmp, pixelwidth; if (y0 >= 0 && y0 < im->ysize) { @@ -115,21 +111,22 @@ hline8(Imaging im, int x0, int y0, int x1, int ink) if (x1 < 0) { return; } else if (x1 >= im->xsize) { - x1 = im->xsize-1; + x1 = im->xsize - 1; } if (x0 <= x1) { pixelwidth = strncmp(im->mode, "I;16", 4) == 0 ? 2 : 1; - memset(im->image8[y0] + x0 * pixelwidth, (UINT8) ink, - (x1 - x0 + 1) * pixelwidth); + memset( + im->image8[y0] + x0 * pixelwidth, + (UINT8)ink, + (x1 - x0 + 1) * pixelwidth); } } } static inline void -hline32(Imaging im, int x0, int y0, int x1, int ink) -{ +hline32(Imaging im, int x0, int y0, int x1, int ink) { int tmp; - INT32* p; + INT32 *p; if (y0 >= 0 && y0 < im->ysize) { if (x0 > x1) { @@ -143,7 +140,7 @@ hline32(Imaging im, int x0, int y0, int x1, int ink) if (x1 < 0) { return; } else if (x1 >= im->xsize) { - x1 = im->xsize-1; + x1 = im->xsize - 1; } p = im->image32[y0]; while (x0 <= x1) { @@ -153,8 +150,7 @@ hline32(Imaging im, int x0, int y0, int x1, int ink) } static inline void -hline32rgba(Imaging im, int x0, int y0, int x1, int ink) -{ +hline32rgba(Imaging im, int x0, int y0, int x1, int ink) { int tmp; unsigned int tmp1; @@ -170,36 +166,36 @@ hline32rgba(Imaging im, int x0, int y0, int x1, int ink) if (x1 < 0) { return; } else if (x1 >= im->xsize) { - x1 = im->xsize-1; + x1 = im->xsize - 1; } if (x0 <= x1) { - UINT8* out = (UINT8*) im->image[y0]+x0*4; - UINT8* in = (UINT8*) &ink; + UINT8 *out = (UINT8 *)im->image[y0] + x0 * 4; + UINT8 *in = (UINT8 *)&ink; while (x0 <= x1) { out[0] = BLEND(in[3], out[0], in[0], tmp1); out[1] = BLEND(in[3], out[1], in[1], tmp1); out[2] = BLEND(in[3], out[2], in[2], tmp1); - x0++; out += 4; + x0++; + out += 4; } } } } static inline void -line8(Imaging im, int x0, int y0, int x1, int y1, int ink) -{ +line8(Imaging im, int x0, int y0, int x1, int y1, int ink) { int i, n, e; int dx, dy; int xs, ys; /* normalize coordinates */ - dx = x1-x0; + dx = x1 - x0; if (dx < 0) { dx = -dx, xs = -1; } else { xs = 1; } - dy = y1-y0; + dy = y1 - y0; if (dy < 0) { dy = -dy, ys = -1; } else { @@ -209,7 +205,6 @@ line8(Imaging im, int x0, int y0, int x1, int y1, int ink) n = (dx > dy) ? dx : dy; if (dx == 0) { - /* vertical */ for (i = 0; i < dy; i++) { point8(im, x0, y0, ink); @@ -217,7 +212,6 @@ line8(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dy == 0) { - /* horizontal */ for (i = 0; i < dx; i++) { point8(im, x0, y0, ink); @@ -225,7 +219,6 @@ line8(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dx > dy) { - /* bresenham, horizontal slope */ n = dx; dy += dy; @@ -243,7 +236,6 @@ line8(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else { - /* bresenham, vertical slope */ n = dy; dx += dx; @@ -259,25 +251,23 @@ line8(Imaging im, int x0, int y0, int x1, int y1, int ink) e += dx; y0 += ys; } - } } static inline void -line32(Imaging im, int x0, int y0, int x1, int y1, int ink) -{ +line32(Imaging im, int x0, int y0, int x1, int y1, int ink) { int i, n, e; int dx, dy; int xs, ys; /* normalize coordinates */ - dx = x1-x0; + dx = x1 - x0; if (dx < 0) { dx = -dx, xs = -1; } else { xs = 1; } - dy = y1-y0; + dy = y1 - y0; if (dy < 0) { dy = -dy, ys = -1; } else { @@ -287,7 +277,6 @@ line32(Imaging im, int x0, int y0, int x1, int y1, int ink) n = (dx > dy) ? dx : dy; if (dx == 0) { - /* vertical */ for (i = 0; i < dy; i++) { point32(im, x0, y0, ink); @@ -295,7 +284,6 @@ line32(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dy == 0) { - /* horizontal */ for (i = 0; i < dx; i++) { point32(im, x0, y0, ink); @@ -303,7 +291,6 @@ line32(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dx > dy) { - /* bresenham, horizontal slope */ n = dx; dy += dy; @@ -321,7 +308,6 @@ line32(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else { - /* bresenham, vertical slope */ n = dy; dx += dx; @@ -337,25 +323,23 @@ line32(Imaging im, int x0, int y0, int x1, int y1, int ink) e += dx; y0 += ys; } - } } static inline void -line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) -{ +line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) { int i, n, e; int dx, dy; int xs, ys; /* normalize coordinates */ - dx = x1-x0; + dx = x1 - x0; if (dx < 0) { dx = -dx, xs = -1; } else { xs = 1; } - dy = y1-y0; + dy = y1 - y0; if (dy < 0) { dy = -dy, ys = -1; } else { @@ -365,7 +349,6 @@ line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) n = (dx > dy) ? dx : dy; if (dx == 0) { - /* vertical */ for (i = 0; i < dy; i++) { point32rgba(im, x0, y0, ink); @@ -373,7 +356,6 @@ line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dy == 0) { - /* horizontal */ for (i = 0; i < dx; i++) { point32rgba(im, x0, y0, ink); @@ -381,7 +363,6 @@ line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else if (dx > dy) { - /* bresenham, horizontal slope */ n = dx; dy += dy; @@ -399,7 +380,6 @@ line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) } } else { - /* bresenham, vertical slope */ n = dy; dx += dx; @@ -415,14 +395,12 @@ line32rgba(Imaging im, int x0, int y0, int x1, int y1, int ink) e += dx; y0 += ys; } - } } static int -x_cmp(const void *x0, const void *x1) -{ - float diff = *((float*)x0) - *((float*)x1); +x_cmp(const void *x0, const void *x1) { + float diff = *((float *)x0) - *((float *)x1); if (diff < 0) { return -1; } else if (diff > 0) { @@ -432,10 +410,9 @@ x_cmp(const void *x0, const void *x1) } } - static void -draw_horizontal_lines(Imaging im, int n, Edge *e, int ink, int *x_pos, int y, hline_handler hline) -{ +draw_horizontal_lines( + Imaging im, int n, Edge *e, int ink, int *x_pos, int y, hline_handler hline) { int i; for (i = 0; i < n; i++) { if (e[i].ymin == y && e[i].ymin == e[i].ymax) { @@ -457,7 +434,7 @@ draw_horizontal_lines(Imaging im, int n, Edge *e, int ink, int *x_pos, int y, hl } (*hline)(im, xmin, e[i].ymin, xmax, ink); - *x_pos = xmax+1; + *x_pos = xmax + 1; } } } @@ -466,12 +443,9 @@ draw_horizontal_lines(Imaging im, int n, Edge *e, int ink, int *x_pos, int y, hl * Filled polygon draw function using scan line algorithm. */ static inline int -polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, - hline_handler hline) -{ - - Edge** edge_table; - float* xx; +polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, hline_handler hline) { + Edge **edge_table; + float *xx; int edge_count = 0; int ymin = im->ysize - 1; int ymax = 0; @@ -483,7 +457,7 @@ polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, /* Initialize the edge table and find polygon boundaries */ /* malloc check ok, using calloc */ - edge_table = calloc(n, sizeof(Edge*)); + edge_table = calloc(n, sizeof(Edge *)); if (!edge_table) { return -1; } @@ -518,7 +492,7 @@ polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, int j = 0; int x_pos = 0; for (i = 0; i < edge_count; i++) { - Edge* current = edge_table[i]; + Edge *current = edge_table[i]; if (ymin >= current->ymin && ymin <= current->ymax) { xx[j++] = (ymin - current->y0) * current->dx + current->x0; } @@ -541,7 +515,7 @@ polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, continue; } - int x_start = ROUND_UP(xx[i-1]); + int x_start = ROUND_UP(xx[i - 1]); if (x_pos > x_start) { // Line would be partway through x_pos, so increase the starting point x_start = x_pos; @@ -551,7 +525,7 @@ polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, } } (*hline)(im, x_start, ymin, x_end, ink); - x_pos = x_end+1; + x_pos = x_end + 1; } draw_horizontal_lines(im, n, e, ink, &x_pos, ymin, hline); } @@ -562,26 +536,22 @@ polygon_generic(Imaging im, int n, Edge *e, int ink, int eofill, } static inline int -polygon8(Imaging im, int n, Edge *e, int ink, int eofill) -{ +polygon8(Imaging im, int n, Edge *e, int ink, int eofill) { return polygon_generic(im, n, e, ink, eofill, hline8); } static inline int -polygon32(Imaging im, int n, Edge *e, int ink, int eofill) -{ +polygon32(Imaging im, int n, Edge *e, int ink, int eofill) { return polygon_generic(im, n, e, ink, eofill, hline32); } static inline int -polygon32rgba(Imaging im, int n, Edge *e, int ink, int eofill) -{ +polygon32rgba(Imaging im, int n, Edge *e, int ink, int eofill) { return polygon_generic(im, n, e, ink, eofill, hline32rgba); } static inline void -add_edge(Edge *e, int x0, int y0, int x1, int y1) -{ +add_edge(Edge *e, int x0, int y0, int x1, int y1) { /* printf("edge %d %d %d %d\n", x0, y0, x1, y1); */ if (x0 <= x1) { @@ -600,7 +570,7 @@ add_edge(Edge *e, int x0, int y0, int x1, int y1) e->d = 0; e->dx = 0.0; } else { - e->dx = ((float)(x1-x0)) / (y1-y0); + e->dx = ((float)(x1 - x0)) / (y1 - y0); if (y0 == e->ymin) { e->d = 1; } else { @@ -619,27 +589,26 @@ typedef struct { int (*polygon)(Imaging im, int n, Edge *e, int ink, int eofill); } DRAW; -DRAW draw8 = { point8, hline8, line8, polygon8 }; -DRAW draw32 = { point32, hline32, line32, polygon32 }; -DRAW draw32rgba = { point32rgba, hline32rgba, line32rgba, polygon32rgba }; +DRAW draw8 = {point8, hline8, line8, polygon8}; +DRAW draw32 = {point32, hline32, line32, polygon32}; +DRAW draw32rgba = {point32rgba, hline32rgba, line32rgba, polygon32rgba}; /* -------------------------------------------------------------------- */ /* Interface */ /* -------------------------------------------------------------------- */ -#define DRAWINIT()\ - if (im->image8) {\ - draw = &draw8;\ - ink = INK8(ink_);\ - } else {\ - draw = (op) ? &draw32rgba : &draw32; \ - memcpy(&ink, ink_, sizeof(ink)); \ +#define DRAWINIT() \ + if (im->image8) { \ + draw = &draw8; \ + ink = INK8(ink_); \ + } else { \ + draw = (op) ? &draw32rgba : &draw32; \ + memcpy(&ink, ink_, sizeof(ink)); \ } int -ImagingDrawPoint(Imaging im, int x0, int y0, const void* ink_, int op) -{ - DRAW* draw; +ImagingDrawPoint(Imaging im, int x0, int y0, const void *ink_, int op) { + DRAW *draw; INT32 ink; DRAWINIT(); @@ -650,10 +619,8 @@ ImagingDrawPoint(Imaging im, int x0, int y0, const void* ink_, int op) } int -ImagingDrawLine(Imaging im, int x0, int y0, int x1, int y1, const void* ink_, - int op) -{ - DRAW* draw; +ImagingDrawLine(Imaging im, int x0, int y0, int x1, int y1, const void *ink_, int op) { + DRAW *draw; INT32 ink; DRAWINIT(); @@ -664,10 +631,9 @@ ImagingDrawLine(Imaging im, int x0, int y0, int x1, int y1, const void* ink_, } int -ImagingDrawWideLine(Imaging im, int x0, int y0, int x1, int y1, - const void* ink_, int width, int op) -{ - DRAW* draw; +ImagingDrawWideLine( + Imaging im, int x0, int y0, int x1, int y1, const void *ink_, int width, int op) { + DRAW *draw; INT32 ink; int dx, dy; double big_hypotenuse, small_hypotenuse, ratio_max, ratio_min; @@ -676,8 +642,8 @@ ImagingDrawWideLine(Imaging im, int x0, int y0, int x1, int y1, DRAWINIT(); - dx = x1-x0; - dy = y1-y0; + dx = x1 - x0; + dy = y1 - y0; if (dx == 0 && dy == 0) { draw->point(im, x0, y0, ink); return 0; @@ -693,17 +659,15 @@ ImagingDrawWideLine(Imaging im, int x0, int y0, int x1, int y1, dymin = ROUND_DOWN(ratio_min * dx); dymax = ROUND_DOWN(ratio_max * dx); { - int vertices[4][2] = { - {x0 - dxmin, y0 + dymax}, - {x1 - dxmin, y1 + dymax}, - {x1 + dxmax, y1 - dymin}, - {x0 + dxmax, y0 - dymin} - }; - - add_edge(e+0, vertices[0][0], vertices[0][1], vertices[1][0], vertices[1][1]); - add_edge(e+1, vertices[1][0], vertices[1][1], vertices[2][0], vertices[2][1]); - add_edge(e+2, vertices[2][0], vertices[2][1], vertices[3][0], vertices[3][1]); - add_edge(e+3, vertices[3][0], vertices[3][1], vertices[0][0], vertices[0][1]); + int vertices[4][2] = {{x0 - dxmin, y0 + dymax}, + {x1 - dxmin, y1 + dymax}, + {x1 + dxmax, y1 - dymin}, + {x0 + dxmax, y0 - dymin}}; + + add_edge(e + 0, vertices[0][0], vertices[0][1], vertices[1][0], vertices[1][1]); + add_edge(e + 1, vertices[1][0], vertices[1][1], vertices[2][0], vertices[2][1]); + add_edge(e + 2, vertices[2][0], vertices[2][1], vertices[3][0], vertices[3][1]); + add_edge(e + 3, vertices[3][0], vertices[3][1], vertices[0][0], vertices[0][1]); draw->polygon(im, 4, e, ink, 0); } @@ -711,13 +675,20 @@ ImagingDrawWideLine(Imaging im, int x0, int y0, int x1, int y1, } int -ImagingDrawRectangle(Imaging im, int x0, int y0, int x1, int y1, - const void* ink_, int fill, int width, int op) -{ +ImagingDrawRectangle( + Imaging im, + int x0, + int y0, + int x1, + int y1, + const void *ink_, + int fill, + int width, + int op) { int i; int y; int tmp; - DRAW* draw; + DRAW *draw; INT32 ink; DRAWINIT(); @@ -727,7 +698,6 @@ ImagingDrawRectangle(Imaging im, int x0, int y0, int x1, int y1, } if (fill) { - if (y0 < 0) { y0 = 0; } else if (y0 >= im->ysize) { @@ -750,10 +720,10 @@ ImagingDrawRectangle(Imaging im, int x0, int y0, int x1, int y1, width = 1; } for (i = 0; i < width; i++) { - draw->hline(im, x0, y0+i, x1, ink); - draw->hline(im, x0, y1-i, x1, ink); - draw->line(im, x1-i, y0, x1-i, y1, ink); - draw->line(im, x0+i, y1, x0+i, y0, ink); + draw->hline(im, x0, y0 + i, x1, ink); + draw->hline(im, x0, y1 - i, x1, ink); + draw->line(im, x1 - i, y0, x1 - i, y1, ink); + draw->line(im, x0 + i, y1, x0 + i, y0, ink); } } @@ -761,11 +731,9 @@ ImagingDrawRectangle(Imaging im, int x0, int y0, int x1, int y1, } int -ImagingDrawPolygon(Imaging im, int count, int* xy, const void* ink_, - int fill, int op) -{ +ImagingDrawPolygon(Imaging im, int count, int *xy, const void *ink_, int fill, int op) { int i, n; - DRAW* draw; + DRAW *draw; INT32 ink; if (count <= 0) { @@ -775,44 +743,37 @@ ImagingDrawPolygon(Imaging im, int count, int* xy, const void* ink_, DRAWINIT(); if (fill) { - /* Build edge list */ /* malloc check ok, using calloc */ - Edge* e = calloc(count, sizeof(Edge)); + Edge *e = calloc(count, sizeof(Edge)); if (!e) { - (void) ImagingError_MemoryError(); + (void)ImagingError_MemoryError(); return -1; } - for (i = n = 0; i < count-1; i++) { - add_edge(&e[n++], xy[i+i], xy[i+i+1], xy[i+i+2], xy[i+i+3]); + for (i = n = 0; i < count - 1; i++) { + add_edge(&e[n++], xy[i + i], xy[i + i + 1], xy[i + i + 2], xy[i + i + 3]); } - if (xy[i+i] != xy[0] || xy[i+i+1] != xy[1]) { - add_edge(&e[n++], xy[i+i], xy[i+i+1], xy[0], xy[1]); + if (xy[i + i] != xy[0] || xy[i + i + 1] != xy[1]) { + add_edge(&e[n++], xy[i + i], xy[i + i + 1], xy[0], xy[1]); } draw->polygon(im, n, e, ink, 0); free(e); } else { - /* Outline */ - for (i = 0; i < count-1; i++) { - draw->line(im, xy[i+i], xy[i+i+1], xy[i+i+2], xy[i+i+3], ink); + for (i = 0; i < count - 1; i++) { + draw->line(im, xy[i + i], xy[i + i + 1], xy[i + i + 2], xy[i + i + 3], ink); } - draw->line(im, xy[i+i], xy[i+i+1], xy[0], xy[1], ink); - + draw->line(im, xy[i + i], xy[i + i + 1], xy[0], xy[1], ink); } return 0; } int -ImagingDrawBitmap(Imaging im, int x0, int y0, Imaging bitmap, const void* ink, - int op) -{ +ImagingDrawBitmap(Imaging im, int x0, int y0, Imaging bitmap, const void *ink, int op) { return ImagingFill2( - im, ink, bitmap, - x0, y0, x0 + bitmap->xsize, y0 + bitmap->ysize - ); + im, ink, bitmap, x0, y0, x0 + bitmap->xsize, y0 + bitmap->ysize); } /* -------------------------------------------------------------------- */ @@ -823,16 +784,14 @@ ImagingDrawBitmap(Imaging im, int x0, int y0, Imaging bitmap, const void* ink, #define PIESLICE 2 static void -ellipsePoint(int cx, int cy, int w, int h, - float i, int *x, int *y) -{ +ellipsePoint(int cx, int cy, int w, int h, float i, int *x, int *y) { float i_cos, i_sin; float x_f, y_f; double modf_int; - i_cos = cos(i*M_PI/180); - i_sin = sin(i*M_PI/180); - x_f = (i_cos * w/2) + cx; - y_f = (i_sin * h/2) + cy; + i_cos = cos(i * M_PI / 180); + i_sin = sin(i * M_PI / 180); + x_f = (i_cos * w / 2) + cx; + y_f = (i_sin * h / 2) + cy; if (modf(x_f, &modf_int) == 0.5) { *x = i_cos > 0 ? FLOOR(x_f) : CEIL(x_f); } else { @@ -846,10 +805,19 @@ ellipsePoint(int cx, int cy, int w, int h, } static int -ellipse(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink_, int fill, - int width, int mode, int op) -{ +ellipse( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink_, + int fill, + int width, + int mode, + int op) { float i; int inner; int n; @@ -861,9 +829,9 @@ ellipse(Imaging im, int x0, int y0, int x1, int y1, int sx = 0, sy = 0; int lx_inner = 0, ly_inner = 0; int sx_inner = 0, sy_inner = 0; - DRAW* draw; + DRAW *draw; INT32 ink; - Edge* e; + Edge *e; DRAWINIT(); @@ -886,7 +854,7 @@ ellipse(Imaging im, int x0, int y0, int x1, int y1, cy = (y0 + y1) / 2; if (!fill && width <= 1) { - for (i = start; i < end+1; i++) { + for (i = start; i < end + 1; i++) { if (i > end) { i = end; } @@ -929,7 +897,7 @@ ellipse(Imaging im, int x0, int y0, int x1, int y1, // Outer circle n = 0; - for (i = start; i < end+1; i++) { + for (i = start; i < end + 1; i++) { if (i > end) { i = end; } @@ -959,7 +927,7 @@ ellipse(Imaging im, int x0, int y0, int x1, int y1, mode = PIESLICE; inner = 0; } else { - for (i = start; i < end+1; i++) { + for (i = start; i < end + 1; i++) { if (i > end) { i = end; } @@ -1005,32 +973,63 @@ ellipse(Imaging im, int x0, int y0, int x1, int y1, } int -ImagingDrawArc(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int width, int op) -{ +ImagingDrawArc( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int width, + int op) { return ellipse(im, x0, y0, x1, y1, start, end, ink, 0, width, ARC, op); } int -ImagingDrawChord(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int fill, - int width, int op) -{ +ImagingDrawChord( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int fill, + int width, + int op) { return ellipse(im, x0, y0, x1, y1, start, end, ink, fill, width, CHORD, op); } int -ImagingDrawEllipse(Imaging im, int x0, int y0, int x1, int y1, - const void* ink, int fill, int width, int op) -{ +ImagingDrawEllipse( + Imaging im, + int x0, + int y0, + int x1, + int y1, + const void *ink, + int fill, + int width, + int op) { return ellipse(im, x0, y0, x1, y1, 0, 360, ink, fill, width, CHORD, op); } int -ImagingDrawPieslice(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int fill, - int width, int op) -{ +ImagingDrawPieslice( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int fill, + int width, + int op) { return ellipse(im, x0, y0, x1, y1, start, end, ink, fill, width, PIESLICE, op); } @@ -1042,7 +1041,6 @@ ImagingDrawPieslice(Imaging im, int x0, int y0, int x1, int y1, itself */ struct ImagingOutlineInstance { - float x0, y0; float x, y; @@ -1051,18 +1049,15 @@ struct ImagingOutlineInstance { Edge *edges; int size; - }; - ImagingOutline -ImagingOutlineNew(void) -{ +ImagingOutlineNew(void) { ImagingOutline outline; outline = calloc(1, sizeof(struct ImagingOutlineInstance)); if (!outline) { - return (ImagingOutline) ImagingError_MemoryError(); + return (ImagingOutline)ImagingError_MemoryError(); } outline->edges = NULL; @@ -1074,8 +1069,7 @@ ImagingOutlineNew(void) } void -ImagingOutlineDelete(ImagingOutline outline) -{ +ImagingOutlineDelete(ImagingOutline outline) { if (!outline) { return; } @@ -1087,11 +1081,9 @@ ImagingOutlineDelete(ImagingOutline outline) free(outline); } - -static Edge* -allocate(ImagingOutline outline, int extra) -{ - Edge* e; +static Edge * +allocate(ImagingOutline outline, int extra) { + Edge *e; if (outline->count + extra > outline->size) { /* expand outline buffer */ @@ -1120,8 +1112,7 @@ allocate(ImagingOutline outline, int extra) } int -ImagingOutlineMove(ImagingOutline outline, float x0, float y0) -{ +ImagingOutlineMove(ImagingOutline outline, float x0, float y0) { outline->x = outline->x0 = x0; outline->y = outline->y0 = y0; @@ -1129,16 +1120,15 @@ ImagingOutlineMove(ImagingOutline outline, float x0, float y0) } int -ImagingOutlineLine(ImagingOutline outline, float x1, float y1) -{ - Edge* e; +ImagingOutlineLine(ImagingOutline outline, float x1, float y1) { + Edge *e; e = allocate(outline, 1); if (!e) { return -1; /* out of memory */ } - add_edge(e, (int) outline->x, (int) outline->y, (int) x1, (int) y1); + add_edge(e, (int)outline->x, (int)outline->y, (int)x1, (int)y1); outline->x = x1; outline->y = y1; @@ -1147,10 +1137,15 @@ ImagingOutlineLine(ImagingOutline outline, float x1, float y1) } int -ImagingOutlineCurve(ImagingOutline outline, float x1, float y1, - float x2, float y2, float x3, float y3) -{ - Edge* e; +ImagingOutlineCurve( + ImagingOutline outline, + float x1, + float y1, + float x2, + float y2, + float x3, + float y3) { + Edge *e; int i; float xo, yo; @@ -1167,22 +1162,20 @@ ImagingOutlineCurve(ImagingOutline outline, float x1, float y1, /* flatten the bezier segment */ for (i = 1; i <= STEPS; i++) { - - float t = ((float) i) / STEPS; - float t2 = t*t; - float t3 = t2*t; + float t = ((float)i) / STEPS; + float t2 = t * t; + float t3 = t2 * t; float u = 1.0F - t; - float u2 = u*u; - float u3 = u2*u; + float u2 = u * u; + float u3 = u2 * u; - float x = outline->x*u3 + 3*(x1*t*u2 + x2*t2*u) + x3*t3 + 0.5; - float y = outline->y*u3 + 3*(y1*t*u2 + y2*t2*u) + y3*t3 + 0.5; + float x = outline->x * u3 + 3 * (x1 * t * u2 + x2 * t2 * u) + x3 * t3 + 0.5; + float y = outline->y * u3 + 3 * (y1 * t * u2 + y2 * t2 * u) + y3 * t3 + 0.5; - add_edge(e++, xo, yo, (int) x, (int) y); + add_edge(e++, xo, yo, (int)x, (int)y); xo = x, yo = y; - } outline->x = xo; @@ -1192,8 +1185,7 @@ ImagingOutlineCurve(ImagingOutline outline, float x1, float y1, } int -ImagingOutlineClose(ImagingOutline outline) -{ +ImagingOutlineClose(ImagingOutline outline) { if (outline->x == outline->x0 && outline->y == outline->y0) { return 0; } @@ -1201,16 +1193,19 @@ ImagingOutlineClose(ImagingOutline outline) } int -ImagingOutlineTransform(ImagingOutline outline, double a[6]) -{ +ImagingOutlineTransform(ImagingOutline outline, double a[6]) { Edge *eIn; Edge *eOut; int i, n; int x0, y0, x1, y1; int X0, Y0, X1, Y1; - double a0 = a[0]; double a1 = a[1]; double a2 = a[2]; - double a3 = a[3]; double a4 = a[4]; double a5 = a[5]; + double a0 = a[0]; + double a1 = a[1]; + double a2 = a[2]; + double a3 = a[3]; + double a4 = a[4]; + double a5 = a[5]; eIn = outline->edges; n = outline->count; @@ -1228,7 +1223,6 @@ ImagingOutlineTransform(ImagingOutline outline, double a[6]) } for (i = 0; i < n; i++) { - x0 = eIn->x0; y0 = eIn->y0; @@ -1248,16 +1242,15 @@ ImagingOutlineTransform(ImagingOutline outline, double a[6]) upgrade your compiler (make sure you have the right service pack) */ - X0 = (int) (a0*x0 + a1*y0 + a2); - Y0 = (int) (a3*x0 + a4*y0 + a5); - X1 = (int) (a0*x1 + a1*y1 + a2); - Y1 = (int) (a3*x1 + a4*y1 + a5); + X0 = (int)(a0 * x0 + a1 * y0 + a2); + Y0 = (int)(a3 * x0 + a4 * y0 + a5); + X1 = (int)(a0 * x1 + a1 * y1 + a2); + Y1 = (int)(a3 * x1 + a4 * y1 + a5); add_edge(eOut, X0, Y0, X1, Y1); eIn++; eOut++; - } free(eIn); @@ -1266,10 +1259,9 @@ ImagingOutlineTransform(ImagingOutline outline, double a[6]) } int -ImagingDrawOutline(Imaging im, ImagingOutline outline, const void* ink_, - int fill, int op) -{ - DRAW* draw; +ImagingDrawOutline( + Imaging im, ImagingOutline outline, const void *ink_, int fill, int op) { + DRAW *draw; INT32 ink; DRAWINIT(); diff --git a/src/libImaging/Effects.c b/src/libImaging/Effects.c index b9ff889d231..6ff9786cb63 100644 --- a/src/libImaging/Effects.c +++ b/src/libImaging/Effects.c @@ -15,14 +15,12 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include Imaging -ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality) -{ +ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality) { /* Generate a Mandelbrot set covering the given extent */ Imaging im; @@ -32,10 +30,10 @@ ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality) double dr, di; /* Check arguments */ - width = extent[2] - extent[0]; + width = extent[2] - extent[0]; height = extent[3] - extent[1]; if (width < 0.0 || height < 0.0 || quality < 2) { - return (Imaging) ImagingError_ValueError(NULL); + return (Imaging)ImagingError_ValueError(NULL); } im = ImagingNewDirty("L", xsize, ysize); @@ -43,24 +41,24 @@ ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality) return NULL; } - dr = width/(xsize-1); - di = height/(ysize-1); + dr = width / (xsize - 1); + di = height / (ysize - 1); radius = 100.0; for (y = 0; y < ysize; y++) { - UINT8* buf = im->image8[y]; + UINT8 *buf = im->image8[y]; for (x = 0; x < xsize; x++) { x1 = y1 = xi2 = yi2 = 0.0; - cr = x*dr + extent[0]; - ci = y*di + extent[1]; + cr = x * dr + extent[0]; + ci = y * di + extent[1]; for (k = 1;; k++) { - y1 = 2*x1*y1 + ci; + y1 = 2 * x1 * y1 + ci; x1 = xi2 - yi2 + cr; - xi2 = x1*x1; - yi2 = y1*y1; + xi2 = x1 * x1; + yi2 = y1 * y1; if ((xi2 + yi2) > radius) { - buf[x] = k*255/quality; + buf[x] = k * 255 / quality; break; } if (k > quality) { @@ -74,8 +72,7 @@ ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality) } Imaging -ImagingEffectNoise(int xsize, int ysize, float sigma) -{ +ImagingEffectNoise(int xsize, int ysize, float sigma) { /* Generate Gaussian noise centered around 128 */ Imaging imOut; @@ -92,7 +89,7 @@ ImagingEffectNoise(int xsize, int ysize, float sigma) nextok = 0; for (y = 0; y < imOut->ysize; y++) { - UINT8* out = imOut->image8[y]; + UINT8 *out = imOut->image8[y]; for (x = 0; x < imOut->xsize; x++) { if (nextok) { this = next; @@ -101,11 +98,11 @@ ImagingEffectNoise(int xsize, int ysize, float sigma) /* after numerical recipes */ double v1, v2, radius, factor; do { - v1 = rand()*(2.0/RAND_MAX) - 1.0; - v2 = rand()*(2.0/RAND_MAX) - 1.0; - radius= v1*v1 + v2*v2; + v1 = rand() * (2.0 / RAND_MAX) - 1.0; + v2 = rand() * (2.0 / RAND_MAX) - 1.0; + radius = v1 * v1 + v2 * v2; } while (radius >= 1.0); - factor = sqrt(-2.0*log(radius)/radius); + factor = sqrt(-2.0 * log(radius) / radius); this = factor * v1; next = factor * v2; } @@ -117,8 +114,7 @@ ImagingEffectNoise(int xsize, int ysize, float sigma) } Imaging -ImagingEffectSpread(Imaging imIn, int distance) -{ +ImagingEffectSpread(Imaging imIn, int distance) { /* Randomly spread pixels in an image */ Imaging imOut; @@ -130,18 +126,18 @@ ImagingEffectSpread(Imaging imIn, int distance) return NULL; } -#define SPREAD(type, image)\ - for (y = 0; y < imOut->ysize; y++) {\ - for (x = 0; x < imOut->xsize; x++) {\ - int xx = x + (rand() % distance) - distance/2;\ - int yy = y + (rand() % distance) - distance/2;\ - if (xx >= 0 && xx < imIn->xsize && yy >= 0 && yy < imIn->ysize) {\ - imOut->image[yy][xx] = imIn->image[y][x];\ - imOut->image[y][x] = imIn->image[yy][xx];\ - } else {\ - imOut->image[y][x] = imIn->image[y][x];\ - }\ - }\ +#define SPREAD(type, image) \ + for (y = 0; y < imOut->ysize; y++) { \ + for (x = 0; x < imOut->xsize; x++) { \ + int xx = x + (rand() % distance) - distance / 2; \ + int yy = y + (rand() % distance) - distance / 2; \ + if (xx >= 0 && xx < imIn->xsize && yy >= 0 && yy < imIn->ysize) { \ + imOut->image[yy][xx] = imIn->image[y][x]; \ + imOut->image[y][x] = imIn->image[yy][xx]; \ + } else { \ + imOut->image[y][x] = imIn->image[y][x]; \ + } \ + } \ } if (imIn->image8) { diff --git a/src/libImaging/EpsEncode.c b/src/libImaging/EpsEncode.c index ac8a4059c3c..3f2cb33b2d2 100644 --- a/src/libImaging/EpsEncode.c +++ b/src/libImaging/EpsEncode.c @@ -17,28 +17,24 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - int -ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - enum { HEXBYTE=1, NEWLINE }; +ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + enum { HEXBYTE = 1, NEWLINE }; const char *hex = "0123456789abcdef"; - UINT8* ptr = buf; - UINT8* in, i; + UINT8 *ptr = buf; + UINT8 *in, i; if (!state->state) { state->state = HEXBYTE; state->xsize *= im->pixelsize; /* Hack! */ } - in = (UINT8*) im->image[state->y]; + in = (UINT8 *)im->image[state->y]; for (;;) { - if (state->state == NEWLINE) { if (bytes < 1) { break; @@ -53,8 +49,8 @@ ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } i = in[state->x++]; - *ptr++ = hex[(i>>4)&15]; - *ptr++ = hex[i&15]; + *ptr++ = hex[(i >> 4) & 15]; + *ptr++ = hex[i & 15]; bytes -= 2; /* Skip junk bytes */ @@ -62,7 +58,7 @@ ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) state->x++; } - if (++state->count >= 79/2) { + if (++state->count >= 79 / 2) { state->state = NEWLINE; state->count = 0; } @@ -73,11 +69,9 @@ ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) state->errcode = IMAGING_CODEC_END; break; } - in = (UINT8*) im->image[state->y]; + in = (UINT8 *)im->image[state->y]; } - } return ptr - buf; - } diff --git a/src/libImaging/Except.c b/src/libImaging/Except.c index 3903b5bb82d..f42ff9aec9e 100644 --- a/src/libImaging/Except.c +++ b/src/libImaging/Except.c @@ -19,41 +19,34 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - /* exception state */ void * -ImagingError_OSError(void) -{ +ImagingError_OSError(void) { fprintf(stderr, "*** exception: file access error\n"); return NULL; } void * -ImagingError_MemoryError(void) -{ +ImagingError_MemoryError(void) { fprintf(stderr, "*** exception: out of memory\n"); return NULL; } void * -ImagingError_ModeError(void) -{ +ImagingError_ModeError(void) { return ImagingError_ValueError("bad image mode"); } void * -ImagingError_Mismatch(void) -{ +ImagingError_Mismatch(void) { return ImagingError_ValueError("images don't match"); } void * -ImagingError_ValueError(const char *message) -{ +ImagingError_ValueError(const char *message) { if (!message) { message = "exception: bad argument to function"; } @@ -62,21 +55,18 @@ ImagingError_ValueError(const char *message) } void -ImagingError_Clear(void) -{ +ImagingError_Clear(void) { /* nop */; } /* thread state */ void -ImagingSectionEnter(ImagingSectionCookie* cookie) -{ +ImagingSectionEnter(ImagingSectionCookie *cookie) { /* pass */ } void -ImagingSectionLeave(ImagingSectionCookie* cookie) -{ +ImagingSectionLeave(ImagingSectionCookie *cookie) { /* pass */ } diff --git a/src/libImaging/File.c b/src/libImaging/File.c index 14688d661e0..76d0abccc4f 100644 --- a/src/libImaging/File.c +++ b/src/libImaging/File.c @@ -15,19 +15,15 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include - int -ImagingSaveRaw(Imaging im, FILE* fp) -{ +ImagingSaveRaw(Imaging im, FILE *fp) { int x, y, i; if (strcmp(im->mode, "1") == 0 || strcmp(im->mode, "L") == 0) { - /* @PIL227: FIXME: for mode "1", map != 0 to 255 */ /* PGM "L" */ @@ -36,33 +32,29 @@ ImagingSaveRaw(Imaging im, FILE* fp) } } else { - /* PPM "RGB" or other internal format */ for (y = 0; y < im->ysize; y++) { for (x = i = 0; x < im->xsize; x++, i += im->pixelsize) { - fwrite(im->image[y]+i, 1, im->bands, fp); + fwrite(im->image[y] + i, 1, im->bands, fp); } } - } return 1; } - int -ImagingSavePPM(Imaging im, const char* outfile) -{ - FILE* fp; +ImagingSavePPM(Imaging im, const char *outfile) { + FILE *fp; if (!im) { - (void) ImagingError_ValueError(NULL); + (void)ImagingError_ValueError(NULL); return 0; } fp = fopen(outfile, "wb"); if (!fp) { - (void) ImagingError_OSError(); + (void)ImagingError_OSError(); return 0; } @@ -74,7 +66,7 @@ ImagingSavePPM(Imaging im, const char* outfile) fprintf(fp, "P6\n%d %d\n255\n", im->xsize, im->ysize); } else { fclose(fp); - (void) ImagingError_ModeError(); + (void)ImagingError_ModeError(); return 0; } @@ -84,4 +76,3 @@ ImagingSavePPM(Imaging im, const char* outfile) return 1; } - diff --git a/src/libImaging/Fill.c b/src/libImaging/Fill.c index da143b4f943..e4e4b43443d 100644 --- a/src/libImaging/Fill.c +++ b/src/libImaging/Fill.c @@ -15,14 +15,12 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include "math.h" Imaging -ImagingFill(Imaging im, const void* colour) -{ +ImagingFill(Imaging im, const void *colour) { int x, y; ImagingSectionCookie cookie; @@ -53,7 +51,7 @@ ImagingFill(Imaging im, const void* colour) } } } else { - unsigned char cc = (unsigned char) *(UINT8*) colour; + unsigned char cc = (unsigned char)*(UINT8 *)colour; for (y = 0; y < im->ysize; y++) { memset(im->image[y], cc, im->linesize); } @@ -65,13 +63,12 @@ ImagingFill(Imaging im, const void* colour) } Imaging -ImagingFillLinearGradient(const char *mode) -{ +ImagingFillLinearGradient(const char *mode) { Imaging im; int y; if (strlen(mode) != 1) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } im = ImagingNewDirty(mode, 256, 256); @@ -80,21 +77,20 @@ ImagingFillLinearGradient(const char *mode) } for (y = 0; y < 256; y++) { - memset(im->image8[y], (unsigned char) y, 256); + memset(im->image8[y], (unsigned char)y, 256); } return im; } Imaging -ImagingFillRadialGradient(const char *mode) -{ +ImagingFillRadialGradient(const char *mode) { Imaging im; int x, y; int d; if (strlen(mode) != 1) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } im = ImagingNewDirty(mode, 256, 256); @@ -104,7 +100,8 @@ ImagingFillRadialGradient(const char *mode) for (y = 0; y < 256; y++) { for (x = 0; x < 256; x++) { - d = (int) sqrt((double) ((x-128)*(x-128) + (y-128)*(y-128)) * 2.0); + d = (int)sqrt( + (double)((x - 128) * (x - 128) + (y - 128) * (y - 128)) * 2.0); if (d >= 255) { im->image8[y][x] = 255; } else { diff --git a/src/libImaging/Filter.c b/src/libImaging/Filter.c index 0897ddbfe78..fab3b494819 100644 --- a/src/libImaging/Filter.c +++ b/src/libImaging/Filter.c @@ -26,59 +26,59 @@ #include "Imaging.h" - -static inline UINT8 clip8(float in) -{ +static inline UINT8 +clip8(float in) { if (in <= 0.0) { return 0; } if (in >= 255.0) { return 255; } - return (UINT8) in; + return (UINT8)in; } Imaging -ImagingExpand(Imaging imIn, int xmargin, int ymargin, int mode) -{ +ImagingExpand(Imaging imIn, int xmargin, int ymargin, int mode) { Imaging imOut; int x, y; ImagingSectionCookie cookie; if (xmargin < 0 && ymargin < 0) { - return (Imaging) ImagingError_ValueError("bad kernel size"); + return (Imaging)ImagingError_ValueError("bad kernel size"); } imOut = ImagingNewDirty( - imIn->mode, imIn->xsize+2*xmargin, imIn->ysize+2*ymargin); + imIn->mode, imIn->xsize + 2 * xmargin, imIn->ysize + 2 * ymargin); if (!imOut) { return NULL; } -#define EXPAND_LINE(type, image, yin, yout) {\ - for (x = 0; x < xmargin; x++) {\ - imOut->image[yout][x] = imIn->image[yin][0];\ - }\ - for (x = 0; x < imIn->xsize; x++) {\ - imOut->image[yout][x+xmargin] = imIn->image[yin][x];\ - }\ - for (x = 0; x < xmargin; x++) {\ - imOut->image[yout][xmargin+imIn->xsize+x] =\ - imIn->image[yin][imIn->xsize-1];\ - }\ -} +#define EXPAND_LINE(type, image, yin, yout) \ + { \ + for (x = 0; x < xmargin; x++) { \ + imOut->image[yout][x] = imIn->image[yin][0]; \ + } \ + for (x = 0; x < imIn->xsize; x++) { \ + imOut->image[yout][x + xmargin] = imIn->image[yin][x]; \ + } \ + for (x = 0; x < xmargin; x++) { \ + imOut->image[yout][xmargin + imIn->xsize + x] = \ + imIn->image[yin][imIn->xsize - 1]; \ + } \ + } -#define EXPAND(type, image) {\ - for (y = 0; y < ymargin; y++) {\ - EXPAND_LINE(type, image, 0, y);\ - }\ - for (y = 0; y < imIn->ysize; y++) {\ - EXPAND_LINE(type, image, y, y+ymargin);\ - }\ - for (y = 0; y < ymargin; y++) {\ - EXPAND_LINE(type, image, imIn->ysize-1, ymargin+imIn->ysize+y);\ - }\ -} +#define EXPAND(type, image) \ + { \ + for (y = 0; y < ymargin; y++) { \ + EXPAND_LINE(type, image, 0, y); \ + } \ + for (y = 0; y < imIn->ysize; y++) { \ + EXPAND_LINE(type, image, y, y + ymargin); \ + } \ + for (y = 0; y < ymargin; y++) { \ + EXPAND_LINE(type, image, imIn->ysize - 1, ymargin + imIn->ysize + y); \ + } \ + } ImagingSectionEnter(&cookie); if (imIn->image8) { @@ -93,15 +93,11 @@ ImagingExpand(Imaging imIn, int xmargin, int ymargin, int mode) return imOut; } - void -ImagingFilter3x3(Imaging imOut, Imaging im, const float* kernel, - float offset) -{ -#define KERNEL1x3(in0, x, kernel, d) ( \ - _i2f((UINT8) in0[x-d]) * (kernel)[0] + \ - _i2f((UINT8) in0[x]) * (kernel)[1] + \ - _i2f((UINT8) in0[x+d]) * (kernel)[2]) +ImagingFilter3x3(Imaging imOut, Imaging im, const float *kernel, float offset) { +#define KERNEL1x3(in0, x, kernel, d) \ + (_i2f((UINT8)in0[x - d]) * (kernel)[0] + _i2f((UINT8)in0[x]) * (kernel)[1] + \ + _i2f((UINT8)in0[x + d]) * (kernel)[2]) int x = 0, y = 0; @@ -109,86 +105,84 @@ ImagingFilter3x3(Imaging imOut, Imaging im, const float* kernel, if (im->bands == 1) { // Add one time for rounding offset += 0.5; - for (y = 1; y < im->ysize-1; y++) { - UINT8* in_1 = (UINT8*) im->image[y-1]; - UINT8* in0 = (UINT8*) im->image[y]; - UINT8* in1 = (UINT8*) im->image[y+1]; - UINT8* out = (UINT8*) imOut->image[y]; + for (y = 1; y < im->ysize - 1; y++) { + UINT8 *in_1 = (UINT8 *)im->image[y - 1]; + UINT8 *in0 = (UINT8 *)im->image[y]; + UINT8 *in1 = (UINT8 *)im->image[y + 1]; + UINT8 *out = (UINT8 *)imOut->image[y]; out[0] = in0[0]; - for (x = 1; x < im->xsize-1; x++) { + for (x = 1; x < im->xsize - 1; x++) { float ss = offset; ss += KERNEL1x3(in1, x, &kernel[0], 1); ss += KERNEL1x3(in0, x, &kernel[3], 1); ss += KERNEL1x3(in_1, x, &kernel[6], 1); out[x] = clip8(ss); - } + } out[x] = in0[x]; } } else { // Add one time for rounding offset += 0.5; - for (y = 1; y < im->ysize-1; y++) { - UINT8* in_1 = (UINT8*) im->image[y-1]; - UINT8* in0 = (UINT8*) im->image[y]; - UINT8* in1 = (UINT8*) im->image[y+1]; - UINT8* out = (UINT8*) imOut->image[y]; + for (y = 1; y < im->ysize - 1; y++) { + UINT8 *in_1 = (UINT8 *)im->image[y - 1]; + UINT8 *in0 = (UINT8 *)im->image[y]; + UINT8 *in1 = (UINT8 *)im->image[y + 1]; + UINT8 *out = (UINT8 *)imOut->image[y]; memcpy(out, in0, sizeof(UINT32)); if (im->bands == 2) { - for (x = 1; x < im->xsize-1; x++) { + for (x = 1; x < im->xsize - 1; x++) { float ss0 = offset; float ss3 = offset; UINT32 v; - ss0 += KERNEL1x3(in1, x*4+0, &kernel[0], 4); - ss3 += KERNEL1x3(in1, x*4+3, &kernel[0], 4); - ss0 += KERNEL1x3(in0, x*4+0, &kernel[3], 4); - ss3 += KERNEL1x3(in0, x*4+3, &kernel[3], 4); - ss0 += KERNEL1x3(in_1, x*4+0, &kernel[6], 4); - ss3 += KERNEL1x3(in_1, x*4+3, &kernel[6], 4); + ss0 += KERNEL1x3(in1, x * 4 + 0, &kernel[0], 4); + ss3 += KERNEL1x3(in1, x * 4 + 3, &kernel[0], 4); + ss0 += KERNEL1x3(in0, x * 4 + 0, &kernel[3], 4); + ss3 += KERNEL1x3(in0, x * 4 + 3, &kernel[3], 4); + ss0 += KERNEL1x3(in_1, x * 4 + 0, &kernel[6], 4); + ss3 += KERNEL1x3(in_1, x * 4 + 3, &kernel[6], 4); v = MAKE_UINT32(clip8(ss0), 0, 0, clip8(ss3)); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } else if (im->bands == 3) { - for (x = 1; x < im->xsize-1; x++) { + for (x = 1; x < im->xsize - 1; x++) { float ss0 = offset; float ss1 = offset; float ss2 = offset; UINT32 v; - ss0 += KERNEL1x3(in1, x*4+0, &kernel[0], 4); - ss1 += KERNEL1x3(in1, x*4+1, &kernel[0], 4); - ss2 += KERNEL1x3(in1, x*4+2, &kernel[0], 4); - ss0 += KERNEL1x3(in0, x*4+0, &kernel[3], 4); - ss1 += KERNEL1x3(in0, x*4+1, &kernel[3], 4); - ss2 += KERNEL1x3(in0, x*4+2, &kernel[3], 4); - ss0 += KERNEL1x3(in_1, x*4+0, &kernel[6], 4); - ss1 += KERNEL1x3(in_1, x*4+1, &kernel[6], 4); - ss2 += KERNEL1x3(in_1, x*4+2, &kernel[6], 4); - v = MAKE_UINT32( - clip8(ss0), clip8(ss1), clip8(ss2), 0); + ss0 += KERNEL1x3(in1, x * 4 + 0, &kernel[0], 4); + ss1 += KERNEL1x3(in1, x * 4 + 1, &kernel[0], 4); + ss2 += KERNEL1x3(in1, x * 4 + 2, &kernel[0], 4); + ss0 += KERNEL1x3(in0, x * 4 + 0, &kernel[3], 4); + ss1 += KERNEL1x3(in0, x * 4 + 1, &kernel[3], 4); + ss2 += KERNEL1x3(in0, x * 4 + 2, &kernel[3], 4); + ss0 += KERNEL1x3(in_1, x * 4 + 0, &kernel[6], 4); + ss1 += KERNEL1x3(in_1, x * 4 + 1, &kernel[6], 4); + ss2 += KERNEL1x3(in_1, x * 4 + 2, &kernel[6], 4); + v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), 0); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } else if (im->bands == 4) { - for (x = 1; x < im->xsize-1; x++) { + for (x = 1; x < im->xsize - 1; x++) { float ss0 = offset; float ss1 = offset; float ss2 = offset; float ss3 = offset; UINT32 v; - ss0 += KERNEL1x3(in1, x*4+0, &kernel[0], 4); - ss1 += KERNEL1x3(in1, x*4+1, &kernel[0], 4); - ss2 += KERNEL1x3(in1, x*4+2, &kernel[0], 4); - ss3 += KERNEL1x3(in1, x*4+3, &kernel[0], 4); - ss0 += KERNEL1x3(in0, x*4+0, &kernel[3], 4); - ss1 += KERNEL1x3(in0, x*4+1, &kernel[3], 4); - ss2 += KERNEL1x3(in0, x*4+2, &kernel[3], 4); - ss3 += KERNEL1x3(in0, x*4+3, &kernel[3], 4); - ss0 += KERNEL1x3(in_1, x*4+0, &kernel[6], 4); - ss1 += KERNEL1x3(in_1, x*4+1, &kernel[6], 4); - ss2 += KERNEL1x3(in_1, x*4+2, &kernel[6], 4); - ss3 += KERNEL1x3(in_1, x*4+3, &kernel[6], 4); - v = MAKE_UINT32( - clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); + ss0 += KERNEL1x3(in1, x * 4 + 0, &kernel[0], 4); + ss1 += KERNEL1x3(in1, x * 4 + 1, &kernel[0], 4); + ss2 += KERNEL1x3(in1, x * 4 + 2, &kernel[0], 4); + ss3 += KERNEL1x3(in1, x * 4 + 3, &kernel[0], 4); + ss0 += KERNEL1x3(in0, x * 4 + 0, &kernel[3], 4); + ss1 += KERNEL1x3(in0, x * 4 + 1, &kernel[3], 4); + ss2 += KERNEL1x3(in0, x * 4 + 2, &kernel[3], 4); + ss3 += KERNEL1x3(in0, x * 4 + 3, &kernel[3], 4); + ss0 += KERNEL1x3(in_1, x * 4 + 0, &kernel[6], 4); + ss1 += KERNEL1x3(in_1, x * 4 + 1, &kernel[6], 4); + ss2 += KERNEL1x3(in_1, x * 4 + 2, &kernel[6], 4); + ss3 += KERNEL1x3(in_1, x * 4 + 3, &kernel[6], 4); + v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } @@ -198,17 +192,13 @@ ImagingFilter3x3(Imaging imOut, Imaging im, const float* kernel, memcpy(imOut->image[y], im->image[y], im->linesize); } - void -ImagingFilter5x5(Imaging imOut, Imaging im, const float* kernel, - float offset) -{ -#define KERNEL1x5(in0, x, kernel, d) ( \ - _i2f((UINT8) in0[x-d-d]) * (kernel)[0] + \ - _i2f((UINT8) in0[x-d]) * (kernel)[1] + \ - _i2f((UINT8) in0[x]) * (kernel)[2] + \ - _i2f((UINT8) in0[x+d]) * (kernel)[3] + \ - _i2f((UINT8) in0[x+d+d]) * (kernel)[4]) +ImagingFilter5x5(Imaging imOut, Imaging im, const float *kernel, float offset) { +#define KERNEL1x5(in0, x, kernel, d) \ + (_i2f((UINT8)in0[x - d - d]) * (kernel)[0] + \ + _i2f((UINT8)in0[x - d]) * (kernel)[1] + _i2f((UINT8)in0[x]) * (kernel)[2] + \ + _i2f((UINT8)in0[x + d]) * (kernel)[3] + \ + _i2f((UINT8)in0[x + d + d]) * (kernel)[4]) int x = 0, y = 0; @@ -217,17 +207,17 @@ ImagingFilter5x5(Imaging imOut, Imaging im, const float* kernel, if (im->bands == 1) { // Add one time for rounding offset += 0.5; - for (y = 2; y < im->ysize-2; y++) { - UINT8* in_2 = (UINT8*) im->image[y-2]; - UINT8* in_1 = (UINT8*) im->image[y-1]; - UINT8* in0 = (UINT8*) im->image[y]; - UINT8* in1 = (UINT8*) im->image[y+1]; - UINT8* in2 = (UINT8*) im->image[y+2]; - UINT8* out = (UINT8*) imOut->image[y]; + for (y = 2; y < im->ysize - 2; y++) { + UINT8 *in_2 = (UINT8 *)im->image[y - 2]; + UINT8 *in_1 = (UINT8 *)im->image[y - 1]; + UINT8 *in0 = (UINT8 *)im->image[y]; + UINT8 *in1 = (UINT8 *)im->image[y + 1]; + UINT8 *in2 = (UINT8 *)im->image[y + 2]; + UINT8 *out = (UINT8 *)imOut->image[y]; out[0] = in0[0]; out[1] = in0[1]; - for (x = 2; x < im->xsize-2; x++) { + for (x = 2; x < im->xsize - 2; x++) { float ss = offset; ss += KERNEL1x5(in2, x, &kernel[0], 1); ss += KERNEL1x5(in1, x, &kernel[5], 1); @@ -236,112 +226,109 @@ ImagingFilter5x5(Imaging imOut, Imaging im, const float* kernel, ss += KERNEL1x5(in_2, x, &kernel[20], 1); out[x] = clip8(ss); } - out[x+0] = in0[x+0]; - out[x+1] = in0[x+1]; + out[x + 0] = in0[x + 0]; + out[x + 1] = in0[x + 1]; } } else { // Add one time for rounding offset += 0.5; - for (y = 2; y < im->ysize-2; y++) { - UINT8* in_2 = (UINT8*) im->image[y-2]; - UINT8* in_1 = (UINT8*) im->image[y-1]; - UINT8* in0 = (UINT8*) im->image[y]; - UINT8* in1 = (UINT8*) im->image[y+1]; - UINT8* in2 = (UINT8*) im->image[y+2]; - UINT8* out = (UINT8*) imOut->image[y]; + for (y = 2; y < im->ysize - 2; y++) { + UINT8 *in_2 = (UINT8 *)im->image[y - 2]; + UINT8 *in_1 = (UINT8 *)im->image[y - 1]; + UINT8 *in0 = (UINT8 *)im->image[y]; + UINT8 *in1 = (UINT8 *)im->image[y + 1]; + UINT8 *in2 = (UINT8 *)im->image[y + 2]; + UINT8 *out = (UINT8 *)imOut->image[y]; memcpy(out, in0, sizeof(UINT32) * 2); if (im->bands == 2) { - for (x = 2; x < im->xsize-2; x++) { + for (x = 2; x < im->xsize - 2; x++) { float ss0 = offset; float ss3 = offset; UINT32 v; - ss0 += KERNEL1x5(in2, x*4+0, &kernel[0], 4); - ss3 += KERNEL1x5(in2, x*4+3, &kernel[0], 4); - ss0 += KERNEL1x5(in1, x*4+0, &kernel[5], 4); - ss3 += KERNEL1x5(in1, x*4+3, &kernel[5], 4); - ss0 += KERNEL1x5(in0, x*4+0, &kernel[10], 4); - ss3 += KERNEL1x5(in0, x*4+3, &kernel[10], 4); - ss0 += KERNEL1x5(in_1, x*4+0, &kernel[15], 4); - ss3 += KERNEL1x5(in_1, x*4+3, &kernel[15], 4); - ss0 += KERNEL1x5(in_2, x*4+0, &kernel[20], 4); - ss3 += KERNEL1x5(in_2, x*4+3, &kernel[20], 4); + ss0 += KERNEL1x5(in2, x * 4 + 0, &kernel[0], 4); + ss3 += KERNEL1x5(in2, x * 4 + 3, &kernel[0], 4); + ss0 += KERNEL1x5(in1, x * 4 + 0, &kernel[5], 4); + ss3 += KERNEL1x5(in1, x * 4 + 3, &kernel[5], 4); + ss0 += KERNEL1x5(in0, x * 4 + 0, &kernel[10], 4); + ss3 += KERNEL1x5(in0, x * 4 + 3, &kernel[10], 4); + ss0 += KERNEL1x5(in_1, x * 4 + 0, &kernel[15], 4); + ss3 += KERNEL1x5(in_1, x * 4 + 3, &kernel[15], 4); + ss0 += KERNEL1x5(in_2, x * 4 + 0, &kernel[20], 4); + ss3 += KERNEL1x5(in_2, x * 4 + 3, &kernel[20], 4); v = MAKE_UINT32(clip8(ss0), 0, 0, clip8(ss3)); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } else if (im->bands == 3) { - for (x = 2; x < im->xsize-2; x++) { + for (x = 2; x < im->xsize - 2; x++) { float ss0 = offset; float ss1 = offset; float ss2 = offset; UINT32 v; - ss0 += KERNEL1x5(in2, x*4+0, &kernel[0], 4); - ss1 += KERNEL1x5(in2, x*4+1, &kernel[0], 4); - ss2 += KERNEL1x5(in2, x*4+2, &kernel[0], 4); - ss0 += KERNEL1x5(in1, x*4+0, &kernel[5], 4); - ss1 += KERNEL1x5(in1, x*4+1, &kernel[5], 4); - ss2 += KERNEL1x5(in1, x*4+2, &kernel[5], 4); - ss0 += KERNEL1x5(in0, x*4+0, &kernel[10], 4); - ss1 += KERNEL1x5(in0, x*4+1, &kernel[10], 4); - ss2 += KERNEL1x5(in0, x*4+2, &kernel[10], 4); - ss0 += KERNEL1x5(in_1, x*4+0, &kernel[15], 4); - ss1 += KERNEL1x5(in_1, x*4+1, &kernel[15], 4); - ss2 += KERNEL1x5(in_1, x*4+2, &kernel[15], 4); - ss0 += KERNEL1x5(in_2, x*4+0, &kernel[20], 4); - ss1 += KERNEL1x5(in_2, x*4+1, &kernel[20], 4); - ss2 += KERNEL1x5(in_2, x*4+2, &kernel[20], 4); - v = MAKE_UINT32( - clip8(ss0), clip8(ss1), clip8(ss2), 0); + ss0 += KERNEL1x5(in2, x * 4 + 0, &kernel[0], 4); + ss1 += KERNEL1x5(in2, x * 4 + 1, &kernel[0], 4); + ss2 += KERNEL1x5(in2, x * 4 + 2, &kernel[0], 4); + ss0 += KERNEL1x5(in1, x * 4 + 0, &kernel[5], 4); + ss1 += KERNEL1x5(in1, x * 4 + 1, &kernel[5], 4); + ss2 += KERNEL1x5(in1, x * 4 + 2, &kernel[5], 4); + ss0 += KERNEL1x5(in0, x * 4 + 0, &kernel[10], 4); + ss1 += KERNEL1x5(in0, x * 4 + 1, &kernel[10], 4); + ss2 += KERNEL1x5(in0, x * 4 + 2, &kernel[10], 4); + ss0 += KERNEL1x5(in_1, x * 4 + 0, &kernel[15], 4); + ss1 += KERNEL1x5(in_1, x * 4 + 1, &kernel[15], 4); + ss2 += KERNEL1x5(in_1, x * 4 + 2, &kernel[15], 4); + ss0 += KERNEL1x5(in_2, x * 4 + 0, &kernel[20], 4); + ss1 += KERNEL1x5(in_2, x * 4 + 1, &kernel[20], 4); + ss2 += KERNEL1x5(in_2, x * 4 + 2, &kernel[20], 4); + v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), 0); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } else if (im->bands == 4) { - for (x = 2; x < im->xsize-2; x++) { + for (x = 2; x < im->xsize - 2; x++) { float ss0 = offset; float ss1 = offset; float ss2 = offset; float ss3 = offset; UINT32 v; - ss0 += KERNEL1x5(in2, x*4+0, &kernel[0], 4); - ss1 += KERNEL1x5(in2, x*4+1, &kernel[0], 4); - ss2 += KERNEL1x5(in2, x*4+2, &kernel[0], 4); - ss3 += KERNEL1x5(in2, x*4+3, &kernel[0], 4); - ss0 += KERNEL1x5(in1, x*4+0, &kernel[5], 4); - ss1 += KERNEL1x5(in1, x*4+1, &kernel[5], 4); - ss2 += KERNEL1x5(in1, x*4+2, &kernel[5], 4); - ss3 += KERNEL1x5(in1, x*4+3, &kernel[5], 4); - ss0 += KERNEL1x5(in0, x*4+0, &kernel[10], 4); - ss1 += KERNEL1x5(in0, x*4+1, &kernel[10], 4); - ss2 += KERNEL1x5(in0, x*4+2, &kernel[10], 4); - ss3 += KERNEL1x5(in0, x*4+3, &kernel[10], 4); - ss0 += KERNEL1x5(in_1, x*4+0, &kernel[15], 4); - ss1 += KERNEL1x5(in_1, x*4+1, &kernel[15], 4); - ss2 += KERNEL1x5(in_1, x*4+2, &kernel[15], 4); - ss3 += KERNEL1x5(in_1, x*4+3, &kernel[15], 4); - ss0 += KERNEL1x5(in_2, x*4+0, &kernel[20], 4); - ss1 += KERNEL1x5(in_2, x*4+1, &kernel[20], 4); - ss2 += KERNEL1x5(in_2, x*4+2, &kernel[20], 4); - ss3 += KERNEL1x5(in_2, x*4+3, &kernel[20], 4); - v = MAKE_UINT32( - clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); + ss0 += KERNEL1x5(in2, x * 4 + 0, &kernel[0], 4); + ss1 += KERNEL1x5(in2, x * 4 + 1, &kernel[0], 4); + ss2 += KERNEL1x5(in2, x * 4 + 2, &kernel[0], 4); + ss3 += KERNEL1x5(in2, x * 4 + 3, &kernel[0], 4); + ss0 += KERNEL1x5(in1, x * 4 + 0, &kernel[5], 4); + ss1 += KERNEL1x5(in1, x * 4 + 1, &kernel[5], 4); + ss2 += KERNEL1x5(in1, x * 4 + 2, &kernel[5], 4); + ss3 += KERNEL1x5(in1, x * 4 + 3, &kernel[5], 4); + ss0 += KERNEL1x5(in0, x * 4 + 0, &kernel[10], 4); + ss1 += KERNEL1x5(in0, x * 4 + 1, &kernel[10], 4); + ss2 += KERNEL1x5(in0, x * 4 + 2, &kernel[10], 4); + ss3 += KERNEL1x5(in0, x * 4 + 3, &kernel[10], 4); + ss0 += KERNEL1x5(in_1, x * 4 + 0, &kernel[15], 4); + ss1 += KERNEL1x5(in_1, x * 4 + 1, &kernel[15], 4); + ss2 += KERNEL1x5(in_1, x * 4 + 2, &kernel[15], 4); + ss3 += KERNEL1x5(in_1, x * 4 + 3, &kernel[15], 4); + ss0 += KERNEL1x5(in_2, x * 4 + 0, &kernel[20], 4); + ss1 += KERNEL1x5(in_2, x * 4 + 1, &kernel[20], 4); + ss2 += KERNEL1x5(in_2, x * 4 + 2, &kernel[20], 4); + ss3 += KERNEL1x5(in_2, x * 4 + 3, &kernel[20], 4); + v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); memcpy(out + x * sizeof(v), &v, sizeof(v)); } } - memcpy(out + x * sizeof(UINT32), in0 + x * sizeof(UINT32), sizeof(UINT32) * 2); + memcpy( + out + x * sizeof(UINT32), in0 + x * sizeof(UINT32), sizeof(UINT32) * 2); } } memcpy(imOut->image[y], im->image[y], im->linesize); - memcpy(imOut->image[y+1], im->image[y+1], im->linesize); + memcpy(imOut->image[y + 1], im->image[y + 1], im->linesize); } Imaging -ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32* kernel, - FLOAT32 offset) -{ +ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32 *kernel, FLOAT32 offset) { Imaging imOut; ImagingSectionCookie cookie; - if ( ! im || im->type != IMAGING_TYPE_UINT8) { - return (Imaging) ImagingError_ModeError(); + if (!im || im->type != IMAGING_TYPE_UINT8) { + return (Imaging)ImagingError_ModeError(); } if (im->xsize < xsize || im->ysize < ysize) { @@ -349,7 +336,7 @@ ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32* kernel, } if ((xsize != 3 && xsize != 5) || xsize != ysize) { - return (Imaging) ImagingError_ValueError("bad kernel size"); + return (Imaging)ImagingError_ValueError("bad kernel size"); } imOut = ImagingNewDirty(im->mode, im->xsize, im->ysize); @@ -368,4 +355,3 @@ ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32* kernel, ImagingSectionLeave(&cookie); return imOut; } - diff --git a/src/libImaging/FliDecode.c b/src/libImaging/FliDecode.c index 84508013df8..e9000fc99e1 100644 --- a/src/libImaging/FliDecode.c +++ b/src/libImaging/FliDecode.c @@ -14,26 +14,21 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" +#define I16(ptr) ((ptr)[0] + ((ptr)[1] << 8)) -#define I16(ptr)\ - ((ptr)[0] + ((ptr)[1] << 8)) - -#define I32(ptr)\ - ((ptr)[0] + ((ptr)[1] << 8) + ((ptr)[2] << 16) + ((ptr)[3] << 24)) +#define I32(ptr) ((ptr)[0] + ((ptr)[1] << 8) + ((ptr)[2] << 16) + ((ptr)[3] << 24)) -#define ERR_IF_DATA_OOB(offset) \ - if ((data + (offset)) > ptr + bytes) {\ - state->errcode = IMAGING_CODEC_OVERRUN; \ - return -1; \ - } +#define ERR_IF_DATA_OOB(offset) \ + if ((data + (offset)) > ptr + bytes) { \ + state->errcode = IMAGING_CODEC_OVERRUN; \ + return -1; \ + } int -ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - UINT8* ptr; +ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + UINT8 *ptr; int framesize; int c, chunks, advance; int l, lines; @@ -62,36 +57,39 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt state->errcode = IMAGING_CODEC_OVERRUN; return -1; } - if (I16(ptr+4) != 0xF1FA) { + if (I16(ptr + 4) != 0xF1FA) { state->errcode = IMAGING_CODEC_UNKNOWN; return -1; } - chunks = I16(ptr+6); + chunks = I16(ptr + 6); ptr += 16; bytes -= 16; /* Process subchunks */ for (c = 0; c < chunks; c++) { - UINT8* data; + UINT8 *data; if (bytes < 10) { state->errcode = IMAGING_CODEC_OVERRUN; return -1; } data = ptr + 6; - switch (I16(ptr+4)) { - case 4: case 11: + switch (I16(ptr + 4)) { + case 4: + case 11: /* FLI COLOR chunk */ break; /* ignored; handled by Python code */ case 7: /* FLI SS2 chunk (word delta) */ /* OOB ok, we've got 4 bytes min on entry */ - lines = I16(data); data += 2; + lines = I16(data); + data += 2; for (l = y = 0; l < lines && y < state->ysize; l++, y++) { - UINT8* local_buf = (UINT8*) im->image[y]; + UINT8 *local_buf = (UINT8 *)im->image[y]; int p, packets; ERR_IF_DATA_OOB(2) - packets = I16(data); data += 2; + packets = I16(data); + data += 2; while (packets & 0x8000) { /* flag word */ if (packets & 0x4000) { @@ -100,20 +98,21 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt state->errcode = IMAGING_CODEC_OVERRUN; return -1; } - local_buf = (UINT8*) im->image[y]; + local_buf = (UINT8 *)im->image[y]; } else { /* store last byte (used if line width is odd) */ - local_buf[state->xsize-1] = (UINT8) packets; + local_buf[state->xsize - 1] = (UINT8)packets; } ERR_IF_DATA_OOB(2) - packets = I16(data); data += 2; + packets = I16(data); + data += 2; } for (p = x = 0; p < packets; p++) { ERR_IF_DATA_OOB(2) x += data[0]; /* pixel skip */ if (data[1] >= 128) { ERR_IF_DATA_OOB(4) - i = 256-data[1]; /* run */ + i = 256 - data[1]; /* run */ if (x + i + i > state->xsize) { break; } @@ -123,11 +122,11 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt } data += 2 + 2; } else { - i = 2 * (int) data[1]; /* chunk */ + i = 2 * (int)data[1]; /* chunk */ if (x + i > state->xsize) { break; } - ERR_IF_DATA_OOB(2+i) + ERR_IF_DATA_OOB(2 + i) memcpy(local_buf + x, data + 2, i); data += 2 + i; x += i; @@ -146,16 +145,18 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt case 12: /* FLI LC chunk (byte delta) */ /* OOB Check ok, we have 4 bytes min here */ - y = I16(data); ymax = y + I16(data+2); data += 4; + y = I16(data); + ymax = y + I16(data + 2); + data += 4; for (; y < ymax && y < state->ysize; y++) { - UINT8* out = (UINT8*) im->image[y]; - ERR_IF_DATA_OOB(1) + UINT8 *out = (UINT8 *)im->image[y]; + ERR_IF_DATA_OOB(1) int p, packets = *data++; for (p = x = 0; p < packets; p++, x += i) { ERR_IF_DATA_OOB(2) x += data[0]; /* skip pixels */ if (data[1] & 0x80) { - i = 256-data[1]; /* run */ + i = 256 - data[1]; /* run */ if (x + i > state->xsize) { break; } @@ -167,7 +168,7 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt if (x + i > state->xsize) { break; } - ERR_IF_DATA_OOB(2+i) + ERR_IF_DATA_OOB(2 + i) memcpy(out + x, data + 2, i); data += i + 2; } @@ -192,7 +193,7 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* FLI BRUN chunk */ /* OOB, ok, we've got 4 bytes min on entry */ for (y = 0; y < state->ysize; y++) { - UINT8* out = (UINT8*) im->image[y]; + UINT8 *out = (UINT8 *)im->image[y]; data += 1; /* ignore packetcount byte */ for (x = 0; x < state->xsize; x += i) { ERR_IF_DATA_OOB(2) @@ -201,7 +202,7 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt if (x + i > state->xsize) { break; /* safety first */ } - ERR_IF_DATA_OOB(i+1) + ERR_IF_DATA_OOB(i + 1) memcpy(out + x, data + 1, i); data += i + 1; } else { @@ -222,12 +223,12 @@ ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt break; case 16: /* COPY chunk */ - if (state->xsize > bytes/state->ysize) { + if (state->xsize > bytes / state->ysize) { /* not enough data for frame */ return ptr - buf; /* bytes consumed */ } for (y = 0; y < state->ysize; y++) { - UINT8* local_buf = (UINT8*) im->image[y]; + UINT8 *local_buf = (UINT8 *)im->image[y]; memcpy(local_buf, data, state->xsize); data += state->xsize; } diff --git a/src/libImaging/Geometry.c b/src/libImaging/Geometry.c index 06d0cf24d63..0c591579217 100644 --- a/src/libImaging/Geometry.c +++ b/src/libImaging/Geometry.c @@ -15,28 +15,27 @@ /* Transpose operations */ Imaging -ImagingFlipLeftRight(Imaging imOut, Imaging imIn) -{ +ImagingFlipLeftRight(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xr; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->xsize || imIn->ysize != imOut->ysize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define FLIP_LEFT_RIGHT(INT, image) \ - for (y = 0; y < imIn->ysize; y++) { \ - INT* in = (INT *)imIn->image[y]; \ - INT* out = (INT *)imOut->image[y]; \ - xr = imIn->xsize-1; \ +#define FLIP_LEFT_RIGHT(INT, image) \ + for (y = 0; y < imIn->ysize; y++) { \ + INT *in = (INT *)imIn->image[y]; \ + INT *out = (INT *)imOut->image[y]; \ + xr = imIn->xsize - 1; \ for (x = 0; x < imIn->xsize; x++, xr--) { \ - out[xr] = in[x]; \ - } \ + out[xr] = in[x]; \ + } \ } ImagingSectionEnter(&cookie); @@ -58,18 +57,16 @@ ImagingFlipLeftRight(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingFlipTopBottom(Imaging imOut, Imaging imIn) -{ +ImagingFlipTopBottom(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int y, yr; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->xsize || imIn->ysize != imOut->ysize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); @@ -86,43 +83,45 @@ ImagingFlipTopBottom(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingRotate90(Imaging imOut, Imaging imIn) -{ +ImagingRotate90(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xx, yy, xr, xxsize, yysize; int xxx, yyy, xxxsize, yyysize; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->ysize || imIn->ysize != imOut->xsize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define ROTATE_90(INT, image) \ - for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ - for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ +#define ROTATE_90(INT, image) \ + for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ + for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ yysize = y + ROTATE_CHUNK < imIn->ysize ? y + ROTATE_CHUNK : imIn->ysize; \ xxsize = x + ROTATE_CHUNK < imIn->xsize ? x + ROTATE_CHUNK : imIn->xsize; \ - for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ - for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ - yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize ? yy + ROTATE_SMALL_CHUNK : imIn->ysize; \ - xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize ? xx + ROTATE_SMALL_CHUNK : imIn->xsize; \ - for (yyy = yy; yyy < yyysize; yyy++) { \ - INT* in = (INT *)imIn->image[yyy]; \ - xr = imIn->xsize - 1 - xx; \ - for (xxx = xx; xxx < xxxsize; xxx++, xr--) { \ - INT* out = (INT *)imOut->image[xr]; \ - out[yyy] = in[xxx]; \ - } \ - } \ - } \ - } \ - } \ + for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ + for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ + yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize \ + ? yy + ROTATE_SMALL_CHUNK \ + : imIn->ysize; \ + xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize \ + ? xx + ROTATE_SMALL_CHUNK \ + : imIn->xsize; \ + for (yyy = yy; yyy < yyysize; yyy++) { \ + INT *in = (INT *)imIn->image[yyy]; \ + xr = imIn->xsize - 1 - xx; \ + for (xxx = xx; xxx < xxxsize; xxx++, xr--) { \ + INT *out = (INT *)imOut->image[xr]; \ + out[yyy] = in[xxx]; \ + } \ + } \ + } \ + } \ + } \ } ImagingSectionEnter(&cookie); @@ -144,42 +143,44 @@ ImagingRotate90(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingTranspose(Imaging imOut, Imaging imIn) -{ +ImagingTranspose(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xx, yy, xxsize, yysize; int xxx, yyy, xxxsize, yyysize; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->ysize || imIn->ysize != imOut->xsize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define TRANSPOSE(INT, image) \ - for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ - for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ +#define TRANSPOSE(INT, image) \ + for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ + for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ yysize = y + ROTATE_CHUNK < imIn->ysize ? y + ROTATE_CHUNK : imIn->ysize; \ xxsize = x + ROTATE_CHUNK < imIn->xsize ? x + ROTATE_CHUNK : imIn->xsize; \ - for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ - for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ - yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize ? yy + ROTATE_SMALL_CHUNK : imIn->ysize; \ - xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize ? xx + ROTATE_SMALL_CHUNK : imIn->xsize; \ - for (yyy = yy; yyy < yyysize; yyy++) { \ - INT* in = (INT *)imIn->image[yyy]; \ - for (xxx = xx; xxx < xxxsize; xxx++) { \ - INT* out = (INT *)imOut->image[xxx]; \ - out[yyy] = in[xxx]; \ - } \ - } \ - } \ - } \ - } \ + for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ + for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ + yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize \ + ? yy + ROTATE_SMALL_CHUNK \ + : imIn->ysize; \ + xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize \ + ? xx + ROTATE_SMALL_CHUNK \ + : imIn->xsize; \ + for (yyy = yy; yyy < yyysize; yyy++) { \ + INT *in = (INT *)imIn->image[yyy]; \ + for (xxx = xx; xxx < xxxsize; xxx++) { \ + INT *out = (INT *)imOut->image[xxx]; \ + out[yyy] = in[xxx]; \ + } \ + } \ + } \ + } \ + } \ } ImagingSectionEnter(&cookie); @@ -201,44 +202,46 @@ ImagingTranspose(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingTransverse(Imaging imOut, Imaging imIn) -{ +ImagingTransverse(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xr, yr, xx, yy, xxsize, yysize; int xxx, yyy, xxxsize, yyysize; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->ysize || imIn->ysize != imOut->xsize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define TRANSVERSE(INT, image) \ - for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ - for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ +#define TRANSVERSE(INT, image) \ + for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ + for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ yysize = y + ROTATE_CHUNK < imIn->ysize ? y + ROTATE_CHUNK : imIn->ysize; \ xxsize = x + ROTATE_CHUNK < imIn->xsize ? x + ROTATE_CHUNK : imIn->xsize; \ - for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ - for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ - yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize ? yy + ROTATE_SMALL_CHUNK : imIn->ysize; \ - xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize ? xx + ROTATE_SMALL_CHUNK : imIn->xsize; \ - yr = imIn->ysize - 1 - yy; \ - for (yyy = yy; yyy < yyysize; yyy++, yr--) { \ - INT* in = (INT *)imIn->image[yyy]; \ - xr = imIn->xsize - 1 - xx; \ - for (xxx = xx; xxx < xxxsize; xxx++, xr--) { \ - INT* out = (INT *)imOut->image[xr]; \ - out[yr] = in[xxx]; \ - } \ - } \ - } \ - } \ - } \ + for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ + for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ + yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize \ + ? yy + ROTATE_SMALL_CHUNK \ + : imIn->ysize; \ + xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize \ + ? xx + ROTATE_SMALL_CHUNK \ + : imIn->xsize; \ + yr = imIn->ysize - 1 - yy; \ + for (yyy = yy; yyy < yyysize; yyy++, yr--) { \ + INT *in = (INT *)imIn->image[yyy]; \ + xr = imIn->xsize - 1 - xx; \ + for (xxx = xx; xxx < xxxsize; xxx++, xr--) { \ + INT *out = (INT *)imOut->image[xr]; \ + out[yr] = in[xxx]; \ + } \ + } \ + } \ + } \ + } \ } ImagingSectionEnter(&cookie); @@ -260,35 +263,33 @@ ImagingTransverse(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingRotate180(Imaging imOut, Imaging imIn) -{ +ImagingRotate180(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xr, yr; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->xsize || imIn->ysize != imOut->ysize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define ROTATE_180(INT, image) \ - for (y = 0; y < imIn->ysize; y++, yr--) { \ - INT* in = (INT *)imIn->image[y]; \ - INT* out = (INT *)imOut->image[yr]; \ - xr = imIn->xsize-1; \ +#define ROTATE_180(INT, image) \ + for (y = 0; y < imIn->ysize; y++, yr--) { \ + INT *in = (INT *)imIn->image[y]; \ + INT *out = (INT *)imOut->image[yr]; \ + xr = imIn->xsize - 1; \ for (x = 0; x < imIn->xsize; x++, xr--) { \ - out[xr] = in[x]; \ - } \ + out[xr] = in[x]; \ + } \ } ImagingSectionEnter(&cookie); - yr = imIn->ysize-1; + yr = imIn->ysize - 1; if (imIn->image8) { if (strncmp(imIn->mode, "I;16", 4) == 0) { ROTATE_180(UINT16, image8) @@ -306,43 +307,45 @@ ImagingRotate180(Imaging imOut, Imaging imIn) return imOut; } - Imaging -ImagingRotate270(Imaging imOut, Imaging imIn) -{ +ImagingRotate270(Imaging imOut, Imaging imIn) { ImagingSectionCookie cookie; int x, y, xx, yy, yr, xxsize, yysize; int xxx, yyy, xxxsize, yyysize; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->xsize != imOut->ysize || imIn->ysize != imOut->xsize) { - return (Imaging) ImagingError_Mismatch(); + return (Imaging)ImagingError_Mismatch(); } ImagingCopyPalette(imOut, imIn); -#define ROTATE_270(INT, image) \ - for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ - for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ +#define ROTATE_270(INT, image) \ + for (y = 0; y < imIn->ysize; y += ROTATE_CHUNK) { \ + for (x = 0; x < imIn->xsize; x += ROTATE_CHUNK) { \ yysize = y + ROTATE_CHUNK < imIn->ysize ? y + ROTATE_CHUNK : imIn->ysize; \ xxsize = x + ROTATE_CHUNK < imIn->xsize ? x + ROTATE_CHUNK : imIn->xsize; \ - for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ - for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ - yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize ? yy + ROTATE_SMALL_CHUNK : imIn->ysize; \ - xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize ? xx + ROTATE_SMALL_CHUNK : imIn->xsize; \ - yr = imIn->ysize - 1 - yy; \ - for (yyy = yy; yyy < yyysize; yyy++, yr--) { \ - INT* in = (INT *)imIn->image[yyy]; \ - for (xxx = xx; xxx < xxxsize; xxx++) { \ - INT* out = (INT *)imOut->image[xxx]; \ - out[yr] = in[xxx]; \ - } \ - } \ - } \ - } \ - } \ + for (yy = y; yy < yysize; yy += ROTATE_SMALL_CHUNK) { \ + for (xx = x; xx < xxsize; xx += ROTATE_SMALL_CHUNK) { \ + yyysize = yy + ROTATE_SMALL_CHUNK < imIn->ysize \ + ? yy + ROTATE_SMALL_CHUNK \ + : imIn->ysize; \ + xxxsize = xx + ROTATE_SMALL_CHUNK < imIn->xsize \ + ? xx + ROTATE_SMALL_CHUNK \ + : imIn->xsize; \ + yr = imIn->ysize - 1 - yy; \ + for (yyy = yy; yyy < yyysize; yyy++, yr--) { \ + INT *in = (INT *)imIn->image[yyy]; \ + for (xxx = xx; xxx < xxxsize; xxx++) { \ + INT *out = (INT *)imOut->image[xxx]; \ + out[yr] = in[xxx]; \ + } \ + } \ + } \ + } \ + } \ } ImagingSectionEnter(&cookie); @@ -364,63 +367,74 @@ ImagingRotate270(Imaging imOut, Imaging imIn) return imOut; } - /* -------------------------------------------------------------------- */ /* Transforms */ /* transform primitives (ImagingTransformMap) */ static int -affine_transform(double* xout, double* yout, int x, int y, void* data) -{ +affine_transform(double *xout, double *yout, int x, int y, void *data) { /* full moon tonight. your compiler will generate bogus code for simple expressions, unless you reorganize the code, or install Service Pack 3 */ - double* a = (double*) data; - double a0 = a[0]; double a1 = a[1]; double a2 = a[2]; - double a3 = a[3]; double a4 = a[4]; double a5 = a[5]; + double *a = (double *)data; + double a0 = a[0]; + double a1 = a[1]; + double a2 = a[2]; + double a3 = a[3]; + double a4 = a[4]; + double a5 = a[5]; double xin = x + 0.5; double yin = y + 0.5; - xout[0] = a0*xin + a1*yin + a2; - yout[0] = a3*xin + a4*yin + a5; + xout[0] = a0 * xin + a1 * yin + a2; + yout[0] = a3 * xin + a4 * yin + a5; return 1; } static int -perspective_transform(double* xout, double* yout, int x, int y, void* data) -{ - double* a = (double*) data; - double a0 = a[0]; double a1 = a[1]; double a2 = a[2]; - double a3 = a[3]; double a4 = a[4]; double a5 = a[5]; - double a6 = a[6]; double a7 = a[7]; +perspective_transform(double *xout, double *yout, int x, int y, void *data) { + double *a = (double *)data; + double a0 = a[0]; + double a1 = a[1]; + double a2 = a[2]; + double a3 = a[3]; + double a4 = a[4]; + double a5 = a[5]; + double a6 = a[6]; + double a7 = a[7]; double xin = x + 0.5; double yin = y + 0.5; - xout[0] = (a0*xin + a1*yin + a2) / (a6*xin + a7*yin + 1); - yout[0] = (a3*xin + a4*yin + a5) / (a6*xin + a7*yin + 1); + xout[0] = (a0 * xin + a1 * yin + a2) / (a6 * xin + a7 * yin + 1); + yout[0] = (a3 * xin + a4 * yin + a5) / (a6 * xin + a7 * yin + 1); return 1; } static int -quad_transform(double* xout, double* yout, int x, int y, void* data) -{ +quad_transform(double *xout, double *yout, int x, int y, void *data) { /* quad warp: map quadrilateral to rectangle */ - double* a = (double*) data; - double a0 = a[0]; double a1 = a[1]; double a2 = a[2]; double a3 = a[3]; - double a4 = a[4]; double a5 = a[5]; double a6 = a[6]; double a7 = a[7]; + double *a = (double *)data; + double a0 = a[0]; + double a1 = a[1]; + double a2 = a[2]; + double a3 = a[3]; + double a4 = a[4]; + double a5 = a[5]; + double a6 = a[6]; + double a7 = a[7]; double xin = x + 0.5; double yin = y + 0.5; - xout[0] = a0 + a1*xin + a2*yin + a3*xin*yin; - yout[0] = a4 + a5*xin + a6*yin + a7*xin*yin; + xout[0] = a0 + a1 * xin + a2 * yin + a3 * xin * yin; + yout[0] = a4 + a5 * xin + a6 * yin + a7 * xin * yin; return 1; } @@ -428,20 +442,18 @@ quad_transform(double* xout, double* yout, int x, int y, void* data) /* transform filters (ImagingTransformFilter) */ static int -nearest_filter8(void* out, Imaging im, double xin, double yin) -{ +nearest_filter8(void *out, Imaging im, double xin, double yin) { int x = COORD(xin); int y = COORD(yin); if (x < 0 || x >= im->xsize || y < 0 || y >= im->ysize) { return 0; } - ((UINT8*)out)[0] = im->image8[y][x]; + ((UINT8 *)out)[0] = im->image8[y][x]; return 1; } static int -nearest_filter16(void* out, Imaging im, double xin, double yin) -{ +nearest_filter16(void *out, Imaging im, double xin, double yin) { int x = COORD(xin); int y = COORD(yin); if (x < 0 || x >= im->xsize || y < 0 || y >= im->ysize) { @@ -452,8 +464,7 @@ nearest_filter16(void* out, Imaging im, double xin, double yin) } static int -nearest_filter32(void* out, Imaging im, double xin, double yin) -{ +nearest_filter32(void *out, Imaging im, double xin, double yin) { int x = COORD(xin); int y = COORD(yin); if (x < 0 || x >= im->xsize || y < 0 || y >= im->ysize) { @@ -463,54 +474,52 @@ nearest_filter32(void* out, Imaging im, double xin, double yin) return 1; } -#define XCLIP(im, x) ( ((x) < 0) ? 0 : ((x) < im->xsize) ? (x) : im->xsize-1 ) -#define YCLIP(im, y) ( ((y) < 0) ? 0 : ((y) < im->ysize) ? (y) : im->ysize-1 ) - -#define BILINEAR(v, a, b, d)\ - (v = (a) + ( (b) - (a) ) * (d)) - -#define BILINEAR_HEAD(type)\ - int x, y;\ - int x0, x1;\ - double v1, v2;\ - double dx, dy;\ - type* in;\ - if (xin < 0.0 || xin >= im->xsize || yin < 0.0 || yin >= im->ysize) {\ - return 0;\ - }\ - xin -= 0.5;\ - yin -= 0.5;\ - x = FLOOR(xin);\ - y = FLOOR(yin);\ - dx = xin - x;\ +#define XCLIP(im, x) (((x) < 0) ? 0 : ((x) < im->xsize) ? (x) : im->xsize - 1) +#define YCLIP(im, y) (((y) < 0) ? 0 : ((y) < im->ysize) ? (y) : im->ysize - 1) + +#define BILINEAR(v, a, b, d) (v = (a) + ((b) - (a)) * (d)) + +#define BILINEAR_HEAD(type) \ + int x, y; \ + int x0, x1; \ + double v1, v2; \ + double dx, dy; \ + type *in; \ + if (xin < 0.0 || xin >= im->xsize || yin < 0.0 || yin >= im->ysize) { \ + return 0; \ + } \ + xin -= 0.5; \ + yin -= 0.5; \ + x = FLOOR(xin); \ + y = FLOOR(yin); \ + dx = xin - x; \ dy = yin - y; -#define BILINEAR_BODY(type, image, step, offset) {\ - in = (type*) ((image)[YCLIP(im, y)] + offset);\ - x0 = XCLIP(im, x+0)*step;\ - x1 = XCLIP(im, x+1)*step;\ - BILINEAR(v1, in[x0], in[x1], dx);\ - if (y+1 >= 0 && y+1 < im->ysize) {\ - in = (type*) ((image)[y+1] + offset);\ - BILINEAR(v2, in[x0], in[x1], dx);\ - } else {\ - v2 = v1;\ - }\ - BILINEAR(v1, v1, v2, dy);\ -} +#define BILINEAR_BODY(type, image, step, offset) \ + { \ + in = (type *)((image)[YCLIP(im, y)] + offset); \ + x0 = XCLIP(im, x + 0) * step; \ + x1 = XCLIP(im, x + 1) * step; \ + BILINEAR(v1, in[x0], in[x1], dx); \ + if (y + 1 >= 0 && y + 1 < im->ysize) { \ + in = (type *)((image)[y + 1] + offset); \ + BILINEAR(v2, in[x0], in[x1], dx); \ + } else { \ + v2 = v1; \ + } \ + BILINEAR(v1, v1, v2, dy); \ + } static int -bilinear_filter8(void* out, Imaging im, double xin, double yin) -{ +bilinear_filter8(void *out, Imaging im, double xin, double yin) { BILINEAR_HEAD(UINT8); BILINEAR_BODY(UINT8, im->image8, 1, 0); - ((UINT8*)out)[0] = (UINT8) v1; + ((UINT8 *)out)[0] = (UINT8)v1; return 1; } static int -bilinear_filter32I(void* out, Imaging im, double xin, double yin) -{ +bilinear_filter32I(void *out, Imaging im, double xin, double yin) { INT32 k; BILINEAR_HEAD(INT32); BILINEAR_BODY(INT32, im->image32, 1, 0); @@ -520,8 +529,7 @@ bilinear_filter32I(void* out, Imaging im, double xin, double yin) } static int -bilinear_filter32F(void* out, Imaging im, double xin, double yin) -{ +bilinear_filter32F(void *out, Imaging im, double xin, double yin) { FLOAT32 k; BILINEAR_HEAD(FLOAT32); BILINEAR_BODY(FLOAT32, im->image32, 1, 0); @@ -531,26 +539,24 @@ bilinear_filter32F(void* out, Imaging im, double xin, double yin) } static int -bilinear_filter32LA(void* out, Imaging im, double xin, double yin) -{ +bilinear_filter32LA(void *out, Imaging im, double xin, double yin) { BILINEAR_HEAD(UINT8); BILINEAR_BODY(UINT8, im->image, 4, 0); - ((UINT8*)out)[0] = (UINT8) v1; - ((UINT8*)out)[1] = (UINT8) v1; - ((UINT8*)out)[2] = (UINT8) v1; + ((UINT8 *)out)[0] = (UINT8)v1; + ((UINT8 *)out)[1] = (UINT8)v1; + ((UINT8 *)out)[2] = (UINT8)v1; BILINEAR_BODY(UINT8, im->image, 4, 3); - ((UINT8*)out)[3] = (UINT8) v1; + ((UINT8 *)out)[3] = (UINT8)v1; return 1; } static int -bilinear_filter32RGB(void* out, Imaging im, double xin, double yin) -{ +bilinear_filter32RGB(void *out, Imaging im, double xin, double yin) { int b; BILINEAR_HEAD(UINT8); for (b = 0; b < im->bands; b++) { BILINEAR_BODY(UINT8, im->image, 4, b); - ((UINT8*)out)[b] = (UINT8) v1; + ((UINT8 *)out)[b] = (UINT8)v1; } return 1; } @@ -559,79 +565,79 @@ bilinear_filter32RGB(void* out, Imaging im, double xin, double yin) #undef BILINEAR_HEAD #undef BILINEAR_BODY -#define BICUBIC(v, v1, v2, v3, v4, d) {\ - double p1 = v2;\ - double p2 = -v1 + v3;\ - double p3 = 2*(v1 - v2) + v3 - v4;\ - double p4 = -v1 + v2 - v3 + v4;\ - v = p1 + (d)*(p2 + (d)*(p3 + (d)*p4));\ -} - -#define BICUBIC_HEAD(type)\ - int x = FLOOR(xin);\ - int y = FLOOR(yin);\ - int x0, x1, x2, x3;\ - double v1, v2, v3, v4;\ - double dx, dy;\ - type* in;\ - if (xin < 0.0 || xin >= im->xsize || yin < 0.0 || yin >= im->ysize) {\ - return 0;\ - }\ - xin -= 0.5;\ - yin -= 0.5;\ - x = FLOOR(xin);\ - y = FLOOR(yin);\ - dx = xin - x;\ - dy = yin - y;\ - x--; y--; - -#define BICUBIC_BODY(type, image, step, offset) {\ - in = (type*) ((image)[YCLIP(im, y)] + offset);\ - x0 = XCLIP(im, x+0)*step;\ - x1 = XCLIP(im, x+1)*step;\ - x2 = XCLIP(im, x+2)*step;\ - x3 = XCLIP(im, x+3)*step;\ - BICUBIC(v1, in[x0], in[x1], in[x2], in[x3], dx);\ - if (y+1 >= 0 && y+1 < im->ysize) {\ - in = (type*) ((image)[y+1] + offset);\ - BICUBIC(v2, in[x0], in[x1], in[x2], in[x3], dx);\ - } else {\ - v2 = v1;\ - }\ - if (y+2 >= 0 && y+2 < im->ysize) {\ - in = (type*) ((image)[y+2] + offset);\ - BICUBIC(v3, in[x0], in[x1], in[x2], in[x3], dx);\ - } else {\ - v3 = v2;\ - }\ - if (y+3 >= 0 && y+3 < im->ysize) {\ - in = (type*) ((image)[y+3] + offset);\ - BICUBIC(v4, in[x0], in[x1], in[x2], in[x3], dx);\ - } else {\ - v4 = v3;\ - }\ - BICUBIC(v1, v1, v2, v3, v4, dy);\ -} - +#define BICUBIC(v, v1, v2, v3, v4, d) \ + { \ + double p1 = v2; \ + double p2 = -v1 + v3; \ + double p3 = 2 * (v1 - v2) + v3 - v4; \ + double p4 = -v1 + v2 - v3 + v4; \ + v = p1 + (d) * (p2 + (d) * (p3 + (d)*p4)); \ + } + +#define BICUBIC_HEAD(type) \ + int x = FLOOR(xin); \ + int y = FLOOR(yin); \ + int x0, x1, x2, x3; \ + double v1, v2, v3, v4; \ + double dx, dy; \ + type *in; \ + if (xin < 0.0 || xin >= im->xsize || yin < 0.0 || yin >= im->ysize) { \ + return 0; \ + } \ + xin -= 0.5; \ + yin -= 0.5; \ + x = FLOOR(xin); \ + y = FLOOR(yin); \ + dx = xin - x; \ + dy = yin - y; \ + x--; \ + y--; + +#define BICUBIC_BODY(type, image, step, offset) \ + { \ + in = (type *)((image)[YCLIP(im, y)] + offset); \ + x0 = XCLIP(im, x + 0) * step; \ + x1 = XCLIP(im, x + 1) * step; \ + x2 = XCLIP(im, x + 2) * step; \ + x3 = XCLIP(im, x + 3) * step; \ + BICUBIC(v1, in[x0], in[x1], in[x2], in[x3], dx); \ + if (y + 1 >= 0 && y + 1 < im->ysize) { \ + in = (type *)((image)[y + 1] + offset); \ + BICUBIC(v2, in[x0], in[x1], in[x2], in[x3], dx); \ + } else { \ + v2 = v1; \ + } \ + if (y + 2 >= 0 && y + 2 < im->ysize) { \ + in = (type *)((image)[y + 2] + offset); \ + BICUBIC(v3, in[x0], in[x1], in[x2], in[x3], dx); \ + } else { \ + v3 = v2; \ + } \ + if (y + 3 >= 0 && y + 3 < im->ysize) { \ + in = (type *)((image)[y + 3] + offset); \ + BICUBIC(v4, in[x0], in[x1], in[x2], in[x3], dx); \ + } else { \ + v4 = v3; \ + } \ + BICUBIC(v1, v1, v2, v3, v4, dy); \ + } static int -bicubic_filter8(void* out, Imaging im, double xin, double yin) -{ +bicubic_filter8(void *out, Imaging im, double xin, double yin) { BICUBIC_HEAD(UINT8); BICUBIC_BODY(UINT8, im->image8, 1, 0); if (v1 <= 0.0) { - ((UINT8*)out)[0] = 0; + ((UINT8 *)out)[0] = 0; } else if (v1 >= 255.0) { - ((UINT8*)out)[0] = 255; + ((UINT8 *)out)[0] = 255; } else { - ((UINT8*)out)[0] = (UINT8) v1; + ((UINT8 *)out)[0] = (UINT8)v1; } return 1; } static int -bicubic_filter32I(void* out, Imaging im, double xin, double yin) -{ +bicubic_filter32I(void *out, Imaging im, double xin, double yin) { INT32 k; BICUBIC_HEAD(INT32); BICUBIC_BODY(INT32, im->image32, 1, 0); @@ -641,8 +647,7 @@ bicubic_filter32I(void* out, Imaging im, double xin, double yin) } static int -bicubic_filter32F(void* out, Imaging im, double xin, double yin) -{ +bicubic_filter32F(void *out, Imaging im, double xin, double yin) { FLOAT32 k; BICUBIC_HEAD(FLOAT32); BICUBIC_BODY(FLOAT32, im->image32, 1, 0); @@ -652,47 +657,45 @@ bicubic_filter32F(void* out, Imaging im, double xin, double yin) } static int -bicubic_filter32LA(void* out, Imaging im, double xin, double yin) -{ +bicubic_filter32LA(void *out, Imaging im, double xin, double yin) { BICUBIC_HEAD(UINT8); BICUBIC_BODY(UINT8, im->image, 4, 0); if (v1 <= 0.0) { - ((UINT8*)out)[0] = 0; - ((UINT8*)out)[1] = 0; - ((UINT8*)out)[2] = 0; + ((UINT8 *)out)[0] = 0; + ((UINT8 *)out)[1] = 0; + ((UINT8 *)out)[2] = 0; } else if (v1 >= 255.0) { - ((UINT8*)out)[0] = 255; - ((UINT8*)out)[1] = 255; - ((UINT8*)out)[2] = 255; + ((UINT8 *)out)[0] = 255; + ((UINT8 *)out)[1] = 255; + ((UINT8 *)out)[2] = 255; } else { - ((UINT8*)out)[0] = (UINT8) v1; - ((UINT8*)out)[1] = (UINT8) v1; - ((UINT8*)out)[2] = (UINT8) v1; + ((UINT8 *)out)[0] = (UINT8)v1; + ((UINT8 *)out)[1] = (UINT8)v1; + ((UINT8 *)out)[2] = (UINT8)v1; } BICUBIC_BODY(UINT8, im->image, 4, 3); if (v1 <= 0.0) { - ((UINT8*)out)[3] = 0; + ((UINT8 *)out)[3] = 0; } else if (v1 >= 255.0) { - ((UINT8*)out)[3] = 255; + ((UINT8 *)out)[3] = 255; } else { - ((UINT8*)out)[3] = (UINT8) v1; + ((UINT8 *)out)[3] = (UINT8)v1; } return 1; } static int -bicubic_filter32RGB(void* out, Imaging im, double xin, double yin) -{ +bicubic_filter32RGB(void *out, Imaging im, double xin, double yin) { int b; BICUBIC_HEAD(UINT8); for (b = 0; b < im->bands; b++) { BICUBIC_BODY(UINT8, im->image, 4, b); if (v1 <= 0.0) { - ((UINT8*)out)[b] = 0; + ((UINT8 *)out)[b] = 0; } else if (v1 >= 255.0) { - ((UINT8*)out)[b] = 255; + ((UINT8 *)out)[b] = 255; } else { - ((UINT8*)out)[b] = (UINT8) v1; + ((UINT8 *)out)[b] = (UINT8)v1; } } return 1; @@ -703,64 +706,63 @@ bicubic_filter32RGB(void* out, Imaging im, double xin, double yin) #undef BICUBIC_BODY static ImagingTransformFilter -getfilter(Imaging im, int filterid) -{ +getfilter(Imaging im, int filterid) { switch (filterid) { - case IMAGING_TRANSFORM_NEAREST: - if (im->image8) { - switch (im->type) { - case IMAGING_TYPE_UINT8: - return nearest_filter8; - case IMAGING_TYPE_SPECIAL: - switch (im->pixelsize) { - case 1: - return nearest_filter8; - case 2: - return nearest_filter16; - case 4: - return nearest_filter32; + case IMAGING_TRANSFORM_NEAREST: + if (im->image8) { + switch (im->type) { + case IMAGING_TYPE_UINT8: + return nearest_filter8; + case IMAGING_TYPE_SPECIAL: + switch (im->pixelsize) { + case 1: + return nearest_filter8; + case 2: + return nearest_filter16; + case 4: + return nearest_filter32; + } } + } else { + return nearest_filter32; } - } else { - return nearest_filter32; - } - break; - case IMAGING_TRANSFORM_BILINEAR: - if (im->image8) { - return bilinear_filter8; - } else if (im->image32) { - switch (im->type) { - case IMAGING_TYPE_UINT8: - if (im->bands == 2) { - return bilinear_filter32LA; - } else { - return bilinear_filter32RGB; + break; + case IMAGING_TRANSFORM_BILINEAR: + if (im->image8) { + return bilinear_filter8; + } else if (im->image32) { + switch (im->type) { + case IMAGING_TYPE_UINT8: + if (im->bands == 2) { + return bilinear_filter32LA; + } else { + return bilinear_filter32RGB; + } + case IMAGING_TYPE_INT32: + return bilinear_filter32I; + case IMAGING_TYPE_FLOAT32: + return bilinear_filter32F; } - case IMAGING_TYPE_INT32: - return bilinear_filter32I; - case IMAGING_TYPE_FLOAT32: - return bilinear_filter32F; } - } - break; - case IMAGING_TRANSFORM_BICUBIC: - if (im->image8) { - return bicubic_filter8; - } else if (im->image32) { - switch (im->type) { - case IMAGING_TYPE_UINT8: - if (im->bands == 2) { - return bicubic_filter32LA; - } else { - return bicubic_filter32RGB; + break; + case IMAGING_TRANSFORM_BICUBIC: + if (im->image8) { + return bicubic_filter8; + } else if (im->image32) { + switch (im->type) { + case IMAGING_TYPE_UINT8: + if (im->bands == 2) { + return bicubic_filter32LA; + } else { + return bicubic_filter32RGB; + } + case IMAGING_TYPE_INT32: + return bicubic_filter32I; + case IMAGING_TYPE_FLOAT32: + return bicubic_filter32F; } - case IMAGING_TYPE_INT32: - return bicubic_filter32I; - case IMAGING_TYPE_FLOAT32: - return bicubic_filter32F; } - } - break; + break; } /* no such filter */ return NULL; @@ -770,10 +772,16 @@ getfilter(Imaging im, int filterid) Imaging ImagingGenericTransform( - Imaging imOut, Imaging imIn, int x0, int y0, int x1, int y1, - ImagingTransformMap transform, void* transform_data, - int filterid, int fill) -{ + Imaging imOut, + Imaging imIn, + int x0, + int y0, + int x1, + int y1, + ImagingTransformMap transform, + void *transform_data, + int filterid, + int fill) { /* slow generic transformation. use ImagingTransformAffine or ImagingScaleAffine where possible. */ @@ -784,11 +792,11 @@ ImagingGenericTransform( ImagingTransformFilter filter = getfilter(imIn, filterid); if (!filter) { - return (Imaging) ImagingError_ValueError("bad filter number"); + return (Imaging)ImagingError_ValueError("bad filter number"); } if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } ImagingCopyPalette(imOut, imIn); @@ -809,10 +817,10 @@ ImagingGenericTransform( } for (y = y0; y < y1; y++) { - out = imOut->image[y] + x0*imOut->pixelsize; + out = imOut->image[y] + x0 * imOut->pixelsize; for (x = x0; x < x1; x++) { - if ( ! transform(&xx, &yy, x-x0, y-y0, transform_data) || - ! filter(out, imIn, xx, yy)) { + if (!transform(&xx, &yy, x - x0, y - y0, transform_data) || + !filter(out, imIn, xx, yy)) { if (fill) { memset(out, 0, imOut->pixelsize); } @@ -827,10 +835,15 @@ ImagingGenericTransform( } static Imaging -ImagingScaleAffine(Imaging imOut, Imaging imIn, - int x0, int y0, int x1, int y1, - double a[6], int fill) -{ +ImagingScaleAffine( + Imaging imOut, + Imaging imIn, + int x0, + int y0, + int x1, + int y1, + double a[6], + int fill) { /* scale, nearest neighbour resampling */ ImagingSectionCookie cookie; @@ -841,7 +854,7 @@ ImagingScaleAffine(Imaging imOut, Imaging imIn, int *xintab; if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } ImagingCopyPalette(imOut, imIn); @@ -860,10 +873,10 @@ ImagingScaleAffine(Imaging imOut, Imaging imIn, } /* malloc check ok, uses calloc for overflow */ - xintab = (int*) calloc(imOut->xsize, sizeof(int)); + xintab = (int *)calloc(imOut->xsize, sizeof(int)); if (!xintab) { ImagingDelete(imOut); - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } xo = a[2] + a[0] * 0.5; @@ -875,8 +888,8 @@ ImagingScaleAffine(Imaging imOut, Imaging imIn, /* Pretabulate horizontal pixel positions */ for (x = x0; x < x1; x++) { xin = COORD(xo); - if (xin >= 0 && xin < (int) imIn->xsize) { - xmax = x+1; + if (xin >= 0 && xin < (int)imIn->xsize) { + xmax = x + 1; if (x < xmin) { xmin = x; } @@ -885,21 +898,21 @@ ImagingScaleAffine(Imaging imOut, Imaging imIn, xo += a[0]; } -#define AFFINE_SCALE(pixel, image)\ - for (y = y0; y < y1; y++) {\ - int yi = COORD(yo);\ - pixel *in, *out;\ - out = imOut->image[y];\ - if (fill && x1 > x0) {\ - memset(out+x0, 0, (x1-x0)*sizeof(pixel));\ - }\ - if (yi >= 0 && yi < imIn->ysize) {\ - in = imIn->image[yi];\ - for (x = xmin; x < xmax; x++) {\ - out[x] = in[xintab[x]];\ - }\ - }\ - yo += a[4];\ +#define AFFINE_SCALE(pixel, image) \ + for (y = y0; y < y1; y++) { \ + int yi = COORD(yo); \ + pixel *in, *out; \ + out = imOut->image[y]; \ + if (fill && x1 > x0) { \ + memset(out + x0, 0, (x1 - x0) * sizeof(pixel)); \ + } \ + if (yi >= 0 && yi < imIn->ysize) { \ + in = imIn->image[yi]; \ + for (x = xmin; x < xmax; x++) { \ + out[x] = in[xintab[x]]; \ + } \ + } \ + yo += a[4]; \ } ImagingSectionEnter(&cookie); @@ -920,17 +933,23 @@ ImagingScaleAffine(Imaging imOut, Imaging imIn, } static inline int -check_fixed(double a[6], int x, int y) -{ - return (fabs(x*a[0] + y*a[1] + a[2]) < 32768.0 && - fabs(x*a[3] + y*a[4] + a[5]) < 32768.0); +check_fixed(double a[6], int x, int y) { + return ( + fabs(x * a[0] + y * a[1] + a[2]) < 32768.0 && + fabs(x * a[3] + y * a[4] + a[5]) < 32768.0); } static inline Imaging -affine_fixed(Imaging imOut, Imaging imIn, - int x0, int y0, int x1, int y1, - double a[6], int filterid, int fill) -{ +affine_fixed( + Imaging imOut, + Imaging imIn, + int x0, + int y0, + int x1, + int y1, + double a[6], + int filterid, + int fill) { /* affine transform, nearest neighbour resampling, fixed point arithmetics */ @@ -943,41 +962,43 @@ affine_fixed(Imaging imOut, Imaging imIn, ImagingCopyPalette(imOut, imIn); - xsize = (int) imIn->xsize; - ysize = (int) imIn->ysize; + xsize = (int)imIn->xsize; + ysize = (int)imIn->ysize; /* use 16.16 fixed point arithmetics */ #define FIX(v) FLOOR((v)*65536.0 + 0.5) - a0 = FIX(a[0]); a1 = FIX(a[1]); - a3 = FIX(a[3]); a4 = FIX(a[4]); + a0 = FIX(a[0]); + a1 = FIX(a[1]); + a3 = FIX(a[3]); + a4 = FIX(a[4]); a2 = FIX(a[2] + a[0] * 0.5 + a[1] * 0.5); a5 = FIX(a[5] + a[3] * 0.5 + a[4] * 0.5); #undef FIX -#define AFFINE_TRANSFORM_FIXED(pixel, image)\ - for (y = y0; y < y1; y++) {\ - pixel *out;\ - xx = a2;\ - yy = a5;\ - out = imOut->image[y];\ - if (fill && x1 > x0) {\ - memset(out+x0, 0, (x1-x0)*sizeof(pixel));\ - }\ - for (x = x0; x < x1; x++, out++) {\ - xin = xx >> 16;\ - if (xin >= 0 && xin < xsize) {\ - yin = yy >> 16;\ - if (yin >= 0 && yin < ysize) {\ - *out = imIn->image[yin][xin];\ - }\ - }\ - xx += a0;\ - yy += a3;\ - }\ - a2 += a1;\ - a5 += a4;\ +#define AFFINE_TRANSFORM_FIXED(pixel, image) \ + for (y = y0; y < y1; y++) { \ + pixel *out; \ + xx = a2; \ + yy = a5; \ + out = imOut->image[y]; \ + if (fill && x1 > x0) { \ + memset(out + x0, 0, (x1 - x0) * sizeof(pixel)); \ + } \ + for (x = x0; x < x1; x++, out++) { \ + xin = xx >> 16; \ + if (xin >= 0 && xin < xsize) { \ + yin = yy >> 16; \ + if (yin >= 0 && yin < ysize) { \ + *out = imIn->image[yin][xin]; \ + } \ + } \ + xx += a0; \ + yy += a3; \ + } \ + a2 += a1; \ + a5 += a4; \ } ImagingSectionEnter(&cookie); @@ -996,10 +1017,16 @@ affine_fixed(Imaging imOut, Imaging imIn, } Imaging -ImagingTransformAffine(Imaging imOut, Imaging imIn, - int x0, int y0, int x1, int y1, - double a[6], int filterid, int fill) -{ +ImagingTransformAffine( + Imaging imOut, + Imaging imIn, + int x0, + int y0, + int x1, + int y1, + double a[6], + int filterid, + int fill) { /* affine transform, nearest neighbour resampling, floating point arithmetics*/ @@ -1012,10 +1039,7 @@ ImagingTransformAffine(Imaging imOut, Imaging imIn, if (filterid || imIn->type == IMAGING_TYPE_SPECIAL) { return ImagingGenericTransform( - imOut, imIn, - x0, y0, x1, y1, - affine_transform, a, - filterid, fill); + imOut, imIn, x0, y0, x1, y1, affine_transform, a, filterid, fill); } if (a[1] == 0 && a[3] == 0) { @@ -1024,7 +1048,7 @@ ImagingTransformAffine(Imaging imOut, Imaging imIn, } if (!imOut || !imIn || strcmp(imIn->mode, imOut->mode) != 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (x0 < 0) { @@ -1043,8 +1067,8 @@ ImagingTransformAffine(Imaging imOut, Imaging imIn, /* translate all four corners to check if they are within the range that can be represented by the fixed point arithmetics */ - if (check_fixed(a, 0, 0) && check_fixed(a, x1-x0, y1-y0) && - check_fixed(a, 0, y1-y0) && check_fixed(a, x1-x0, 0)) { + if (check_fixed(a, 0, 0) && check_fixed(a, x1 - x0, y1 - y0) && + check_fixed(a, 0, y1 - y0) && check_fixed(a, x1 - x0, 0)) { return affine_fixed(imOut, imIn, x0, y0, x1, y1, a, filterid, fill); } @@ -1054,34 +1078,34 @@ ImagingTransformAffine(Imaging imOut, Imaging imIn, ImagingCopyPalette(imOut, imIn); - xsize = (int) imIn->xsize; - ysize = (int) imIn->ysize; + xsize = (int)imIn->xsize; + ysize = (int)imIn->ysize; xo = a[2] + a[1] * 0.5 + a[0] * 0.5; yo = a[5] + a[4] * 0.5 + a[3] * 0.5; -#define AFFINE_TRANSFORM(pixel, image)\ - for (y = y0; y < y1; y++) {\ - pixel *out;\ - xx = xo;\ - yy = yo;\ - out = imOut->image[y];\ - if (fill && x1 > x0) {\ - memset(out+x0, 0, (x1-x0)*sizeof(pixel));\ - }\ - for (x = x0; x < x1; x++, out++) {\ - xin = COORD(xx);\ - if (xin >= 0 && xin < xsize) {\ - yin = COORD(yy);\ - if (yin >= 0 && yin < ysize) {\ - *out = imIn->image[yin][xin];\ - }\ - }\ - xx += a[0];\ - yy += a[3];\ - }\ - xo += a[1];\ - yo += a[4];\ +#define AFFINE_TRANSFORM(pixel, image) \ + for (y = y0; y < y1; y++) { \ + pixel *out; \ + xx = xo; \ + yy = yo; \ + out = imOut->image[y]; \ + if (fill && x1 > x0) { \ + memset(out + x0, 0, (x1 - x0) * sizeof(pixel)); \ + } \ + for (x = x0; x < x1; x++, out++) { \ + xin = COORD(xx); \ + if (xin >= 0 && xin < xsize) { \ + yin = COORD(yy); \ + if (yin >= 0 && yin < ysize) { \ + *out = imIn->image[yin][xin]; \ + } \ + } \ + xx += a[0]; \ + yy += a[3]; \ + } \ + xo += a[1]; \ + yo += a[4]; \ } ImagingSectionEnter(&cookie); @@ -1100,29 +1124,34 @@ ImagingTransformAffine(Imaging imOut, Imaging imIn, } Imaging -ImagingTransform(Imaging imOut, Imaging imIn, int method, - int x0, int y0, int x1, int y1, - double a[8], int filterid, int fill) -{ +ImagingTransform( + Imaging imOut, + Imaging imIn, + int method, + int x0, + int y0, + int x1, + int y1, + double a[8], + int filterid, + int fill) { ImagingTransformMap transform; - switch(method) { - case IMAGING_TRANSFORM_AFFINE: - return ImagingTransformAffine( - imOut, imIn, x0, y0, x1, y1, a, filterid, fill); - break; - case IMAGING_TRANSFORM_PERSPECTIVE: - transform = perspective_transform; - break; - case IMAGING_TRANSFORM_QUAD: - transform = quad_transform; - break; - default: - return (Imaging) ImagingError_ValueError("bad transform method"); + switch (method) { + case IMAGING_TRANSFORM_AFFINE: + return ImagingTransformAffine( + imOut, imIn, x0, y0, x1, y1, a, filterid, fill); + break; + case IMAGING_TRANSFORM_PERSPECTIVE: + transform = perspective_transform; + break; + case IMAGING_TRANSFORM_QUAD: + transform = quad_transform; + break; + default: + return (Imaging)ImagingError_ValueError("bad transform method"); } return ImagingGenericTransform( - imOut, imIn, - x0, y0, x1, y1, - transform, a, filterid, fill); + imOut, imIn, x0, y0, x1, y1, transform, a, filterid, fill); } diff --git a/src/libImaging/GetBBox.c b/src/libImaging/GetBBox.c index 9a8ae1f320c..9e9862ff165 100644 --- a/src/libImaging/GetBBox.c +++ b/src/libImaging/GetBBox.c @@ -16,13 +16,10 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" - int -ImagingGetBBox(Imaging im, int bbox[4]) -{ +ImagingGetBBox(Imaging im, int bbox[4]) { /* Get the bounding box for any non-zero data in the image.*/ int x, y; @@ -33,26 +30,26 @@ ImagingGetBBox(Imaging im, int bbox[4]) bbox[1] = -1; bbox[2] = bbox[3] = 0; -#define GETBBOX(image, mask)\ - for (y = 0; y < im->ysize; y++) {\ - has_data = 0;\ - for (x = 0; x < im->xsize; x++) {\ - if (im->image[y][x] & mask) {\ - has_data = 1;\ - if (x < bbox[0]) {\ - bbox[0] = x;\ - }\ - if (x >= bbox[2]) {\ - bbox[2] = x+1;\ - }\ - }\ - }\ - if (has_data) {\ - if (bbox[1] < 0) {\ - bbox[1] = y;\ - }\ - bbox[3] = y+1;\ - }\ +#define GETBBOX(image, mask) \ + for (y = 0; y < im->ysize; y++) { \ + has_data = 0; \ + for (x = 0; x < im->xsize; x++) { \ + if (im->image[y][x] & mask) { \ + has_data = 1; \ + if (x < bbox[0]) { \ + bbox[0] = x; \ + } \ + if (x >= bbox[2]) { \ + bbox[2] = x + 1; \ + } \ + } \ + } \ + if (has_data) { \ + if (bbox[1] < 0) { \ + bbox[1] = y; \ + } \ + bbox[3] = y + 1; \ + } \ } if (im->image8) { @@ -60,16 +57,15 @@ ImagingGetBBox(Imaging im, int bbox[4]) } else { INT32 mask = 0xffffffff; if (im->bands == 3) { - ((UINT8*) &mask)[3] = 0; - } else if (strcmp(im->mode, "RGBa") == 0 || - strcmp(im->mode, "RGBA") == 0 || - strcmp(im->mode, "La") == 0 || - strcmp(im->mode, "LA") == 0 || - strcmp(im->mode, "PA") == 0) { + ((UINT8 *)&mask)[3] = 0; + } else if ( + strcmp(im->mode, "RGBa") == 0 || strcmp(im->mode, "RGBA") == 0 || + strcmp(im->mode, "La") == 0 || strcmp(im->mode, "LA") == 0 || + strcmp(im->mode, "PA") == 0) { #ifdef WORDS_BIGENDIAN - mask = 0x000000ff; + mask = 0x000000ff; #else - mask = 0xff000000; + mask = 0xff000000; #endif } GETBBOX(image32, mask); @@ -83,10 +79,8 @@ ImagingGetBBox(Imaging im, int bbox[4]) return 1; /* ok */ } - int -ImagingGetProjection(Imaging im, UINT8* xproj, UINT8* yproj) -{ +ImagingGetProjection(Imaging im, UINT8 *xproj, UINT8 *yproj) { /* Get projection arrays for non-zero data in the image.*/ int x, y; @@ -96,26 +90,26 @@ ImagingGetProjection(Imaging im, UINT8* xproj, UINT8* yproj) memset(xproj, 0, im->xsize); memset(yproj, 0, im->ysize); - #define GETPROJ(image, mask)\ - for (y = 0; y < im->ysize; y++) {\ - has_data = 0;\ - for (x = 0; x < im->xsize; x++) {\ - if (im->image[y][x] & mask) {\ - has_data = 1;\ - xproj[x] = 1;\ - }\ - }\ - if (has_data) {\ - yproj[y] = 1;\ - }\ - } +#define GETPROJ(image, mask) \ + for (y = 0; y < im->ysize; y++) { \ + has_data = 0; \ + for (x = 0; x < im->xsize; x++) { \ + if (im->image[y][x] & mask) { \ + has_data = 1; \ + xproj[x] = 1; \ + } \ + } \ + if (has_data) { \ + yproj[y] = 1; \ + } \ + } if (im->image8) { GETPROJ(image8, 0xff); } else { INT32 mask = 0xffffffff; if (im->bands == 3) { - ((UINT8*) &mask)[3] = 0; + ((UINT8 *)&mask)[3] = 0; } GETPROJ(image32, mask); } @@ -123,16 +117,14 @@ ImagingGetProjection(Imaging im, UINT8* xproj, UINT8* yproj) return 1; /* ok */ } - int -ImagingGetExtrema(Imaging im, void *extrema) -{ +ImagingGetExtrema(Imaging im, void *extrema) { int x, y; INT32 imin, imax; FLOAT32 fmin, fmax; if (im->bands != 1) { - (void) ImagingError_ModeError(); + (void)ImagingError_ModeError(); return -1; /* mismatch */ } @@ -141,111 +133,109 @@ ImagingGetExtrema(Imaging im, void *extrema) } switch (im->type) { - case IMAGING_TYPE_UINT8: - imin = imax = im->image8[0][0]; - for (y = 0; y < im->ysize; y++) { - UINT8* in = im->image8[y]; - for (x = 0; x < im->xsize; x++) { - if (imin > in[x]) { - imin = in[x]; - } else if (imax < in[x]) { - imax = in[x]; + case IMAGING_TYPE_UINT8: + imin = imax = im->image8[0][0]; + for (y = 0; y < im->ysize; y++) { + UINT8 *in = im->image8[y]; + for (x = 0; x < im->xsize; x++) { + if (imin > in[x]) { + imin = in[x]; + } else if (imax < in[x]) { + imax = in[x]; + } } } - } - ((UINT8*) extrema)[0] = (UINT8) imin; - ((UINT8*) extrema)[1] = (UINT8) imax; - break; - case IMAGING_TYPE_INT32: - imin = imax = im->image32[0][0]; - for (y = 0; y < im->ysize; y++) { - INT32* in = im->image32[y]; - for (x = 0; x < im->xsize; x++) { - if (imin > in[x]) { - imin = in[x]; - } else if (imax < in[x]) { - imax = in[x]; + ((UINT8 *)extrema)[0] = (UINT8)imin; + ((UINT8 *)extrema)[1] = (UINT8)imax; + break; + case IMAGING_TYPE_INT32: + imin = imax = im->image32[0][0]; + for (y = 0; y < im->ysize; y++) { + INT32 *in = im->image32[y]; + for (x = 0; x < im->xsize; x++) { + if (imin > in[x]) { + imin = in[x]; + } else if (imax < in[x]) { + imax = in[x]; + } } } - } - memcpy(extrema, &imin, sizeof(imin)); - memcpy(((char*)extrema) + sizeof(imin), &imax, sizeof(imax)); - break; - case IMAGING_TYPE_FLOAT32: - fmin = fmax = ((FLOAT32*) im->image32[0])[0]; - for (y = 0; y < im->ysize; y++) { - FLOAT32* in = (FLOAT32*) im->image32[y]; - for (x = 0; x < im->xsize; x++) { - if (fmin > in[x]) { - fmin = in[x]; - } else if (fmax < in[x]) { - fmax = in[x]; + memcpy(extrema, &imin, sizeof(imin)); + memcpy(((char *)extrema) + sizeof(imin), &imax, sizeof(imax)); + break; + case IMAGING_TYPE_FLOAT32: + fmin = fmax = ((FLOAT32 *)im->image32[0])[0]; + for (y = 0; y < im->ysize; y++) { + FLOAT32 *in = (FLOAT32 *)im->image32[y]; + for (x = 0; x < im->xsize; x++) { + if (fmin > in[x]) { + fmin = in[x]; + } else if (fmax < in[x]) { + fmax = in[x]; + } } } - } - memcpy(extrema, &fmin, sizeof(fmin)); - memcpy(((char*)extrema) + sizeof(fmin), &fmax, sizeof(fmax)); - break; - case IMAGING_TYPE_SPECIAL: - if (strcmp(im->mode, "I;16") == 0) { - UINT16 v; - UINT8* pixel = *im->image8; + memcpy(extrema, &fmin, sizeof(fmin)); + memcpy(((char *)extrema) + sizeof(fmin), &fmax, sizeof(fmax)); + break; + case IMAGING_TYPE_SPECIAL: + if (strcmp(im->mode, "I;16") == 0) { + UINT16 v; + UINT8 *pixel = *im->image8; #ifdef WORDS_BIGENDIAN - v = pixel[0] + (pixel[1] << 8); + v = pixel[0] + (pixel[1] << 8); #else - memcpy(&v, pixel, sizeof(v)); + memcpy(&v, pixel, sizeof(v)); #endif - imin = imax = v; - for (y = 0; y < im->ysize; y++) { - for (x = 0; x < im->xsize; x++) { - pixel = im->image[y] + x * sizeof(v); + imin = imax = v; + for (y = 0; y < im->ysize; y++) { + for (x = 0; x < im->xsize; x++) { + pixel = im->image[y] + x * sizeof(v); #ifdef WORDS_BIGENDIAN - v = pixel[0] + (pixel[1] << 8); + v = pixel[0] + (pixel[1] << 8); #else - memcpy(&v, pixel, sizeof(v)); + memcpy(&v, pixel, sizeof(v)); #endif - if (imin > v) { - imin = v; - } else if (imax < v) { - imax = v; - } - } - } - v = (UINT16) imin; - memcpy(extrema, &v, sizeof(v)); - v = (UINT16) imax; - memcpy(((char*)extrema) + sizeof(v), &v, sizeof(v)); - break; - } - /* FALL THROUGH */ - default: - (void) ImagingError_ModeError(); - return -1; + if (imin > v) { + imin = v; + } else if (imax < v) { + imax = v; + } + } + } + v = (UINT16)imin; + memcpy(extrema, &v, sizeof(v)); + v = (UINT16)imax; + memcpy(((char *)extrema) + sizeof(v), &v, sizeof(v)); + break; + } + /* FALL THROUGH */ + default: + (void)ImagingError_ModeError(); + return -1; } return 1; /* ok */ } - /* static ImagingColorItem* getcolors8(Imaging im, int maxcolors, int* size);*/ -static ImagingColorItem* getcolors32(Imaging im, int maxcolors, int* size); +static ImagingColorItem * +getcolors32(Imaging im, int maxcolors, int *size); -ImagingColorItem* -ImagingGetColors(Imaging im, int maxcolors, int* size) -{ +ImagingColorItem * +ImagingGetColors(Imaging im, int maxcolors, int *size) { /* FIXME: add support for 8-bit images */ return getcolors32(im, maxcolors, size); } -static ImagingColorItem* -getcolors32(Imaging im, int maxcolors, int* size) -{ +static ImagingColorItem * +getcolors32(Imaging im, int maxcolors, int *size) { unsigned int h; unsigned int i, incr; int colors; INT32 pixel_mask; int x, y; - ImagingColorItem* table; - ImagingColorItem* v; + ImagingColorItem *table; + ImagingColorItem *v; unsigned int code_size; unsigned int code_poly; @@ -256,19 +246,19 @@ getcolors32(Imaging im, int maxcolors, int* size) Python's Unicode property database (written by yours truly) /F */ static int SIZES[] = { - 4,3, 8,3, 16,3, 32,5, 64,3, 128,3, 256,29, 512,17, 1024,9, 2048,5, - 4096,83, 8192,27, 16384,43, 32768,3, 65536,45, 131072,9, 262144,39, - 524288,39, 1048576,9, 2097152,5, 4194304,3, 8388608,33, 16777216,27, - 33554432,9, 67108864,71, 134217728,39, 268435456,9, 536870912,5, - 1073741824,83, 0 - }; + 4, 3, 8, 3, 16, 3, 32, 5, 64, 3, + 128, 3, 256, 29, 512, 17, 1024, 9, 2048, 5, + 4096, 83, 8192, 27, 16384, 43, 32768, 3, 65536, 45, + 131072, 9, 262144, 39, 524288, 39, 1048576, 9, 2097152, 5, + 4194304, 3, 8388608, 33, 16777216, 27, 33554432, 9, 67108864, 71, + 134217728, 39, 268435456, 9, 536870912, 5, 1073741824, 83, 0}; code_size = code_poly = code_mask = 0; for (i = 0; SIZES[i]; i += 2) { if (SIZES[i] > maxcolors) { code_size = SIZES[i]; - code_poly = SIZES[i+1]; + code_poly = SIZES[i + 1]; code_mask = code_size - 1; break; } @@ -292,13 +282,13 @@ getcolors32(Imaging im, int maxcolors, int* size) pixel_mask = 0xffffffff; if (im->bands == 3) { - ((UINT8*) &pixel_mask)[3] = 0; + ((UINT8 *)&pixel_mask)[3] = 0; } colors = 0; for (y = 0; y < im->ysize; y++) { - INT32* p = im->image32[y]; + INT32 *p = im->image32[y]; for (x = 0; x < im->xsize; x++) { INT32 pixel = p[x] & pixel_mask; h = (pixel); /* null hashing */ @@ -309,7 +299,8 @@ getcolors32(Imaging im, int maxcolors, int* size) if (colors++ == maxcolors) { goto overflow; } - v->x = x; v->y = y; + v->x = x; + v->y = y; v->pixel = pixel; v->count = 1; continue; @@ -329,7 +320,8 @@ getcolors32(Imaging im, int maxcolors, int* size) if (colors++ == maxcolors) { goto overflow; } - v->x = x; v->y = y; + v->x = x; + v->y = y; v->pixel = pixel; v->count = 1; break; @@ -348,7 +340,7 @@ getcolors32(Imaging im, int maxcolors, int* size) overflow: /* pack the table */ - for (x = y = 0; x < (int) code_size; x++) + for (x = y = 0; x < (int)code_size; x++) if (table[x].count) { if (x != y) { table[y] = table[x]; diff --git a/src/libImaging/Gif.h b/src/libImaging/Gif.h index bb118396cdf..a85ce2b6e3c 100644 --- a/src/libImaging/Gif.h +++ b/src/libImaging/Gif.h @@ -7,17 +7,14 @@ * Copyright (c) Fredrik Lundh 1995-96. */ - /* Max size for a LZW code word. */ -#define GIFBITS 12 - -#define GIFTABLE (1< @@ -29,48 +28,44 @@ #include "Gif.h" - -#define NEWLINE(state, context) {\ - state->x = 0;\ - state->y += context->step;\ - while (state->y >= state->ysize)\ - switch (context->interlace) {\ - case 1:\ - context->repeat = state->y = 4;\ - context->interlace = 2;\ - break;\ - case 2:\ - context->step = 4;\ - context->repeat = state->y = 2;\ - context->interlace = 3;\ - break;\ - case 3:\ - context->step = 2;\ - context->repeat = state->y = 1;\ - context->interlace = 0;\ - break;\ - default:\ - return -1;\ - }\ - if (state->y < state->ysize) {\ - out = im->image8[state->y + state->yoff] + state->xoff;\ - }\ -} - +#define NEWLINE(state, context) \ + { \ + state->x = 0; \ + state->y += context->step; \ + while (state->y >= state->ysize) switch (context->interlace) { \ + case 1: \ + context->repeat = state->y = 4; \ + context->interlace = 2; \ + break; \ + case 2: \ + context->step = 4; \ + context->repeat = state->y = 2; \ + context->interlace = 3; \ + break; \ + case 3: \ + context->step = 2; \ + context->repeat = state->y = 1; \ + context->interlace = 0; \ + break; \ + default: \ + return -1; \ + } \ + if (state->y < state->ysize) { \ + out = im->image8[state->y + state->yoff] + state->xoff; \ + } \ + } int -ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t bytes) -{ - UINT8* p; - UINT8* out; +ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes) { + UINT8 *p; + UINT8 *out; int c, i; int thiscode; - GIFDECODERSTATE *context = (GIFDECODERSTATE*) state->context; + GIFDECODERSTATE *context = (GIFDECODERSTATE *)state->context; UINT8 *ptr = buffer; if (!state->state) { - /* Initialise state */ if (context->bits < 0 || context->bits > 12) { state->errcode = IMAGING_CODEC_CONFIG; @@ -97,9 +92,7 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t out = im->image8[state->y + state->yoff] + state->xoff + state->x; for (;;) { - if (state->state == 1) { - /* First free entry in table */ context->next = context->clear + 2; @@ -115,7 +108,6 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t } if (context->bufferindex < GIFBUFFER) { - /* Return whole buffer in one chunk */ i = GIFBUFFER - context->bufferindex; p = &context->buffer[context->bufferindex]; @@ -123,24 +115,21 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t context->bufferindex = GIFBUFFER; } else { - /* Get current symbol */ while (context->bitcount < context->codesize) { - if (context->blocksize > 0) { - /* Read next byte */ - c = *ptr++; bytes--; + c = *ptr++; + bytes--; context->blocksize--; /* New bits are shifted in from from the left. */ - context->bitbuffer |= (INT32) c << context->bitcount; + context->bitbuffer |= (INT32)c << context->bitcount; context->bitcount += 8; } else { - /* New GIF block */ /* We don't start decoding unless we have a full block */ @@ -148,19 +137,19 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t return ptr - buffer; } c = *ptr; - if (bytes < c+1) { + if (bytes < c + 1) { return ptr - buffer; } context->blocksize = c; - ptr++; bytes--; - + ptr++; + bytes--; } } /* Extract current symbol from bit buffer. */ - c = (int) context->bitbuffer & context->codemask; + c = (int)context->bitbuffer & context->codemask; /* Adjust buffer */ context->bitbuffer >>= context->codesize; @@ -185,7 +174,6 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t p = &context->lastdata; if (state->state == 2) { - /* First valid symbol after clear; use as is */ if (c > context->clear) { state->errcode = IMAGING_CODEC_BROKEN; @@ -196,7 +184,6 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t state->state = 3; } else { - thiscode = c; if (c > context->next) { @@ -205,7 +192,6 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t } if (c == context->next) { - /* c == next is allowed. not sure why. */ if (context->bufferindex <= 0) { @@ -213,15 +199,12 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t return -1; } - context->buffer[--context->bufferindex] = - context->lastdata; + context->buffer[--context->bufferindex] = context->lastdata; c = context->lastcode; - } while (c >= context->clear) { - /* Copy data string to buffer (beginning from right) */ if (context->bufferindex <= 0 || c >= GIFTABLE) { @@ -229,8 +212,7 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t return -1; } - context->buffer[--context->bufferindex] = - context->data[c]; + context->buffer[--context->bufferindex] = context->data[c]; c = context->link[c]; } @@ -238,26 +220,22 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t context->lastdata = c; if (context->next < GIFTABLE) { - /* We'll only add this symbol if we have room for it (take advise, Netscape!) */ context->data[context->next] = c; context->link[context->next] = context->lastcode; if (context->next == context->codemask && - context->codesize < GIFBITS) { - + context->codesize < GIFBITS) { /* Expand code size */ context->codesize++; context->codemask = (1 << context->codesize) - 1; } context->next++; - } context->lastcode = thiscode; - } } @@ -273,7 +251,7 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t /* FIXME: should we handle the transparency index in here??? */ if (i == 1) { - if (state->x < state->xsize-1) { + if (state->x < state->xsize - 1) { /* Single pixel, not at the end of the line. */ *out++ = p[0]; state->x++; @@ -282,7 +260,7 @@ ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t } else if (state->x + i <= state->xsize) { /* This string fits into current line. */ memcpy(out, p, i); - out += i; + out += i; state->x += i; if (state->x == state->xsize) { NEWLINE(state, context); diff --git a/src/libImaging/GifEncode.c b/src/libImaging/GifEncode.c index e9c6c314918..12b7f23e26c 100644 --- a/src/libImaging/GifEncode.c +++ b/src/libImaging/GifEncode.c @@ -35,12 +35,11 @@ enum { INIT, ENCODE, ENCODE_EOF, FLUSH, EXIT }; necessary. */ static inline int -emit(GIFENCODERSTATE *context, int byte) -{ +emit(GIFENCODERSTATE *context, int byte) { /* write a byte to the output buffer */ if (!context->block || context->block->size == 255) { - GIFENCODERBLOCK* block; + GIFENCODERBLOCK *block; /* no room in the current block (or no current block); allocate a new one */ @@ -74,7 +73,6 @@ emit(GIFENCODERSTATE *context, int byte) block->next = NULL; context->block = block; - } /* write new byte to block */ @@ -86,68 +84,68 @@ emit(GIFENCODERSTATE *context, int byte) /* write a code word to the current block. this is a macro to make sure it's inlined on all platforms */ -#define EMIT(code) {\ - context->bitbuffer |= ((INT32) (code)) << context->bitcount;\ - context->bitcount += 9;\ - while (context->bitcount >= 8) {\ - if (!emit(context, (UINT8) context->bitbuffer)) {\ - state->errcode = IMAGING_CODEC_MEMORY;\ - return 0;\ - }\ - context->bitbuffer >>= 8;\ - context->bitcount -= 8;\ - }\ -} +#define EMIT(code) \ + { \ + context->bitbuffer |= ((INT32)(code)) << context->bitcount; \ + context->bitcount += 9; \ + while (context->bitcount >= 8) { \ + if (!emit(context, (UINT8)context->bitbuffer)) { \ + state->errcode = IMAGING_CODEC_MEMORY; \ + return 0; \ + } \ + context->bitbuffer >>= 8; \ + context->bitcount -= 8; \ + } \ + } /* write a run. we use a combination of literals and combinations of literals. this can give quite decent compression for images with long stretches of identical pixels. but remember: if you want really good compression, use another file format. */ -#define EMIT_RUN(label) {\ -label:\ - while (context->count > 0) {\ - int run = 2;\ - EMIT(context->last);\ - context->count--;\ - if (state->count++ == LAST_CODE) {\ - EMIT(CLEAR_CODE);\ - state->count = FIRST_CODE;\ - goto label;\ - }\ - while (context->count >= run) {\ - EMIT(state->count - 1);\ - context->count -= run;\ - run++;\ - if (state->count++ == LAST_CODE) {\ - EMIT(CLEAR_CODE);\ - state->count = FIRST_CODE;\ - goto label;\ - }\ - }\ - if (context->count > 1) {\ - EMIT(state->count - 1 - (run - context->count));\ - context->count = 0;\ - if (state->count++ == LAST_CODE) {\ - EMIT(CLEAR_CODE);\ - state->count = FIRST_CODE;\ - }\ - break;\ - }\ - }\ -} +#define EMIT_RUN(label) \ + { \ + label: \ + while (context->count > 0) { \ + int run = 2; \ + EMIT(context->last); \ + context->count--; \ + if (state->count++ == LAST_CODE) { \ + EMIT(CLEAR_CODE); \ + state->count = FIRST_CODE; \ + goto label; \ + } \ + while (context->count >= run) { \ + EMIT(state->count - 1); \ + context->count -= run; \ + run++; \ + if (state->count++ == LAST_CODE) { \ + EMIT(CLEAR_CODE); \ + state->count = FIRST_CODE; \ + goto label; \ + } \ + } \ + if (context->count > 1) { \ + EMIT(state->count - 1 - (run - context->count)); \ + context->count = 0; \ + if (state->count++ == LAST_CODE) { \ + EMIT(CLEAR_CODE); \ + state->count = FIRST_CODE; \ + } \ + break; \ + } \ + } \ + } int -ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - UINT8* ptr; +ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + UINT8 *ptr; int this; - GIFENCODERBLOCK* block; - GIFENCODERSTATE *context = (GIFENCODERSTATE*) state->context; + GIFENCODERBLOCK *block; + GIFENCODERSTATE *context = (GIFENCODERSTATE *)state->context; if (!state->state) { - /* place a clear code in the output buffer */ context->bitbuffer = CLEAR_CODE; context->bitcount = 9; @@ -167,22 +165,17 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) if (state->xsize <= 0 || state->ysize <= 0) { state->state = ENCODE_EOF; } - } ptr = buf; - for (;;) - - switch (state->state) { - + for (;;) switch (state->state) { case INIT: case ENCODE: /* identify and store a run of pixels */ if (state->x == 0 || state->x >= state->xsize) { - if (!context->interlace && state->y >= state->ysize) { state->state = ENCODE_EOF; break; @@ -196,9 +189,9 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* get another line of data */ state->shuffle( state->buffer, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->xsize - ); + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->xsize); state->x = 0; @@ -231,7 +224,6 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* just make sure we don't loop forever */ context->interlace = 0; } - } this = state->buffer[state->x++]; @@ -245,7 +237,6 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } break; - case ENCODE_EOF: /* write the final run */ @@ -256,7 +247,7 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* empty the bit buffer */ while (context->bitcount > 0) { - if (!emit(context, (UINT8) context->bitbuffer)) { + if (!emit(context, (UINT8)context->bitbuffer)) { state->errcode = IMAGING_CODEC_MEMORY; return 0; } @@ -266,7 +257,7 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* flush the last block, and exit */ if (context->block) { - GIFENCODERBLOCK* block; + GIFENCODERBLOCK *block; block = context->flush; while (block && block->next) { block = block->next; @@ -286,45 +277,41 @@ ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) case EXIT: case FLUSH: - while (context->flush) { - - /* get a block from the flush queue */ - block = context->flush; - - if (block->size > 0) { - - /* make sure it fits into the output buffer */ - if (bytes < block->size+1) { - return ptr - buf; - } - - ptr[0] = block->size; - memcpy(ptr+1, block->data, block->size); - - ptr += block->size+1; - bytes -= block->size+1; + while (context->flush) { + /* get a block from the flush queue */ + block = context->flush; + if (block->size > 0) { + /* make sure it fits into the output buffer */ + if (bytes < block->size + 1) { + return ptr - buf; } - context->flush = block->next; + ptr[0] = block->size; + memcpy(ptr + 1, block->data, block->size); - if (context->free) { - free(context->free); - } - context->free = block; + ptr += block->size + 1; + bytes -= block->size + 1; + } + + context->flush = block->next; + if (context->free) { + free(context->free); } + context->free = block; + } - if (state->state == EXIT) { - /* this was the last block! */ - if (context->free) { - free(context->free); - } - state->errcode = IMAGING_CODEC_END; - return ptr - buf; + if (state->state == EXIT) { + /* this was the last block! */ + if (context->free) { + free(context->free); } + state->errcode = IMAGING_CODEC_END; + return ptr - buf; + } - state->state = ENCODE; - break; - } + state->state = ENCODE; + break; + } } diff --git a/src/libImaging/HexDecode.c b/src/libImaging/HexDecode.c index 1def8766f46..05f3dfd0514 100644 --- a/src/libImaging/HexDecode.c +++ b/src/libImaging/HexDecode.c @@ -13,23 +13,22 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" -#define HEX(v) ((v >= '0' && v <= '9') ? v - '0' :\ - (v >= 'a' && v <= 'f') ? v - 'a' + 10 :\ - (v >= 'A' && v <= 'F') ? v - 'A' + 10 : -1) +#define HEX(v) \ + ((v >= '0' && v <= '9') \ + ? v - '0' \ + : (v >= 'a' && v <= 'f') ? v - 'a' + 10 \ + : (v >= 'A' && v <= 'F') ? v - 'A' + 10 : -1) int -ImagingHexDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - UINT8* ptr; +ImagingHexDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + UINT8 *ptr; int a, b; ptr = buf; for (;;) { - if (bytes < 2) { return ptr - buf; } @@ -38,22 +37,19 @@ ImagingHexDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt b = HEX(ptr[1]); if (a < 0 || b < 0) { - ptr++; bytes--; } else { - ptr += 2; bytes -= 2; - state->buffer[state->x] = (a<<4) + b; + state->buffer[state->x] = (a << 4) + b; if (++state->x >= state->bytes) { - /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y], state->buffer, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y], state->buffer, state->xsize); state->x = 0; @@ -62,7 +58,6 @@ ImagingHexDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt return -1; } } - } } } diff --git a/src/libImaging/Histo.c b/src/libImaging/Histo.c index 050c2840f46..408e7edea9e 100644 --- a/src/libImaging/Histo.c +++ b/src/libImaging/Histo.c @@ -16,10 +16,8 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - /* HISTOGRAM */ /* -------------------------------------------------------------------- * Take a histogram of an image. Returns a histogram object containing @@ -27,8 +25,7 @@ */ void -ImagingHistogramDelete(ImagingHistogram h) -{ +ImagingHistogramDelete(ImagingHistogram h) { if (h->histogram) { free(h->histogram); } @@ -36,14 +33,13 @@ ImagingHistogramDelete(ImagingHistogram h) } ImagingHistogram -ImagingHistogramNew(Imaging im) -{ +ImagingHistogramNew(Imaging im) { ImagingHistogram h; /* Create histogram descriptor */ h = calloc(1, sizeof(struct ImagingHistogramInstance)); - strncpy(h->mode, im->mode, IMAGING_MODE_LENGTH-1); - h->mode[IMAGING_MODE_LENGTH-1] = 0; + strncpy(h->mode, im->mode, IMAGING_MODE_LENGTH - 1); + h->mode[IMAGING_MODE_LENGTH - 1] = 0; h->bands = im->bands; h->histogram = calloc(im->pixelsize, 256 * sizeof(long)); @@ -52,8 +48,7 @@ ImagingHistogramNew(Imaging im) } ImagingHistogram -ImagingGetHistogram(Imaging im, Imaging imMask, void* minmax) -{ +ImagingGetHistogram(Imaging im, Imaging imMask, void *minmax) { ImagingSectionCookie cookie; int x, y, i; ImagingHistogram h; @@ -95,13 +90,13 @@ ImagingGetHistogram(Imaging im, Imaging imMask, void* minmax) } ImagingSectionEnter(&cookie); for (y = 0; y < im->ysize; y++) { - UINT8* in = (UINT8*) im->image32[y]; + UINT8 *in = (UINT8 *)im->image32[y]; for (x = 0; x < im->xsize; x++) { if (imMask->image8[y][x] != 0) { h->histogram[(*in++)]++; - h->histogram[(*in++)+256]++; - h->histogram[(*in++)+512]++; - h->histogram[(*in++)+768]++; + h->histogram[(*in++) + 256]++; + h->histogram[(*in++) + 512]++; + h->histogram[(*in++) + 768]++; } else { in += 4; } @@ -124,12 +119,12 @@ ImagingGetHistogram(Imaging im, Imaging imMask, void* minmax) case IMAGING_TYPE_UINT8: ImagingSectionEnter(&cookie); for (y = 0; y < im->ysize; y++) { - UINT8* in = (UINT8*) im->image[y]; + UINT8 *in = (UINT8 *)im->image[y]; for (x = 0; x < im->xsize; x++) { h->histogram[(*in++)]++; - h->histogram[(*in++)+256]++; - h->histogram[(*in++)+512]++; - h->histogram[(*in++)+768]++; + h->histogram[(*in++) + 256]++; + h->histogram[(*in++) + 512]++; + h->histogram[(*in++) + 768]++; } } ImagingSectionLeave(&cookie); @@ -143,16 +138,16 @@ ImagingGetHistogram(Imaging im, Imaging imMask, void* minmax) break; } memcpy(&imin, minmax, sizeof(imin)); - memcpy(&imax, ((char*)minmax) + sizeof(imin), sizeof(imax)); + memcpy(&imax, ((char *)minmax) + sizeof(imin), sizeof(imax)); if (imin >= imax) { break; } ImagingSectionEnter(&cookie); scale = 255.0F / (imax - imin); for (y = 0; y < im->ysize; y++) { - INT32* in = im->image32[y]; + INT32 *in = im->image32[y]; for (x = 0; x < im->xsize; x++) { - i = (int) (((*in++)-imin)*scale); + i = (int)(((*in++) - imin) * scale); if (i >= 0 && i < 256) { h->histogram[i]++; } @@ -169,16 +164,16 @@ ImagingGetHistogram(Imaging im, Imaging imMask, void* minmax) break; } memcpy(&fmin, minmax, sizeof(fmin)); - memcpy(&fmax, ((char*)minmax) + sizeof(fmin), sizeof(fmax)); + memcpy(&fmax, ((char *)minmax) + sizeof(fmin), sizeof(fmax)); if (fmin >= fmax) { break; } ImagingSectionEnter(&cookie); scale = 255.0F / (fmax - fmin); for (y = 0; y < im->ysize; y++) { - FLOAT32* in = (FLOAT32*) im->image32[y]; + FLOAT32 *in = (FLOAT32 *)im->image32[y]; for (x = 0; x < im->xsize; x++) { - i = (int) (((*in++)-fmin)*scale); + i = (int)(((*in++) - fmin) * scale); if (i >= 0 && i < 256) { h->histogram[i]++; } diff --git a/src/libImaging/ImDib.h b/src/libImaging/ImDib.h index e5a2cc0f639..91ff3f322ff 100644 --- a/src/libImaging/ImDib.h +++ b/src/libImaging/ImDib.h @@ -35,20 +35,27 @@ struct ImagingDIBInstance { ImagingShuffler unpack; }; -typedef struct ImagingDIBInstance* ImagingDIB; +typedef struct ImagingDIBInstance *ImagingDIB; -extern char* ImagingGetModeDIB(int size_out[2]); +extern char * +ImagingGetModeDIB(int size_out[2]); -extern ImagingDIB ImagingNewDIB(const char *mode, int xsize, int ysize); +extern ImagingDIB +ImagingNewDIB(const char *mode, int xsize, int ysize); -extern void ImagingDeleteDIB(ImagingDIB im); +extern void +ImagingDeleteDIB(ImagingDIB im); -extern void ImagingDrawDIB(ImagingDIB dib, void *dc, int dst[4], int src[4]); -extern void ImagingExposeDIB(ImagingDIB dib, void *dc); +extern void +ImagingDrawDIB(ImagingDIB dib, void *dc, int dst[4], int src[4]); +extern void +ImagingExposeDIB(ImagingDIB dib, void *dc); -extern int ImagingQueryPaletteDIB(ImagingDIB dib, void *dc); +extern int +ImagingQueryPaletteDIB(ImagingDIB dib, void *dc); -extern void ImagingPasteDIB(ImagingDIB dib, Imaging im, int xy[4]); +extern void +ImagingPasteDIB(ImagingDIB dib, Imaging im, int xy[4]); #if defined(__cplusplus) } diff --git a/src/libImaging/ImPlatform.h b/src/libImaging/ImPlatform.h index 576ceaa58b3..9a2060edfd9 100644 --- a/src/libImaging/ImPlatform.h +++ b/src/libImaging/ImPlatform.h @@ -10,7 +10,8 @@ #include "Python.h" /* Workaround issue #2479 */ -#if PY_VERSION_HEX < 0x03070000 && defined(PySlice_GetIndicesEx) && !defined(PYPY_VERSION) +#if PY_VERSION_HEX < 0x03070000 && defined(PySlice_GetIndicesEx) && \ + !defined(PYPY_VERSION) #undef PySlice_GetIndicesEx #endif @@ -62,7 +63,7 @@ #define INT64 long #endif -#define INT8 signed char +#define INT8 signed char #define UINT8 unsigned char #define UINT16 unsigned INT16 @@ -76,11 +77,9 @@ #define FLOAT64 double #ifdef _MSC_VER -typedef signed __int64 int64_t; +typedef signed __int64 int64_t; #endif #ifdef __GNUC__ - #define GCC_VERSION (__GNUC__ * 10000 \ - + __GNUC_MINOR__ * 100 \ - + __GNUC_PATCHLEVEL__) +#define GCC_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__) #endif diff --git a/src/libImaging/Imaging.h b/src/libImaging/Imaging.h index d7dbe0325a4..ae323f39001 100644 --- a/src/libImaging/Imaging.h +++ b/src/libImaging/Imaging.h @@ -10,20 +10,16 @@ * See the README file for information on usage and redistribution. */ - #include "ImPlatform.h" - #if defined(__cplusplus) extern "C" { #endif - #ifndef M_PI -#define M_PI 3.1415926535897932384626433832795 +#define M_PI 3.1415926535897932384626433832795 #endif - /* -------------------------------------------------------------------- */ /* @@ -57,12 +53,12 @@ extern "C" { /* Handles */ -typedef struct ImagingMemoryInstance* Imaging; +typedef struct ImagingMemoryInstance *Imaging; -typedef struct ImagingAccessInstance* ImagingAccess; -typedef struct ImagingHistogramInstance* ImagingHistogram; -typedef struct ImagingOutlineInstance* ImagingOutline; -typedef struct ImagingPaletteInstance* ImagingPalette; +typedef struct ImagingAccessInstance *ImagingAccess; +typedef struct ImagingHistogramInstance *ImagingHistogram; +typedef struct ImagingOutlineInstance *ImagingOutline; +typedef struct ImagingPaletteInstance *ImagingPalette; /* handle magics (used with PyCObject). */ #define IMAGING_MAGIC "PIL Imaging" @@ -73,7 +69,8 @@ typedef struct ImagingPaletteInstance* ImagingPalette; #define IMAGING_TYPE_FLOAT32 2 #define IMAGING_TYPE_SPECIAL 3 /* check mode for details */ -#define IMAGING_MODE_LENGTH 6+1 /* Band names ("1", "L", "P", "RGB", "RGBA", "CMYK", "YCbCr", "BGR;xy") */ +#define IMAGING_MODE_LENGTH \ + 6 + 1 /* Band names ("1", "L", "P", "RGB", "RGBA", "CMYK", "YCbCr", "BGR;xy") */ typedef struct { char *ptr; @@ -81,158 +78,178 @@ typedef struct { } ImagingMemoryBlock; struct ImagingMemoryInstance { - /* Format */ - char mode[IMAGING_MODE_LENGTH]; /* Band names ("1", "L", "P", "RGB", "RGBA", "CMYK", "YCbCr", "BGR;xy") */ - int type; /* Data type (IMAGING_TYPE_*) */ - int depth; /* Depth (ignored in this version) */ - int bands; /* Number of bands (1, 2, 3, or 4) */ - int xsize; /* Image dimension. */ + char mode[IMAGING_MODE_LENGTH]; /* Band names ("1", "L", "P", "RGB", "RGBA", "CMYK", + "YCbCr", "BGR;xy") */ + int type; /* Data type (IMAGING_TYPE_*) */ + int depth; /* Depth (ignored in this version) */ + int bands; /* Number of bands (1, 2, 3, or 4) */ + int xsize; /* Image dimension. */ int ysize; /* Colour palette (for "P" images only) */ ImagingPalette palette; /* Data pointers */ - UINT8 **image8; /* Set for 8-bit images (pixelsize=1). */ - INT32 **image32; /* Set for 32-bit images (pixelsize=4). */ + UINT8 **image8; /* Set for 8-bit images (pixelsize=1). */ + INT32 **image32; /* Set for 32-bit images (pixelsize=4). */ /* Internals */ - char **image; /* Actual raster data. */ - char *block; /* Set if data is allocated in a single block. */ - ImagingMemoryBlock *blocks; /* Memory blocks for pixel storage */ + char **image; /* Actual raster data. */ + char *block; /* Set if data is allocated in a single block. */ + ImagingMemoryBlock *blocks; /* Memory blocks for pixel storage */ - int pixelsize; /* Size of a pixel, in bytes (1, 2 or 4) */ - int linesize; /* Size of a line, in bytes (xsize * pixelsize) */ + int pixelsize; /* Size of a pixel, in bytes (1, 2 or 4) */ + int linesize; /* Size of a line, in bytes (xsize * pixelsize) */ /* Virtual methods */ void (*destroy)(Imaging im); }; - -#define IMAGING_PIXEL_1(im,x,y) ((im)->image8[(y)][(x)]) -#define IMAGING_PIXEL_L(im,x,y) ((im)->image8[(y)][(x)]) -#define IMAGING_PIXEL_LA(im,x,y) ((im)->image[(y)][(x)*4]) -#define IMAGING_PIXEL_P(im,x,y) ((im)->image8[(y)][(x)]) -#define IMAGING_PIXEL_PA(im,x,y) ((im)->image[(y)][(x)*4]) -#define IMAGING_PIXEL_I(im,x,y) ((im)->image32[(y)][(x)]) -#define IMAGING_PIXEL_F(im,x,y) (((FLOAT32*)(im)->image32[y])[x]) -#define IMAGING_PIXEL_RGB(im,x,y) ((im)->image[(y)][(x)*4]) -#define IMAGING_PIXEL_RGBA(im,x,y) ((im)->image[(y)][(x)*4]) -#define IMAGING_PIXEL_CMYK(im,x,y) ((im)->image[(y)][(x)*4]) -#define IMAGING_PIXEL_YCbCr(im,x,y) ((im)->image[(y)][(x)*4]) - -#define IMAGING_PIXEL_UINT8(im,x,y) ((im)->image8[(y)][(x)]) -#define IMAGING_PIXEL_INT32(im,x,y) ((im)->image32[(y)][(x)]) -#define IMAGING_PIXEL_FLOAT32(im,x,y) (((FLOAT32*)(im)->image32[y])[x]) +#define IMAGING_PIXEL_1(im, x, y) ((im)->image8[(y)][(x)]) +#define IMAGING_PIXEL_L(im, x, y) ((im)->image8[(y)][(x)]) +#define IMAGING_PIXEL_LA(im, x, y) ((im)->image[(y)][(x)*4]) +#define IMAGING_PIXEL_P(im, x, y) ((im)->image8[(y)][(x)]) +#define IMAGING_PIXEL_PA(im, x, y) ((im)->image[(y)][(x)*4]) +#define IMAGING_PIXEL_I(im, x, y) ((im)->image32[(y)][(x)]) +#define IMAGING_PIXEL_F(im, x, y) (((FLOAT32 *)(im)->image32[y])[x]) +#define IMAGING_PIXEL_RGB(im, x, y) ((im)->image[(y)][(x)*4]) +#define IMAGING_PIXEL_RGBA(im, x, y) ((im)->image[(y)][(x)*4]) +#define IMAGING_PIXEL_CMYK(im, x, y) ((im)->image[(y)][(x)*4]) +#define IMAGING_PIXEL_YCbCr(im, x, y) ((im)->image[(y)][(x)*4]) + +#define IMAGING_PIXEL_UINT8(im, x, y) ((im)->image8[(y)][(x)]) +#define IMAGING_PIXEL_INT32(im, x, y) ((im)->image32[(y)][(x)]) +#define IMAGING_PIXEL_FLOAT32(im, x, y) (((FLOAT32 *)(im)->image32[y])[x]) struct ImagingAccessInstance { - const char* mode; - void* (*line)(Imaging im, int x, int y); - void (*get_pixel)(Imaging im, int x, int y, void* pixel); - void (*put_pixel)(Imaging im, int x, int y, const void* pixel); + const char *mode; + void *(*line)(Imaging im, int x, int y); + void (*get_pixel)(Imaging im, int x, int y, void *pixel); + void (*put_pixel)(Imaging im, int x, int y, const void *pixel); }; struct ImagingHistogramInstance { - /* Format */ - char mode[IMAGING_MODE_LENGTH]; /* Band names (of corresponding source image) */ - int bands; /* Number of bands (1, 3, or 4) */ + char mode[IMAGING_MODE_LENGTH]; /* Band names (of corresponding source image) */ + int bands; /* Number of bands (1, 3, or 4) */ /* Data */ - long *histogram; /* Histogram (bands*256 longs) */ - + long *histogram; /* Histogram (bands*256 longs) */ }; - struct ImagingPaletteInstance { - /* Format */ - char mode[IMAGING_MODE_LENGTH]; /* Band names */ + char mode[IMAGING_MODE_LENGTH]; /* Band names */ /* Data */ - UINT8 palette[1024];/* Palette data (same format as image data) */ - - INT16* cache; /* Palette cache (used for predefined palettes) */ - int keep_cache; /* This palette will be reused; keep cache */ + UINT8 palette[1024]; /* Palette data (same format as image data) */ + INT16 *cache; /* Palette cache (used for predefined palettes) */ + int keep_cache; /* This palette will be reused; keep cache */ }; typedef struct ImagingMemoryArena { - int alignment; /* Alignment in memory of each line of an image */ - int block_size; /* Preferred block size, bytes */ - int blocks_max; /* Maximum number of cached blocks */ - int blocks_cached; /* Current number of blocks not associated with images */ + int alignment; /* Alignment in memory of each line of an image */ + int block_size; /* Preferred block size, bytes */ + int blocks_max; /* Maximum number of cached blocks */ + int blocks_cached; /* Current number of blocks not associated with images */ ImagingMemoryBlock *blocks_pool; - int stats_new_count; /* Number of new allocated images */ - int stats_allocated_blocks; /* Number of allocated blocks */ - int stats_reused_blocks; /* Number of blocks which were retrieved from a pool */ - int stats_reallocated_blocks; /* Number of blocks which were actually reallocated after retrieving */ - int stats_freed_blocks; /* Number of freed blocks */ -} *ImagingMemoryArena; - + int stats_new_count; /* Number of new allocated images */ + int stats_allocated_blocks; /* Number of allocated blocks */ + int stats_reused_blocks; /* Number of blocks which were retrieved from a pool */ + int stats_reallocated_blocks; /* Number of blocks which were actually reallocated + after retrieving */ + int stats_freed_blocks; /* Number of freed blocks */ +} * ImagingMemoryArena; /* Objects */ /* ------- */ extern struct ImagingMemoryArena ImagingDefaultArena; -extern int ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max); -extern void ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size); - -extern Imaging ImagingNew(const char* mode, int xsize, int ysize); -extern Imaging ImagingNewDirty(const char* mode, int xsize, int ysize); -extern Imaging ImagingNew2Dirty(const char* mode, Imaging imOut, Imaging imIn); -extern void ImagingDelete(Imaging im); - -extern Imaging ImagingNewBlock(const char* mode, int xsize, int ysize); - -extern Imaging ImagingNewPrologue(const char *mode, - int xsize, int ysize); -extern Imaging ImagingNewPrologueSubtype(const char *mode, - int xsize, int ysize, - int structure_size); - -extern void ImagingCopyPalette(Imaging destination, Imaging source); - -extern void ImagingHistogramDelete(ImagingHistogram histogram); - -extern void ImagingAccessInit(void); -extern ImagingAccess ImagingAccessNew(Imaging im); -extern void _ImagingAccessDelete(Imaging im, ImagingAccess access); +extern int +ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max); +extern void +ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size); + +extern Imaging +ImagingNew(const char *mode, int xsize, int ysize); +extern Imaging +ImagingNewDirty(const char *mode, int xsize, int ysize); +extern Imaging +ImagingNew2Dirty(const char *mode, Imaging imOut, Imaging imIn); +extern void +ImagingDelete(Imaging im); + +extern Imaging +ImagingNewBlock(const char *mode, int xsize, int ysize); + +extern Imaging +ImagingNewPrologue(const char *mode, int xsize, int ysize); +extern Imaging +ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int structure_size); + +extern void +ImagingCopyPalette(Imaging destination, Imaging source); + +extern void +ImagingHistogramDelete(ImagingHistogram histogram); + +extern void +ImagingAccessInit(void); +extern ImagingAccess +ImagingAccessNew(Imaging im); +extern void +_ImagingAccessDelete(Imaging im, ImagingAccess access); #define ImagingAccessDelete(im, access) /* nop, for now */ -extern ImagingPalette ImagingPaletteNew(const char *mode); -extern ImagingPalette ImagingPaletteNewBrowser(void); -extern ImagingPalette ImagingPaletteDuplicate(ImagingPalette palette); -extern void ImagingPaletteDelete(ImagingPalette palette); +extern ImagingPalette +ImagingPaletteNew(const char *mode); +extern ImagingPalette +ImagingPaletteNewBrowser(void); +extern ImagingPalette +ImagingPaletteDuplicate(ImagingPalette palette); +extern void +ImagingPaletteDelete(ImagingPalette palette); -extern int ImagingPaletteCachePrepare(ImagingPalette palette); -extern void ImagingPaletteCacheUpdate(ImagingPalette palette, - int r, int g, int b); -extern void ImagingPaletteCacheDelete(ImagingPalette palette); +extern int +ImagingPaletteCachePrepare(ImagingPalette palette); +extern void +ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b); +extern void +ImagingPaletteCacheDelete(ImagingPalette palette); -#define ImagingPaletteCache(p, r, g, b)\ - p->cache[(r>>2) + (g>>2)*64 + (b>>2)*64*64] +#define ImagingPaletteCache(p, r, g, b) \ + p->cache[(r >> 2) + (g >> 2) * 64 + (b >> 2) * 64 * 64] -extern Imaging ImagingQuantize(Imaging im, int colours, int mode, int kmeans); +extern Imaging +ImagingQuantize(Imaging im, int colours, int mode, int kmeans); /* Threading */ /* --------- */ -typedef void* ImagingSectionCookie; +typedef void *ImagingSectionCookie; -extern void ImagingSectionEnter(ImagingSectionCookie* cookie); -extern void ImagingSectionLeave(ImagingSectionCookie* cookie); +extern void +ImagingSectionEnter(ImagingSectionCookie *cookie); +extern void +ImagingSectionLeave(ImagingSectionCookie *cookie); /* Exceptions */ /* ---------- */ -extern void* ImagingError_OSError(void); -extern void* ImagingError_MemoryError(void); -extern void* ImagingError_ModeError(void); /* maps to ValueError by default */ -extern void* ImagingError_Mismatch(void); /* maps to ValueError by default */ -extern void* ImagingError_ValueError(const char* message); -extern void ImagingError_Clear(void); +extern void * +ImagingError_OSError(void); +extern void * +ImagingError_MemoryError(void); +extern void * +ImagingError_ModeError(void); /* maps to ValueError by default */ +extern void * +ImagingError_Mismatch(void); /* maps to ValueError by default */ +extern void * +ImagingError_ValueError(const char *message); +extern void +ImagingError_Clear(void); /* Transform callbacks */ /* ------------------- */ @@ -242,7 +259,6 @@ extern void ImagingError_Clear(void); #define IMAGING_TRANSFORM_PERSPECTIVE 2 #define IMAGING_TRANSFORM_QUAD 3 - /* standard filters */ #define IMAGING_TRANSFORM_NEAREST 0 #define IMAGING_TRANSFORM_BOX 4 @@ -251,249 +267,391 @@ extern void ImagingError_Clear(void); #define IMAGING_TRANSFORM_BICUBIC 3 #define IMAGING_TRANSFORM_LANCZOS 1 -typedef int (*ImagingTransformMap)(double* X, double* Y, - int x, int y, void* data); -typedef int (*ImagingTransformFilter)(void* out, Imaging im, - double x, double y); +typedef int (*ImagingTransformMap)(double *X, double *Y, int x, int y, void *data); +typedef int (*ImagingTransformFilter)(void *out, Imaging im, double x, double y); /* Image Manipulation Methods */ /* -------------------------- */ -extern Imaging ImagingAlphaComposite(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingBlend(Imaging imIn1, Imaging imIn2, float alpha); -extern Imaging ImagingCopy(Imaging im); -extern Imaging ImagingConvert(Imaging im, const char* mode, ImagingPalette palette, int dither); -extern Imaging ImagingConvertInPlace(Imaging im, const char* mode); -extern Imaging ImagingConvertMatrix(Imaging im, const char *mode, float m[]); -extern Imaging ImagingConvertTransparent(Imaging im, const char *mode, int r, int g, int b); -extern Imaging ImagingCrop(Imaging im, int x0, int y0, int x1, int y1); -extern Imaging ImagingExpand(Imaging im, int x, int y, int mode); -extern Imaging ImagingFill(Imaging im, const void* ink); -extern int ImagingFill2( - Imaging into, const void* ink, Imaging mask, - int x0, int y0, int x1, int y1); -extern Imaging ImagingFillBand(Imaging im, int band, int color); -extern Imaging ImagingFillLinearGradient(const char* mode); -extern Imaging ImagingFillRadialGradient(const char* mode); -extern Imaging ImagingFilter( - Imaging im, int xsize, int ysize, const FLOAT32* kernel, - FLOAT32 offset); -extern Imaging ImagingFlipLeftRight(Imaging imOut, Imaging imIn); -extern Imaging ImagingFlipTopBottom(Imaging imOut, Imaging imIn); -extern Imaging ImagingGaussianBlur(Imaging imOut, Imaging imIn, float radius, - int passes); -extern Imaging ImagingGetBand(Imaging im, int band); -extern Imaging ImagingMerge(const char* mode, Imaging bands[4]); -extern int ImagingSplit(Imaging im, Imaging bands[4]); -extern int ImagingGetBBox(Imaging im, int bbox[4]); -typedef struct { int x, y; INT32 count; INT32 pixel; } ImagingColorItem; -extern ImagingColorItem* ImagingGetColors(Imaging im, int maxcolors, - int *colors); -extern int ImagingGetExtrema(Imaging im, void *extrema); -extern int ImagingGetProjection(Imaging im, UINT8* xproj, UINT8* yproj); -extern ImagingHistogram ImagingGetHistogram( - Imaging im, Imaging mask, void *extrema); -extern Imaging ImagingModeFilter(Imaging im, int size); -extern Imaging ImagingNegative(Imaging im); -extern Imaging ImagingOffset(Imaging im, int xoffset, int yoffset); -extern int ImagingPaste( - Imaging into, Imaging im, Imaging mask, - int x0, int y0, int x1, int y1); -extern Imaging ImagingPoint( - Imaging im, const char* tablemode, const void* table); -extern Imaging ImagingPointTransform( - Imaging imIn, double scale, double offset); -extern Imaging ImagingPutBand(Imaging im, Imaging imIn, int band); -extern Imaging ImagingRankFilter(Imaging im, int size, int rank); -extern Imaging ImagingRotate90(Imaging imOut, Imaging imIn); -extern Imaging ImagingRotate180(Imaging imOut, Imaging imIn); -extern Imaging ImagingRotate270(Imaging imOut, Imaging imIn); -extern Imaging ImagingTranspose(Imaging imOut, Imaging imIn); -extern Imaging ImagingTransverse(Imaging imOut, Imaging imIn); -extern Imaging ImagingResample(Imaging imIn, int xsize, int ysize, int filter, float box[4]); -extern Imaging ImagingReduce(Imaging imIn, int xscale, int yscale, int box[4]); -extern Imaging ImagingTransform( - Imaging imOut, Imaging imIn, int method, int x0, int y0, int x1, int y1, - double *a, int filter, int fill); -extern Imaging ImagingUnsharpMask( - Imaging imOut, Imaging im, float radius, int percent, int threshold); -extern Imaging ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n); -extern Imaging ImagingColorLUT3D_linear(Imaging imOut, Imaging imIn, - int table_channels, int size1D, int size2D, int size3D, INT16* table); - -extern Imaging ImagingCopy2(Imaging imOut, Imaging imIn); -extern Imaging ImagingConvert2(Imaging imOut, Imaging imIn); +extern Imaging +ImagingAlphaComposite(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingBlend(Imaging imIn1, Imaging imIn2, float alpha); +extern Imaging +ImagingCopy(Imaging im); +extern Imaging +ImagingConvert(Imaging im, const char *mode, ImagingPalette palette, int dither); +extern Imaging +ImagingConvertInPlace(Imaging im, const char *mode); +extern Imaging +ImagingConvertMatrix(Imaging im, const char *mode, float m[]); +extern Imaging +ImagingConvertTransparent(Imaging im, const char *mode, int r, int g, int b); +extern Imaging +ImagingCrop(Imaging im, int x0, int y0, int x1, int y1); +extern Imaging +ImagingExpand(Imaging im, int x, int y, int mode); +extern Imaging +ImagingFill(Imaging im, const void *ink); +extern int +ImagingFill2( + Imaging into, const void *ink, Imaging mask, int x0, int y0, int x1, int y1); +extern Imaging +ImagingFillBand(Imaging im, int band, int color); +extern Imaging +ImagingFillLinearGradient(const char *mode); +extern Imaging +ImagingFillRadialGradient(const char *mode); +extern Imaging +ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32 *kernel, FLOAT32 offset); +extern Imaging +ImagingFlipLeftRight(Imaging imOut, Imaging imIn); +extern Imaging +ImagingFlipTopBottom(Imaging imOut, Imaging imIn); +extern Imaging +ImagingGaussianBlur(Imaging imOut, Imaging imIn, float radius, int passes); +extern Imaging +ImagingGetBand(Imaging im, int band); +extern Imaging +ImagingMerge(const char *mode, Imaging bands[4]); +extern int +ImagingSplit(Imaging im, Imaging bands[4]); +extern int +ImagingGetBBox(Imaging im, int bbox[4]); +typedef struct { + int x, y; + INT32 count; + INT32 pixel; +} ImagingColorItem; +extern ImagingColorItem * +ImagingGetColors(Imaging im, int maxcolors, int *colors); +extern int +ImagingGetExtrema(Imaging im, void *extrema); +extern int +ImagingGetProjection(Imaging im, UINT8 *xproj, UINT8 *yproj); +extern ImagingHistogram +ImagingGetHistogram(Imaging im, Imaging mask, void *extrema); +extern Imaging +ImagingModeFilter(Imaging im, int size); +extern Imaging +ImagingNegative(Imaging im); +extern Imaging +ImagingOffset(Imaging im, int xoffset, int yoffset); +extern int +ImagingPaste(Imaging into, Imaging im, Imaging mask, int x0, int y0, int x1, int y1); +extern Imaging +ImagingPoint(Imaging im, const char *tablemode, const void *table); +extern Imaging +ImagingPointTransform(Imaging imIn, double scale, double offset); +extern Imaging +ImagingPutBand(Imaging im, Imaging imIn, int band); +extern Imaging +ImagingRankFilter(Imaging im, int size, int rank); +extern Imaging +ImagingRotate90(Imaging imOut, Imaging imIn); +extern Imaging +ImagingRotate180(Imaging imOut, Imaging imIn); +extern Imaging +ImagingRotate270(Imaging imOut, Imaging imIn); +extern Imaging +ImagingTranspose(Imaging imOut, Imaging imIn); +extern Imaging +ImagingTransverse(Imaging imOut, Imaging imIn); +extern Imaging +ImagingResample(Imaging imIn, int xsize, int ysize, int filter, float box[4]); +extern Imaging +ImagingReduce(Imaging imIn, int xscale, int yscale, int box[4]); +extern Imaging +ImagingTransform( + Imaging imOut, + Imaging imIn, + int method, + int x0, + int y0, + int x1, + int y1, + double *a, + int filter, + int fill); +extern Imaging +ImagingUnsharpMask(Imaging imOut, Imaging im, float radius, int percent, int threshold); +extern Imaging +ImagingBoxBlur(Imaging imOut, Imaging imIn, float radius, int n); +extern Imaging +ImagingColorLUT3D_linear( + Imaging imOut, + Imaging imIn, + int table_channels, + int size1D, + int size2D, + int size3D, + INT16 *table); + +extern Imaging +ImagingCopy2(Imaging imOut, Imaging imIn); +extern Imaging +ImagingConvert2(Imaging imOut, Imaging imIn); /* Channel operations */ /* any mode, except "F" */ -extern Imaging ImagingChopLighter(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopDarker(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopDifference(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopMultiply(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopScreen(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopAdd( - Imaging imIn1, Imaging imIn2, float scale, int offset); -extern Imaging ImagingChopSubtract( - Imaging imIn1, Imaging imIn2, float scale, int offset); -extern Imaging ImagingChopAddModulo(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopSubtractModulo(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopSoftLight(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopHardLight(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingOverlay(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopLighter(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopDarker(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopDifference(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopMultiply(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopScreen(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopAdd(Imaging imIn1, Imaging imIn2, float scale, int offset); +extern Imaging +ImagingChopSubtract(Imaging imIn1, Imaging imIn2, float scale, int offset); +extern Imaging +ImagingChopAddModulo(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopSubtractModulo(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopSoftLight(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopHardLight(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingOverlay(Imaging imIn1, Imaging imIn2); /* "1" images only */ -extern Imaging ImagingChopAnd(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopOr(Imaging imIn1, Imaging imIn2); -extern Imaging ImagingChopXor(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopAnd(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopOr(Imaging imIn1, Imaging imIn2); +extern Imaging +ImagingChopXor(Imaging imIn1, Imaging imIn2); /* Graphics */ -extern int ImagingDrawArc(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int width, - int op); -extern int ImagingDrawBitmap(Imaging im, int x0, int y0, Imaging bitmap, - const void* ink, int op); -extern int ImagingDrawChord(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int fill, - int width, int op); -extern int ImagingDrawEllipse(Imaging im, int x0, int y0, int x1, int y1, - const void* ink, int fill, int width, int op); -extern int ImagingDrawLine(Imaging im, int x0, int y0, int x1, int y1, - const void* ink, int op); -extern int ImagingDrawWideLine(Imaging im, int x0, int y0, int x1, int y1, - const void* ink, int width, int op); -extern int ImagingDrawPieslice(Imaging im, int x0, int y0, int x1, int y1, - float start, float end, const void* ink, int fill, - int width, int op); -extern int ImagingDrawPoint(Imaging im, int x, int y, const void* ink, int op); -extern int ImagingDrawPolygon(Imaging im, int points, int *xy, - const void* ink, int fill, int op); -extern int ImagingDrawRectangle(Imaging im, int x0, int y0, int x1, int y1, - const void* ink, int fill, int width, int op); +extern int +ImagingDrawArc( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int width, + int op); +extern int +ImagingDrawBitmap(Imaging im, int x0, int y0, Imaging bitmap, const void *ink, int op); +extern int +ImagingDrawChord( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int fill, + int width, + int op); +extern int +ImagingDrawEllipse( + Imaging im, + int x0, + int y0, + int x1, + int y1, + const void *ink, + int fill, + int width, + int op); +extern int +ImagingDrawLine(Imaging im, int x0, int y0, int x1, int y1, const void *ink, int op); +extern int +ImagingDrawWideLine( + Imaging im, int x0, int y0, int x1, int y1, const void *ink, int width, int op); +extern int +ImagingDrawPieslice( + Imaging im, + int x0, + int y0, + int x1, + int y1, + float start, + float end, + const void *ink, + int fill, + int width, + int op); +extern int +ImagingDrawPoint(Imaging im, int x, int y, const void *ink, int op); +extern int +ImagingDrawPolygon(Imaging im, int points, int *xy, const void *ink, int fill, int op); +extern int +ImagingDrawRectangle( + Imaging im, + int x0, + int y0, + int x1, + int y1, + const void *ink, + int fill, + int width, + int op); /* Level 2 graphics (WORK IN PROGRESS) */ -extern ImagingOutline ImagingOutlineNew(void); -extern void ImagingOutlineDelete(ImagingOutline outline); - -extern int ImagingDrawOutline(Imaging im, ImagingOutline outline, - const void* ink, int fill, int op); - -extern int ImagingOutlineMove(ImagingOutline outline, float x, float y); -extern int ImagingOutlineLine(ImagingOutline outline, float x, float y); -extern int ImagingOutlineCurve(ImagingOutline outline, float x1, float y1, - float x2, float y2, float x3, float y3); -extern int ImagingOutlineTransform(ImagingOutline outline, double a[6]); - -extern int ImagingOutlineClose(ImagingOutline outline); +extern ImagingOutline +ImagingOutlineNew(void); +extern void +ImagingOutlineDelete(ImagingOutline outline); + +extern int +ImagingDrawOutline( + Imaging im, ImagingOutline outline, const void *ink, int fill, int op); + +extern int +ImagingOutlineMove(ImagingOutline outline, float x, float y); +extern int +ImagingOutlineLine(ImagingOutline outline, float x, float y); +extern int +ImagingOutlineCurve( + ImagingOutline outline, float x1, float y1, float x2, float y2, float x3, float y3); +extern int +ImagingOutlineTransform(ImagingOutline outline, double a[6]); + +extern int +ImagingOutlineClose(ImagingOutline outline); /* Special effects */ -extern Imaging ImagingEffectSpread(Imaging imIn, int distance); -extern Imaging ImagingEffectNoise(int xsize, int ysize, float sigma); -extern Imaging ImagingEffectMandelbrot(int xsize, int ysize, - double extent[4], int quality); - +extern Imaging +ImagingEffectSpread(Imaging imIn, int distance); +extern Imaging +ImagingEffectNoise(int xsize, int ysize, float sigma); +extern Imaging +ImagingEffectMandelbrot(int xsize, int ysize, double extent[4], int quality); /* File I/O */ /* -------- */ /* Built-in drivers */ -extern Imaging ImagingOpenPPM(const char* filename); -extern int ImagingSavePPM(Imaging im, const char* filename); +extern Imaging +ImagingOpenPPM(const char *filename); +extern int +ImagingSavePPM(Imaging im, const char *filename); /* Codecs */ typedef struct ImagingCodecStateInstance *ImagingCodecState; -typedef int (*ImagingCodec)(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); - -extern int ImagingBcnDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingBitDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingEpsEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingFliDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingGifDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingGifEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingHexDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -#ifdef HAVE_LIBJPEG -extern int ImagingJpegDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingJpegDecodeCleanup(ImagingCodecState state); -extern int ImagingJpegUseJCSExtensions(void); - -extern int ImagingJpegEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); +typedef int (*ImagingCodec)( + Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); + +extern int +ImagingBcnDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingBitDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingEpsEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingFliDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingGifDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingGifEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingHexDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +#ifdef HAVE_LIBJPEG +extern int +ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingJpegDecodeCleanup(ImagingCodecState state); +extern int +ImagingJpegUseJCSExtensions(void); + +extern int +ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); #endif #ifdef HAVE_OPENJPEG -extern int ImagingJpeg2KDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingJpeg2KDecodeCleanup(ImagingCodecState state); -extern int ImagingJpeg2KEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingJpeg2KEncodeCleanup(ImagingCodecState state); +extern int +ImagingJpeg2KDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingJpeg2KDecodeCleanup(ImagingCodecState state); +extern int +ImagingJpeg2KEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingJpeg2KEncodeCleanup(ImagingCodecState state); #endif -#ifdef HAVE_LIBTIFF -extern int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); +#ifdef HAVE_LIBTIFF +extern int +ImagingLibTiffDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); #endif -#ifdef HAVE_LIBMPEG -extern int ImagingMpegDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); +#ifdef HAVE_LIBMPEG +extern int +ImagingMpegDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); #endif -extern int ImagingMspDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingPackbitsDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingPcdDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingPcxDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingPcxEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingRawDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingRawEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingSgiRleDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingSunRleDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingTgaRleDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingTgaRleEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingXbmDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingXbmEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -#ifdef HAVE_LIBZ -extern int ImagingZipDecode(Imaging im, ImagingCodecState state, - UINT8* buffer, Py_ssize_t bytes); -extern int ImagingZipDecodeCleanup(ImagingCodecState state); -extern int ImagingZipEncode(Imaging im, ImagingCodecState state, - UINT8* buffer, int bytes); -extern int ImagingZipEncodeCleanup(ImagingCodecState state); +extern int +ImagingMspDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingPackbitsDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingPcxEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingSgiRleDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingSunRleDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingTgaRleDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingXbmEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +#ifdef HAVE_LIBZ +extern int +ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes); +extern int +ImagingZipDecodeCleanup(ImagingCodecState state); +extern int +ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes); +extern int +ImagingZipEncodeCleanup(ImagingCodecState state); #endif -typedef void (*ImagingShuffler)(UINT8* out, const UINT8* in, int pixels); +typedef void (*ImagingShuffler)(UINT8 *out, const UINT8 *in, int pixels); /* Public shufflers */ -extern void ImagingPackBGR(UINT8* out, const UINT8* in, int pixels); -extern void ImagingUnpackYCC(UINT8* out, const UINT8* in, int pixels); -extern void ImagingUnpackYCCA(UINT8* out, const UINT8* in, int pixels); - -extern void ImagingConvertRGB2YCbCr(UINT8* out, const UINT8* in, int pixels); -extern void ImagingConvertYCbCr2RGB(UINT8* out, const UINT8* in, int pixels); - -extern ImagingShuffler ImagingFindUnpacker(const char* mode, - const char* rawmode, int* bits_out); -extern ImagingShuffler ImagingFindPacker(const char* mode, - const char* rawmode, int* bits_out); +extern void +ImagingPackBGR(UINT8 *out, const UINT8 *in, int pixels); +extern void +ImagingUnpackYCC(UINT8 *out, const UINT8 *in, int pixels); +extern void +ImagingUnpackYCCA(UINT8 *out, const UINT8 *in, int pixels); + +extern void +ImagingConvertRGB2YCbCr(UINT8 *out, const UINT8 *in, int pixels); +extern void +ImagingConvertYCbCr2RGB(UINT8 *out, const UINT8 *in, int pixels); + +extern ImagingShuffler +ImagingFindUnpacker(const char *mode, const char *rawmode, int *bits_out); +extern ImagingShuffler +ImagingFindPacker(const char *mode, const char *rawmode, int *bits_out); struct ImagingCodecStateInstance { int count; @@ -509,30 +667,27 @@ struct ImagingCodecStateInstance { PyObject *fd; }; - - /* Codec read/write python fd */ -extern Py_ssize_t _imaging_read_pyFd(PyObject *fd, char* dest, Py_ssize_t bytes); -extern Py_ssize_t _imaging_write_pyFd(PyObject *fd, char* src, Py_ssize_t bytes); -extern int _imaging_seek_pyFd(PyObject *fd, Py_ssize_t offset, int whence); -extern Py_ssize_t _imaging_tell_pyFd(PyObject *fd); - - +extern Py_ssize_t +_imaging_read_pyFd(PyObject *fd, char *dest, Py_ssize_t bytes); +extern Py_ssize_t +_imaging_write_pyFd(PyObject *fd, char *src, Py_ssize_t bytes); +extern int +_imaging_seek_pyFd(PyObject *fd, Py_ssize_t offset, int whence); +extern Py_ssize_t +_imaging_tell_pyFd(PyObject *fd); /* Errcodes */ -#define IMAGING_CODEC_END 1 -#define IMAGING_CODEC_OVERRUN -1 -#define IMAGING_CODEC_BROKEN -2 -#define IMAGING_CODEC_UNKNOWN -3 -#define IMAGING_CODEC_CONFIG -8 -#define IMAGING_CODEC_MEMORY -9 - - +#define IMAGING_CODEC_END 1 +#define IMAGING_CODEC_OVERRUN -1 +#define IMAGING_CODEC_BROKEN -2 +#define IMAGING_CODEC_UNKNOWN -3 +#define IMAGING_CODEC_CONFIG -8 +#define IMAGING_CODEC_MEMORY -9 #include "ImagingUtils.h" extern UINT8 *clip8_lookups; - #if defined(__cplusplus) } #endif diff --git a/src/libImaging/ImagingUtils.h b/src/libImaging/ImagingUtils.h index 21c2688d840..ad6f280ac90 100644 --- a/src/libImaging/ImagingUtils.h +++ b/src/libImaging/ImagingUtils.h @@ -1,47 +1,42 @@ #ifdef WORDS_BIGENDIAN - #define MAKE_UINT32(u0, u1, u2, u3) ((UINT32)(u3) | ((UINT32)(u2)<<8) | ((UINT32)(u1)<<16) | ((UINT32)(u0)<<24)) - #define MASK_UINT32_CHANNEL_0 0xff000000 - #define MASK_UINT32_CHANNEL_1 0x00ff0000 - #define MASK_UINT32_CHANNEL_2 0x0000ff00 - #define MASK_UINT32_CHANNEL_3 0x000000ff +#define MAKE_UINT32(u0, u1, u2, u3) \ + ((UINT32)(u3) | ((UINT32)(u2) << 8) | ((UINT32)(u1) << 16) | ((UINT32)(u0) << 24)) +#define MASK_UINT32_CHANNEL_0 0xff000000 +#define MASK_UINT32_CHANNEL_1 0x00ff0000 +#define MASK_UINT32_CHANNEL_2 0x0000ff00 +#define MASK_UINT32_CHANNEL_3 0x000000ff #else - #define MAKE_UINT32(u0, u1, u2, u3) ((UINT32)(u0) | ((UINT32)(u1)<<8) | ((UINT32)(u2)<<16) | ((UINT32)(u3)<<24)) - #define MASK_UINT32_CHANNEL_0 0x000000ff - #define MASK_UINT32_CHANNEL_1 0x0000ff00 - #define MASK_UINT32_CHANNEL_2 0x00ff0000 - #define MASK_UINT32_CHANNEL_3 0xff000000 +#define MAKE_UINT32(u0, u1, u2, u3) \ + ((UINT32)(u0) | ((UINT32)(u1) << 8) | ((UINT32)(u2) << 16) | ((UINT32)(u3) << 24)) +#define MASK_UINT32_CHANNEL_0 0x000000ff +#define MASK_UINT32_CHANNEL_1 0x0000ff00 +#define MASK_UINT32_CHANNEL_2 0x00ff0000 +#define MASK_UINT32_CHANNEL_3 0xff000000 #endif - -#define SHIFTFORDIV255(a)\ - ((((a) >> 8) + a) >> 8) +#define SHIFTFORDIV255(a) ((((a) >> 8) + a) >> 8) /* like (a * b + 127) / 255), but much faster on most platforms */ -#define MULDIV255(a, b, tmp)\ - (tmp = (a) * (b) + 128, SHIFTFORDIV255(tmp)) - -#define DIV255(a, tmp)\ - (tmp = (a) + 128, SHIFTFORDIV255(tmp)) +#define MULDIV255(a, b, tmp) (tmp = (a) * (b) + 128, SHIFTFORDIV255(tmp)) -#define BLEND(mask, in1, in2, tmp1)\ - DIV255(in1 * (255 - mask) + in2 * mask, tmp1) +#define DIV255(a, tmp) (tmp = (a) + 128, SHIFTFORDIV255(tmp)) -#define PREBLEND(mask, in1, in2, tmp1)\ - (MULDIV255(in1, (255 - mask), tmp1) + in2) +#define BLEND(mask, in1, in2, tmp1) DIV255(in1 *(255 - mask) + in2 * mask, tmp1) +#define PREBLEND(mask, in1, in2, tmp1) (MULDIV255(in1, (255 - mask), tmp1) + in2) #define CLIP8(v) ((v) <= 0 ? 0 : (v) < 256 ? (v) : 255) /* This is to work around a bug in GCC prior 4.9 in 64 bit mode. GCC generates code with partial dependency which is 3 times slower. See: http://stackoverflow.com/a/26588074/253146 */ -#if defined(__x86_64__) && defined(__SSE__) && ! defined(__NO_INLINE__) && \ - ! defined(__clang__) && defined(GCC_VERSION) && (GCC_VERSION < 40900) +#if defined(__x86_64__) && defined(__SSE__) && !defined(__NO_INLINE__) && \ + !defined(__clang__) && defined(GCC_VERSION) && (GCC_VERSION < 40900) static float __attribute__((always_inline)) inline _i2f(int v) { float x; - __asm__("xorps %0, %0; cvtsi2ss %1, %0" : "=x"(x) : "r"(v) ); + __asm__("xorps %0, %0; cvtsi2ss %1, %0" : "=x"(x) : "r"(v)); return x; } #else -static float inline _i2f(int v) { return (float) v; } +static float inline _i2f(int v) { return (float)v; } #endif diff --git a/src/libImaging/Jpeg.h b/src/libImaging/Jpeg.h index 280b6d638c5..a876d3bb6d9 100644 --- a/src/libImaging/Jpeg.h +++ b/src/libImaging/Jpeg.h @@ -12,13 +12,11 @@ #include - typedef struct { - struct jpeg_error_mgr pub; /* "public" fields */ - jmp_buf setjmp_buffer; /* for return to caller */ + struct jpeg_error_mgr pub; /* "public" fields */ + jmp_buf setjmp_buffer; /* for return to caller */ } JPEGERROR; - /* -------------------------------------------------------------------- */ /* Decoder */ @@ -28,15 +26,14 @@ typedef struct { } JPEGSOURCE; typedef struct { - /* CONFIGURATION */ /* Jpeg file mode (empty if not known) */ - char jpegmode[8+1]; + char jpegmode[8 + 1]; /* Converter output mode (input to the shuffler). If empty, convert conversions are disabled */ - char rawmode[8+1]; + char rawmode[8 + 1]; /* If set, trade quality for speed */ int draft; @@ -54,7 +51,6 @@ typedef struct { } JPEGSTATE; - /* -------------------------------------------------------------------- */ /* Encoder */ @@ -64,7 +60,6 @@ typedef struct { } JPEGDESTINATION; typedef struct { - /* CONFIGURATION */ /* Quality (0-100, -1 means default) */ @@ -89,7 +84,7 @@ typedef struct { int subsampling; /* Converter input mode (input to the shuffler) */ - char rawmode[8+1]; + char rawmode[8 + 1]; /* Custom quantization tables () */ unsigned int *qtables; @@ -98,7 +93,8 @@ typedef struct { int qtablesLen; /* Extra data (to be injected after header) */ - char* extra; int extra_size; + char *extra; + int extra_size; /* PRIVATE CONTEXT (set by encoder) */ @@ -110,7 +106,7 @@ typedef struct { int extra_offset; - size_t rawExifLen; /* EXIF data length */ - char* rawExif; /* EXIF buffer pointer */ + size_t rawExifLen; /* EXIF data length */ + char *rawExif; /* EXIF buffer pointer */ } JPEGENCODERSTATE; diff --git a/src/libImaging/Jpeg2K.h b/src/libImaging/Jpeg2K.h index 7645b932641..f749ecfb21c 100644 --- a/src/libImaging/Jpeg2K.h +++ b/src/libImaging/Jpeg2K.h @@ -24,7 +24,7 @@ typedef struct { int fd; /* File pointer, when opened */ - FILE * pfile; + FILE *pfile; /* Length of data, if available; otherwise, -1 */ off_t length; @@ -33,13 +33,13 @@ typedef struct { OPJ_CODEC_FORMAT format; /* Set to divide image resolution by 2**reduce. */ - int reduce; + int reduce; /* Set to limit the number of quality layers to decode (0 = all layers) */ - int layers; + int layers; /* PRIVATE CONTEXT (set by decoder) */ - const char *error_msg; + const char *error_msg; } JPEG2KDECODESTATE; @@ -51,36 +51,36 @@ typedef struct { /* CONFIGURATION */ /* File descriptor, if available; otherwise, -1 */ - int fd; + int fd; /* File pointer, when opened */ - FILE * pfile; + FILE *pfile; /* Specify the desired format */ OPJ_CODEC_FORMAT format; /* Image offset */ - int offset_x, offset_y; + int offset_x, offset_y; /* Tile information */ - int tile_offset_x, tile_offset_y; - int tile_size_x, tile_size_y; + int tile_offset_x, tile_offset_y; + int tile_size_x, tile_size_y; /* Quality layers (a sequence of numbers giving *either* rates or dB) */ - int quality_is_in_db; - PyObject *quality_layers; + int quality_is_in_db; + PyObject *quality_layers; /* Number of resolutions (DWT decompositions + 1 */ - int num_resolutions; + int num_resolutions; /* Code block size */ - int cblk_width, cblk_height; + int cblk_width, cblk_height; /* Precinct size */ - int precinct_width, precinct_height; + int precinct_width, precinct_height; /* Compression style */ - int irreversible; + int irreversible; /* Progression order (LRCP/RLCP/RPCL/PCRL/CPRL) */ OPJ_PROG_ORDER progression; @@ -89,8 +89,7 @@ typedef struct { OPJ_CINEMA_MODE cinema_mode; /* PRIVATE CONTEXT (set by decoder) */ - const char *error_msg; - + const char *error_msg; } JPEG2KENCODESTATE; diff --git a/src/libImaging/Jpeg2KDecode.c b/src/libImaging/Jpeg2KDecode.c index d7a0a5b9f97..94f2f8c2e00 100644 --- a/src/libImaging/Jpeg2KDecode.c +++ b/src/libImaging/Jpeg2KDecode.c @@ -23,7 +23,7 @@ typedef struct { OPJ_UINT32 tile_index; OPJ_UINT32 data_size; - OPJ_INT32 x0, y0, x1, y1; + OPJ_INT32 x0, y0, x1, y1; OPJ_UINT32 nb_comps; } JPEG2KTILEINFO; @@ -32,9 +32,8 @@ typedef struct { /* -------------------------------------------------------------------- */ static void -j2k_error(const char *msg, void *client_data) -{ - JPEG2KDECODESTATE *state = (JPEG2KDECODESTATE *) client_data; +j2k_error(const char *msg, void *client_data) { + JPEG2KDECODESTATE *state = (JPEG2KDECODESTATE *)client_data; free((void *)state->error_msg); state->error_msg = strdup(msg); } @@ -44,8 +43,7 @@ j2k_error(const char *msg, void *client_data) /* -------------------------------------------------------------------- */ static OPJ_SIZE_T -j2k_read(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) -{ +j2k_read(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) { ImagingCodecState state = (ImagingCodecState)p_user_data; size_t len = _imaging_read_pyFd(state->fd, p_buffer, p_nb_bytes); @@ -54,8 +52,7 @@ j2k_read(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) } static OPJ_OFF_T -j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) -{ +j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) { off_t pos; ImagingCodecState state = (ImagingCodecState)p_user_data; @@ -69,21 +66,18 @@ j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) /* Unpackers */ /* -------------------------------------------------------------------- */ -typedef void (*j2k_unpacker_t)(opj_image_t *in, - const JPEG2KTILEINFO *tileInfo, - const UINT8 *data, - Imaging im); +typedef void (*j2k_unpacker_t)( + opj_image_t *in, const JPEG2KTILEINFO *tileInfo, const UINT8 *data, Imaging im); struct j2k_decode_unpacker { - const char *mode; - OPJ_COLOR_SPACE color_space; - unsigned components; - j2k_unpacker_t unpacker; + const char *mode; + OPJ_COLOR_SPACE color_space; + unsigned components; + j2k_unpacker_t unpacker; }; -static inline -unsigned j2ku_shift(unsigned x, int n) -{ +static inline unsigned +j2ku_shift(unsigned x, int n) { if (n < 0) { return x >> -n; } else { @@ -92,9 +86,11 @@ unsigned j2ku_shift(unsigned x, int n) } static void -j2ku_gray_l(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_gray_l( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -115,41 +111,42 @@ j2ku_gray_l(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, /* csiz*h*w + offset = tileinfo.datasize */ switch (csiz) { - case 1: - for (y = 0; y < h; ++y) { - const UINT8 *data = &tiledata[y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + case 1: + for (y = 0; y < h; ++y) { + const UINT8 *data = &tiledata[y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; - case 2: - for (y = 0; y < h; ++y) { - const UINT16 *data = (const UINT16 *)&tiledata[2 * y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + break; + case 2: + for (y = 0; y < h; ++y) { + const UINT16 *data = (const UINT16 *)&tiledata[2 * y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; - case 4: - for (y = 0; y < h; ++y) { - const UINT32 *data = (const UINT32 *)&tiledata[4 * y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + break; + case 4: + for (y = 0; y < h; ++y) { + const UINT32 *data = (const UINT32 *)&tiledata[4 * y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; + break; } } - static void -j2ku_gray_i(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_gray_i( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -169,41 +166,42 @@ j2ku_gray_i(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } switch (csiz) { - case 1: - for (y = 0; y < h; ++y) { - const UINT8 *data = &tiledata[y * w]; - UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + case 1: + for (y = 0; y < h; ++y) { + const UINT8 *data = &tiledata[y * w]; + UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; - case 2: - for (y = 0; y < h; ++y) { - const UINT16 *data = (const UINT16 *)&tiledata[2 * y * w]; - UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + break; + case 2: + for (y = 0; y < h; ++y) { + const UINT16 *data = (const UINT16 *)&tiledata[2 * y * w]; + UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; - case 4: - for (y = 0; y < h; ++y) { - const UINT32 *data = (const UINT32 *)&tiledata[4 * y * w]; - UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - *row++ = j2ku_shift(offset + *data++, shift); + break; + case 4: + for (y = 0; y < h; ++y) { + const UINT32 *data = (const UINT32 *)&tiledata[4 * y * w]; + UINT16 *row = (UINT16 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + *row++ = j2ku_shift(offset + *data++, shift); + } } - } - break; + break; } } - static void -j2ku_gray_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_gray_rgb( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -223,49 +221,51 @@ j2ku_gray_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } switch (csiz) { - case 1: - for (y = 0; y < h; ++y) { - const UINT8 *data = &tiledata[y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - UINT8 byte = j2ku_shift(offset + *data++, shift); - row[0] = row[1] = row[2] = byte; - row[3] = 0xff; - row += 4; + case 1: + for (y = 0; y < h; ++y) { + const UINT8 *data = &tiledata[y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + UINT8 byte = j2ku_shift(offset + *data++, shift); + row[0] = row[1] = row[2] = byte; + row[3] = 0xff; + row += 4; + } } - } - break; - case 2: - for (y = 0; y < h; ++y) { - const UINT16 *data = (UINT16 *)&tiledata[2 * y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - UINT8 byte = j2ku_shift(offset + *data++, shift); - row[0] = row[1] = row[2] = byte; - row[3] = 0xff; - row += 4; + break; + case 2: + for (y = 0; y < h; ++y) { + const UINT16 *data = (UINT16 *)&tiledata[2 * y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + UINT8 byte = j2ku_shift(offset + *data++, shift); + row[0] = row[1] = row[2] = byte; + row[3] = 0xff; + row += 4; + } } - } - break; - case 4: - for (y = 0; y < h; ++y) { - const UINT32 *data = (UINT32 *)&tiledata[4 * y * w]; - UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; - for (x = 0; x < w; ++x) { - UINT8 byte = j2ku_shift(offset + *data++, shift); - row[0] = row[1] = row[2] = byte; - row[3] = 0xff; - row += 4; + break; + case 4: + for (y = 0; y < h; ++y) { + const UINT32 *data = (UINT32 *)&tiledata[4 * y * w]; + UINT8 *row = (UINT8 *)im->image[y0 + y] + x0; + for (x = 0; x < w; ++x) { + UINT8 byte = j2ku_shift(offset + *data++, shift); + row[0] = row[1] = row[2] = byte; + row[3] = 0xff; + row += 4; + } } - } - break; + break; } } static void -j2ku_graya_la(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_graya_la( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -304,15 +304,31 @@ j2ku_graya_la(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, UINT32 word = 0, aword = 0, byte; switch (csiz) { - case 1: word = *data++; break; - case 2: word = *(const UINT16 *)data; data += 2; break; - case 4: word = *(const UINT32 *)data; data += 4; break; + case 1: + word = *data++; + break; + case 2: + word = *(const UINT16 *)data; + data += 2; + break; + case 4: + word = *(const UINT32 *)data; + data += 4; + break; } switch (acsiz) { - case 1: aword = *adata++; break; - case 2: aword = *(const UINT16 *)adata; adata += 2; break; - case 4: aword = *(const UINT32 *)adata; adata += 4; break; + case 1: + aword = *adata++; + break; + case 2: + aword = *(const UINT16 *)adata; + adata += 2; + break; + case 4: + aword = *(const UINT32 *)adata; + adata += 4; + break; } byte = j2ku_shift(offset + word, shift); @@ -324,9 +340,11 @@ j2ku_graya_la(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } static void -j2ku_srgb_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_srgb_rgb( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -365,9 +383,17 @@ j2ku_srgb_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, UINT32 word = 0; switch (csiz[n]) { - case 1: word = *data[n]++; break; - case 2: word = *(const UINT16 *)data[n]; data[n] += 2; break; - case 4: word = *(const UINT32 *)data[n]; data[n] += 4; break; + case 1: + word = *data[n]++; + break; + case 2: + word = *(const UINT16 *)data[n]; + data[n] += 2; + break; + case 4: + word = *(const UINT32 *)data[n]; + data[n] += 4; + break; } row[n] = j2ku_shift(offsets[n] + word, shifts[n]); @@ -379,9 +405,11 @@ j2ku_srgb_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } static void -j2ku_sycc_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_sycc_rgb( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -421,9 +449,17 @@ j2ku_sycc_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, UINT32 word = 0; switch (csiz[n]) { - case 1: word = *data[n]++; break; - case 2: word = *(const UINT16 *)data[n]; data[n] += 2; break; - case 4: word = *(const UINT32 *)data[n]; data[n] += 4; break; + case 1: + word = *data[n]++; + break; + case 2: + word = *(const UINT16 *)data[n]; + data[n] += 2; + break; + case 4: + word = *(const UINT32 *)data[n]; + data[n] += 4; + break; } row[n] = j2ku_shift(offsets[n] + word, shifts[n]); @@ -437,9 +473,11 @@ j2ku_sycc_rgb(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } static void -j2ku_srgba_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_srgba_rgba( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -478,9 +516,17 @@ j2ku_srgba_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, UINT32 word = 0; switch (csiz[n]) { - case 1: word = *data[n]++; break; - case 2: word = *(const UINT16 *)data[n]; data[n] += 2; break; - case 4: word = *(const UINT32 *)data[n]; data[n] += 4; break; + case 1: + word = *data[n]++; + break; + case 2: + word = *(const UINT16 *)data[n]; + data[n] += 2; + break; + case 4: + word = *(const UINT32 *)data[n]; + data[n] += 4; + break; } row[n] = j2ku_shift(offsets[n] + word, shifts[n]); @@ -491,9 +537,11 @@ j2ku_srgba_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } static void -j2ku_sycca_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, - const UINT8 *tiledata, Imaging im) -{ +j2ku_sycca_rgba( + opj_image_t *in, + const JPEG2KTILEINFO *tileinfo, + const UINT8 *tiledata, + Imaging im) { unsigned x0 = tileinfo->x0 - in->x0, y0 = tileinfo->y0 - in->y0; unsigned w = tileinfo->x1 - tileinfo->x0; unsigned h = tileinfo->y1 - tileinfo->y0; @@ -533,9 +581,17 @@ j2ku_sycca_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, UINT32 word = 0; switch (csiz[n]) { - case 1: word = *data[n]++; break; - case 2: word = *(const UINT16 *)data[n]; data[n] += 2; break; - case 4: word = *(const UINT32 *)data[n]; data[n] += 4; break; + case 1: + word = *data[n]++; + break; + case 2: + word = *(const UINT16 *)data[n]; + data[n] += 2; + break; + case 4: + word = *(const UINT32 *)data[n]; + data[n] += 4; + break; } row[n] = j2ku_shift(offsets[n] + word, shifts[n]); @@ -548,22 +604,22 @@ j2ku_sycca_rgba(opj_image_t *in, const JPEG2KTILEINFO *tileinfo, } static const struct j2k_decode_unpacker j2k_unpackers[] = { - { "L", OPJ_CLRSPC_GRAY, 1, j2ku_gray_l }, - { "I;16", OPJ_CLRSPC_GRAY, 1, j2ku_gray_i }, - { "I;16B", OPJ_CLRSPC_GRAY, 1, j2ku_gray_i }, - { "LA", OPJ_CLRSPC_GRAY, 2, j2ku_graya_la }, - { "RGB", OPJ_CLRSPC_GRAY, 1, j2ku_gray_rgb }, - { "RGB", OPJ_CLRSPC_GRAY, 2, j2ku_gray_rgb }, - { "RGB", OPJ_CLRSPC_SRGB, 3, j2ku_srgb_rgb }, - { "RGB", OPJ_CLRSPC_SYCC, 3, j2ku_sycc_rgb }, - { "RGB", OPJ_CLRSPC_SRGB, 4, j2ku_srgb_rgb }, - { "RGB", OPJ_CLRSPC_SYCC, 4, j2ku_sycc_rgb }, - { "RGBA", OPJ_CLRSPC_GRAY, 1, j2ku_gray_rgb }, - { "RGBA", OPJ_CLRSPC_GRAY, 2, j2ku_graya_la }, - { "RGBA", OPJ_CLRSPC_SRGB, 3, j2ku_srgb_rgb }, - { "RGBA", OPJ_CLRSPC_SYCC, 3, j2ku_sycc_rgb }, - { "RGBA", OPJ_CLRSPC_SRGB, 4, j2ku_srgba_rgba }, - { "RGBA", OPJ_CLRSPC_SYCC, 4, j2ku_sycca_rgba }, + {"L", OPJ_CLRSPC_GRAY, 1, j2ku_gray_l}, + {"I;16", OPJ_CLRSPC_GRAY, 1, j2ku_gray_i}, + {"I;16B", OPJ_CLRSPC_GRAY, 1, j2ku_gray_i}, + {"LA", OPJ_CLRSPC_GRAY, 2, j2ku_graya_la}, + {"RGB", OPJ_CLRSPC_GRAY, 1, j2ku_gray_rgb}, + {"RGB", OPJ_CLRSPC_GRAY, 2, j2ku_gray_rgb}, + {"RGB", OPJ_CLRSPC_SRGB, 3, j2ku_srgb_rgb}, + {"RGB", OPJ_CLRSPC_SYCC, 3, j2ku_sycc_rgb}, + {"RGB", OPJ_CLRSPC_SRGB, 4, j2ku_srgb_rgb}, + {"RGB", OPJ_CLRSPC_SYCC, 4, j2ku_sycc_rgb}, + {"RGBA", OPJ_CLRSPC_GRAY, 1, j2ku_gray_rgb}, + {"RGBA", OPJ_CLRSPC_GRAY, 2, j2ku_graya_la}, + {"RGBA", OPJ_CLRSPC_SRGB, 3, j2ku_srgb_rgb}, + {"RGBA", OPJ_CLRSPC_SYCC, 3, j2ku_sycc_rgb}, + {"RGBA", OPJ_CLRSPC_SRGB, 4, j2ku_srgba_rgba}, + {"RGBA", OPJ_CLRSPC_SYCC, 4, j2ku_sycca_rgba}, }; /* -------------------------------------------------------------------- */ @@ -578,9 +634,8 @@ enum { }; static int -j2k_decode_entry(Imaging im, ImagingCodecState state) -{ - JPEG2KDECODESTATE *context = (JPEG2KDECODESTATE *) state->context; +j2k_decode_entry(Imaging im, ImagingCodecState state) { + JPEG2KDECODESTATE *context = (JPEG2KDECODESTATE *)state->context; opj_stream_t *stream = NULL; opj_image_t *image = NULL; opj_codec_t *codec = NULL; @@ -591,7 +646,6 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) unsigned n, tile_height, tile_width; int components; - stream = opj_stream_create(BUFFER_SIZE, OPJ_TRUE); if (!stream) { @@ -645,8 +699,8 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) } /* Check that this image is something we can handle */ - if (image->numcomps < 1 || image->numcomps > 4 - || image->color_space == OPJ_CLRSPC_UNKNOWN) { + if (image->numcomps < 1 || image->numcomps > 4 || + image->color_space == OPJ_CLRSPC_UNKNOWN) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -686,15 +740,21 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) if (color_space == OPJ_CLRSPC_UNSPECIFIED) { switch (image->numcomps) { - case 1: case 2: color_space = OPJ_CLRSPC_GRAY; break; - case 3: case 4: color_space = OPJ_CLRSPC_SRGB; break; + case 1: + case 2: + color_space = OPJ_CLRSPC_GRAY; + break; + case 3: + case 4: + color_space = OPJ_CLRSPC_SRGB; + break; } } - for (n = 0; n < sizeof(j2k_unpackers) / sizeof (j2k_unpackers[0]); ++n) { - if (color_space == j2k_unpackers[n].color_space - && image->numcomps == j2k_unpackers[n].components - && strcmp (im->mode, j2k_unpackers[n].mode) == 0) { + for (n = 0; n < sizeof(j2k_unpackers) / sizeof(j2k_unpackers[0]); ++n) { + if (color_space == j2k_unpackers[n].color_space && + image->numcomps == j2k_unpackers[n].components && + strcmp(im->mode, j2k_unpackers[n].mode) == 0) { unpack = j2k_unpackers[n].unpacker; break; } @@ -713,14 +773,17 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) OPJ_BOOL should_continue; unsigned correction = (1 << params.cp_reduce) - 1; - if (!opj_read_tile_header(codec, - stream, - &tile_info.tile_index, - &tile_info.data_size, - &tile_info.x0, &tile_info.y0, - &tile_info.x1, &tile_info.y1, - &tile_info.nb_comps, - &should_continue)) { + if (!opj_read_tile_header( + codec, + stream, + &tile_info.tile_index, + &tile_info.data_size, + &tile_info.x0, + &tile_info.y0, + &tile_info.x1, + &tile_info.y1, + &tile_info.nb_comps, + &should_continue)) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -740,12 +803,10 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) /* Check the tile bounds; if the tile is outside the image area, or if it has a negative width or height (i.e. the coordinates are swapped), bail. */ - if (tile_info.x0 >= tile_info.x1 - || tile_info.y0 >= tile_info.y1 - || tile_info.x0 < image->x0 - || tile_info.y0 < image->y0 - || tile_info.x1 - image->x0 > im->xsize - || tile_info.y1 - image->y0 > im->ysize) { + if (tile_info.x0 >= tile_info.x1 || tile_info.y0 >= tile_info.y1 || + tile_info.x0 < image->x0 || tile_info.y0 < image->y0 || + tile_info.x1 - image->x0 > im->xsize || + tile_info.y1 - image->y0 > im->ysize) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -758,10 +819,10 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) tile_width = tile_info.x1 - tile_info.x0; tile_height = tile_info.y1 - tile_info.y0; components = tile_info.nb_comps == 3 ? 4 : tile_info.nb_comps; - if (( tile_width > UINT_MAX / components ) || - ( tile_height > UINT_MAX / components ) || - ( tile_width > UINT_MAX / (tile_height * components )) || - ( tile_height > UINT_MAX / (tile_width * components ))) { + if ((tile_width > UINT_MAX / components) || + (tile_height > UINT_MAX / components) || + (tile_width > UINT_MAX / (tile_height * components)) || + (tile_height > UINT_MAX / (tile_width * components))) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -775,7 +836,7 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) if (buffer_size < tile_info.data_size) { /* malloc check ok, overflow and tile size sanity check above */ - UINT8 *new = realloc (state->buffer, tile_info.data_size); + UINT8 *new = realloc(state->buffer, tile_info.data_size); if (!new) { state->errcode = IMAGING_CODEC_MEMORY; state->state = J2K_STATE_FAILED; @@ -785,12 +846,12 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) buffer_size = tile_info.data_size; } - - if (!opj_decode_tile_data(codec, - tile_info.tile_index, - (OPJ_BYTE *)state->buffer, - tile_info.data_size, - stream)) { + if (!opj_decode_tile_data( + codec, + tile_info.tile_index, + (OPJ_BYTE *)state->buffer, + tile_info.data_size, + stream)) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -809,12 +870,12 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) state->errcode = IMAGING_CODEC_END; if (context->pfile) { - if(fclose(context->pfile)){ + if (fclose(context->pfile)) { context->pfile = NULL; } } - quick_exit: +quick_exit: if (codec) { opj_destroy_codec(codec); } @@ -829,10 +890,8 @@ j2k_decode_entry(Imaging im, ImagingCodecState state) } int -ImagingJpeg2KDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - - if (bytes){ +ImagingJpeg2KDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + if (bytes) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; return -1; @@ -865,7 +924,7 @@ ImagingJpeg2KDecodeCleanup(ImagingCodecState state) { JPEG2KDECODESTATE *context = (JPEG2KDECODESTATE *)state->context; if (context->error_msg) { - free ((void *)context->error_msg); + free((void *)context->error_msg); } context->error_msg = NULL; @@ -874,8 +933,7 @@ ImagingJpeg2KDecodeCleanup(ImagingCodecState state) { } const char * -ImagingJpeg2KVersion(void) -{ +ImagingJpeg2KVersion(void) { return opj_version(); } diff --git a/src/libImaging/Jpeg2KEncode.c b/src/libImaging/Jpeg2KEncode.c index 5b18e472c53..5829cf37f53 100644 --- a/src/libImaging/Jpeg2KEncode.c +++ b/src/libImaging/Jpeg2KEncode.c @@ -19,26 +19,24 @@ #include "Jpeg2K.h" -#define CINEMA_24_CS_LENGTH 1302083 -#define CINEMA_48_CS_LENGTH 651041 +#define CINEMA_24_CS_LENGTH 1302083 +#define CINEMA_48_CS_LENGTH 651041 #define COMP_24_CS_MAX_LENGTH 1041666 -#define COMP_48_CS_MAX_LENGTH 520833 +#define COMP_48_CS_MAX_LENGTH 520833 /* -------------------------------------------------------------------- */ /* Error handler */ /* -------------------------------------------------------------------- */ static void -j2k_error(const char *msg, void *client_data) -{ - JPEG2KENCODESTATE *state = (JPEG2KENCODESTATE *) client_data; +j2k_error(const char *msg, void *client_data) { + JPEG2KENCODESTATE *state = (JPEG2KENCODESTATE *)client_data; free((void *)state->error_msg); state->error_msg = strdup(msg); } static void -j2k_warn(const char *msg, void *client_data) -{ +j2k_warn(const char *msg, void *client_data) { // Null handler } @@ -47,8 +45,7 @@ j2k_warn(const char *msg, void *client_data) /* -------------------------------------------------------------------- */ static OPJ_SIZE_T -j2k_write(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) -{ +j2k_write(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) { ImagingCodecState state = (ImagingCodecState)p_user_data; unsigned int result; @@ -57,16 +54,14 @@ j2k_write(void *p_buffer, OPJ_SIZE_T p_nb_bytes, void *p_user_data) return result ? result : (OPJ_SIZE_T)-1; } - static OPJ_OFF_T -j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) -{ +j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) { ImagingCodecState state = (ImagingCodecState)p_user_data; char *buffer; int result; /* Explicitly write zeros */ - buffer = calloc(p_nb_bytes,1); + buffer = calloc(p_nb_bytes, 1); if (!buffer) { return (OPJ_OFF_T)-1; } @@ -79,8 +74,7 @@ j2k_skip(OPJ_OFF_T p_nb_bytes, void *p_user_data) } static OPJ_BOOL -j2k_seek(OPJ_OFF_T p_nb_bytes, void *p_user_data) -{ +j2k_seek(OPJ_OFF_T p_nb_bytes, void *p_user_data) { ImagingCodecState state = (ImagingCodecState)p_user_data; off_t pos = 0; @@ -94,16 +88,13 @@ j2k_seek(OPJ_OFF_T p_nb_bytes, void *p_user_data) /* Encoder */ /* -------------------------------------------------------------------- */ -typedef void (*j2k_pack_tile_t)(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, - unsigned w, unsigned h); +typedef void (*j2k_pack_tile_t)( + Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h); static void -j2k_pack_l(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, unsigned w, unsigned h) -{ +j2k_pack_l(Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h) { UINT8 *ptr = buf; - unsigned x,y; + unsigned x, y; for (y = 0; y < h; ++y) { UINT8 *data = (UINT8 *)(im->image[y + y0] + x0); for (x = 0; x < w; ++x) { @@ -113,11 +104,9 @@ j2k_pack_l(Imaging im, UINT8 *buf, } static void -j2k_pack_i16(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, unsigned w, unsigned h) -{ +j2k_pack_i16(Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h) { UINT8 *ptr = buf; - unsigned x,y; + unsigned x, y; for (y = 0; y < h; ++y) { UINT8 *data = (UINT8 *)(im->image[y + y0] + x0); for (x = 0; x < w; ++x) { @@ -127,14 +116,11 @@ j2k_pack_i16(Imaging im, UINT8 *buf, } } - static void -j2k_pack_la(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, unsigned w, unsigned h) -{ +j2k_pack_la(Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h) { UINT8 *ptr = buf; UINT8 *ptra = buf + w * h; - unsigned x,y; + unsigned x, y; for (y = 0; y < h; ++y) { UINT8 *data = (UINT8 *)(im->image[y + y0] + 4 * x0); for (x = 0; x < w; ++x) { @@ -146,13 +132,11 @@ j2k_pack_la(Imaging im, UINT8 *buf, } static void -j2k_pack_rgb(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, unsigned w, unsigned h) -{ +j2k_pack_rgb(Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h) { UINT8 *pr = buf; UINT8 *pg = pr + w * h; UINT8 *pb = pg + w * h; - unsigned x,y; + unsigned x, y; for (y = 0; y < h; ++y) { UINT8 *data = (UINT8 *)(im->image[y + y0] + 4 * x0); for (x = 0; x < w; ++x) { @@ -165,14 +149,13 @@ j2k_pack_rgb(Imaging im, UINT8 *buf, } static void -j2k_pack_rgba(Imaging im, UINT8 *buf, - unsigned x0, unsigned y0, unsigned w, unsigned h) -{ +j2k_pack_rgba( + Imaging im, UINT8 *buf, unsigned x0, unsigned y0, unsigned w, unsigned h) { UINT8 *pr = buf; UINT8 *pg = pr + w * h; UINT8 *pb = pg + w * h; UINT8 *pa = pb + w * h; - unsigned x,y; + unsigned x, y; for (y = 0; y < h; ++y) { UINT8 *data = (UINT8 *)(im->image[y + y0] + 4 * x0); for (x = 0; x < w; ++x) { @@ -192,8 +175,7 @@ enum { }; static void -j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) -{ +j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) { float rate; int n; @@ -215,8 +197,9 @@ j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) params->irreversible = 1; if (params->cp_cinema == OPJ_CINEMA4K_24) { - float max_rate = ((float)(components * im->xsize * im->ysize * 8) - / (CINEMA_24_CS_LENGTH * 8)); + float max_rate = + ((float)(components * im->xsize * im->ysize * 8) / + (CINEMA_24_CS_LENGTH * 8)); params->POC[0].tile = 1; params->POC[0].resno0 = 0; @@ -239,8 +222,9 @@ j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) if (params->tcp_rates[0] == 0) { params->tcp_rates[n] = max_rate; } else { - rate = ((float)(components * im->xsize * im->ysize * 8) - / (params->tcp_rates[n] * 8)); + rate = + ((float)(components * im->xsize * im->ysize * 8) / + (params->tcp_rates[n] * 8)); if (rate > CINEMA_24_CS_LENGTH) { params->tcp_rates[n] = max_rate; } @@ -249,16 +233,18 @@ j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) params->max_comp_size = COMP_24_CS_MAX_LENGTH; } else { - float max_rate = ((float)(components * im->xsize * im->ysize * 8) - / (CINEMA_48_CS_LENGTH * 8)); + float max_rate = + ((float)(components * im->xsize * im->ysize * 8) / + (CINEMA_48_CS_LENGTH * 8)); for (n = 0; n < params->tcp_numlayers; ++n) { rate = 0; if (params->tcp_rates[0] == 0) { params->tcp_rates[n] = max_rate; } else { - rate = ((float)(components * im->xsize * im->ysize * 8) - / (params->tcp_rates[n] * 8)); + rate = + ((float)(components * im->xsize * im->ysize * 8) / + (params->tcp_rates[n] * 8)); if (rate > CINEMA_48_CS_LENGTH) { params->tcp_rates[n] = max_rate; } @@ -270,8 +256,7 @@ j2k_set_cinema_params(Imaging im, int components, opj_cparameters_t *params) } static int -j2k_encode_entry(Imaging im, ImagingCodecState state) -{ +j2k_encode_entry(Imaging im, ImagingCodecState state) { JPEG2KENCODESTATE *context = (JPEG2KENCODESTATE *)state->context; opj_stream_t *stream = NULL; opj_image_t *image = NULL; @@ -312,35 +297,35 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) #endif /* Setup an opj_image */ - if (strcmp (im->mode, "L") == 0) { + if (strcmp(im->mode, "L") == 0) { components = 1; color_space = OPJ_CLRSPC_GRAY; pack = j2k_pack_l; - } else if (strcmp (im->mode, "I;16") == 0){ + } else if (strcmp(im->mode, "I;16") == 0) { components = 1; color_space = OPJ_CLRSPC_GRAY; pack = j2k_pack_i16; prec = 16; bpp = 12; - } else if (strcmp (im->mode, "I;16B") == 0){ + } else if (strcmp(im->mode, "I;16B") == 0) { components = 1; color_space = OPJ_CLRSPC_GRAY; pack = j2k_pack_i16; prec = 16; bpp = 12; - } else if (strcmp (im->mode, "LA") == 0) { + } else if (strcmp(im->mode, "LA") == 0) { components = 2; color_space = OPJ_CLRSPC_GRAY; pack = j2k_pack_la; - } else if (strcmp (im->mode, "RGB") == 0) { + } else if (strcmp(im->mode, "RGB") == 0) { components = 3; color_space = OPJ_CLRSPC_SRGB; pack = j2k_pack_rgb; - } else if (strcmp (im->mode, "YCbCr") == 0) { + } else if (strcmp(im->mode, "YCbCr") == 0) { components = 3; color_space = OPJ_CLRSPC_SYCC; pack = j2k_pack_rgb; - } else if (strcmp (im->mode, "RGBA") == 0) { + } else if (strcmp(im->mode, "RGBA") == 0) { components = 4; color_space = OPJ_CLRSPC_SRGB; pack = j2k_pack_rgba; @@ -400,8 +385,9 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) float *pq; if (len > 0) { - if ((unsigned)len > sizeof(params.tcp_rates) / sizeof(params.tcp_rates[0])) { - len = sizeof(params.tcp_rates)/sizeof(params.tcp_rates[0]); + if ((unsigned)len > + sizeof(params.tcp_rates) / sizeof(params.tcp_rates[0])) { + len = sizeof(params.tcp_rates) / sizeof(params.tcp_rates[0]); } params.tcp_numlayers = (int)len; @@ -431,16 +417,16 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) params.numresolution = context->num_resolutions; } - if (context->cblk_width >= 4 && context->cblk_width <= 1024 - && context->cblk_height >= 4 && context->cblk_height <= 1024 - && context->cblk_width * context->cblk_height <= 4096) { + if (context->cblk_width >= 4 && context->cblk_width <= 1024 && + context->cblk_height >= 4 && context->cblk_height <= 1024 && + context->cblk_width * context->cblk_height <= 4096) { params.cblockw_init = context->cblk_width; params.cblockh_init = context->cblk_height; } - if (context->precinct_width >= 4 && context->precinct_height >= 4 - && context->precinct_width >= context->cblk_width - && context->precinct_height > context->cblk_height) { + if (context->precinct_width >= 4 && context->precinct_height >= 4 && + context->precinct_width >= context->cblk_width && + context->precinct_height > context->cblk_height) { params.prcw_init[0] = context->precinct_width; params.prch_init[0] = context->precinct_height; params.res_spec = 1; @@ -454,22 +440,22 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) params.cp_cinema = context->cinema_mode; switch (params.cp_cinema) { - case OPJ_OFF: - params.cp_rsiz = OPJ_STD_RSIZ; - break; - case OPJ_CINEMA2K_24: - case OPJ_CINEMA2K_48: - params.cp_rsiz = OPJ_CINEMA2K; - if (params.numresolution > 6) { - params.numresolution = 6; - } - break; - case OPJ_CINEMA4K_24: - params.cp_rsiz = OPJ_CINEMA4K; - if (params.numresolution > 7) { - params.numresolution = 7; - } - break; + case OPJ_OFF: + params.cp_rsiz = OPJ_STD_RSIZ; + break; + case OPJ_CINEMA2K_24: + case OPJ_CINEMA2K_48: + params.cp_rsiz = OPJ_CINEMA2K; + if (params.numresolution > 6) { + params.numresolution = 6; + } + break; + case OPJ_CINEMA4K_24: + params.cp_rsiz = OPJ_CINEMA4K; + if (params.numresolution > 7) { + params.numresolution = 7; + } + break; } if (context->cinema_mode != OPJ_OFF) { @@ -504,24 +490,24 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) } /* Write each tile */ - tiles_x = (im->xsize + (params.image_offset_x0 - params.cp_tx0) - + tile_width - 1) / tile_width; - tiles_y = (im->ysize + (params.image_offset_y0 - params.cp_ty0) - + tile_height - 1) / tile_height; + tiles_x = (im->xsize + (params.image_offset_x0 - params.cp_tx0) + tile_width - 1) / + tile_width; + tiles_y = (im->ysize + (params.image_offset_y0 - params.cp_ty0) + tile_height - 1) / + tile_height; /* check for integer overflow for the malloc line, checking any expression that may multiply either tile_width or tile_height */ _overflow_scale_factor = components * prec; - if (( tile_width > UINT_MAX / _overflow_scale_factor ) || - ( tile_height > UINT_MAX / _overflow_scale_factor ) || - ( tile_width > UINT_MAX / (tile_height * _overflow_scale_factor )) || - ( tile_height > UINT_MAX / (tile_width * _overflow_scale_factor ))) { + if ((tile_width > UINT_MAX / _overflow_scale_factor) || + (tile_height > UINT_MAX / _overflow_scale_factor) || + (tile_width > UINT_MAX / (tile_height * _overflow_scale_factor)) || + (tile_height > UINT_MAX / (tile_width * _overflow_scale_factor))) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; } /* malloc check ok, checked for overflow above */ - state->buffer = malloc (tile_width * tile_height * components * prec / 8); + state->buffer = malloc(tile_width * tile_height * components * prec / 8); if (!state->buffer) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; @@ -564,8 +550,7 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) data_size = pixw * pixh * components * prec / 8; - if (!opj_write_tile(codec, tile_ndx++, state->buffer, - data_size, stream)) { + if (!opj_write_tile(codec, tile_ndx++, state->buffer, data_size, stream)) { state->errcode = IMAGING_CODEC_BROKEN; state->state = J2K_STATE_FAILED; goto quick_exit; @@ -583,7 +568,7 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) state->state = J2K_STATE_DONE; ret = -1; - quick_exit: +quick_exit: if (codec) { opj_destroy_codec(codec); } @@ -598,14 +583,12 @@ j2k_encode_entry(Imaging im, ImagingCodecState state) } int -ImagingJpeg2KEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) -{ +ImagingJpeg2KEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { if (state->state == J2K_STATE_FAILED) { return -1; } if (state->state == J2K_STATE_START) { - state->state = J2K_STATE_ENCODING; return j2k_encode_entry(im, state); @@ -628,12 +611,11 @@ ImagingJpeg2KEncodeCleanup(ImagingCodecState state) { } if (context->error_msg) { - free ((void *)context->error_msg); + free((void *)context->error_msg); } context->error_msg = NULL; - return -1; } diff --git a/src/libImaging/JpegDecode.c b/src/libImaging/JpegDecode.c index fb611204477..55d10a81aec 100644 --- a/src/libImaging/JpegDecode.c +++ b/src/libImaging/JpegDecode.c @@ -21,10 +21,9 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" -#ifdef HAVE_LIBJPEG +#ifdef HAVE_LIBJPEG #undef HAVE_PROTOTYPES #undef HAVE_STDLIB_H @@ -37,7 +36,6 @@ #include "Jpeg.h" - #define STRINGIFY(x) #x #define TOSTRING(x) STRINGIFY(x) @@ -50,20 +48,19 @@ char *libjpeg_turbo_version = NULL; #endif int -ImagingJpegUseJCSExtensions() -{ +ImagingJpegUseJCSExtensions() { int use_jcs_extensions = 0; - #ifdef JCS_EXTENSIONS - #if defined(LIBJPEG_TURBO_VERSION_NUMBER) - #if LIBJPEG_TURBO_VERSION_NUMBER >= 1002010 - use_jcs_extensions = 1; - #endif - #else - if (libjpeg_turbo_version) { - use_jcs_extensions = strcmp(libjpeg_turbo_version, "1.2.1") >= 0; - } - #endif - #endif +#ifdef JCS_EXTENSIONS +#if defined(LIBJPEG_TURBO_VERSION_NUMBER) +#if LIBJPEG_TURBO_VERSION_NUMBER >= 1002010 + use_jcs_extensions = 1; +#endif +#else + if (libjpeg_turbo_version) { + use_jcs_extensions = strcmp(libjpeg_turbo_version, "1.2.1") >= 0; + } +#endif +#endif return use_jcs_extensions; } @@ -72,24 +69,19 @@ ImagingJpegUseJCSExtensions() /* -------------------------------------------------------------------- */ METHODDEF(void) -stub(j_decompress_ptr cinfo) -{ - /* empty */ -} +stub(j_decompress_ptr cinfo) { /* empty */ } METHODDEF(boolean) -fill_input_buffer(j_decompress_ptr cinfo) -{ +fill_input_buffer(j_decompress_ptr cinfo) { /* Suspension */ return FALSE; } METHODDEF(void) -skip_input_data(j_decompress_ptr cinfo, long num_bytes) -{ - JPEGSOURCE* source = (JPEGSOURCE*) cinfo->src; +skip_input_data(j_decompress_ptr cinfo, long num_bytes) { + JPEGSOURCE *source = (JPEGSOURCE *)cinfo->src; - if (num_bytes > (long) source->pub.bytes_in_buffer) { + if (num_bytes > (long)source->pub.bytes_in_buffer) { /* We need to skip more data than we have in the buffer. This will force the JPEG library to suspend decoding. */ source->skip = num_bytes - source->pub.bytes_in_buffer; @@ -103,50 +95,42 @@ skip_input_data(j_decompress_ptr cinfo, long num_bytes) } } - GLOBAL(void) -jpeg_buffer_src(j_decompress_ptr cinfo, JPEGSOURCE* source) -{ - cinfo->src = (void*) source; - - /* Prepare for suspending reader */ - source->pub.init_source = stub; - source->pub.fill_input_buffer = fill_input_buffer; - source->pub.skip_input_data = skip_input_data; - source->pub.resync_to_restart = jpeg_resync_to_restart; - source->pub.term_source = stub; - source->pub.bytes_in_buffer = 0; /* forces fill_input_buffer on first read */ - - source->skip = 0; +jpeg_buffer_src(j_decompress_ptr cinfo, JPEGSOURCE *source) { + cinfo->src = (void *)source; + + /* Prepare for suspending reader */ + source->pub.init_source = stub; + source->pub.fill_input_buffer = fill_input_buffer; + source->pub.skip_input_data = skip_input_data; + source->pub.resync_to_restart = jpeg_resync_to_restart; + source->pub.term_source = stub; + source->pub.bytes_in_buffer = 0; /* forces fill_input_buffer on first read */ + + source->skip = 0; } - /* -------------------------------------------------------------------- */ /* Error handler */ /* -------------------------------------------------------------------- */ METHODDEF(void) -error(j_common_ptr cinfo) -{ - JPEGERROR* error; - error = (JPEGERROR*) cinfo->err; - longjmp(error->setjmp_buffer, 1); +error(j_common_ptr cinfo) { + JPEGERROR *error; + error = (JPEGERROR *)cinfo->err; + longjmp(error->setjmp_buffer, 1); } METHODDEF(void) -output(j_common_ptr cinfo) -{ - /* nothing */ -} +output(j_common_ptr cinfo) { /* nothing */ } /* -------------------------------------------------------------------- */ /* Decoder */ /* -------------------------------------------------------------------- */ int -ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - JPEGSTATE* context = (JPEGSTATE*) state->context; +ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + JPEGSTATE *context = (JPEGSTATE *)state->context; int ok; if (setjmp(context->error.setjmp_buffer)) { @@ -157,7 +141,6 @@ ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t by } if (!state->state) { - /* Setup decompression context */ context->cinfo.err = jpeg_std_error(&context->error.pub); context->error.pub.error_exit = error; @@ -167,7 +150,6 @@ ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t by /* Ready to decode */ state->state = 1; - } /* Load the source buffer */ @@ -182,137 +164,137 @@ ImagingJpegDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t by } switch (state->state) { + case 1: - case 1: - - /* Read JPEG header, until we find an image body. */ - do { + /* Read JPEG header, until we find an image body. */ + do { + /* Note that we cannot return unless we have decoded + as much data as possible. */ + ok = jpeg_read_header(&context->cinfo, FALSE); - /* Note that we cannot return unless we have decoded - as much data as possible. */ - ok = jpeg_read_header(&context->cinfo, FALSE); + } while (ok == JPEG_HEADER_TABLES_ONLY); - } while (ok == JPEG_HEADER_TABLES_ONLY); - - if (ok == JPEG_SUSPENDED) { - break; - } + if (ok == JPEG_SUSPENDED) { + break; + } - /* Decoder settings */ - - /* jpegmode indicates whats in the file; if not set, we'll - trust the decoder */ - if (strcmp(context->jpegmode, "L") == 0) { - context->cinfo.jpeg_color_space = JCS_GRAYSCALE; - } else if (strcmp(context->jpegmode, "RGB") == 0) { - context->cinfo.jpeg_color_space = JCS_RGB; - } else if (strcmp(context->jpegmode, "CMYK") == 0) { - context->cinfo.jpeg_color_space = JCS_CMYK; - } else if (strcmp(context->jpegmode, "YCbCr") == 0) { - context->cinfo.jpeg_color_space = JCS_YCbCr; - } else if (strcmp(context->jpegmode, "YCbCrK") == 0) { - context->cinfo.jpeg_color_space = JCS_YCCK; - } + /* Decoder settings */ + + /* jpegmode indicates whats in the file; if not set, we'll + trust the decoder */ + if (strcmp(context->jpegmode, "L") == 0) { + context->cinfo.jpeg_color_space = JCS_GRAYSCALE; + } else if (strcmp(context->jpegmode, "RGB") == 0) { + context->cinfo.jpeg_color_space = JCS_RGB; + } else if (strcmp(context->jpegmode, "CMYK") == 0) { + context->cinfo.jpeg_color_space = JCS_CMYK; + } else if (strcmp(context->jpegmode, "YCbCr") == 0) { + context->cinfo.jpeg_color_space = JCS_YCbCr; + } else if (strcmp(context->jpegmode, "YCbCrK") == 0) { + context->cinfo.jpeg_color_space = JCS_YCCK; + } - /* rawmode indicates what we want from the decoder. if not - set, conversions are disabled */ - if (strcmp(context->rawmode, "L") == 0) { - context->cinfo.out_color_space = JCS_GRAYSCALE; - } else if (strcmp(context->rawmode, "RGB") == 0) { - context->cinfo.out_color_space = JCS_RGB; - } - #ifdef JCS_EXTENSIONS - else if (strcmp(context->rawmode, "RGBX") == 0) { + /* rawmode indicates what we want from the decoder. if not + set, conversions are disabled */ + if (strcmp(context->rawmode, "L") == 0) { + context->cinfo.out_color_space = JCS_GRAYSCALE; + } else if (strcmp(context->rawmode, "RGB") == 0) { + context->cinfo.out_color_space = JCS_RGB; + } +#ifdef JCS_EXTENSIONS + else if (strcmp(context->rawmode, "RGBX") == 0) { context->cinfo.out_color_space = JCS_EXT_RGBX; - } - #endif - else if (strcmp(context->rawmode, "CMYK") == 0 || - strcmp(context->rawmode, "CMYK;I") == 0) { - context->cinfo.out_color_space = JCS_CMYK; - } else if (strcmp(context->rawmode, "YCbCr") == 0) { - context->cinfo.out_color_space = JCS_YCbCr; - } else if (strcmp(context->rawmode, "YCbCrK") == 0) { - context->cinfo.out_color_space = JCS_YCCK; - } else { - /* Disable decoder conversions */ - context->cinfo.jpeg_color_space = JCS_UNKNOWN; - context->cinfo.out_color_space = JCS_UNKNOWN; - } - - if (context->scale > 1) { - context->cinfo.scale_num = 1; - context->cinfo.scale_denom = context->scale; - } - if (context->draft) { - context->cinfo.do_fancy_upsampling = FALSE; - context->cinfo.dct_method = JDCT_FASTEST; - } - - state->state++; - /* fall through */ + } +#endif + else if ( + strcmp(context->rawmode, "CMYK") == 0 || + strcmp(context->rawmode, "CMYK;I") == 0) { + context->cinfo.out_color_space = JCS_CMYK; + } else if (strcmp(context->rawmode, "YCbCr") == 0) { + context->cinfo.out_color_space = JCS_YCbCr; + } else if (strcmp(context->rawmode, "YCbCrK") == 0) { + context->cinfo.out_color_space = JCS_YCCK; + } else { + /* Disable decoder conversions */ + context->cinfo.jpeg_color_space = JCS_UNKNOWN; + context->cinfo.out_color_space = JCS_UNKNOWN; + } - case 2: + if (context->scale > 1) { + context->cinfo.scale_num = 1; + context->cinfo.scale_denom = context->scale; + } + if (context->draft) { + context->cinfo.do_fancy_upsampling = FALSE; + context->cinfo.dct_method = JDCT_FASTEST; + } - /* Set things up for decompression (this processes the entire - file if necessary to return data line by line) */ - if (!jpeg_start_decompress(&context->cinfo)) { - break; - } + state->state++; + /* fall through */ - state->state++; - /* fall through */ + case 2: - case 3: + /* Set things up for decompression (this processes the entire + file if necessary to return data line by line) */ + if (!jpeg_start_decompress(&context->cinfo)) { + break; + } - /* Decompress a single line of data */ - ok = 1; - while (state->y < state->ysize) { - ok = jpeg_read_scanlines(&context->cinfo, &state->buffer, 1); + state->state++; + /* fall through */ + + case 3: + + /* Decompress a single line of data */ + ok = 1; + while (state->y < state->ysize) { + ok = jpeg_read_scanlines(&context->cinfo, &state->buffer, 1); + if (ok != 1) { + break; + } + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer, + state->xsize); + state->y++; + } if (ok != 1) { break; } - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->buffer, - state->xsize); - state->y++; - } - if (ok != 1) { - break; - } - state->state++; - /* fall through */ + state->state++; + /* fall through */ - case 4: + case 4: - /* Finish decompression */ - if (!jpeg_finish_decompress(&context->cinfo)) { - /* FIXME: add strictness mode test */ - if (state->y < state->ysize) { - break; + /* Finish decompression */ + if (!jpeg_finish_decompress(&context->cinfo)) { + /* FIXME: add strictness mode test */ + if (state->y < state->ysize) { + break; + } } - } - - /* Clean up */ - jpeg_destroy_decompress(&context->cinfo); - /* if (jerr.pub.num_warnings) return BROKEN; */ - return -1; + /* Clean up */ + jpeg_destroy_decompress(&context->cinfo); + /* if (jerr.pub.num_warnings) return BROKEN; */ + return -1; } /* Return number of bytes consumed */ return context->source.pub.next_input_byte - buf; - } /* -------------------------------------------------------------------- */ /* Cleanup */ /* -------------------------------------------------------------------- */ -int ImagingJpegDecodeCleanup(ImagingCodecState state){ +int +ImagingJpegDecodeCleanup(ImagingCodecState state) { /* called to free the decompression engine when the decode terminates due to a corrupt or truncated image */ - JPEGSTATE* context = (JPEGSTATE*) state->context; + JPEGSTATE *context = (JPEGSTATE *)state->context; /* Clean up */ jpeg_destroy_decompress(&context->cinfo); @@ -320,4 +302,3 @@ int ImagingJpegDecodeCleanup(ImagingCodecState state){ } #endif - diff --git a/src/libImaging/JpegEncode.c b/src/libImaging/JpegEncode.c index b255025faab..642b657c323 100644 --- a/src/libImaging/JpegEncode.c +++ b/src/libImaging/JpegEncode.c @@ -19,10 +19,9 @@ * See the README file for details on usage and redistribution. */ - #include "Imaging.h" -#ifdef HAVE_LIBJPEG +#ifdef HAVE_LIBJPEG #undef HAVE_PROTOTYPES #undef HAVE_STDLIB_H @@ -40,51 +39,42 @@ /* -------------------------------------------------------------------- */ METHODDEF(void) -stub(j_compress_ptr cinfo) -{ - /* empty */ -} +stub(j_compress_ptr cinfo) { /* empty */ } METHODDEF(boolean) -empty_output_buffer (j_compress_ptr cinfo) -{ +empty_output_buffer(j_compress_ptr cinfo) { /* Suspension */ return FALSE; } GLOBAL(void) -jpeg_buffer_dest(j_compress_ptr cinfo, JPEGDESTINATION* destination) -{ - cinfo->dest = (void*) destination; +jpeg_buffer_dest(j_compress_ptr cinfo, JPEGDESTINATION *destination) { + cinfo->dest = (void *)destination; destination->pub.init_destination = stub; destination->pub.empty_output_buffer = empty_output_buffer; destination->pub.term_destination = stub; } - /* -------------------------------------------------------------------- */ /* Error handler */ /* -------------------------------------------------------------------- */ METHODDEF(void) -error(j_common_ptr cinfo) -{ - JPEGERROR* error; - error = (JPEGERROR*) cinfo->err; - (*cinfo->err->output_message) (cinfo); +error(j_common_ptr cinfo) { + JPEGERROR *error; + error = (JPEGERROR *)cinfo->err; + (*cinfo->err->output_message)(cinfo); longjmp(error->setjmp_buffer, 1); } - /* -------------------------------------------------------------------- */ /* Encoder */ /* -------------------------------------------------------------------- */ int -ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - JPEGENCODERSTATE* context = (JPEGENCODERSTATE*) state->context; +ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + JPEGENCODERSTATE *context = (JPEGENCODERSTATE *)state->context; int ok; if (setjmp(context->error.setjmp_buffer)) { @@ -95,7 +85,6 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } if (!state->state) { - /* Setup compression context (very similar to the decoder) */ context->cinfo.err = jpeg_std_error(&context->error.pub); context->error.pub.error_exit = error; @@ -106,7 +95,6 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* Ready to encode */ state->state = 1; - } /* Load the destination buffer */ @@ -114,7 +102,6 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->destination.pub.free_in_buffer = bytes; switch (state->state) { - case 1: context->cinfo.image_width = state->xsize; @@ -136,11 +123,11 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) case 32: context->cinfo.input_components = 4; context->cinfo.in_color_space = JCS_CMYK; - #ifdef JCS_EXTENSIONS +#ifdef JCS_EXTENSIONS if (strcmp(context->rawmode, "RGBX") == 0) { context->cinfo.in_color_space = JCS_EXT_RGBX; } - #endif +#endif break; default: state->errcode = IMAGING_CODEC_CONFIG; @@ -160,15 +147,20 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } for (i = 0; i < context->qtablesLen; i++) { // TODO: Should add support for none baseline - jpeg_add_quant_table(&context->cinfo, i, &context->qtables[i * DCTSIZE2], - quality, TRUE); + jpeg_add_quant_table( + &context->cinfo, + i, + &context->qtables[i * DCTSIZE2], + quality, + TRUE); context->cinfo.comp_info[i].quant_tbl_no = i; last_q = i; } if (context->qtablesLen == 1) { - // jpeg_set_defaults created two qtables internally, but we only wanted one. - jpeg_add_quant_table(&context->cinfo, 1, &context->qtables[0], - quality, TRUE); + // jpeg_set_defaults created two qtables internally, but we only + // wanted one. + jpeg_add_quant_table( + &context->cinfo, 1, &context->qtables[0], quality, TRUE); } for (i = last_q; i < context->cinfo.num_components; i++) { context->cinfo.comp_info[i].quant_tbl_no = last_q; @@ -178,9 +170,8 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } /* Set subsampling options */ - switch (context->subsampling) - { - case 0: /* 1x1 1x1 1x1 (4:4:4) : None */ + switch (context->subsampling) { + case 0: /* 1x1 1x1 1x1 (4:4:4) : None */ { context->cinfo.comp_info[0].h_samp_factor = 1; context->cinfo.comp_info[0].v_samp_factor = 1; @@ -190,7 +181,7 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->cinfo.comp_info[2].v_samp_factor = 1; break; } - case 1: /* 2x1, 1x1, 1x1 (4:2:2) : Medium */ + case 1: /* 2x1, 1x1, 1x1 (4:2:2) : Medium */ { context->cinfo.comp_info[0].h_samp_factor = 2; context->cinfo.comp_info[0].v_samp_factor = 1; @@ -200,7 +191,7 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->cinfo.comp_info[2].v_samp_factor = 1; break; } - case 2: /* 2x2, 1x1, 1x1 (4:2:0) : High */ + case 2: /* 2x2, 1x1, 1x1 (4:2:0) : High */ { context->cinfo.comp_info[0].h_samp_factor = 2; context->cinfo.comp_info[0].v_samp_factor = 2; @@ -210,23 +201,22 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->cinfo.comp_info[2].v_samp_factor = 1; break; } - default: - { + default: { /* Use the lib's default */ break; } - } - if (context->progressive) { - jpeg_simple_progression(&context->cinfo); - } - context->cinfo.smoothing_factor = context->smooth; - context->cinfo.optimize_coding = (boolean) context->optimize; - if (context->xdpi > 0 && context->ydpi > 0) { - context->cinfo.write_JFIF_header = TRUE; - context->cinfo.density_unit = 1; /* dots per inch */ - context->cinfo.X_density = context->xdpi; - context->cinfo.Y_density = context->ydpi; - } + } + if (context->progressive) { + jpeg_simple_progression(&context->cinfo); + } + context->cinfo.smoothing_factor = context->smooth; + context->cinfo.optimize_coding = (boolean)context->optimize; + if (context->xdpi > 0 && context->ydpi > 0) { + context->cinfo.write_JFIF_header = TRUE; + context->cinfo.density_unit = 1; /* dots per inch */ + context->cinfo.X_density = context->xdpi; + context->cinfo.Y_density = context->ydpi; + } switch (context->streamtype) { case 1: /* tables only -- not yet implemented */ @@ -249,13 +239,16 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) case 2: // check for exif len + 'APP1' header bytes - if (context->rawExifLen + 5 > context->destination.pub.free_in_buffer){ + if (context->rawExifLen + 5 > context->destination.pub.free_in_buffer) { break; } - //add exif header - if (context->rawExifLen > 0){ - jpeg_write_marker(&context->cinfo, JPEG_APP0+1, - (unsigned char*)context->rawExif, context->rawExifLen); + // add exif header + if (context->rawExifLen > 0) { + jpeg_write_marker( + &context->cinfo, + JPEG_APP0 + 1, + (unsigned char *)context->rawExif, + context->rawExifLen); } state->state++; @@ -268,8 +261,10 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) if (n > context->destination.pub.free_in_buffer) { n = context->destination.pub.free_in_buffer; } - memcpy(context->destination.pub.next_output_byte, - context->extra + context->extra_offset, n); + memcpy( + context->destination.pub.next_output_byte, + context->extra + context->extra_offset, + n); context->destination.pub.next_output_byte += n; context->destination.pub.free_in_buffer -= n; context->extra_offset += n; @@ -283,15 +278,17 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } case 4: - if (1024 > context->destination.pub.free_in_buffer){ + if (1024 > context->destination.pub.free_in_buffer) { break; } ok = 1; while (state->y < state->ysize) { - state->shuffle(state->buffer, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->xsize); + state->shuffle( + state->buffer, + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->xsize); ok = jpeg_write_scanlines(&context->cinfo, &state->buffer, 1); if (ok != 1) { break; @@ -331,17 +328,14 @@ ImagingJpegEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* if (jerr.pub.num_warnings) return BROKEN; */ state->errcode = IMAGING_CODEC_END; break; - } /* Return number of bytes in output buffer */ return context->destination.pub.next_output_byte - buf; - } -const char* -ImagingJpegVersion(void) -{ +const char * +ImagingJpegVersion(void) { static char version[20]; sprintf(version, "%d.%d", JPEG_LIB_VERSION / 10, JPEG_LIB_VERSION % 10); return version; diff --git a/src/libImaging/Matrix.c b/src/libImaging/Matrix.c index e02b7b3129e..137ed242a41 100644 --- a/src/libImaging/Matrix.c +++ b/src/libImaging/Matrix.c @@ -13,65 +13,60 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - -#define CLIPF(v) ((v <= 0.0) ? 0 : (v >= 255.0F) ? 255 : (UINT8) v) - +#define CLIPF(v) ((v <= 0.0) ? 0 : (v >= 255.0F) ? 255 : (UINT8)v) Imaging -ImagingConvertMatrix(Imaging im, const char *mode, float m[]) -{ +ImagingConvertMatrix(Imaging im, const char *mode, float m[]) { Imaging imOut; int x, y; /* Assume there's enough data in the buffer */ if (!im) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (strcmp(mode, "L") == 0 && im->bands == 3) { - imOut = ImagingNewDirty("L", im->xsize, im->ysize); if (!imOut) { return NULL; } for (y = 0; y < im->ysize; y++) { - UINT8* in = (UINT8*) im->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in = (UINT8 *)im->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < im->xsize; x++) { - float v = m[0]*in[0] + m[1]*in[1] + m[2]*in[2] + m[3] + 0.5; + float v = m[0] * in[0] + m[1] * in[1] + m[2] * in[2] + m[3] + 0.5; out[x] = CLIPF(v); in += 4; } } } else if (strlen(mode) == 3 && im->bands == 3) { - imOut = ImagingNewDirty(mode, im->xsize, im->ysize); if (!imOut) { return NULL; } for (y = 0; y < im->ysize; y++) { - UINT8* in = (UINT8*) im->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in = (UINT8 *)im->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < im->xsize; x++) { - float v0 = m[0]*in[0] + m[1]*in[1] + m[2]*in[2] + m[3] + 0.5; - float v1 = m[4]*in[0] + m[5]*in[1] + m[6]*in[2] + m[7] + 0.5; - float v2 = m[8]*in[0] + m[9]*in[1] + m[10]*in[2] + m[11] + 0.5; + float v0 = m[0] * in[0] + m[1] * in[1] + m[2] * in[2] + m[3] + 0.5; + float v1 = m[4] * in[0] + m[5] * in[1] + m[6] * in[2] + m[7] + 0.5; + float v2 = m[8] * in[0] + m[9] * in[1] + m[10] * in[2] + m[11] + 0.5; out[0] = CLIPF(v0); out[1] = CLIPF(v1); out[2] = CLIPF(v2); - in += 4; out += 4; + in += 4; + out += 4; } } } else { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } return imOut; diff --git a/src/libImaging/ModeFilter.c b/src/libImaging/ModeFilter.c index b1cf7442c82..757cbc3fb86 100644 --- a/src/libImaging/ModeFilter.c +++ b/src/libImaging/ModeFilter.c @@ -16,8 +16,7 @@ #include "Imaging.h" Imaging -ImagingModeFilter(Imaging im, int size) -{ +ImagingModeFilter(Imaging im, int size) { Imaging imOut; int x, y, i; int xx, yy; @@ -26,7 +25,7 @@ ImagingModeFilter(Imaging im, int size) int histogram[256]; if (!im || im->bands != 1 || im->type != IMAGING_TYPE_UINT8) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } imOut = ImagingNewDirty(im->mode, im->xsize, im->ysize); @@ -37,9 +36,8 @@ ImagingModeFilter(Imaging im, int size) size = size / 2; for (y = 0; y < imOut->ysize; y++) { - UINT8* out = &IMAGING_PIXEL_L(imOut, 0, y); + UINT8 *out = &IMAGING_PIXEL_L(imOut, 0, y); for (x = 0; x < imOut->xsize; x++) { - /* calculate histogram over current area */ /* FIXME: brute force! to improve, update the histogram @@ -50,7 +48,7 @@ ImagingModeFilter(Imaging im, int size) memset(histogram, 0, sizeof(histogram)); for (yy = y - size; yy <= y + size; yy++) { if (yy >= 0 && yy < imOut->ysize) { - UINT8* in = &IMAGING_PIXEL_L(im, 0, yy); + UINT8 *in = &IMAGING_PIXEL_L(im, 0, yy); for (xx = x - size; xx <= x + size; xx++) { if (xx >= 0 && xx < imOut->xsize) { histogram[in[xx]]++; @@ -65,7 +63,7 @@ ImagingModeFilter(Imaging im, int size) for (i = 1; i < 256; i++) { if (histogram[i] > maxcount) { maxcount = histogram[i]; - maxpixel = (UINT8) i; + maxpixel = (UINT8)i; } } @@ -74,9 +72,7 @@ ImagingModeFilter(Imaging im, int size) } else { out[x] = IMAGING_PIXEL_L(im, x, y); } - } - } ImagingCopyPalette(imOut, im); diff --git a/src/libImaging/Negative.c b/src/libImaging/Negative.c index 09c946bbef8..70b96c39772 100644 --- a/src/libImaging/Negative.c +++ b/src/libImaging/Negative.c @@ -16,18 +16,15 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - Imaging -ImagingNegative(Imaging im) -{ +ImagingNegative(Imaging im) { Imaging imOut; int x, y; if (!im) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } imOut = ImagingNewDirty(im->mode, im->xsize, im->ysize); @@ -43,4 +40,3 @@ ImagingNegative(Imaging im) return imOut; } - diff --git a/src/libImaging/Offset.c b/src/libImaging/Offset.c index 29f038153f6..91ee91083cc 100644 --- a/src/libImaging/Offset.c +++ b/src/libImaging/Offset.c @@ -14,18 +14,15 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - Imaging -ImagingOffset(Imaging im, int xoffset, int yoffset) -{ +ImagingOffset(Imaging im, int xoffset, int yoffset) { int x, y; Imaging imOut; if (!im) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } imOut = ImagingNewDirty(im->mode, im->xsize, im->ysize); @@ -48,13 +45,13 @@ ImagingOffset(Imaging im, int xoffset, int yoffset) yoffset += im->ysize; } -#define OFFSET(image)\ - for (y = 0; y < im->ysize; y++) {\ - for (x = 0; x < im->xsize; x++) {\ - int yi = (y + yoffset) % im->ysize;\ - int xi = (x + xoffset) % im->xsize;\ - imOut->image[y][x] = im->image[yi][xi];\ - }\ +#define OFFSET(image) \ + for (y = 0; y < im->ysize; y++) { \ + for (x = 0; x < im->xsize; x++) { \ + int yi = (y + yoffset) % im->ysize; \ + int xi = (x + xoffset) % im->xsize; \ + imOut->image[y][x] = im->image[yi][xi]; \ + } \ } if (im->image8) { diff --git a/src/libImaging/Pack.c b/src/libImaging/Pack.c index 0be7ad8c9eb..2fdee919f6c 100644 --- a/src/libImaging/Pack.c +++ b/src/libImaging/Pack.c @@ -1,4 +1,4 @@ - /* +/* * The Python Imaging Library. * $Id$ * @@ -25,7 +25,6 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #define R 0 @@ -41,20 +40,28 @@ /* byte swapping macros */ -#define C16N\ - (out[0]=tmp[0], out[1]=tmp[1]); -#define C16S\ - (out[1]=tmp[0], out[0]=tmp[1]); -#define C32N\ - (out[0]=tmp[0], out[1]=tmp[1], out[2]=tmp[2], out[3]=tmp[3]); -#define C32S\ - (out[3]=tmp[0], out[2]=tmp[1], out[1]=tmp[2], out[0]=tmp[3]); -#define C64N\ - (out[0]=tmp[0], out[1]=tmp[1], out[2]=tmp[2], out[3]=tmp[3],\ - out[4]=tmp[4], out[5]=tmp[5], out[6]=tmp[6], out[7]=tmp[7]); -#define C64S\ - (out[7]=tmp[0], out[6]=tmp[1], out[5]=tmp[2], out[4]=tmp[3],\ - out[3]=tmp[4], out[2]=tmp[5], out[1]=tmp[6], out[0]=tmp[7]); +#define C16N (out[0] = tmp[0], out[1] = tmp[1]); +#define C16S (out[1] = tmp[0], out[0] = tmp[1]); +#define C32N (out[0] = tmp[0], out[1] = tmp[1], out[2] = tmp[2], out[3] = tmp[3]); +#define C32S (out[3] = tmp[0], out[2] = tmp[1], out[1] = tmp[2], out[0] = tmp[3]); +#define C64N \ + (out[0] = tmp[0], \ + out[1] = tmp[1], \ + out[2] = tmp[2], \ + out[3] = tmp[3], \ + out[4] = tmp[4], \ + out[5] = tmp[5], \ + out[6] = tmp[6], \ + out[7] = tmp[7]); +#define C64S \ + (out[7] = tmp[0], \ + out[6] = tmp[1], \ + out[5] = tmp[2], \ + out[4] = tmp[3], \ + out[3] = tmp[4], \ + out[2] = tmp[5], \ + out[1] = tmp[6], \ + out[0] = tmp[7]); #ifdef WORDS_BIGENDIAN #define C16B C16N @@ -72,13 +79,12 @@ #define C64L C64N #endif - static void -pack1(UINT8* out, const UINT8* in, int pixels) -{ +pack1(UINT8 *out, const UINT8 *in, int pixels) { int i, m, b; /* bilevel (black is 0) */ - b = 0; m = 128; + b = 0; + m = 128; for (i = 0; i < pixels; i++) { if (in[i] != 0) { b |= m; @@ -86,7 +92,8 @@ pack1(UINT8* out, const UINT8* in, int pixels) m >>= 1; if (m == 0) { *out++ = b; - b = 0; m = 128; + b = 0; + m = 128; } } if (m != 128) { @@ -95,11 +102,11 @@ pack1(UINT8* out, const UINT8* in, int pixels) } static void -pack1I(UINT8* out, const UINT8* in, int pixels) -{ +pack1I(UINT8 *out, const UINT8 *in, int pixels) { int i, m, b; /* bilevel (black is 1) */ - b = 0; m = 128; + b = 0; + m = 128; for (i = 0; i < pixels; i++) { if (in[i] == 0) { b |= m; @@ -107,7 +114,8 @@ pack1I(UINT8* out, const UINT8* in, int pixels) m >>= 1; if (m == 0) { *out++ = b; - b = 0; m = 128; + b = 0; + m = 128; } } if (m != 128) { @@ -116,19 +124,20 @@ pack1I(UINT8* out, const UINT8* in, int pixels) } static void -pack1R(UINT8* out, const UINT8* in, int pixels) -{ +pack1R(UINT8 *out, const UINT8 *in, int pixels) { int i, m, b; /* bilevel, lsb first (black is 0) */ - b = 0; m = 1; + b = 0; + m = 1; for (i = 0; i < pixels; i++) { if (in[i] != 0) { b |= m; } m <<= 1; - if (m == 256){ + if (m == 256) { *out++ = b; - b = 0; m = 1; + b = 0; + m = 1; } } if (m != 1) { @@ -137,19 +146,20 @@ pack1R(UINT8* out, const UINT8* in, int pixels) } static void -pack1IR(UINT8* out, const UINT8* in, int pixels) -{ +pack1IR(UINT8 *out, const UINT8 *in, int pixels) { int i, m, b; /* bilevel, lsb first (black is 1) */ - b = 0; m = 1; + b = 0; + m = 1; for (i = 0; i < pixels; i++) { if (in[i] == 0) { b |= m; } m <<= 1; - if (m == 256){ + if (m == 256) { *out++ = b; - b = 0; m = 1; + b = 0; + m = 1; } } if (m != 1) { @@ -158,8 +168,7 @@ pack1IR(UINT8* out, const UINT8* in, int pixels) } static void -pack1L(UINT8* out, const UINT8* in, int pixels) -{ +pack1L(UINT8 *out, const UINT8 *in, int pixels) { int i; /* bilevel, stored as bytes */ for (i = 0; i < pixels; i++) { @@ -168,12 +177,11 @@ pack1L(UINT8* out, const UINT8* in, int pixels) } static void -packP4(UINT8* out, const UINT8* in, int pixels) -{ +packP4(UINT8 *out, const UINT8 *in, int pixels) { while (pixels >= 2) { - *out++ = (in[0] << 4) | - (in[1] & 15); - in += 2; pixels -= 2; + *out++ = (in[0] << 4) | (in[1] & 15); + in += 2; + pixels -= 2; } if (pixels) { @@ -182,34 +190,27 @@ packP4(UINT8* out, const UINT8* in, int pixels) } static void -packP2(UINT8* out, const UINT8* in, int pixels) -{ +packP2(UINT8 *out, const UINT8 *in, int pixels) { while (pixels >= 4) { - *out++ = (in[0] << 6) | - ((in[1] & 3) << 4) | - ((in[2] & 3) << 2) | - (in[3] & 3); - in += 4; pixels -= 4; + *out++ = (in[0] << 6) | ((in[1] & 3) << 4) | ((in[2] & 3) << 2) | (in[3] & 3); + in += 4; + pixels -= 4; } switch (pixels) { - case 3: - out[0] = (in[0] << 6) | - ((in[1] & 3) << 4) | - ((in[2] & 3) << 2); - break; - case 2: - out[0] = (in[0] << 6) | - ((in[1] & 3) << 4); - break; - case 1: - out[0] = (in[0] << 6); + case 3: + out[0] = (in[0] << 6) | ((in[1] & 3) << 4) | ((in[2] & 3) << 2); + break; + case 2: + out[0] = (in[0] << 6) | ((in[1] & 3) << 4); + break; + case 1: + out[0] = (in[0] << 6); } } static void -packL16(UINT8* out, const UINT8* in, int pixels) -{ +packL16(UINT8 *out, const UINT8 *in, int pixels) { int i; /* L -> L;16, e.g: \xff77 -> \x00\xff\x00\x77 */ for (i = 0; i < pixels; i++) { @@ -220,8 +221,7 @@ packL16(UINT8* out, const UINT8* in, int pixels) } static void -packL16B(UINT8* out, const UINT8* in, int pixels) -{ +packL16B(UINT8 *out, const UINT8 *in, int pixels) { int i; /* L -> L;16B, e.g: \xff77 -> \xff\x00\x77\x00 */ for (i = 0; i < pixels; i++) { @@ -231,34 +231,31 @@ packL16B(UINT8* out, const UINT8* in, int pixels) } } - static void -packLA(UINT8* out, const UINT8* in, int pixels) -{ +packLA(UINT8 *out, const UINT8 *in, int pixels) { int i; /* LA, pixel interleaved */ for (i = 0; i < pixels; i++) { out[0] = in[R]; out[1] = in[A]; - out += 2; in += 4; + out += 2; + in += 4; } } static void -packLAL(UINT8* out, const UINT8* in, int pixels) -{ +packLAL(UINT8 *out, const UINT8 *in, int pixels) { int i; /* LA, line interleaved */ for (i = 0; i < pixels; i++) { out[i] = in[R]; - out[i+pixels] = in[A]; + out[i + pixels] = in[A]; in += 4; } } void -ImagingPackRGB(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackRGB(UINT8 *out, const UINT8 *in, int pixels) { int i = 0; /* RGB triplets */ #ifdef __sparc @@ -267,25 +264,25 @@ ImagingPackRGB(UINT8* out, const UINT8* in, int pixels) out[0] = in[R]; out[1] = in[G]; out[2] = in[B]; - out += 3; in += 4; + out += 3; + in += 4; } #else - for (; i < pixels-1; i++) { + for (; i < pixels - 1; i++) { memcpy(out, in + i * 4, 4); out += 3; } for (; i < pixels; i++) { - out[0] = in[i*4+R]; - out[1] = in[i*4+G]; - out[2] = in[i*4+B]; + out[0] = in[i * 4 + R]; + out[1] = in[i * 4 + G]; + out[2] = in[i * 4 + B]; out += 3; } #endif } void -ImagingPackXRGB(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackXRGB(UINT8 *out, const UINT8 *in, int pixels) { int i; /* XRGB, triplets with left padding */ for (i = 0; i < pixels; i++) { @@ -293,26 +290,26 @@ ImagingPackXRGB(UINT8* out, const UINT8* in, int pixels) out[1] = in[R]; out[2] = in[G]; out[3] = in[B]; - out += 4; in += 4; + out += 4; + in += 4; } } void -ImagingPackBGR(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackBGR(UINT8 *out, const UINT8 *in, int pixels) { int i; /* RGB, reversed bytes */ for (i = 0; i < pixels; i++) { out[0] = in[B]; out[1] = in[G]; out[2] = in[R]; - out += 3; in += 4; + out += 3; + in += 4; } } void -ImagingPackBGRX(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackBGRX(UINT8 *out, const UINT8 *in, int pixels) { int i; /* BGRX, reversed bytes with right padding */ for (i = 0; i < pixels; i++) { @@ -320,13 +317,13 @@ ImagingPackBGRX(UINT8* out, const UINT8* in, int pixels) out[1] = in[G]; out[2] = in[R]; out[3] = 0; - out += 4; in += 4; + out += 4; + in += 4; } } void -ImagingPackXBGR(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackXBGR(UINT8 *out, const UINT8 *in, int pixels) { int i; /* XBGR, reversed bytes with left padding */ for (i = 0; i < pixels; i++) { @@ -334,13 +331,13 @@ ImagingPackXBGR(UINT8* out, const UINT8* in, int pixels) out[1] = in[B]; out[2] = in[G]; out[3] = in[R]; - out += 4; in += 4; + out += 4; + in += 4; } } void -ImagingPackBGRA(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackBGRA(UINT8 *out, const UINT8 *in, int pixels) { int i; /* BGRX, reversed bytes with right padding */ for (i = 0; i < pixels; i++) { @@ -348,13 +345,13 @@ ImagingPackBGRA(UINT8* out, const UINT8* in, int pixels) out[1] = in[G]; out[2] = in[R]; out[3] = in[A]; - out += 4; in += 4; + out += 4; + in += 4; } } void -ImagingPackABGR(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackABGR(UINT8 *out, const UINT8 *in, int pixels) { int i; /* XBGR, reversed bytes with left padding */ for (i = 0; i < pixels; i++) { @@ -362,13 +359,13 @@ ImagingPackABGR(UINT8* out, const UINT8* in, int pixels) out[1] = in[B]; out[2] = in[G]; out[3] = in[R]; - out += 4; in += 4; + out += 4; + in += 4; } } void -ImagingPackBGRa(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackBGRa(UINT8 *out, const UINT8 *in, int pixels) { int i; /* BGRa, reversed bytes with premultiplied alpha */ for (i = 0; i < pixels; i++) { @@ -377,43 +374,41 @@ ImagingPackBGRa(UINT8* out, const UINT8* in, int pixels) out[0] = MULDIV255(in[B], alpha, tmp); out[1] = MULDIV255(in[G], alpha, tmp); out[2] = MULDIV255(in[R], alpha, tmp); - out += 4; in += 4; + out += 4; + in += 4; } } static void -packRGBL(UINT8* out, const UINT8* in, int pixels) -{ +packRGBL(UINT8 *out, const UINT8 *in, int pixels) { int i; /* RGB, line interleaved */ for (i = 0; i < pixels; i++) { out[i] = in[R]; - out[i+pixels] = in[G]; - out[i+pixels+pixels] = in[B]; + out[i + pixels] = in[G]; + out[i + pixels + pixels] = in[B]; in += 4; } } static void -packRGBXL(UINT8* out, const UINT8* in, int pixels) -{ +packRGBXL(UINT8 *out, const UINT8 *in, int pixels) { int i; /* RGBX, line interleaved */ for (i = 0; i < pixels; i++) { out[i] = in[R]; - out[i+pixels] = in[G]; - out[i+pixels+pixels] = in[B]; - out[i+pixels+pixels+pixels] = in[X]; + out[i + pixels] = in[G]; + out[i + pixels + pixels] = in[B]; + out[i + pixels + pixels + pixels] = in[X]; in += 4; } } static void -packI16B(UINT8* out, const UINT8* in_, int pixels) -{ +packI16B(UINT8 *out, const UINT8 *in_, int pixels) { int i; UINT16 tmp_; - UINT8* tmp = (UINT8*) &tmp_; + UINT8 *tmp = (UINT8 *)&tmp_; for (i = 0; i < pixels; i++) { INT32 in; memcpy(&in, in_, sizeof(in)); @@ -425,96 +420,91 @@ packI16B(UINT8* out, const UINT8* in_, int pixels) tmp_ = in; } C16B; - out += 2; in_ += sizeof(in); + out += 2; + in_ += sizeof(in); } } static void -packI16N_I16B(UINT8* out, const UINT8* in, int pixels){ +packI16N_I16B(UINT8 *out, const UINT8 *in, int pixels) { int i; - UINT8* tmp = (UINT8*) in; + UINT8 *tmp = (UINT8 *)in; for (i = 0; i < pixels; i++) { C16B; - out += 2; tmp += 2; + out += 2; + tmp += 2; } - } static void -packI16N_I16(UINT8* out, const UINT8* in, int pixels){ +packI16N_I16(UINT8 *out, const UINT8 *in, int pixels) { int i; - UINT8* tmp = (UINT8*) in; + UINT8 *tmp = (UINT8 *)in; for (i = 0; i < pixels; i++) { C16L; - out += 2; tmp += 2; + out += 2; + tmp += 2; } } - static void -packI32S(UINT8* out, const UINT8* in, int pixels) -{ +packI32S(UINT8 *out, const UINT8 *in, int pixels) { int i; - UINT8* tmp = (UINT8*) in; + UINT8 *tmp = (UINT8 *)in; for (i = 0; i < pixels; i++) { C32L; - out += 4; tmp += 4; + out += 4; + tmp += 4; } } void -ImagingPackLAB(UINT8* out, const UINT8* in, int pixels) -{ +ImagingPackLAB(UINT8 *out, const UINT8 *in, int pixels) { int i; /* LAB triplets */ for (i = 0; i < pixels; i++) { out[0] = in[0]; out[1] = in[1] ^ 128; /* signed in outside world */ out[2] = in[2] ^ 128; - out += 3; in += 4; + out += 3; + in += 4; } } static void -copy1(UINT8* out, const UINT8* in, int pixels) -{ +copy1(UINT8 *out, const UINT8 *in, int pixels) { /* L, P */ memcpy(out, in, pixels); } static void -copy2(UINT8* out, const UINT8* in, int pixels) -{ +copy2(UINT8 *out, const UINT8 *in, int pixels) { /* I;16, etc */ - memcpy(out, in, pixels*2); + memcpy(out, in, pixels * 2); } static void -copy3(UINT8* out, const UINT8* in, int pixels) -{ +copy3(UINT8 *out, const UINT8 *in, int pixels) { /* BGR;24, etc */ - memcpy(out, in, pixels*3); + memcpy(out, in, pixels * 3); } static void -copy4(UINT8* out, const UINT8* in, int pixels) -{ +copy4(UINT8 *out, const UINT8 *in, int pixels) { /* RGBA, CMYK quadruples */ - memcpy(out, in, 4*pixels); + memcpy(out, in, 4 * pixels); } static void -copy4I(UINT8* out, const UINT8* in, int pixels) -{ +copy4I(UINT8 *out, const UINT8 *in, int pixels) { /* RGBA, CMYK quadruples, inverted */ int i; - for (i = 0; i < pixels*4; i++) { + for (i = 0; i < pixels * 4; i++) { out[i] = ~in[i]; } } static void -band0(UINT8* out, const UINT8* in, int pixels) -{ +band0(UINT8 *out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++, in += 4) { out[i] = in[0]; @@ -522,8 +512,7 @@ band0(UINT8* out, const UINT8* in, int pixels) } static void -band1(UINT8* out, const UINT8* in, int pixels) -{ +band1(UINT8 *out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++, in += 4) { out[i] = in[1]; @@ -531,8 +520,7 @@ band1(UINT8* out, const UINT8* in, int pixels) } static void -band2(UINT8* out, const UINT8* in, int pixels) -{ +band2(UINT8 *out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++, in += 4) { out[i] = in[2]; @@ -540,8 +528,7 @@ band2(UINT8* out, const UINT8* in, int pixels) } static void -band3(UINT8* out, const UINT8* in, int pixels) -{ +band3(UINT8 *out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++, in += 4) { out[i] = in[3]; @@ -549,143 +536,141 @@ band3(UINT8* out, const UINT8* in, int pixels) } static struct { - const char* mode; - const char* rawmode; + const char *mode; + const char *rawmode; int bits; ImagingShuffler pack; } packers[] = { /* bilevel */ - {"1", "1", 1, pack1}, - {"1", "1;I", 1, pack1I}, - {"1", "1;R", 1, pack1R}, - {"1", "1;IR", 1, pack1IR}, - {"1", "L", 8, pack1L}, + {"1", "1", 1, pack1}, + {"1", "1;I", 1, pack1I}, + {"1", "1;R", 1, pack1R}, + {"1", "1;IR", 1, pack1IR}, + {"1", "L", 8, pack1L}, /* greyscale */ - {"L", "L", 8, copy1}, - {"L", "L;16", 16, packL16}, - {"L", "L;16B", 16, packL16B}, + {"L", "L", 8, copy1}, + {"L", "L;16", 16, packL16}, + {"L", "L;16B", 16, packL16B}, /* greyscale w. alpha */ - {"LA", "LA", 16, packLA}, - {"LA", "LA;L", 16, packLAL}, + {"LA", "LA", 16, packLA}, + {"LA", "LA;L", 16, packLAL}, /* greyscale w. alpha premultiplied */ - {"La", "La", 16, packLA}, + {"La", "La", 16, packLA}, /* palette */ - {"P", "P;1", 1, pack1}, - {"P", "P;2", 2, packP2}, - {"P", "P;4", 4, packP4}, - {"P", "P", 8, copy1}, + {"P", "P;1", 1, pack1}, + {"P", "P;2", 2, packP2}, + {"P", "P;4", 4, packP4}, + {"P", "P", 8, copy1}, /* palette w. alpha */ - {"PA", "PA", 16, packLA}, - {"PA", "PA;L", 16, packLAL}, + {"PA", "PA", 16, packLA}, + {"PA", "PA;L", 16, packLAL}, /* true colour */ - {"RGB", "RGB", 24, ImagingPackRGB}, - {"RGB", "RGBX", 32, copy4}, - {"RGB", "XRGB", 32, ImagingPackXRGB}, - {"RGB", "BGR", 24, ImagingPackBGR}, - {"RGB", "BGRX", 32, ImagingPackBGRX}, - {"RGB", "XBGR", 32, ImagingPackXBGR}, - {"RGB", "RGB;L", 24, packRGBL}, - {"RGB", "R", 8, band0}, - {"RGB", "G", 8, band1}, - {"RGB", "B", 8, band2}, + {"RGB", "RGB", 24, ImagingPackRGB}, + {"RGB", "RGBX", 32, copy4}, + {"RGB", "XRGB", 32, ImagingPackXRGB}, + {"RGB", "BGR", 24, ImagingPackBGR}, + {"RGB", "BGRX", 32, ImagingPackBGRX}, + {"RGB", "XBGR", 32, ImagingPackXBGR}, + {"RGB", "RGB;L", 24, packRGBL}, + {"RGB", "R", 8, band0}, + {"RGB", "G", 8, band1}, + {"RGB", "B", 8, band2}, /* true colour w. alpha */ - {"RGBA", "RGBA", 32, copy4}, - {"RGBA", "RGBA;L", 32, packRGBXL}, - {"RGBA", "RGB", 24, ImagingPackRGB}, - {"RGBA", "BGR", 24, ImagingPackBGR}, - {"RGBA", "BGRA", 32, ImagingPackBGRA}, - {"RGBA", "ABGR", 32, ImagingPackABGR}, - {"RGBA", "BGRa", 32, ImagingPackBGRa}, - {"RGBA", "R", 8, band0}, - {"RGBA", "G", 8, band1}, - {"RGBA", "B", 8, band2}, - {"RGBA", "A", 8, band3}, + {"RGBA", "RGBA", 32, copy4}, + {"RGBA", "RGBA;L", 32, packRGBXL}, + {"RGBA", "RGB", 24, ImagingPackRGB}, + {"RGBA", "BGR", 24, ImagingPackBGR}, + {"RGBA", "BGRA", 32, ImagingPackBGRA}, + {"RGBA", "ABGR", 32, ImagingPackABGR}, + {"RGBA", "BGRa", 32, ImagingPackBGRa}, + {"RGBA", "R", 8, band0}, + {"RGBA", "G", 8, band1}, + {"RGBA", "B", 8, band2}, + {"RGBA", "A", 8, band3}, /* true colour w. alpha premultiplied */ - {"RGBa", "RGBa", 32, copy4}, - {"RGBa", "BGRa", 32, ImagingPackBGRA}, - {"RGBa", "aBGR", 32, ImagingPackABGR}, + {"RGBa", "RGBa", 32, copy4}, + {"RGBa", "BGRa", 32, ImagingPackBGRA}, + {"RGBa", "aBGR", 32, ImagingPackABGR}, /* true colour w. padding */ - {"RGBX", "RGBX", 32, copy4}, - {"RGBX", "RGBX;L", 32, packRGBXL}, - {"RGBX", "RGB", 24, ImagingPackRGB}, - {"RGBX", "BGR", 24, ImagingPackBGR}, - {"RGBX", "BGRX", 32, ImagingPackBGRX}, - {"RGBX", "XBGR", 32, ImagingPackXBGR}, - {"RGBX", "R", 8, band0}, - {"RGBX", "G", 8, band1}, - {"RGBX", "B", 8, band2}, - {"RGBX", "X", 8, band3}, + {"RGBX", "RGBX", 32, copy4}, + {"RGBX", "RGBX;L", 32, packRGBXL}, + {"RGBX", "RGB", 24, ImagingPackRGB}, + {"RGBX", "BGR", 24, ImagingPackBGR}, + {"RGBX", "BGRX", 32, ImagingPackBGRX}, + {"RGBX", "XBGR", 32, ImagingPackXBGR}, + {"RGBX", "R", 8, band0}, + {"RGBX", "G", 8, band1}, + {"RGBX", "B", 8, band2}, + {"RGBX", "X", 8, band3}, /* colour separation */ - {"CMYK", "CMYK", 32, copy4}, - {"CMYK", "CMYK;I", 32, copy4I}, - {"CMYK", "CMYK;L", 32, packRGBXL}, - {"CMYK", "C", 8, band0}, - {"CMYK", "M", 8, band1}, - {"CMYK", "Y", 8, band2}, - {"CMYK", "K", 8, band3}, + {"CMYK", "CMYK", 32, copy4}, + {"CMYK", "CMYK;I", 32, copy4I}, + {"CMYK", "CMYK;L", 32, packRGBXL}, + {"CMYK", "C", 8, band0}, + {"CMYK", "M", 8, band1}, + {"CMYK", "Y", 8, band2}, + {"CMYK", "K", 8, band3}, /* video (YCbCr) */ - {"YCbCr", "YCbCr", 24, ImagingPackRGB}, - {"YCbCr", "YCbCr;L", 24, packRGBL}, - {"YCbCr", "YCbCrX", 32, copy4}, - {"YCbCr", "YCbCrK", 32, copy4}, - {"YCbCr", "Y", 8, band0}, - {"YCbCr", "Cb", 8, band1}, - {"YCbCr", "Cr", 8, band2}, + {"YCbCr", "YCbCr", 24, ImagingPackRGB}, + {"YCbCr", "YCbCr;L", 24, packRGBL}, + {"YCbCr", "YCbCrX", 32, copy4}, + {"YCbCr", "YCbCrK", 32, copy4}, + {"YCbCr", "Y", 8, band0}, + {"YCbCr", "Cb", 8, band1}, + {"YCbCr", "Cr", 8, band2}, /* LAB Color */ - {"LAB", "LAB", 24, ImagingPackLAB}, - {"LAB", "L", 8, band0}, - {"LAB", "A", 8, band1}, - {"LAB", "B", 8, band2}, + {"LAB", "LAB", 24, ImagingPackLAB}, + {"LAB", "L", 8, band0}, + {"LAB", "A", 8, band1}, + {"LAB", "B", 8, band2}, /* HSV */ - {"HSV", "HSV", 24, ImagingPackRGB}, - {"HSV", "H", 8, band0}, - {"HSV", "S", 8, band1}, - {"HSV", "V", 8, band2}, + {"HSV", "HSV", 24, ImagingPackRGB}, + {"HSV", "H", 8, band0}, + {"HSV", "S", 8, band1}, + {"HSV", "V", 8, band2}, /* integer */ - {"I", "I", 32, copy4}, - {"I", "I;16B", 16, packI16B}, - {"I", "I;32S", 32, packI32S}, - {"I", "I;32NS", 32, copy4}, + {"I", "I", 32, copy4}, + {"I", "I;16B", 16, packI16B}, + {"I", "I;32S", 32, packI32S}, + {"I", "I;32NS", 32, copy4}, /* floating point */ - {"F", "F", 32, copy4}, - {"F", "F;32F", 32, packI32S}, - {"F", "F;32NF", 32, copy4}, + {"F", "F", 32, copy4}, + {"F", "F;32F", 32, packI32S}, + {"F", "F;32NF", 32, copy4}, /* storage modes */ - {"I;16", "I;16", 16, copy2}, - {"I;16", "I;16B", 16, packI16N_I16B}, - {"I;16B", "I;16B", 16, copy2}, - {"I;16L", "I;16L", 16, copy2}, - {"I;16", "I;16N", 16, packI16N_I16}, // LibTiff native->image endian. - {"I;16L", "I;16N", 16, packI16N_I16}, - {"I;16B", "I;16N", 16, packI16N_I16B}, - {"BGR;15", "BGR;15", 16, copy2}, - {"BGR;16", "BGR;16", 16, copy2}, - {"BGR;24", "BGR;24", 24, copy3}, + {"I;16", "I;16", 16, copy2}, + {"I;16", "I;16B", 16, packI16N_I16B}, + {"I;16B", "I;16B", 16, copy2}, + {"I;16L", "I;16L", 16, copy2}, + {"I;16", "I;16N", 16, packI16N_I16}, // LibTiff native->image endian. + {"I;16L", "I;16N", 16, packI16N_I16}, + {"I;16B", "I;16N", 16, packI16N_I16B}, + {"BGR;15", "BGR;15", 16, copy2}, + {"BGR;16", "BGR;16", 16, copy2}, + {"BGR;24", "BGR;24", 24, copy3}, {NULL} /* sentinel */ }; - ImagingShuffler -ImagingFindPacker(const char* mode, const char* rawmode, int* bits_out) -{ +ImagingFindPacker(const char *mode, const char *rawmode, int *bits_out) { int i; /* find a suitable pixel packer */ diff --git a/src/libImaging/PackDecode.c b/src/libImaging/PackDecode.c index 34671828aef..7dd432b91c2 100644 --- a/src/libImaging/PackDecode.c +++ b/src/libImaging/PackDecode.c @@ -13,30 +13,27 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" int -ImagingPackbitsDecode(Imaging im, ImagingCodecState state, - UINT8* buf, Py_ssize_t bytes) -{ +ImagingPackbitsDecode( + Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { UINT8 n; - UINT8* ptr; + UINT8 *ptr; int i; ptr = buf; for (;;) { - if (bytes < 1) { return ptr - buf; } if (ptr[0] & 0x80) { - if (ptr[0] == 0x80) { /* Nop */ - ptr++; bytes--; + ptr++; + bytes--; continue; } @@ -53,12 +50,12 @@ ImagingPackbitsDecode(Imaging im, ImagingCodecState state, state->buffer[state->x++] = ptr[1]; } - ptr += 2; bytes -= 2; + ptr += 2; + bytes -= 2; } else { - /* Literal */ - n = ptr[0]+2; + n = ptr[0] + 2; if (bytes < n) { return ptr - buf; @@ -72,16 +69,17 @@ ImagingPackbitsDecode(Imaging im, ImagingCodecState state, state->buffer[state->x++] = ptr[i]; } - ptr += n; bytes -= n; - + ptr += n; + bytes -= n; } if (state->x >= state->bytes) { - /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->buffer, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer, + state->xsize); state->x = 0; @@ -90,6 +88,5 @@ ImagingPackbitsDecode(Imaging im, ImagingCodecState state, return -1; } } - } } diff --git a/src/libImaging/Palette.c b/src/libImaging/Palette.c index ac548f50c76..43bea61e327 100644 --- a/src/libImaging/Palette.c +++ b/src/libImaging/Palette.c @@ -16,46 +16,41 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include - ImagingPalette -ImagingPaletteNew(const char* mode) -{ +ImagingPaletteNew(const char *mode) { /* Create a palette object */ int i; ImagingPalette palette; if (strcmp(mode, "RGB") && strcmp(mode, "RGBA")) { - return (ImagingPalette) ImagingError_ModeError(); + return (ImagingPalette)ImagingError_ModeError(); } palette = calloc(1, sizeof(struct ImagingPaletteInstance)); if (!palette) { - return (ImagingPalette) ImagingError_MemoryError(); + return (ImagingPalette)ImagingError_MemoryError(); } - strncpy(palette->mode, mode, IMAGING_MODE_LENGTH-1); - palette->mode[IMAGING_MODE_LENGTH-1] = 0; + strncpy(palette->mode, mode, IMAGING_MODE_LENGTH - 1); + palette->mode[IMAGING_MODE_LENGTH - 1] = 0; /* Initialize to ramp */ for (i = 0; i < 256; i++) { - palette->palette[i*4+0] = - palette->palette[i*4+1] = - palette->palette[i*4+2] = (UINT8) i; - palette->palette[i*4+3] = 255; /* opaque */ + palette->palette[i * 4 + 0] = palette->palette[i * 4 + 1] = + palette->palette[i * 4 + 2] = (UINT8)i; + palette->palette[i * 4 + 3] = 255; /* opaque */ } return palette; } ImagingPalette -ImagingPaletteNewBrowser(void) -{ +ImagingPaletteNewBrowser(void) { /* Create a standard "browser" palette object */ int i, r, g, b; @@ -70,9 +65,8 @@ ImagingPaletteNewBrowser(void) /* FIXME: Add 10-level windows palette here? */ for (i = 0; i < 10; i++) { - palette->palette[i*4+0] = - palette->palette[i*4+1] = - palette->palette[i*4+2] = 0; + palette->palette[i * 4 + 0] = palette->palette[i * 4 + 1] = + palette->palette[i * 4 + 2] = 0; } /* Simple 6x6x6 colour cube */ @@ -80,9 +74,9 @@ ImagingPaletteNewBrowser(void) for (b = 0; b < 256; b += 51) { for (g = 0; g < 256; g += 51) { for (r = 0; r < 256; r += 51) { - palette->palette[i*4+0] = r; - palette->palette[i*4+1] = g; - palette->palette[i*4+2] = b; + palette->palette[i * 4 + 0] = r; + palette->palette[i * 4 + 1] = g; + palette->palette[i * 4 + 2] = b; i++; } } @@ -92,17 +86,15 @@ ImagingPaletteNewBrowser(void) /* FIXME: add 30-level greyscale wedge here? */ for (; i < 256; i++) { - palette->palette[i*4+0] = - palette->palette[i*4+1] = - palette->palette[i*4+2] = 0; + palette->palette[i * 4 + 0] = palette->palette[i * 4 + 1] = + palette->palette[i * 4 + 2] = 0; } return palette; } ImagingPalette -ImagingPaletteDuplicate(ImagingPalette palette) -{ +ImagingPaletteDuplicate(ImagingPalette palette) { /* Duplicate palette descriptor */ ImagingPalette new_palette; @@ -113,7 +105,7 @@ ImagingPaletteDuplicate(ImagingPalette palette) /* malloc check ok, small constant allocation */ new_palette = malloc(sizeof(struct ImagingPaletteInstance)); if (!new_palette) { - return (ImagingPalette) ImagingError_MemoryError(); + return (ImagingPalette)ImagingError_MemoryError(); } memcpy(new_palette, palette, sizeof(struct ImagingPaletteInstance)); @@ -125,8 +117,7 @@ ImagingPaletteDuplicate(ImagingPalette palette) } void -ImagingPaletteDelete(ImagingPalette palette) -{ +ImagingPaletteDelete(ImagingPalette palette) { /* Destroy palette object */ if (palette) { @@ -137,7 +128,6 @@ ImagingPaletteDelete(ImagingPalette palette) } } - /* -------------------------------------------------------------------- */ /* Colour mapping */ /* -------------------------------------------------------------------- */ @@ -155,27 +145,26 @@ ImagingPaletteDelete(ImagingPalette palette) #define DIST(a, b, s) (a - b) * (a - b) * s /* Colour weights (no scaling, for now) */ -#define RSCALE 1 -#define GSCALE 1 -#define BSCALE 1 +#define RSCALE 1 +#define GSCALE 1 +#define BSCALE 1 /* Calculated scaled distances */ -#define RDIST(a, b) DIST(a, b, RSCALE*RSCALE) -#define GDIST(a, b) DIST(a, b, GSCALE*GSCALE) -#define BDIST(a, b) DIST(a, b, BSCALE*BSCALE) +#define RDIST(a, b) DIST(a, b, RSCALE *RSCALE) +#define GDIST(a, b) DIST(a, b, GSCALE *GSCALE) +#define BDIST(a, b) DIST(a, b, BSCALE *BSCALE) /* Incremental steps */ -#define RSTEP (4 * RSCALE) -#define GSTEP (4 * GSCALE) -#define BSTEP (4 * BSCALE) +#define RSTEP (4 * RSCALE) +#define GSTEP (4 * GSCALE) +#define BSTEP (4 * BSCALE) -#define BOX 8 +#define BOX 8 -#define BOXVOLUME BOX*BOX*BOX +#define BOXVOLUME BOX *BOX *BOX void -ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) -{ +ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) { int i, j; unsigned int dmin[256], dmax; int r0, g0, b0; @@ -187,32 +176,37 @@ ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) /* Get box boundaries for the given (r,g,b)-triplet. Each box covers eight cache slots (32 colour values, that is). */ - r0 = r & 0xe0; r1 = r0 + 0x1f; rc = (r0 + r1) / 2; - g0 = g & 0xe0; g1 = g0 + 0x1f; gc = (g0 + g1) / 2; - b0 = b & 0xe0; b1 = b0 + 0x1f; bc = (b0 + b1) / 2; + r0 = r & 0xe0; + r1 = r0 + 0x1f; + rc = (r0 + r1) / 2; + g0 = g & 0xe0; + g1 = g0 + 0x1f; + gc = (g0 + g1) / 2; + b0 = b & 0xe0; + b1 = b0 + 0x1f; + bc = (b0 + b1) / 2; /* Step 1 -- Select relevant palette entries (after Heckbert) */ /* For each palette entry, calculate the min and max distances to * any position in the box given by the colour we're looking for. */ - dmax = (unsigned int) ~0; + dmax = (unsigned int)~0; for (i = 0; i < 256; i++) { - int r, g, b; unsigned int tmin, tmax; /* Find min and max distances to any point in the box */ - r = palette->palette[i*4+0]; + r = palette->palette[i * 4 + 0]; tmin = (r < r0) ? RDIST(r, r1) : (r > r1) ? RDIST(r, r0) : 0; tmax = (r <= rc) ? RDIST(r, r1) : RDIST(r, r0); - g = palette->palette[i*4+1]; + g = palette->palette[i * 4 + 1]; tmin += (g < g0) ? GDIST(g, g1) : (g > g1) ? GDIST(g, g0) : 0; tmax += (g <= gc) ? GDIST(g, g1) : GDIST(g, g0); - b = palette->palette[i*4+2]; + b = palette->palette[i * 4 + 2]; tmin += (b < b0) ? BDIST(b, b1) : (b > b1) ? BDIST(b, b0) : 0; tmax += (b <= bc) ? BDIST(b, b1) : BDIST(b, b0); @@ -220,7 +214,6 @@ ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) if (tmax < dmax) { dmax = tmax; /* keep the smallest max distance only */ } - } /* Step 2 -- Incrementally update cache slot (after Thomas) */ @@ -230,22 +223,20 @@ ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) * distance is less than or equal the smallest max distance */ for (i = 0; i < BOXVOLUME; i++) { - d[i] = (unsigned int) ~0; + d[i] = (unsigned int)~0; } for (i = 0; i < 256; i++) { - if (dmin[i] <= dmax) { - int rd, gd, bd; int ri, gi, bi; int rx, gx, bx; - ri = (r0 - palette->palette[i*4+0]) * RSCALE; - gi = (g0 - palette->palette[i*4+1]) * GSCALE; - bi = (b0 - palette->palette[i*4+2]) * BSCALE; + ri = (r0 - palette->palette[i * 4 + 0]) * RSCALE; + gi = (g0 - palette->palette[i * 4 + 1]) * GSCALE; + bi = (b0 - palette->palette[i * 4 + 2]) * BSCALE; - rd = ri*ri + gi*gi + bi*bi; + rd = ri * ri + gi * gi + bi * bi; ri = ri * (2 * RSTEP) + RSTEP * RSTEP; gi = gi * (2 * GSTEP) + GSTEP * GSTEP; @@ -253,13 +244,15 @@ ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) rx = ri; for (r = j = 0; r < BOX; r++) { - gd = rd; gx = gi; + gd = rd; + gx = gi; for (g = 0; g < BOX; g++) { - bd = gd; bx = bi; + bd = gd; + bx = bi; for (b = 0; b < BOX; b++) { - if ((unsigned int) bd < d[j]) { + if ((unsigned int)bd < d[j]) { d[j] = bd; - c[j] = (UINT8) i; + c[j] = (UINT8)i; } bd += bx; bx += 2 * BSTEP * BSTEP; @@ -280,33 +273,30 @@ ImagingPaletteCacheUpdate(ImagingPalette palette, int r, int g, int b) * cache slot in the box. Update the cache. */ j = 0; - for (r = r0; r < r1; r+=4) { - for (g = g0; g < g1; g+=4) { - for (b = b0; b < b1; b+=4) { + for (r = r0; r < r1; r += 4) { + for (g = g0; g < g1; g += 4) { + for (b = b0; b < b1; b += 4) { ImagingPaletteCache(palette, r, g, b) = c[j++]; } } } } - int -ImagingPaletteCachePrepare(ImagingPalette palette) -{ +ImagingPaletteCachePrepare(ImagingPalette palette) { /* Add a colour cache to a palette */ int i; - int entries = 64*64*64; + int entries = 64 * 64 * 64; if (palette->cache == NULL) { - /* The cache is 512k. It might be a good idea to break it up into a pointer array (e.g. an 8-bit image?) */ /* malloc check ok, small constant allocation */ - palette->cache = (INT16*) malloc(entries * sizeof(INT16)); + palette->cache = (INT16 *)malloc(entries * sizeof(INT16)); if (!palette->cache) { - (void) ImagingError_MemoryError(); + (void)ImagingError_MemoryError(); return -1; } @@ -314,16 +304,13 @@ ImagingPaletteCachePrepare(ImagingPalette palette) for (i = 0; i < entries; i++) { palette->cache[i] = 0x100; } - } return 0; } - void -ImagingPaletteCacheDelete(ImagingPalette palette) -{ +ImagingPaletteCacheDelete(ImagingPalette palette) { /* Release the colour cache, if any */ if (palette && palette->cache) { diff --git a/src/libImaging/Paste.c b/src/libImaging/Paste.c index b8953442374..03b17f571fb 100644 --- a/src/libImaging/Paste.c +++ b/src/libImaging/Paste.c @@ -23,11 +23,17 @@ #include "Imaging.h" - static inline void -paste(Imaging imOut, Imaging imIn, int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +paste( + Imaging imOut, + Imaging imIn, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* paste opaque region */ int y; @@ -38,25 +44,31 @@ paste(Imaging imOut, Imaging imIn, int dx, int dy, int sx, int sy, xsize *= pixelsize; for (y = 0; y < ysize; y++) { - memcpy(imOut->image[y+dy]+dx, imIn->image[y+sy]+sx, xsize); + memcpy(imOut->image[y + dy] + dx, imIn->image[y + sy] + sx, xsize); } } static inline void -paste_mask_1(Imaging imOut, Imaging imIn, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +paste_mask_1( + Imaging imOut, + Imaging imIn, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* paste with mode "1" mask */ int x, y; if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* in = imIn->image8[y+sy]+sx; - UINT8* mask = imMask->image8[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *in = imIn->image8[y + sy] + sx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { if (*mask++) { *out = *in; @@ -66,11 +78,10 @@ paste_mask_1(Imaging imOut, Imaging imIn, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - INT32* out = imOut->image32[y+dy]+dx; - INT32* in = imIn->image32[y+sy]+sx; - UINT8* mask = imMask->image8[y+sy]+sx; + INT32 *out = imOut->image32[y + dy] + dx; + INT32 *in = imIn->image32[y + sy] + sx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { if (*mask++) { *out = *in; @@ -82,21 +93,27 @@ paste_mask_1(Imaging imOut, Imaging imIn, Imaging imMask, } static inline void -paste_mask_L(Imaging imOut, Imaging imIn, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +paste_mask_L( + Imaging imOut, + Imaging imIn, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* paste with mode "L" matte */ int x, y; unsigned int tmp1; if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* in = imIn->image8[y+sy]+sx; - UINT8* mask = imMask->image8[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *in = imIn->image8[y + sy] + sx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { *out = BLEND(*mask, *out, *in, tmp1); out++, in++, mask++; @@ -104,39 +121,46 @@ paste_mask_L(Imaging imOut, Imaging imIn, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) (imOut->image32[y + dy] + dx); - UINT8* in = (UINT8*) (imIn->image32[y + sy] + sx); - UINT8* mask = (UINT8*) (imMask->image8[y+sy] + sx); + UINT8 *out = (UINT8 *)(imOut->image32[y + dy] + dx); + UINT8 *in = (UINT8 *)(imIn->image32[y + sy] + sx); + UINT8 *mask = (UINT8 *)(imMask->image8[y + sy] + sx); for (x = 0; x < xsize; x++) { UINT8 a = mask[0]; out[0] = BLEND(a, out[0], in[0], tmp1); out[1] = BLEND(a, out[1], in[1], tmp1); out[2] = BLEND(a, out[2], in[2], tmp1); out[3] = BLEND(a, out[3], in[3], tmp1); - out += 4; in += 4; mask ++; + out += 4; + in += 4; + mask++; } } } } static inline void -paste_mask_RGBA(Imaging imOut, Imaging imIn, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +paste_mask_RGBA( + Imaging imOut, + Imaging imIn, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* paste with mode "RGBA" matte */ int x, y; unsigned int tmp1; if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* in = imIn->image8[y+sy]+sx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx*4+3; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *in = imIn->image8[y + sy] + sx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx * 4 + 3; for (x = 0; x < xsize; x++) { *out = BLEND(*mask, *out, *in, tmp1); out++, in++, mask += 4; @@ -144,40 +168,46 @@ paste_mask_RGBA(Imaging imOut, Imaging imIn, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) (imOut->image32[y + dy] + dx); - UINT8* in = (UINT8*) (imIn->image32[y + sy] + sx); - UINT8* mask = (UINT8*) (imMask->image32[y+sy] + sx); + UINT8 *out = (UINT8 *)(imOut->image32[y + dy] + dx); + UINT8 *in = (UINT8 *)(imIn->image32[y + sy] + sx); + UINT8 *mask = (UINT8 *)(imMask->image32[y + sy] + sx); for (x = 0; x < xsize; x++) { UINT8 a = mask[3]; out[0] = BLEND(a, out[0], in[0], tmp1); out[1] = BLEND(a, out[1], in[1], tmp1); out[2] = BLEND(a, out[2], in[2], tmp1); out[3] = BLEND(a, out[3], in[3], tmp1); - out += 4; in += 4; mask += 4; + out += 4; + in += 4; + mask += 4; } } } } - static inline void -paste_mask_RGBa(Imaging imOut, Imaging imIn, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +paste_mask_RGBa( + Imaging imOut, + Imaging imIn, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* paste with mode "RGBa" matte */ int x, y; unsigned int tmp1; if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* in = imIn->image8[y+sy]+sx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx*4+3; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *in = imIn->image8[y + sy] + sx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx * 4 + 3; for (x = 0; x < xsize; x++) { *out = PREBLEND(*mask, *out, *in, tmp1); out++, in++, mask += 4; @@ -185,34 +215,34 @@ paste_mask_RGBa(Imaging imOut, Imaging imIn, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) (imOut->image32[y + dy] + dx); - UINT8* in = (UINT8*) (imIn->image32[y + sy] + sx); - UINT8* mask = (UINT8*) (imMask->image32[y+sy] + sx); + UINT8 *out = (UINT8 *)(imOut->image32[y + dy] + dx); + UINT8 *in = (UINT8 *)(imIn->image32[y + sy] + sx); + UINT8 *mask = (UINT8 *)(imMask->image32[y + sy] + sx); for (x = 0; x < xsize; x++) { UINT8 a = mask[3]; out[0] = PREBLEND(a, out[0], in[0], tmp1); out[1] = PREBLEND(a, out[1], in[1], tmp1); out[2] = PREBLEND(a, out[2], in[2], tmp1); out[3] = PREBLEND(a, out[3], in[3], tmp1); - out += 4; in += 4; mask += 4; + out += 4; + in += 4; + mask += 4; } } } } int -ImagingPaste(Imaging imOut, Imaging imIn, Imaging imMask, - int dx0, int dy0, int dx1, int dy1) -{ +ImagingPaste( + Imaging imOut, Imaging imIn, Imaging imMask, int dx0, int dy0, int dx1, int dy1) { int xsize, ysize; int pixelsize; int sx0, sy0; ImagingSectionCookie cookie; if (!imOut || !imIn) { - (void) ImagingError_ModeError(); + (void)ImagingError_ModeError(); return -1; } @@ -221,14 +251,13 @@ ImagingPaste(Imaging imOut, Imaging imIn, Imaging imMask, xsize = dx1 - dx0; ysize = dy1 - dy0; - if (xsize != imIn->xsize || ysize != imIn->ysize || - pixelsize != imIn->pixelsize) { - (void) ImagingError_Mismatch(); + if (xsize != imIn->xsize || ysize != imIn->ysize || pixelsize != imIn->pixelsize) { + (void)ImagingError_Mismatch(); return -1; } if (imMask && (xsize != imMask->xsize || ysize != imMask->ysize)) { - (void) ImagingError_Mismatch(); + (void)ImagingError_Mismatch(); return -1; } @@ -258,30 +287,28 @@ ImagingPaste(Imaging imOut, Imaging imIn, Imaging imMask, } else if (strcmp(imMask->mode, "1") == 0) { ImagingSectionEnter(&cookie); - paste_mask_1(imOut, imIn, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + paste_mask_1(imOut, imIn, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "L") == 0) { ImagingSectionEnter(&cookie); - paste_mask_L(imOut, imIn, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + paste_mask_L(imOut, imIn, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "RGBA") == 0) { ImagingSectionEnter(&cookie); - paste_mask_RGBA(imOut, imIn, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + paste_mask_RGBA( + imOut, imIn, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "RGBa") == 0) { ImagingSectionEnter(&cookie); - paste_mask_RGBa(imOut, imIn, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + paste_mask_RGBa( + imOut, imIn, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else { - (void) ImagingError_ValueError("bad transparency mask"); + (void)ImagingError_ValueError("bad transparency mask"); return -1; } @@ -289,9 +316,14 @@ ImagingPaste(Imaging imOut, Imaging imIn, Imaging imMask, } static inline void -fill(Imaging imOut, const void* ink_, int dx, int dy, - int xsize, int ysize, int pixelsize) -{ +fill( + Imaging imOut, + const void *ink_, + int dx, + int dy, + int xsize, + int ysize, + int pixelsize) { /* fill opaque region */ int x, y; @@ -302,30 +334,34 @@ fill(Imaging imOut, const void* ink_, int dx, int dy, memcpy(&ink8, ink_, sizeof(ink8)); if (imOut->image8 || ink32 == 0L) { - dx *= pixelsize; xsize *= pixelsize; for (y = 0; y < ysize; y++) { - memset(imOut->image[y+dy]+dx, ink8, xsize); + memset(imOut->image[y + dy] + dx, ink8, xsize); } } else { - for (y = 0; y < ysize; y++) { - INT32* out = imOut->image32[y+dy]+dx; + INT32 *out = imOut->image32[y + dy] + dx; for (x = 0; x < xsize; x++) { out[x] = ink32; } } - } } static inline void -fill_mask_1(Imaging imOut, const void* ink_, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +fill_mask_1( + Imaging imOut, + const void *ink_, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* fill with mode "1" mask */ int x, y; @@ -336,10 +372,9 @@ fill_mask_1(Imaging imOut, const void* ink_, Imaging imMask, memcpy(&ink8, ink_, sizeof(ink8)); if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* mask = imMask->image8[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { if (*mask++) { *out = ink8; @@ -349,10 +384,9 @@ fill_mask_1(Imaging imOut, const void* ink_, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - INT32* out = imOut->image32[y+dy]+dx; - UINT8* mask = imMask->image8[y+sy]+sx; + INT32 *out = imOut->image32[y + dy] + dx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { if (*mask++) { *out = ink32; @@ -364,20 +398,26 @@ fill_mask_1(Imaging imOut, const void* ink_, Imaging imMask, } static inline void -fill_mask_L(Imaging imOut, const UINT8* ink, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +fill_mask_L( + Imaging imOut, + const UINT8 *ink, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* fill with mode "L" matte */ int x, y, i; unsigned int tmp1; if (imOut->image8) { - for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* mask = imMask->image8[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *mask = imMask->image8[y + sy] + sx; for (x = 0; x < xsize; x++) { *out = BLEND(*mask, *out, ink[0], tmp1); out++, mask++; @@ -385,21 +425,20 @@ fill_mask_L(Imaging imOut, const UINT8* ink, Imaging imMask, } } else { - for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) imOut->image[y+dy]+dx*pixelsize; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx; + UINT8 *out = (UINT8 *)imOut->image[y + dy] + dx * pixelsize; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx; for (x = 0; x < xsize; x++) { for (i = 0; i < pixelsize; i++) { UINT8 channel_mask = *mask; - if (( - strcmp(imOut->mode, "RGBa") == 0 || - strcmp(imOut->mode, "RGBA") == 0 || - strcmp(imOut->mode, "La") == 0 || - strcmp(imOut->mode, "LA") == 0 || - strcmp(imOut->mode, "PA") == 0 - ) && i != 3) { - channel_mask = 255 - (255 - channel_mask) * (1 - (255 - out[3]) / 255); + if ((strcmp(imOut->mode, "RGBa") == 0 || + strcmp(imOut->mode, "RGBA") == 0 || + strcmp(imOut->mode, "La") == 0 || + strcmp(imOut->mode, "LA") == 0 || + strcmp(imOut->mode, "PA") == 0) && + i != 3) { + channel_mask = + 255 - (255 - channel_mask) * (1 - (255 - out[3]) / 255); } out[i] = BLEND(channel_mask, out[i], ink[i], tmp1); } @@ -411,21 +450,27 @@ fill_mask_L(Imaging imOut, const UINT8* ink, Imaging imMask, } static inline void -fill_mask_RGBA(Imaging imOut, const UINT8* ink, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +fill_mask_RGBA( + Imaging imOut, + const UINT8 *ink, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* fill with mode "RGBA" matte */ int x, y, i; unsigned int tmp1; if (imOut->image8) { - - sx = sx*4+3; + sx = sx * 4 + 3; for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx; for (x = 0; x < xsize; x++) { *out = BLEND(*mask, *out, ink[0], tmp1); out++, mask += 4; @@ -433,12 +478,11 @@ fill_mask_RGBA(Imaging imOut, const UINT8* ink, Imaging imMask, } } else { - dx *= pixelsize; - sx = sx*4 + 3; + sx = sx * 4 + 3; for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) imOut->image[y+dy]+dx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx; + UINT8 *out = (UINT8 *)imOut->image[y + dy] + dx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx; for (x = 0; x < xsize; x++) { for (i = 0; i < pixelsize; i++) { *out = BLEND(*mask, *out, ink[i], tmp1); @@ -451,21 +495,27 @@ fill_mask_RGBA(Imaging imOut, const UINT8* ink, Imaging imMask, } static inline void -fill_mask_RGBa(Imaging imOut, const UINT8* ink, Imaging imMask, - int dx, int dy, int sx, int sy, - int xsize, int ysize, int pixelsize) -{ +fill_mask_RGBa( + Imaging imOut, + const UINT8 *ink, + Imaging imMask, + int dx, + int dy, + int sx, + int sy, + int xsize, + int ysize, + int pixelsize) { /* fill with mode "RGBa" matte */ int x, y, i; unsigned int tmp1; if (imOut->image8) { - - sx = sx*4 + 3; + sx = sx * 4 + 3; for (y = 0; y < ysize; y++) { - UINT8* out = imOut->image8[y+dy]+dx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx; + UINT8 *out = imOut->image8[y + dy] + dx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx; for (x = 0; x < xsize; x++) { *out = PREBLEND(*mask, *out, ink[0], tmp1); out++, mask += 4; @@ -473,12 +523,11 @@ fill_mask_RGBa(Imaging imOut, const UINT8* ink, Imaging imMask, } } else { - dx *= pixelsize; - sx = sx*4 + 3; + sx = sx * 4 + 3; for (y = 0; y < ysize; y++) { - UINT8* out = (UINT8*) imOut->image[y+dy]+dx; - UINT8* mask = (UINT8*) imMask->image[y+sy]+sx; + UINT8 *out = (UINT8 *)imOut->image[y + dy] + dx; + UINT8 *mask = (UINT8 *)imMask->image[y + sy] + sx; for (x = 0; x < xsize; x++) { for (i = 0; i < pixelsize; i++) { *out = PREBLEND(*mask, *out, ink[i], tmp1); @@ -491,16 +540,21 @@ fill_mask_RGBa(Imaging imOut, const UINT8* ink, Imaging imMask, } int -ImagingFill2(Imaging imOut, const void* ink, Imaging imMask, - int dx0, int dy0, int dx1, int dy1) -{ +ImagingFill2( + Imaging imOut, + const void *ink, + Imaging imMask, + int dx0, + int dy0, + int dx1, + int dy1) { ImagingSectionCookie cookie; int xsize, ysize; int pixelsize; int sx0, sy0; if (!imOut || !ink) { - (void) ImagingError_ModeError(); + (void)ImagingError_ModeError(); return -1; } @@ -510,7 +564,7 @@ ImagingFill2(Imaging imOut, const void* ink, Imaging imMask, ysize = dy1 - dy0; if (imMask && (xsize != imMask->xsize || ysize != imMask->ysize)) { - (void) ImagingError_Mismatch(); + (void)ImagingError_Mismatch(); return -1; } @@ -540,30 +594,26 @@ ImagingFill2(Imaging imOut, const void* ink, Imaging imMask, } else if (strcmp(imMask->mode, "1") == 0) { ImagingSectionEnter(&cookie); - fill_mask_1(imOut, ink, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + fill_mask_1(imOut, ink, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "L") == 0) { ImagingSectionEnter(&cookie); - fill_mask_L(imOut, ink, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + fill_mask_L(imOut, ink, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "RGBA") == 0) { ImagingSectionEnter(&cookie); - fill_mask_RGBA(imOut, ink, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + fill_mask_RGBA(imOut, ink, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else if (strcmp(imMask->mode, "RGBa") == 0) { ImagingSectionEnter(&cookie); - fill_mask_RGBa(imOut, ink, imMask, dx0, dy0, sx0, sy0, - xsize, ysize, pixelsize); + fill_mask_RGBa(imOut, ink, imMask, dx0, dy0, sx0, sy0, xsize, ysize, pixelsize); ImagingSectionLeave(&cookie); } else { - (void) ImagingError_ValueError("bad transparency mask"); + (void)ImagingError_ValueError("bad transparency mask"); return -1; } diff --git a/src/libImaging/PcdDecode.c b/src/libImaging/PcdDecode.c index ff192a1744e..f13803cb688 100644 --- a/src/libImaging/PcdDecode.c +++ b/src/libImaging/PcdDecode.c @@ -19,24 +19,20 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - int -ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ +ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { int x; int chunk; - UINT8* out; - UINT8* ptr; + UINT8 *out; + UINT8 *ptr; ptr = buf; chunk = 3 * state->xsize; for (;;) { - /* We need data for two full lines before we can do anything */ if (bytes < chunk) { return ptr - buf; @@ -46,13 +42,12 @@ ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt out = state->buffer; for (x = 0; x < state->xsize; x++) { out[0] = ptr[x]; - out[1] = ptr[(x+4*state->xsize)/2]; - out[2] = ptr[(x+5*state->xsize)/2]; + out[1] = ptr[(x + 4 * state->xsize) / 2]; + out[2] = ptr[(x + 5 * state->xsize) / 2]; out += 3; } - state->shuffle((UINT8*) im->image[state->y], - state->buffer, state->xsize); + state->shuffle((UINT8 *)im->image[state->y], state->buffer, state->xsize); if (++state->y >= state->ysize) { return -1; /* This can hardly happen */ @@ -61,14 +56,13 @@ ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* Unpack second line */ out = state->buffer; for (x = 0; x < state->xsize; x++) { - out[0] = ptr[x+state->xsize]; - out[1] = ptr[(x+4*state->xsize)/2]; - out[2] = ptr[(x+5*state->xsize)/2]; + out[0] = ptr[x + state->xsize]; + out[1] = ptr[(x + 4 * state->xsize) / 2]; + out[2] = ptr[(x + 5 * state->xsize) / 2]; out += 3; } - state->shuffle((UINT8*) im->image[state->y], - state->buffer, state->xsize); + state->shuffle((UINT8 *)im->image[state->y], state->buffer, state->xsize); if (++state->y >= state->ysize) { return -1; @@ -76,6 +70,5 @@ ImagingPcdDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt ptr += chunk; bytes -= chunk; - } } diff --git a/src/libImaging/PcxDecode.c b/src/libImaging/PcxDecode.c index eb0fecc83be..c95ffc8692c 100644 --- a/src/libImaging/PcxDecode.c +++ b/src/libImaging/PcxDecode.c @@ -13,14 +13,12 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" int -ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ +ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { UINT8 n; - UINT8* ptr; + UINT8 *ptr; if ((state->xsize * state->bits + 7) / 8 > state->bytes) { state->errcode = IMAGING_CODEC_OVERRUN; @@ -30,13 +28,11 @@ ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt ptr = buf; for (;;) { - if (bytes < 1) { return ptr - buf; } if ((*ptr & 0xC0) == 0xC0) { - /* Run */ if (bytes < 2) { return ptr - buf; @@ -53,14 +49,14 @@ ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt n--; } - ptr += 2; bytes -= 2; + ptr += 2; + bytes -= 2; } else { - /* Literal */ state->buffer[state->x++] = ptr[0]; - ptr++; bytes--; - + ptr++; + bytes--; } if (state->x >= state->bytes) { @@ -68,16 +64,19 @@ ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt int bands = state->bytes / state->xsize; int stride = state->bytes / bands; int i; - for (i=1; i< bands; i++) { // note -- skipping first band - memmove(&state->buffer[i*state->xsize], - &state->buffer[i*stride], - state->xsize); + for (i = 1; i < bands; i++) { // note -- skipping first band + memmove( + &state->buffer[i * state->xsize], + &state->buffer[i * stride], + state->xsize); } } /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->buffer, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer, + state->xsize); state->x = 0; @@ -86,6 +85,5 @@ ImagingPcxDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt return -1; } } - } } diff --git a/src/libImaging/PcxEncode.c b/src/libImaging/PcxEncode.c index 163b09b139a..549614bfd39 100644 --- a/src/libImaging/PcxEncode.c +++ b/src/libImaging/PcxEncode.c @@ -13,7 +13,6 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" enum { INIT, FETCH, ENCODE }; @@ -22,9 +21,8 @@ enum { INIT, FETCH, ENCODE }; #define LAST ystep int -ImagingPcxEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - UINT8* ptr; +ImagingPcxEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + UINT8 *ptr; int this; int bytes_per_line = 0; int padding = 0; @@ -45,12 +43,12 @@ ImagingPcxEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } bpp = state->bits; - if (state->bits == 24){ + if (state->bits == 24) { planes = 3; bpp = 8; } - bytes_per_line = (state->xsize*bpp + 7) / 8; + bytes_per_line = (state->xsize * bpp + 7) / 8; /* The stride here needs to be kept in sync with the version in PcxImagePlugin.py. If it's not, the header and the body of the image will be out of sync and bad things will happen on decode. @@ -59,133 +57,131 @@ ImagingPcxEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) padding = stride - bytes_per_line; - for (;;) { - switch (state->state) { - case FETCH: - - /* get a line of data */ - if (state->y >= state->ysize) { - state->errcode = IMAGING_CODEC_END; - return ptr - buf; - } - - state->shuffle(state->buffer, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->xsize); - - state->y += 1; - - state->count = 1; - state->LAST = state->buffer[0]; - - state->x = 1; - - state->state = ENCODE; - /* fall through */ - - case ENCODE: - /* compress this line */ - - /* when we arrive here, "count" contains the number of - bytes having the value of "LAST" that we've already - seen */ - do { - /* If we're encoding an odd width file, and we've - got more than one plane, we need to pad each - color row with padding bytes at the end. Since - The pixels are stored RRRRRGGGGGBBBBB, so we need - to have the padding be RRRRRPGGGGGPBBBBBP. Hence - the double loop - */ - while (state->x % bytes_per_line) { - - if (state->count == 63) { - /* this run is full; flush it */ - if (bytes < 2) { - return ptr - buf; - } - ptr[0] = 0xff; - ptr[1] = state->LAST; - ptr += 2; - bytes -= 2; + case FETCH: - state->count = 0; - } - - this = state->buffer[state->x]; - - if (this == state->LAST) { - /* extend the current run */ - state->x += 1; - state->count += 1; + /* get a line of data */ + if (state->y >= state->ysize) { + state->errcode = IMAGING_CODEC_END; + return ptr - buf; + } - } else { - /* start a new run */ - if (state->count == 1 && (state->LAST < 0xc0)) { - if (bytes < 1) { + state->shuffle( + state->buffer, + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->xsize); + + state->y += 1; + + state->count = 1; + state->LAST = state->buffer[0]; + + state->x = 1; + + state->state = ENCODE; + /* fall through */ + + case ENCODE: + /* compress this line */ + + /* when we arrive here, "count" contains the number of + bytes having the value of "LAST" that we've already + seen */ + do { + /* If we're encoding an odd width file, and we've + got more than one plane, we need to pad each + color row with padding bytes at the end. Since + The pixels are stored RRRRRGGGGGBBBBB, so we need + to have the padding be RRRRRPGGGGGPBBBBBP. Hence + the double loop + */ + while (state->x % bytes_per_line) { + if (state->count == 63) { + /* this run is full; flush it */ + if (bytes < 2) { return ptr - buf; } - ptr[0] = state->LAST; - ptr += 1; - bytes -= 1; + ptr[0] = 0xff; + ptr[1] = state->LAST; + ptr += 2; + bytes -= 2; + + state->count = 0; + } + + this = state->buffer[state->x]; + + if (this == state->LAST) { + /* extend the current run */ + state->x += 1; + state->count += 1; + } else { - if (state->count > 0) { - if (bytes < 2) { + /* start a new run */ + if (state->count == 1 && (state->LAST < 0xc0)) { + if (bytes < 1) { return ptr - buf; } - ptr[0] = 0xc0 | state->count; - ptr[1] = state->LAST; - ptr += 2; - bytes -= 2; + ptr[0] = state->LAST; + ptr += 1; + bytes -= 1; + } else { + if (state->count > 0) { + if (bytes < 2) { + return ptr - buf; + } + ptr[0] = 0xc0 | state->count; + ptr[1] = state->LAST; + ptr += 2; + bytes -= 2; + } } - } - state->LAST = this; - state->count = 1; + state->LAST = this; + state->count = 1; - state->x += 1; + state->x += 1; + } } - } - /* end of line; flush the current run */ - if (state->count == 1 && (state->LAST < 0xc0)) { - if (bytes < 1 + padding) { - return ptr - buf; - } - ptr[0] = state->LAST; - ptr += 1; - bytes -= 1; - } else { - if (state->count > 0) { - if (bytes < 2 + padding) { + /* end of line; flush the current run */ + if (state->count == 1 && (state->LAST < 0xc0)) { + if (bytes < 1 + padding) { return ptr - buf; } - ptr[0] = 0xc0 | state->count; - ptr[1] = state->LAST; - ptr += 2; - bytes -= 2; + ptr[0] = state->LAST; + ptr += 1; + bytes -= 1; + } else { + if (state->count > 0) { + if (bytes < 2 + padding) { + return ptr - buf; + } + ptr[0] = 0xc0 | state->count; + ptr[1] = state->LAST; + ptr += 2; + bytes -= 2; + } } - } - /* add the padding */ - for (i = 0; i < padding; i++) { - ptr[0] = 0; - ptr += 1; - bytes -= 1; - } - /* reset for the next color plane. */ - if (state->x < planes * bytes_per_line) { - state->count = 1; - state->LAST = state->buffer[state->x]; - state->x += 1; - } - } while (state->x < planes * bytes_per_line); + /* add the padding */ + for (i = 0; i < padding; i++) { + ptr[0] = 0; + ptr += 1; + bytes -= 1; + } + /* reset for the next color plane. */ + if (state->x < planes * bytes_per_line) { + state->count = 1; + state->LAST = state->buffer[state->x]; + state->x += 1; + } + } while (state->x < planes * bytes_per_line); - /* read next line */ - state->state = FETCH; - break; + /* read next line */ + state->state = FETCH; + break; } } } - diff --git a/src/libImaging/Point.c b/src/libImaging/Point.c index b70840b0707..8883578cbff 100644 --- a/src/libImaging/Point.c +++ b/src/libImaging/Point.c @@ -19,22 +19,20 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" typedef struct { - const void* table; + const void *table; } im_point_context; static void -im_point_8_8(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_8_8(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 8-bit source, 8-bit destination */ - UINT8* table = (UINT8*) context->table; + UINT8 *table = (UINT8 *)context->table; for (y = 0; y < imIn->ysize; y++) { - UINT8* in = imIn->image8[y]; - UINT8* out = imOut->image8[y]; + UINT8 *in = imIn->image8[y]; + UINT8 *out = imOut->image8[y]; for (x = 0; x < imIn->xsize; x++) { out[x] = table[in[x]]; } @@ -42,68 +40,67 @@ im_point_8_8(Imaging imOut, Imaging imIn, im_point_context* context) } static void -im_point_2x8_2x8(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_2x8_2x8(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 2x8-bit source, 2x8-bit destination */ - UINT8* table = (UINT8*) context->table; + UINT8 *table = (UINT8 *)context->table; for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < imIn->xsize; x++) { out[0] = table[in[0]]; - out[3] = table[in[3]+256]; - in += 4; out += 4; + out[3] = table[in[3] + 256]; + in += 4; + out += 4; } } } static void -im_point_3x8_3x8(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_3x8_3x8(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 3x8-bit source, 3x8-bit destination */ - UINT8* table = (UINT8*) context->table; + UINT8 *table = (UINT8 *)context->table; for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < imIn->xsize; x++) { out[0] = table[in[0]]; - out[1] = table[in[1]+256]; - out[2] = table[in[2]+512]; - in += 4; out += 4; + out[1] = table[in[1] + 256]; + out[2] = table[in[2] + 512]; + in += 4; + out += 4; } } } static void -im_point_4x8_4x8(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_4x8_4x8(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 4x8-bit source, 4x8-bit destination */ - UINT8* table = (UINT8*) context->table; + UINT8 *table = (UINT8 *)context->table; for (y = 0; y < imIn->ysize; y++) { - UINT8* in = (UINT8*) imIn->image[y]; - UINT8* out = (UINT8*) imOut->image[y]; + UINT8 *in = (UINT8 *)imIn->image[y]; + UINT8 *out = (UINT8 *)imOut->image[y]; for (x = 0; x < imIn->xsize; x++) { out[0] = table[in[0]]; - out[1] = table[in[1]+256]; - out[2] = table[in[2]+512]; - out[3] = table[in[3]+768]; - in += 4; out += 4; + out[1] = table[in[1] + 256]; + out[2] = table[in[2] + 512]; + out[3] = table[in[3] + 768]; + in += 4; + out += 4; } } } static void -im_point_8_32(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_8_32(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 8-bit source, 32-bit destination */ - char* table = (char*) context->table; + char *table = (char *)context->table; for (y = 0; y < imIn->ysize; y++) { - UINT8* in = imIn->image8[y]; - INT32* out = imOut->image32[y]; + UINT8 *in = imIn->image8[y]; + INT32 *out = imOut->image32[y]; for (x = 0; x < imIn->xsize; x++) { memcpy(out + x, table + in[x] * sizeof(INT32), sizeof(INT32)); } @@ -111,14 +108,13 @@ im_point_8_32(Imaging imOut, Imaging imIn, im_point_context* context) } static void -im_point_32_8(Imaging imOut, Imaging imIn, im_point_context* context) -{ +im_point_32_8(Imaging imOut, Imaging imIn, im_point_context *context) { int x, y; /* 32-bit source, 8-bit destination */ - UINT8* table = (UINT8*) context->table; + UINT8 *table = (UINT8 *)context->table; for (y = 0; y < imIn->ysize; y++) { - INT32* in = imIn->image32[y]; - UINT8* out = imOut->image8[y]; + INT32 *in = imIn->image32[y]; + UINT8 *out = imOut->image8[y]; for (x = 0; x < imIn->xsize; x++) { int v = in[x]; if (v < 0) { @@ -132,17 +128,16 @@ im_point_32_8(Imaging imOut, Imaging imIn, im_point_context* context) } Imaging -ImagingPoint(Imaging imIn, const char* mode, const void* table) -{ +ImagingPoint(Imaging imIn, const char *mode, const void *table) { /* lookup table transform */ ImagingSectionCookie cookie; Imaging imOut; im_point_context context; - void (*point)(Imaging imIn, Imaging imOut, im_point_context* context); + void (*point)(Imaging imIn, Imaging imOut, im_point_context * context); if (!imIn) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (!mode) { @@ -166,22 +161,22 @@ ImagingPoint(Imaging imIn, const char* mode, const void* table) if (imIn->type == IMAGING_TYPE_UINT8) { if (imIn->bands == imOut->bands && imIn->type == imOut->type) { switch (imIn->bands) { - case 1: - point = im_point_8_8; - break; - case 2: - point = im_point_2x8_2x8; - break; - case 3: - point = im_point_3x8_3x8; - break; - case 4: - point = im_point_4x8_4x8; - break; - default: - /* this cannot really happen */ - point = im_point_8_8; - break; + case 1: + point = im_point_8_8; + break; + case 2: + point = im_point_2x8_2x8; + break; + case 3: + point = im_point_3x8_3x8; + break; + case 4: + point = im_point_4x8_4x8; + break; + default: + /* this cannot really happen */ + point = im_point_8_8; + break; } } else { point = im_point_8_32; @@ -201,26 +196,22 @@ ImagingPoint(Imaging imIn, const char* mode, const void* table) return imOut; - mode_mismatch: - return (Imaging) ImagingError_ValueError( - "point operation not supported for this mode" - ); +mode_mismatch: + return (Imaging)ImagingError_ValueError( + "point operation not supported for this mode"); } - Imaging -ImagingPointTransform(Imaging imIn, double scale, double offset) -{ +ImagingPointTransform(Imaging imIn, double scale, double offset) { /* scale/offset transform */ ImagingSectionCookie cookie; Imaging imOut; int x, y; - if (!imIn || (strcmp(imIn->mode, "I") != 0 && - strcmp(imIn->mode, "I;16") != 0 && + if (!imIn || (strcmp(imIn->mode, "I") != 0 && strcmp(imIn->mode, "I;16") != 0 && strcmp(imIn->mode, "F") != 0)) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } imOut = ImagingNew(imIn->mode, imIn->xsize, imIn->ysize); @@ -229,50 +220,50 @@ ImagingPointTransform(Imaging imIn, double scale, double offset) } switch (imIn->type) { - case IMAGING_TYPE_INT32: - ImagingSectionEnter(&cookie); - for (y = 0; y < imIn->ysize; y++) { - INT32* in = imIn->image32[y]; - INT32* out = imOut->image32[y]; - /* FIXME: add clipping? */ - for (x = 0; x < imIn->xsize; x++) { - out[x] = in[x] * scale + offset; - } - } - ImagingSectionLeave(&cookie); - break; - case IMAGING_TYPE_FLOAT32: - ImagingSectionEnter(&cookie); - for (y = 0; y < imIn->ysize; y++) { - FLOAT32* in = (FLOAT32*) imIn->image32[y]; - FLOAT32* out = (FLOAT32*) imOut->image32[y]; - for (x = 0; x < imIn->xsize; x++) { - out[x] = in[x] * scale + offset; - } - } - ImagingSectionLeave(&cookie); - break; - case IMAGING_TYPE_SPECIAL: - if (strcmp(imIn->mode,"I;16") == 0) { + case IMAGING_TYPE_INT32: ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - char* in = (char*)imIn->image[y]; - char* out = (char*)imOut->image[y]; + INT32 *in = imIn->image32[y]; + INT32 *out = imOut->image32[y]; /* FIXME: add clipping? */ for (x = 0; x < imIn->xsize; x++) { - UINT16 v; - memcpy(&v, in + x * sizeof(v), sizeof(v)); - v = v * scale + offset; - memcpy(out + x * sizeof(UINT16), &v, sizeof(v)); + out[x] = in[x] * scale + offset; } } ImagingSectionLeave(&cookie); break; - } - /* FALL THROUGH */ - default: - ImagingDelete(imOut); - return (Imaging) ImagingError_ValueError("internal error"); + case IMAGING_TYPE_FLOAT32: + ImagingSectionEnter(&cookie); + for (y = 0; y < imIn->ysize; y++) { + FLOAT32 *in = (FLOAT32 *)imIn->image32[y]; + FLOAT32 *out = (FLOAT32 *)imOut->image32[y]; + for (x = 0; x < imIn->xsize; x++) { + out[x] = in[x] * scale + offset; + } + } + ImagingSectionLeave(&cookie); + break; + case IMAGING_TYPE_SPECIAL: + if (strcmp(imIn->mode, "I;16") == 0) { + ImagingSectionEnter(&cookie); + for (y = 0; y < imIn->ysize; y++) { + char *in = (char *)imIn->image[y]; + char *out = (char *)imOut->image[y]; + /* FIXME: add clipping? */ + for (x = 0; x < imIn->xsize; x++) { + UINT16 v; + memcpy(&v, in + x * sizeof(v), sizeof(v)); + v = v * scale + offset; + memcpy(out + x * sizeof(UINT16), &v, sizeof(v)); + } + } + ImagingSectionLeave(&cookie); + break; + } + /* FALL THROUGH */ + default: + ImagingDelete(imOut); + return (Imaging)ImagingError_ValueError("internal error"); } return imOut; diff --git a/src/libImaging/Quant.c b/src/libImaging/Quant.c index 6c9f8d9b70d..bee5e5599c8 100644 --- a/src/libImaging/Quant.c +++ b/src/libImaging/Quant.c @@ -43,169 +43,155 @@ typedef struct { } PixelHashData; typedef struct _PixelList { - struct _PixelList *next[3],*prev[3]; + struct _PixelList *next[3], *prev[3]; Pixel p; - unsigned int flag:1; + unsigned int flag : 1; int count; } PixelList; typedef struct _BoxNode { - struct _BoxNode *l,*r; - PixelList *head[3],*tail[3]; + struct _BoxNode *l, *r; + PixelList *head[3], *tail[3]; int axis; int volume; uint32_t pixelCount; } BoxNode; -#define _SQR(x) ((x)*(x)) -#define _DISTSQR(p1,p2) \ - _SQR((int)((p1)->c.r)-(int)((p2)->c.r))+ \ - _SQR((int)((p1)->c.g)-(int)((p2)->c.g))+ \ - _SQR((int)((p1)->c.b)-(int)((p2)->c.b)) +#define _SQR(x) ((x) * (x)) +#define _DISTSQR(p1, p2) \ + _SQR((int)((p1)->c.r) - (int)((p2)->c.r)) + \ + _SQR((int)((p1)->c.g) - (int)((p2)->c.g)) + \ + _SQR((int)((p1)->c.b) - (int)((p2)->c.b)) #define MAX_HASH_ENTRIES 65536 -#define PIXEL_HASH(r,g,b) \ - (((unsigned int)(r) )*463 ^ \ - ((unsigned int)(g)<< 8)*10069 ^ \ - ((unsigned int)(b)<<16)*64997) +#define PIXEL_HASH(r, g, b) \ + (((unsigned int)(r)) * 463 ^ ((unsigned int)(g) << 8) * 10069 ^ \ + ((unsigned int)(b) << 16) * 64997) -#define PIXEL_UNSCALE(p,q,s) \ - ((q)->c.r=(p)->c.r<<(s)), \ - ((q)->c.g=(p)->c.g<<(s)), \ - ((q)->c.b=(p)->c.b<<(s)) +#define PIXEL_UNSCALE(p, q, s) \ + ((q)->c.r = (p)->c.r << (s)), ((q)->c.g = (p)->c.g << (s)), \ + ((q)->c.b = (p)->c.b << (s)) -#define PIXEL_SCALE(p,q,s)\ - ((q)->c.r=(p)->c.r>>(s)), \ - ((q)->c.g=(p)->c.g>>(s)), \ - ((q)->c.b=(p)->c.b>>(s)) +#define PIXEL_SCALE(p, q, s) \ + ((q)->c.r = (p)->c.r >> (s)), ((q)->c.g = (p)->c.g >> (s)), \ + ((q)->c.b = (p)->c.b >> (s)) static uint32_t -unshifted_pixel_hash(const HashTable *h, const Pixel pixel) -{ - return PIXEL_HASH(pixel.c.r, pixel.c.g, pixel.c.b); +unshifted_pixel_hash(const HashTable *h, const Pixel pixel) { + return PIXEL_HASH(pixel.c.r, pixel.c.g, pixel.c.b); } static int -unshifted_pixel_cmp(const HashTable *h, const Pixel pixel1, const Pixel pixel2) -{ - if (pixel1.c.r==pixel2.c.r) { - if (pixel1.c.g==pixel2.c.g) { - if (pixel1.c.b==pixel2.c.b) { +unshifted_pixel_cmp(const HashTable *h, const Pixel pixel1, const Pixel pixel2) { + if (pixel1.c.r == pixel2.c.r) { + if (pixel1.c.g == pixel2.c.g) { + if (pixel1.c.b == pixel2.c.b) { return 0; } else { - return (int)(pixel1.c.b)-(int)(pixel2.c.b); + return (int)(pixel1.c.b) - (int)(pixel2.c.b); } } else { - return (int)(pixel1.c.g)-(int)(pixel2.c.g); + return (int)(pixel1.c.g) - (int)(pixel2.c.g); } } else { - return (int)(pixel1.c.r)-(int)(pixel2.c.r); + return (int)(pixel1.c.r) - (int)(pixel2.c.r); } } static uint32_t -pixel_hash(const HashTable *h,const Pixel pixel) -{ - PixelHashData *d=(PixelHashData *)hashtable_get_user_data(h); - return PIXEL_HASH(pixel.c.r>>d->scale, pixel.c.g>>d->scale, pixel.c.b>>d->scale); +pixel_hash(const HashTable *h, const Pixel pixel) { + PixelHashData *d = (PixelHashData *)hashtable_get_user_data(h); + return PIXEL_HASH( + pixel.c.r >> d->scale, pixel.c.g >> d->scale, pixel.c.b >> d->scale); } static int -pixel_cmp(const HashTable *h,const Pixel pixel1, const Pixel pixel2) -{ - PixelHashData *d=(PixelHashData *)hashtable_get_user_data(h); - uint32_t A,B; - A=PIXEL_HASH(pixel1.c.r>>d->scale, pixel1.c.g>>d->scale, pixel1.c.b>>d->scale); - B=PIXEL_HASH(pixel2.c.r>>d->scale, pixel2.c.g>>d->scale, pixel2.c.b>>d->scale); - return (A==B)?0:((A> d->scale, pixel1.c.g >> d->scale, pixel1.c.b >> d->scale); + B = PIXEL_HASH( + pixel2.c.r >> d->scale, pixel2.c.g >> d->scale, pixel2.c.b >> d->scale); + return (A == B) ? 0 : ((A < B) ? -1 : 1); } static void -exists_count_func(const HashTable *h, const Pixel key, uint32_t *val) -{ - *val+=1; +exists_count_func(const HashTable *h, const Pixel key, uint32_t *val) { + *val += 1; } static void -new_count_func(const HashTable *h, const Pixel key, uint32_t *val) -{ - *val=1; +new_count_func(const HashTable *h, const Pixel key, uint32_t *val) { + *val = 1; } static void -rehash_collide(const HashTable *h, - Pixel *keyp, - uint32_t *valp, - Pixel newkey, - uint32_t newval) -{ +rehash_collide( + const HashTable *h, Pixel *keyp, uint32_t *valp, Pixel newkey, uint32_t newval) { *valp += newval; } /* %% */ static HashTable * -create_pixel_hash(Pixel *pixelData,uint32_t nPixels) -{ - PixelHashData *d; - HashTable *hash; - uint32_t i; +create_pixel_hash(Pixel *pixelData, uint32_t nPixels) { + PixelHashData *d; + HashTable *hash; + uint32_t i; #ifndef NO_OUTPUT - uint32_t timer,timer2,timer3; + uint32_t timer, timer2, timer3; #endif - /* malloc check ok, small constant allocation */ - d=malloc(sizeof(PixelHashData)); - if (!d) { - return NULL; - } - hash=hashtable_new(pixel_hash,pixel_cmp); - hashtable_set_user_data(hash,d); - d->scale=0; + /* malloc check ok, small constant allocation */ + d = malloc(sizeof(PixelHashData)); + if (!d) { + return NULL; + } + hash = hashtable_new(pixel_hash, pixel_cmp); + hashtable_set_user_data(hash, d); + d->scale = 0; #ifndef NO_OUTPUT - timer=timer3=clock(); + timer = timer3 = clock(); #endif - for (i=0;iMAX_HASH_ENTRIES) { - d->scale++; + for (i = 0; i < nPixels; i++) { + if (!hashtable_insert_or_update_computed( + hash, pixelData[i], new_count_func, exists_count_func)) { + ; + } + while (hashtable_get_count(hash) > MAX_HASH_ENTRIES) { + d->scale++; #ifndef NO_OUTPUT - printf ("rehashing - new scale: %d\n",(int)d->scale); - timer2=clock(); + printf("rehashing - new scale: %d\n", (int)d->scale); + timer2 = clock(); #endif - hashtable_rehash_compute(hash,rehash_collide); + hashtable_rehash_compute(hash, rehash_collide); #ifndef NO_OUTPUT - timer2=clock()-timer2; - printf ("rehash took %f sec\n",timer2/(double)CLOCKS_PER_SEC); - timer+=timer2; + timer2 = clock() - timer2; + printf("rehash took %f sec\n", timer2 / (double)CLOCKS_PER_SEC); + timer += timer2; #endif - } - } + } + } #ifndef NO_OUTPUT - printf ("inserts took %f sec\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("inserts took %f sec\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif #ifndef NO_OUTPUT - printf ("total %f sec\n",(clock()-timer3)/(double)CLOCKS_PER_SEC); + printf("total %f sec\n", (clock() - timer3) / (double)CLOCKS_PER_SEC); #endif - return hash; + return hash; } static void -destroy_pixel_hash(HashTable *hash) -{ - PixelHashData *d=(PixelHashData *)hashtable_get_user_data(hash); - if (d) { - free(d); - } - hashtable_free(hash); +destroy_pixel_hash(HashTable *hash) { + PixelHashData *d = (PixelHashData *)hashtable_get_user_data(hash); + if (d) { + free(d); + } + hashtable_free(hash); } - /* 1. hash quantized pixels. */ /* 2. create R,G,B lists of sorted quantized pixels. */ /* 3. median cut. */ @@ -215,659 +201,662 @@ destroy_pixel_hash(HashTable *hash) /* 7. map each pixel to nearest average. */ static int -compute_box_volume(BoxNode *b) -{ - unsigned char rl,rh,gl,gh,bl,bh; - if (b->volume>=0) { - return b->volume; - } - if (!b->head[0]) { - b->volume=0; - } else { - rh=b->head[0]->p.c.r; - rl=b->tail[0]->p.c.r; - gh=b->head[1]->p.c.g; - gl=b->tail[1]->p.c.g; - bh=b->head[2]->p.c.b; - bl=b->tail[2]->p.c.b; - b->volume=(rh-rl+1)*(gh-gl+1)*(bh-bl+1); - } - return b->volume; +compute_box_volume(BoxNode *b) { + unsigned char rl, rh, gl, gh, bl, bh; + if (b->volume >= 0) { + return b->volume; + } + if (!b->head[0]) { + b->volume = 0; + } else { + rh = b->head[0]->p.c.r; + rl = b->tail[0]->p.c.r; + gh = b->head[1]->p.c.g; + gl = b->tail[1]->p.c.g; + bh = b->head[2]->p.c.b; + bl = b->tail[2]->p.c.b; + b->volume = (rh - rl + 1) * (gh - gl + 1) * (bh - bl + 1); + } + return b->volume; } static void -hash_to_list(const HashTable *h, const Pixel pixel, const uint32_t count, void *u) -{ - PixelHashData *d=(PixelHashData *)hashtable_get_user_data(h); - PixelList **pl=(PixelList **)u; - PixelList *p; - int i; - Pixel q; - - PIXEL_SCALE(&pixel,&q,d->scale); - - /* malloc check ok, small constant allocation */ - p=malloc(sizeof(PixelList)); - if (!p) { - return; - } - - p->flag=0; - p->p=q; - p->count=count; - for (i=0;i<3;i++) { - p->next[i]=pl[i]; - p->prev[i]=NULL; - if (pl[i]) { - pl[i]->prev[i]=p; - } - pl[i]=p; - } +hash_to_list(const HashTable *h, const Pixel pixel, const uint32_t count, void *u) { + PixelHashData *d = (PixelHashData *)hashtable_get_user_data(h); + PixelList **pl = (PixelList **)u; + PixelList *p; + int i; + Pixel q; + + PIXEL_SCALE(&pixel, &q, d->scale); + + /* malloc check ok, small constant allocation */ + p = malloc(sizeof(PixelList)); + if (!p) { + return; + } + + p->flag = 0; + p->p = q; + p->count = count; + for (i = 0; i < 3; i++) { + p->next[i] = pl[i]; + p->prev[i] = NULL; + if (pl[i]) { + pl[i]->prev[i] = p; + } + pl[i] = p; + } } static PixelList * -mergesort_pixels(PixelList *head, int i) -{ - PixelList *c,*t,*a,*b,*p; - if (!head||!head->next[i]) { - if (head) { - head->next[i]=NULL; - head->prev[i]=NULL; - } - return head; - } - for (c=t=head;c&&t;c=c->next[i],t=(t->next[i])?t->next[i]->next[i]:NULL); - if (c) { - if (c->prev[i]) { - c->prev[i]->next[i]=NULL; - } - c->prev[i]=NULL; - } - a=mergesort_pixels(head,i); - b=mergesort_pixels(c,i); - head=NULL; - p=NULL; - while (a&&b) { - if (a->p.a.v[i]>b->p.a.v[i]) { - c=a; - a=a->next[i]; - } else { - c=b; - b=b->next[i]; - } - c->prev[i]=p; - c->next[i]=NULL; - if (p) { - p->next[i]=c; - } - p=c; - if (!head) { - head=c; - } - } - if (a) { - c->next[i]=a; - a->prev[i]=c; - } else if (b) { - c->next[i]=b; - b->prev[i]=c; - } - return head; +mergesort_pixels(PixelList *head, int i) { + PixelList *c, *t, *a, *b, *p; + if (!head || !head->next[i]) { + if (head) { + head->next[i] = NULL; + head->prev[i] = NULL; + } + return head; + } + for (c = t = head; c && t; + c = c->next[i], t = (t->next[i]) ? t->next[i]->next[i] : NULL) + ; + if (c) { + if (c->prev[i]) { + c->prev[i]->next[i] = NULL; + } + c->prev[i] = NULL; + } + a = mergesort_pixels(head, i); + b = mergesort_pixels(c, i); + head = NULL; + p = NULL; + while (a && b) { + if (a->p.a.v[i] > b->p.a.v[i]) { + c = a; + a = a->next[i]; + } else { + c = b; + b = b->next[i]; + } + c->prev[i] = p; + c->next[i] = NULL; + if (p) { + p->next[i] = c; + } + p = c; + if (!head) { + head = c; + } + } + if (a) { + c->next[i] = a; + a->prev[i] = c; + } else if (b) { + c->next[i] = b; + b->prev[i] = c; + } + return head; } #if defined(TEST_MERGESORT) || defined(TEST_SORTED) static int -test_sorted(PixelList *pl[3]) -{ - int i,n,l; - PixelList *t; - - for(i=0;i<3;i++) { - n=0; - l=256; - for (t=pl[i];t;t=t->next[i]) { - if (lp.a.v[i]) return 0; - l=t->p.a.v[i]; - } - } - return 1; +test_sorted(PixelList *pl[3]) { + int i, n, l; + PixelList *t; + + for (i = 0; i < 3; i++) { + n = 0; + l = 256; + for (t = pl[i]; t; t = t->next[i]) { + if (l < t->p.a.v[i]) + return 0; + l = t->p.a.v[i]; + } + } + return 1; } #endif static int -box_heap_cmp(const Heap *h, const void *A, const void *B) -{ - BoxNode *a=(BoxNode *)A; - BoxNode *b=(BoxNode *)B; - return (int)a->pixelCount-(int)b->pixelCount; +box_heap_cmp(const Heap *h, const void *A, const void *B) { + BoxNode *a = (BoxNode *)A; + BoxNode *b = (BoxNode *)B; + return (int)a->pixelCount - (int)b->pixelCount; } -#define LUMINANCE(p) (77*(p)->c.r+150*(p)->c.g+29*(p)->c.b) +#define LUMINANCE(p) (77 * (p)->c.r + 150 * (p)->c.g + 29 * (p)->c.b) static int -splitlists(PixelList *h[3], - PixelList *t[3], - PixelList *nh[2][3], - PixelList *nt[2][3], - uint32_t nCount[2], - int axis, - uint32_t pixelCount) -{ - uint32_t left; - - PixelList *l,*r,*c,*n; - int i; - int nRight,nLeft; - int splitColourVal; +splitlists( + PixelList *h[3], + PixelList *t[3], + PixelList *nh[2][3], + PixelList *nt[2][3], + uint32_t nCount[2], + int axis, + uint32_t pixelCount) { + uint32_t left; + + PixelList *l, *r, *c, *n; + int i; + int nRight, nLeft; + int splitColourVal; #ifdef TEST_SPLIT - { - PixelList *_prevTest,*_nextTest; - int _i,_nextCount[3],_prevCount[3]; - for (_i=0;_i<3;_i++) { - for (_nextCount[_i]=0,_nextTest=h[_i];_nextTest&&_nextTest->next[_i];_nextTest=_nextTest->next[_i],_nextCount[_i]++); - for (_prevCount[_i]=0,_prevTest=t[_i];_prevTest&&_prevTest->prev[_i];_prevTest=_prevTest->prev[_i],_prevCount[_i]++); - if (_nextTest!=t[_i]) { - printf ("next-list of axis %d does not end at tail\n",_i); - exit(1); - } - if (_prevTest!=h[_i]) { - printf ("prev-list of axis %d does not end at head\n",_i); - exit(1); - } - for (;_nextTest&&_nextTest->prev[_i];_nextTest=_nextTest->prev[_i]); - for (;_prevTest&&_prevTest->next[_i];_prevTest=_prevTest->next[_i]); - if (_nextTest!=h[_i]) { - printf ("next-list of axis %d does not loop back to head\n",_i); - exit(1); - } - if (_prevTest!=t[_i]) { - printf ("prev-list of axis %d does not loop back to tail\n",_i); - exit(1); - } - } - for (_i=1;_i<3;_i++) { - if (_prevCount[_i]!=_prevCount[_i-1] || - _nextCount[_i]!=_nextCount[_i-1] || - _prevCount[_i]!=_nextCount[_i]) { - printf ("{%d %d %d} {%d %d %d}\n", + { + PixelList *_prevTest, *_nextTest; + int _i, _nextCount[3], _prevCount[3]; + for (_i = 0; _i < 3; _i++) { + for (_nextCount[_i] = 0, _nextTest = h[_i]; + _nextTest && _nextTest->next[_i]; + _nextTest = _nextTest->next[_i], _nextCount[_i]++) + ; + for (_prevCount[_i] = 0, _prevTest = t[_i]; + _prevTest && _prevTest->prev[_i]; + _prevTest = _prevTest->prev[_i], _prevCount[_i]++) + ; + if (_nextTest != t[_i]) { + printf("next-list of axis %d does not end at tail\n", _i); + exit(1); + } + if (_prevTest != h[_i]) { + printf("prev-list of axis %d does not end at head\n", _i); + exit(1); + } + for (; _nextTest && _nextTest->prev[_i]; _nextTest = _nextTest->prev[_i]) + ; + for (; _prevTest && _prevTest->next[_i]; _prevTest = _prevTest->next[_i]) + ; + if (_nextTest != h[_i]) { + printf("next-list of axis %d does not loop back to head\n", _i); + exit(1); + } + if (_prevTest != t[_i]) { + printf("prev-list of axis %d does not loop back to tail\n", _i); + exit(1); + } + } + for (_i = 1; _i < 3; _i++) { + if (_prevCount[_i] != _prevCount[_i - 1] || + _nextCount[_i] != _nextCount[_i - 1] || + _prevCount[_i] != _nextCount[_i]) { + printf( + "{%d %d %d} {%d %d %d}\n", _prevCount[0], _prevCount[1], _prevCount[2], _nextCount[0], _nextCount[1], _nextCount[2]); - exit(1); - } - } + exit(1); + } + } } #endif - nCount[0]=nCount[1]=0; - nLeft=nRight=0; - for (left=0,c=h[axis];c;) { - left=left+c->count; - nCount[0]+=c->count; - c->flag=0; - nLeft++; - c=c->next[axis]; - if (left*2>pixelCount) { - break; - } - } - if (c) { - splitColourVal=c->prev[axis]->p.a.v[axis]; - for (;c;c=c->next[axis]) { - if (splitColourVal!=c->p.a.v[axis]) { + nCount[0] = nCount[1] = 0; + nLeft = nRight = 0; + for (left = 0, c = h[axis]; c;) { + left = left + c->count; + nCount[0] += c->count; + c->flag = 0; + nLeft++; + c = c->next[axis]; + if (left * 2 > pixelCount) { break; - } - c->flag=0; - nLeft++; - nCount[0]+=c->count; - } - } - for (;c;c=c->next[axis]) { - c->flag=1; - nRight++; - nCount[1]+=c->count; - } - if (!nRight) { - for (c=t[axis],splitColourVal=t[axis]->p.a.v[axis];c;c=c->prev[axis]) { - if (splitColourVal!=c->p.a.v[axis]) { - break; - } - c->flag=1; - nRight++; - nLeft--; - nCount[0]-=c->count; - nCount[1]+=c->count; - } - } + } + } + if (c) { + splitColourVal = c->prev[axis]->p.a.v[axis]; + for (; c; c = c->next[axis]) { + if (splitColourVal != c->p.a.v[axis]) { + break; + } + c->flag = 0; + nLeft++; + nCount[0] += c->count; + } + } + for (; c; c = c->next[axis]) { + c->flag = 1; + nRight++; + nCount[1] += c->count; + } + if (!nRight) { + for (c = t[axis], splitColourVal = t[axis]->p.a.v[axis]; c; c = c->prev[axis]) { + if (splitColourVal != c->p.a.v[axis]) { + break; + } + c->flag = 1; + nRight++; + nLeft--; + nCount[0] -= c->count; + nCount[1] += c->count; + } + } #ifndef NO_OUTPUT - if (!nLeft) { - for (c=h[axis];c;c=c->next[axis]) { - printf ("[%d %d %d]\n",c->p.c.r,c->p.c.g,c->p.c.b); - } - printf ("warning... trivial split\n"); - } + if (!nLeft) { + for (c = h[axis]; c; c = c->next[axis]) { + printf("[%d %d %d]\n", c->p.c.r, c->p.c.g, c->p.c.b); + } + printf("warning... trivial split\n"); + } #endif - for (i=0;i<3;i++) { - l=r=NULL; - nh[0][i]=nt[0][i]=NULL; - nh[1][i]=nt[1][i]=NULL; - for (c=h[i];c;c=n) { - n=c->next[i]; - if (c->flag) { /* move pixel to right list*/ - if (r) { - r->next[i]=c; - } else { - nh[1][i]=c; - } - c->prev[i]=r; - r=c; - } else { /* move pixel to left list */ - if (l) { - l->next[i]=c; - } else { - nh[0][i]=c; + for (i = 0; i < 3; i++) { + l = r = NULL; + nh[0][i] = nt[0][i] = NULL; + nh[1][i] = nt[1][i] = NULL; + for (c = h[i]; c; c = n) { + n = c->next[i]; + if (c->flag) { /* move pixel to right list*/ + if (r) { + r->next[i] = c; + } else { + nh[1][i] = c; + } + c->prev[i] = r; + r = c; + } else { /* move pixel to left list */ + if (l) { + l->next[i] = c; + } else { + nh[0][i] = c; + } + c->prev[i] = l; + l = c; } - c->prev[i]=l; - l=c; - } - } - if (l) { - l->next[i]=NULL; - } - if (r) { - r->next[i]=NULL; - } - nt[0][i]=l; - nt[1][i]=r; - } - return 1; + } + if (l) { + l->next[i] = NULL; + } + if (r) { + r->next[i] = NULL; + } + nt[0][i] = l; + nt[1][i] = r; + } + return 1; } static int -split(BoxNode *node) -{ - unsigned char rl,rh,gl,gh,bl,bh; - int f[3]; - int best,axis; - int i; - PixelList *heads[2][3]; - PixelList *tails[2][3]; - uint32_t newCounts[2]; - BoxNode *left,*right; - - rh=node->head[0]->p.c.r; - rl=node->tail[0]->p.c.r; - gh=node->head[1]->p.c.g; - gl=node->tail[1]->p.c.g; - bh=node->head[2]->p.c.b; - bl=node->tail[2]->p.c.b; +split(BoxNode *node) { + unsigned char rl, rh, gl, gh, bl, bh; + int f[3]; + int best, axis; + int i; + PixelList *heads[2][3]; + PixelList *tails[2][3]; + uint32_t newCounts[2]; + BoxNode *left, *right; + + rh = node->head[0]->p.c.r; + rl = node->tail[0]->p.c.r; + gh = node->head[1]->p.c.g; + gl = node->tail[1]->p.c.g; + bh = node->head[2]->p.c.b; + bl = node->tail[2]->p.c.b; #ifdef TEST_SPLIT - printf ("splitting node [%d %d %d] [%d %d %d] ",rl,gl,bl,rh,gh,bh); + printf("splitting node [%d %d %d] [%d %d %d] ", rl, gl, bl, rh, gh, bh); #endif - f[0]=(rh-rl)*77; - f[1]=(gh-gl)*150; - f[2]=(bh-bl)*29; - - best=f[0]; - axis=0; - for (i=1;i<3;i++) { - if (besttail[_i]->next[_i]) { - printf ("tail is not tail\n"); - printf ("node->tail[%d]->next[%d]=%p\n",_i,_i,node->tail[_i]->next[_i]); - } - if (node->head[_i]->prev[_i]) { - printf ("head is not head\n"); - printf ("node->head[%d]->prev[%d]=%p\n",_i,_i,node->head[_i]->prev[_i]); - } - } - - for (_i=0;_i<3;_i++) { - for (_nextCount[_i]=0,_nextTest=node->head[_i];_nextTest&&_nextTest->next[_i];_nextTest=_nextTest->next[_i],_nextCount[_i]++); - for (_prevCount[_i]=0,_prevTest=node->tail[_i];_prevTest&&_prevTest->prev[_i];_prevTest=_prevTest->prev[_i],_prevCount[_i]++); - if (_nextTest!=node->tail[_i]) { - printf ("next-list of axis %d does not end at tail\n",_i); - } - if (_prevTest!=node->head[_i]) { - printf ("prev-list of axis %d does not end at head\n",_i); - } - for (;_nextTest&&_nextTest->prev[_i];_nextTest=_nextTest->prev[_i]); - for (;_prevTest&&_prevTest->next[_i];_prevTest=_prevTest->next[_i]); - if (_nextTest!=node->head[_i]) { - printf ("next-list of axis %d does not loop back to head\n",_i); - } - if (_prevTest!=node->tail[_i]) { - printf ("prev-list of axis %d does not loop back to tail\n",_i); - } - } - for (_i=1;_i<3;_i++) { - if (_prevCount[_i]!=_prevCount[_i-1] || - _nextCount[_i]!=_nextCount[_i-1] || - _prevCount[_i]!=_nextCount[_i]) { - printf ("{%d %d %d} {%d %d %d}\n", + { + PixelList *_prevTest, *_nextTest; + int _i, _nextCount[3], _prevCount[3]; + for (_i = 0; _i < 3; _i++) { + if (node->tail[_i]->next[_i]) { + printf("tail is not tail\n"); + printf( + "node->tail[%d]->next[%d]=%p\n", _i, _i, node->tail[_i]->next[_i]); + } + if (node->head[_i]->prev[_i]) { + printf("head is not head\n"); + printf( + "node->head[%d]->prev[%d]=%p\n", _i, _i, node->head[_i]->prev[_i]); + } + } + + for (_i = 0; _i < 3; _i++) { + for (_nextCount[_i] = 0, _nextTest = node->head[_i]; + _nextTest && _nextTest->next[_i]; + _nextTest = _nextTest->next[_i], _nextCount[_i]++) + ; + for (_prevCount[_i] = 0, _prevTest = node->tail[_i]; + _prevTest && _prevTest->prev[_i]; + _prevTest = _prevTest->prev[_i], _prevCount[_i]++) + ; + if (_nextTest != node->tail[_i]) { + printf("next-list of axis %d does not end at tail\n", _i); + } + if (_prevTest != node->head[_i]) { + printf("prev-list of axis %d does not end at head\n", _i); + } + for (; _nextTest && _nextTest->prev[_i]; _nextTest = _nextTest->prev[_i]) + ; + for (; _prevTest && _prevTest->next[_i]; _prevTest = _prevTest->next[_i]) + ; + if (_nextTest != node->head[_i]) { + printf("next-list of axis %d does not loop back to head\n", _i); + } + if (_prevTest != node->tail[_i]) { + printf("prev-list of axis %d does not loop back to tail\n", _i); + } + } + for (_i = 1; _i < 3; _i++) { + if (_prevCount[_i] != _prevCount[_i - 1] || + _nextCount[_i] != _nextCount[_i - 1] || + _prevCount[_i] != _nextCount[_i]) { + printf( + "{%d %d %d} {%d %d %d}\n", _prevCount[0], _prevCount[1], _prevCount[2], _nextCount[0], _nextCount[1], _nextCount[2]); - } - } + } + } } #endif - node->axis=axis; - if (!splitlists(node->head, - node->tail, - heads, - tails, - newCounts, - axis, - node->pixelCount)) { + node->axis = axis; + if (!splitlists( + node->head, node->tail, heads, tails, newCounts, axis, node->pixelCount)) { #ifndef NO_OUTPUT - printf ("list split failed.\n"); + printf("list split failed.\n"); #endif - return 0; - } + return 0; + } #ifdef TEST_SPLIT - if (!test_sorted(heads[0])) { - printf ("bug in split"); - exit(1); - } - if (!test_sorted(heads[1])) { - printf ("bug in split"); - exit(1); - } + if (!test_sorted(heads[0])) { + printf("bug in split"); + exit(1); + } + if (!test_sorted(heads[1])) { + printf("bug in split"); + exit(1); + } #endif - /* malloc check ok, small constant allocation */ - left=malloc(sizeof(BoxNode)); - right=malloc(sizeof(BoxNode)); - if (!left||!right) { - free(left); - free(right); - return 0; - } - for(i=0;i<3;i++) { - left->head[i]=heads[0][i]; - left->tail[i]=tails[0][i]; - right->head[i]=heads[1][i]; - right->tail[i]=tails[1][i]; - node->head[i]=NULL; - node->tail[i]=NULL; - } + /* malloc check ok, small constant allocation */ + left = malloc(sizeof(BoxNode)); + right = malloc(sizeof(BoxNode)); + if (!left || !right) { + free(left); + free(right); + return 0; + } + for (i = 0; i < 3; i++) { + left->head[i] = heads[0][i]; + left->tail[i] = tails[0][i]; + right->head[i] = heads[1][i]; + right->tail[i] = tails[1][i]; + node->head[i] = NULL; + node->tail[i] = NULL; + } #ifdef TEST_SPLIT - if (left->head[0]) { - rh=left->head[0]->p.c.r; - rl=left->tail[0]->p.c.r; - gh=left->head[1]->p.c.g; - gl=left->tail[1]->p.c.g; - bh=left->head[2]->p.c.b; - bl=left->tail[2]->p.c.b; - printf (" left node [%3d %3d %3d] [%3d %3d %3d]\n",rl,gl,bl,rh,gh,bh); - } - if (right->head[0]) { - rh=right->head[0]->p.c.r; - rl=right->tail[0]->p.c.r; - gh=right->head[1]->p.c.g; - gl=right->tail[1]->p.c.g; - bh=right->head[2]->p.c.b; - bl=right->tail[2]->p.c.b; - printf (" right node [%3d %3d %3d] [%3d %3d %3d]\n",rl,gl,bl,rh,gh,bh); - } + if (left->head[0]) { + rh = left->head[0]->p.c.r; + rl = left->tail[0]->p.c.r; + gh = left->head[1]->p.c.g; + gl = left->tail[1]->p.c.g; + bh = left->head[2]->p.c.b; + bl = left->tail[2]->p.c.b; + printf(" left node [%3d %3d %3d] [%3d %3d %3d]\n", rl, gl, bl, rh, gh, bh); + } + if (right->head[0]) { + rh = right->head[0]->p.c.r; + rl = right->tail[0]->p.c.r; + gh = right->head[1]->p.c.g; + gl = right->tail[1]->p.c.g; + bh = right->head[2]->p.c.b; + bl = right->tail[2]->p.c.b; + printf(" right node [%3d %3d %3d] [%3d %3d %3d]\n", rl, gl, bl, rh, gh, bh); + } #endif - left->l=left->r=NULL; - right->l=right->r=NULL; - left->axis=right->axis=-1; - left->volume=right->volume=-1; - left->pixelCount=newCounts[0]; - right->pixelCount=newCounts[1]; - node->l=left; - node->r=right; - return 1; + left->l = left->r = NULL; + right->l = right->r = NULL; + left->axis = right->axis = -1; + left->volume = right->volume = -1; + left->pixelCount = newCounts[0]; + right->pixelCount = newCounts[1]; + node->l = left; + node->r = right; + return 1; } static BoxNode * -median_cut(PixelList *hl[3], - uint32_t imPixelCount, - int nPixels) -{ - PixelList *tl[3]; - int i; - BoxNode *root; - Heap* h; - BoxNode *thisNode; - - h=ImagingQuantHeapNew(box_heap_cmp); - /* malloc check ok, small constant allocation */ - root=malloc(sizeof(BoxNode)); - if (!root) { ImagingQuantHeapFree(h); return NULL; } - for(i=0;i<3;i++) { - for (tl[i]=hl[i];tl[i]&&tl[i]->next[i];tl[i]=tl[i]->next[i]); - root->head[i]=hl[i]; - root->tail[i]=tl[i]; - } - root->l=root->r=NULL; - root->axis=-1; - root->volume=-1; - root->pixelCount=imPixelCount; - - ImagingQuantHeapAdd(h,(void *)root); - while (--nPixels) { - do { - if (!ImagingQuantHeapRemove(h,(void **)&thisNode)) { - goto done; - } - } while (compute_box_volume(thisNode)==1); - if (!split(thisNode)) { +median_cut(PixelList *hl[3], uint32_t imPixelCount, int nPixels) { + PixelList *tl[3]; + int i; + BoxNode *root; + Heap *h; + BoxNode *thisNode; + + h = ImagingQuantHeapNew(box_heap_cmp); + /* malloc check ok, small constant allocation */ + root = malloc(sizeof(BoxNode)); + if (!root) { + ImagingQuantHeapFree(h); + return NULL; + } + for (i = 0; i < 3; i++) { + for (tl[i] = hl[i]; tl[i] && tl[i]->next[i]; tl[i] = tl[i]->next[i]) + ; + root->head[i] = hl[i]; + root->tail[i] = tl[i]; + } + root->l = root->r = NULL; + root->axis = -1; + root->volume = -1; + root->pixelCount = imPixelCount; + + ImagingQuantHeapAdd(h, (void *)root); + while (--nPixels) { + do { + if (!ImagingQuantHeapRemove(h, (void **)&thisNode)) { + goto done; + } + } while (compute_box_volume(thisNode) == 1); + if (!split(thisNode)) { #ifndef NO_OUTPUT - printf ("Oops, split failed...\n"); + printf("Oops, split failed...\n"); #endif - exit (1); - } - ImagingQuantHeapAdd(h,(void *)(thisNode->l)); - ImagingQuantHeapAdd(h,(void *)(thisNode->r)); - } + exit(1); + } + ImagingQuantHeapAdd(h, (void *)(thisNode->l)); + ImagingQuantHeapAdd(h, (void *)(thisNode->r)); + } done: - ImagingQuantHeapFree(h); - return root; + ImagingQuantHeapFree(h); + return root; } static void -free_box_tree(BoxNode *n) -{ - PixelList *p,*pp; - if (n->l) { - free_box_tree(n->l); - } - if (n->r) { - free_box_tree(n->r); - } - for (p=n->head[0];p;p=pp) { - pp=p->next[0]; - free(p); - } - free(n); +free_box_tree(BoxNode *n) { + PixelList *p, *pp; + if (n->l) { + free_box_tree(n->l); + } + if (n->r) { + free_box_tree(n->r); + } + for (p = n->head[0]; p; p = pp) { + pp = p->next[0]; + free(p); + } + free(n); } #ifdef TEST_SPLIT_INTEGRITY static int -checkContained(BoxNode *n,Pixel *pp) -{ - if (n->l&&n->r) { - return checkContained(n->l,pp)+checkContained(n->r,pp); - } - if (n->l||n->r) { +checkContained(BoxNode *n, Pixel *pp) { + if (n->l && n->r) { + return checkContained(n->l, pp) + checkContained(n->r, pp); + } + if (n->l || n->r) { #ifndef NO_OUTPUT - printf ("box tree is dead\n"); + printf("box tree is dead\n"); #endif - return 0; - } - if ( - pp->c.r<=n->head[0]->p.c.r && - pp->c.r>=n->tail[0]->p.c.r && - pp->c.g<=n->head[1]->p.c.g && - pp->c.g>=n->tail[1]->p.c.g && - pp->c.b<=n->head[2]->p.c.b && - pp->c.b>=n->tail[2]->p.c.b) { - return 1; - } - return 0; + return 0; + } + if (pp->c.r <= n->head[0]->p.c.r && pp->c.r >= n->tail[0]->p.c.r && + pp->c.g <= n->head[1]->p.c.g && pp->c.g >= n->tail[1]->p.c.g && + pp->c.b <= n->head[2]->p.c.b && pp->c.b >= n->tail[2]->p.c.b) { + return 1; + } + return 0; } #endif static int -annotate_hash_table(BoxNode *n,HashTable *h,uint32_t *box) -{ - PixelList *p; - PixelHashData *d=(PixelHashData *)hashtable_get_user_data(h); - Pixel q; - if (n->l&&n->r) { - return annotate_hash_table(n->l,h,box) && annotate_hash_table(n->r,h,box); - } - if (n->l||n->r) { +annotate_hash_table(BoxNode *n, HashTable *h, uint32_t *box) { + PixelList *p; + PixelHashData *d = (PixelHashData *)hashtable_get_user_data(h); + Pixel q; + if (n->l && n->r) { + return annotate_hash_table(n->l, h, box) && annotate_hash_table(n->r, h, box); + } + if (n->l || n->r) { #ifndef NO_OUTPUT - printf ("box tree is dead\n"); + printf("box tree is dead\n"); #endif - return 0; - } - for (p=n->head[0];p;p=p->next[0]) { - PIXEL_UNSCALE(&(p->p),&q,d->scale); - if (!hashtable_insert(h,q,*box)) { + return 0; + } + for (p = n->head[0]; p; p = p->next[0]) { + PIXEL_UNSCALE(&(p->p), &q, d->scale); + if (!hashtable_insert(h, q, *box)) { #ifndef NO_OUTPUT - printf ("hashtable insert failed\n"); + printf("hashtable insert failed\n"); #endif - return 0; - } - } - if (n->head[0]) { - (*box)++; - } - return 1; + return 0; + } + } + if (n->head[0]) { + (*box)++; + } + return 1; } static int -_sort_ulong_ptr_keys(const void *a, const void *b) -{ - uint32_t A=**(uint32_t **)a; - uint32_t B=**(uint32_t **)b; - return (A==B)?0:((A*(skRow[k]));k--) { - skRow[k]=skRow[k-1]; - } - if (k!=j) { - skRow[k]=skElt; - } - } - } - return 1; +resort_distance_tables( + uint32_t *avgDist, uint32_t **avgDistSortKey, Pixel *p, uint32_t nEntries) { + uint32_t i, j, k; + uint32_t **skRow; + uint32_t *skElt; + + for (i = 0; i < nEntries; i++) { + avgDist[i * nEntries + i] = 0; + for (j = 0; j < i; j++) { + avgDist[j * nEntries + i] = avgDist[i * nEntries + j] = + _DISTSQR(p + i, p + j); + } + } + for (i = 0; i < nEntries; i++) { + skRow = avgDistSortKey + i * nEntries; + for (j = 1; j < nEntries; j++) { + skElt = skRow[j]; + for (k = j; k && (*(skRow[k - 1]) > *(skRow[k])); k--) { + skRow[k] = skRow[k - 1]; + } + if (k != j) { + skRow[k] = skElt; + } + } + } + return 1; } static int -build_distance_tables(uint32_t *avgDist, - uint32_t **avgDistSortKey, - Pixel *p, - uint32_t nEntries) -{ - uint32_t i,j; - - for (i=0;i1) { - printf ("pixel in two boxes\n"); - for(i=0;i<3;i++) { - free (avg[i]); - } - free(count); - return 0; - } + if (!(i % 100)) { + printf("%05d\r", i); + fflush(stdout); + } + if (checkContained(root, pixelData + i) > 1) { + printf("pixel in two boxes\n"); + for (i = 0; i < 3; i++) { + free(avg[i]); + } + free(count); + return 0; + } #endif - if (!hashtable_lookup(medianBoxHash,pixelData[i],&paletteEntry)) { + if (!hashtable_lookup(medianBoxHash, pixelData[i], &paletteEntry)) { #ifndef NO_OUTPUT - printf ("pixel lookup failed\n"); + printf("pixel lookup failed\n"); #endif - for(i=0;i<3;i++) { - free (avg[i]); - } - free(count); - return 0; - } - if (paletteEntry>=nPaletteEntries) { + for (i = 0; i < 3; i++) { + free(avg[i]); + } + free(count); + return 0; + } + if (paletteEntry >= nPaletteEntries) { #ifndef NO_OUTPUT - printf ("panic - paletteEntry>=nPaletteEntries (%d>=%d)\n",(int)paletteEntry,(int)nPaletteEntries); + printf( + "panic - paletteEntry>=nPaletteEntries (%d>=%d)\n", + (int)paletteEntry, + (int)nPaletteEntries); #endif - for(i=0;i<3;i++) { - free (avg[i]); - } - free(count); - return 0; - } - avg[0][paletteEntry]+=pixelData[i].c.r; - avg[1][paletteEntry]+=pixelData[i].c.g; - avg[2][paletteEntry]+=pixelData[i].c.b; - count[paletteEntry]++; - } - /* malloc check ok, using calloc */ - p=calloc(nPaletteEntries, sizeof(Pixel)); - if (!p) { - for(i=0;i<3;i++) { - free (avg[i]); - } - free(count); - return 0; - } - for (i=0;i=nPaletteEntries) { + uint32_t *qp) { + uint32_t i; + + memset(count, 0, sizeof(uint32_t) * nPaletteEntries); + for (i = 0; i < 3; i++) { + memset(avg[i], 0, sizeof(uint32_t) * nPaletteEntries); + } + for (i = 0; i < nPixels; i++) { + if (qp[i] >= nPaletteEntries) { #ifndef NO_OUTPUT - printf ("scream\n"); + printf("scream\n"); #endif - return 0; - } - avg[0][qp[i]]+=pixelData[i].c.r; - avg[1][qp[i]]+=pixelData[i].c.g; - avg[2][qp[i]]+=pixelData[i].c.b; - count[qp[i]]++; - } - for (i=0;i UINT32_MAX / (sizeof(uint32_t))) { - return 0; - } - /* malloc check ok, using calloc */ - if (!(count=calloc(nPaletteEntries, sizeof(uint32_t)))) { - return 0; - } - for(i=0;i<3;i++) { - avg[i]=NULL; - } - for(i=0;i<3;i++) { - /* malloc check ok, using calloc */ - if (!(avg[i]=calloc(nPaletteEntries, sizeof(uint32_t)))) { - goto error_1; - } - } - - /* this is enough of a check, since the multiplication n*size is done above */ - if (nPaletteEntries > UINT32_MAX / nPaletteEntries) { - goto error_1; - } - /* malloc check ok, using calloc, checking n*n above */ - avgDist=calloc(nPaletteEntries*nPaletteEntries, sizeof(uint32_t)); - if (!avgDist) { goto error_1; } - - /* malloc check ok, using calloc, checking n*n above */ - avgDistSortKey=calloc(nPaletteEntries*nPaletteEntries, sizeof(uint32_t *)); - if (!avgDistSortKey) { goto error_2; } +k_means( + Pixel *pixelData, + uint32_t nPixels, + Pixel *paletteData, + uint32_t nPaletteEntries, + uint32_t *qp, + int threshold) { + uint32_t *avg[3]; + uint32_t *count; + uint32_t i; + uint32_t *avgDist; + uint32_t **avgDistSortKey; + int changes; + int built = 0; + + if (nPaletteEntries > UINT32_MAX / (sizeof(uint32_t))) { + return 0; + } + /* malloc check ok, using calloc */ + if (!(count = calloc(nPaletteEntries, sizeof(uint32_t)))) { + return 0; + } + for (i = 0; i < 3; i++) { + avg[i] = NULL; + } + for (i = 0; i < 3; i++) { + /* malloc check ok, using calloc */ + if (!(avg[i] = calloc(nPaletteEntries, sizeof(uint32_t)))) { + goto error_1; + } + } + + /* this is enough of a check, since the multiplication n*size is done above */ + if (nPaletteEntries > UINT32_MAX / nPaletteEntries) { + goto error_1; + } + /* malloc check ok, using calloc, checking n*n above */ + avgDist = calloc(nPaletteEntries * nPaletteEntries, sizeof(uint32_t)); + if (!avgDist) { + goto error_1; + } + + /* malloc check ok, using calloc, checking n*n above */ + avgDistSortKey = calloc(nPaletteEntries * nPaletteEntries, sizeof(uint32_t *)); + if (!avgDistSortKey) { + goto error_2; + } #ifndef NO_OUTPUT - printf("[");fflush(stdout); + printf("["); + fflush(stdout); #endif - while (1) { - if (!built) { - compute_palette_from_quantized_pixels(pixelData,nPixels,paletteData,nPaletteEntries,avg,count,qp); - build_distance_tables(avgDist,avgDistSortKey,paletteData,nPaletteEntries); - built=1; - } else { - recompute_palette_from_averages(paletteData,nPaletteEntries,avg,count); - resort_distance_tables(avgDist,avgDistSortKey,paletteData,nPaletteEntries); - } - changes=map_image_pixels_from_quantized_pixels(pixelData, - nPixels, - paletteData, - nPaletteEntries, - avgDist, - avgDistSortKey, - qp, - avg, - count); - if (changes<0) { - goto error_3; - } + while (1) { + if (!built) { + compute_palette_from_quantized_pixels( + pixelData, nPixels, paletteData, nPaletteEntries, avg, count, qp); + build_distance_tables( + avgDist, avgDistSortKey, paletteData, nPaletteEntries); + built = 1; + } else { + recompute_palette_from_averages(paletteData, nPaletteEntries, avg, count); + resort_distance_tables( + avgDist, avgDistSortKey, paletteData, nPaletteEntries); + } + changes = map_image_pixels_from_quantized_pixels( + pixelData, + nPixels, + paletteData, + nPaletteEntries, + avgDist, + avgDistSortKey, + qp, + avg, + count); + if (changes < 0) { + goto error_3; + } #ifndef NO_OUTPUT - printf (".(%d)",changes);fflush(stdout); + printf(".(%d)", changes); + fflush(stdout); #endif - if (changes<=threshold) { - break; - } - } + if (changes <= threshold) { + break; + } + } #ifndef NO_OUTPUT - printf("]\n"); + printf("]\n"); #endif - if (avgDistSortKey) { - free(avgDistSortKey); - } - if (avgDist) { - free(avgDist); - } - for(i=0;i<3;i++) { - if (avg[i]) { - free (avg[i]); - } - } - if (count) { - free(count); - } - return 1; + if (avgDistSortKey) { + free(avgDistSortKey); + } + if (avgDist) { + free(avgDist); + } + for (i = 0; i < 3; i++) { + if (avg[i]) { + free(avg[i]); + } + } + if (count) { + free(count); + } + return 1; error_3: - if (avgDistSortKey) { - free(avgDistSortKey); - } + if (avgDistSortKey) { + free(avgDistSortKey); + } error_2: - if (avgDist) { - free(avgDist); - } + if (avgDist) { + free(avgDist); + } error_1: - for(i=0;i<3;i++) { - if (avg[i]) { - free (avg[i]); - } - } - if (count) { - free(count); - } - return 0; + for (i = 0; i < 3; i++) { + if (avg[i]) { + free(avg[i]); + } + } + if (count) { + free(count); + } + return 0; } int -quantize(Pixel *pixelData, - uint32_t nPixels, - uint32_t nQuantPixels, - Pixel **palette, - uint32_t *paletteLength, - uint32_t **quantizedPixels, - int kmeans) -{ - PixelList *hl[3]; - HashTable *h; - BoxNode *root; - uint32_t i; - uint32_t *qp; - uint32_t nPaletteEntries; - - uint32_t *avgDist; - uint32_t **avgDistSortKey; - Pixel *p; +quantize( + Pixel *pixelData, + uint32_t nPixels, + uint32_t nQuantPixels, + Pixel **palette, + uint32_t *paletteLength, + uint32_t **quantizedPixels, + int kmeans) { + PixelList *hl[3]; + HashTable *h; + BoxNode *root; + uint32_t i; + uint32_t *qp; + uint32_t nPaletteEntries; + + uint32_t *avgDist; + uint32_t **avgDistSortKey; + Pixel *p; #ifndef NO_OUTPUT - uint32_t timer,timer2; + uint32_t timer, timer2; #endif #ifndef NO_OUTPUT - timer2=clock(); - printf ("create hash table..."); fflush(stdout); timer=clock(); + timer2 = clock(); + printf("create hash table..."); + fflush(stdout); + timer = clock(); #endif - h=create_pixel_hash(pixelData,nPixels); + h = create_pixel_hash(pixelData, nPixels); #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif - if (!h) { - goto error_0; - } + if (!h) { + goto error_0; + } #ifndef NO_OUTPUT - printf ("create lists from hash table..."); fflush(stdout); timer=clock(); + printf("create lists from hash table..."); + fflush(stdout); + timer = clock(); #endif - hl[0]=hl[1]=hl[2]=NULL; - hashtable_foreach(h,hash_to_list,hl); + hl[0] = hl[1] = hl[2] = NULL; + hashtable_foreach(h, hash_to_list, hl); #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif - if (!hl[0]) { - goto error_1; - } + if (!hl[0]) { + goto error_1; + } #ifndef NO_OUTPUT - printf ("mergesort lists..."); fflush(stdout); timer=clock(); + printf("mergesort lists..."); + fflush(stdout); + timer = clock(); #endif - for(i=0;i<3;i++) { - hl[i]=mergesort_pixels(hl[i],i); - } + for (i = 0; i < 3; i++) { + hl[i] = mergesort_pixels(hl[i], i); + } #ifdef TEST_MERGESORT - if (!test_sorted(hl)) { - printf ("bug in mergesort\n"); - goto error_1; - } + if (!test_sorted(hl)) { + printf("bug in mergesort\n"); + goto error_1; + } #endif #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif #ifndef NO_OUTPUT - printf ("median cut..."); fflush(stdout); timer=clock(); + printf("median cut..."); + fflush(stdout); + timer = clock(); #endif - root=median_cut(hl,nPixels,nQuantPixels); + root = median_cut(hl, nPixels, nQuantPixels); #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif - if (!root) { - goto error_1; - } - nPaletteEntries=0; + if (!root) { + goto error_1; + } + nPaletteEntries = 0; #ifndef NO_OUTPUT - printf ("median cut tree to hash table..."); fflush(stdout); timer=clock(); + printf("median cut tree to hash table..."); + fflush(stdout); + timer = clock(); #endif - annotate_hash_table(root,h,&nPaletteEntries); + annotate_hash_table(root, h, &nPaletteEntries); #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif #ifndef NO_OUTPUT - printf ("compute palette...\n"); fflush(stdout); timer=clock(); + printf("compute palette...\n"); + fflush(stdout); + timer = clock(); #endif - if (!compute_palette_from_median_cut(pixelData,nPixels,h,&p,nPaletteEntries)) { - goto error_3; - } + if (!compute_palette_from_median_cut(pixelData, nPixels, h, &p, nPaletteEntries)) { + goto error_3; + } #ifndef NO_OUTPUT - printf ("done (%f)\n",(clock()-timer)/(double)CLOCKS_PER_SEC); + printf("done (%f)\n", (clock() - timer) / (double)CLOCKS_PER_SEC); #endif - free_box_tree(root); - root=NULL; + free_box_tree(root); + root = NULL; - /* malloc check ok, using calloc for overflow */ - qp=calloc(nPixels, sizeof(uint32_t)); - if (!qp) { goto error_4; } + /* malloc check ok, using calloc for overflow */ + qp = calloc(nPixels, sizeof(uint32_t)); + if (!qp) { + goto error_4; + } - if (nPaletteEntries > UINT32_MAX / nPaletteEntries ) { - goto error_5; - } - /* malloc check ok, using calloc for overflow, check of n*n above */ - avgDist=calloc(nPaletteEntries*nPaletteEntries, sizeof(uint32_t)); - if (!avgDist) { goto error_5; } + if (nPaletteEntries > UINT32_MAX / nPaletteEntries) { + goto error_5; + } + /* malloc check ok, using calloc for overflow, check of n*n above */ + avgDist = calloc(nPaletteEntries * nPaletteEntries, sizeof(uint32_t)); + if (!avgDist) { + goto error_5; + } - /* malloc check ok, using calloc for overflow, check of n*n above */ - avgDistSortKey=calloc(nPaletteEntries*nPaletteEntries, sizeof(uint32_t *)); - if (!avgDistSortKey) { goto error_6; } + /* malloc check ok, using calloc for overflow, check of n*n above */ + avgDistSortKey = calloc(nPaletteEntries * nPaletteEntries, sizeof(uint32_t *)); + if (!avgDistSortKey) { + goto error_6; + } - if (!build_distance_tables(avgDist,avgDistSortKey,p,nPaletteEntries)) { - goto error_7; - } + if (!build_distance_tables(avgDist, avgDistSortKey, p, nPaletteEntries)) { + goto error_7; + } - if (!map_image_pixels_from_median_box(pixelData,nPixels,p,nPaletteEntries,h,avgDist,avgDistSortKey,qp)) { - goto error_7; - } + if (!map_image_pixels_from_median_box( + pixelData, nPixels, p, nPaletteEntries, h, avgDist, avgDistSortKey, qp)) { + goto error_7; + } #ifdef TEST_NEAREST_NEIGHBOUR #include - { - uint32_t bestmatch,bestdist,dist; - HashTable *h2; - printf ("nearest neighbour search (full search)..."); fflush(stdout); timer=clock(); - h2=hashtable_new(unshifted_pixel_hash,unshifted_pixel_cmp); - for (i=0;inew),&pixel); - if (data->secondPixel || newDistdata->furthestDistance) { - data->furthestDistance=oldDist; - data->furthest.v=pixel.v; - } +compute_distances(const HashTable *h, const Pixel pixel, uint32_t *dist, void *u) { + DistanceData *data = (DistanceData *)u; + uint32_t oldDist = *dist; + uint32_t newDist; + newDist = _DISTSQR(&(data->new), &pixel); + if (data->secondPixel || newDist < oldDist) { + *dist = newDist; + oldDist = newDist; + } + if (oldDist > data->furthestDistance) { + data->furthestDistance = oldDist; + data->furthest.v = pixel.v; + } } int -quantize2(Pixel *pixelData, - uint32_t nPixels, - uint32_t nQuantPixels, - Pixel **palette, - uint32_t *paletteLength, - uint32_t **quantizedPixels, - int kmeans) -{ - HashTable *h; - uint32_t i; - uint32_t mean[3]; - Pixel *p; - DistanceData data; - - uint32_t *qp; - uint32_t *avgDist; - uint32_t **avgDistSortKey; - - /* malloc check ok, using calloc */ - p=calloc(nQuantPixels, sizeof(Pixel)); - if (!p) { - return 0; - } - mean[0]=mean[1]=mean[2]=0; - h=hashtable_new(unshifted_pixel_hash,unshifted_pixel_cmp); - for (i=0;i UINT32_MAX / nQuantPixels ) { - goto error_2; - } - - /* malloc check ok, using calloc for overflow, check of n*n above */ - avgDist=calloc(nQuantPixels*nQuantPixels, sizeof(uint32_t)); - if (!avgDist) { goto error_2; } - - /* malloc check ok, using calloc for overflow, check of n*n above */ - avgDistSortKey=calloc(nQuantPixels*nQuantPixels, sizeof(uint32_t *)); - if (!avgDistSortKey) { goto error_3; } - - if (!build_distance_tables(avgDist,avgDistSortKey,p,nQuantPixels)) { - goto error_4; - } - - if (!map_image_pixels(pixelData,nPixels,p,nQuantPixels,avgDist,avgDistSortKey,qp)) { - goto error_4; - } - if (kmeans) { - k_means(pixelData,nPixels,p,nQuantPixels,qp,kmeans-1); - } - - *paletteLength=nQuantPixels; - *palette=p; - *quantizedPixels=qp; - free(avgDistSortKey); - free(avgDist); - return 1; +quantize2( + Pixel *pixelData, + uint32_t nPixels, + uint32_t nQuantPixels, + Pixel **palette, + uint32_t *paletteLength, + uint32_t **quantizedPixels, + int kmeans) { + HashTable *h; + uint32_t i; + uint32_t mean[3]; + Pixel *p; + DistanceData data; + + uint32_t *qp; + uint32_t *avgDist; + uint32_t **avgDistSortKey; + + /* malloc check ok, using calloc */ + p = calloc(nQuantPixels, sizeof(Pixel)); + if (!p) { + return 0; + } + mean[0] = mean[1] = mean[2] = 0; + h = hashtable_new(unshifted_pixel_hash, unshifted_pixel_cmp); + for (i = 0; i < nPixels; i++) { + hashtable_insert(h, pixelData[i], 0xffffffff); + mean[0] += pixelData[i].c.r; + mean[1] += pixelData[i].c.g; + mean[2] += pixelData[i].c.b; + } + data.new.c.r = (int)(.5 + (double)mean[0] / (double)nPixels); + data.new.c.g = (int)(.5 + (double)mean[1] / (double)nPixels); + data.new.c.b = (int)(.5 + (double)mean[2] / (double)nPixels); + for (i = 0; i < nQuantPixels; i++) { + data.furthestDistance = 0; + data.secondPixel = (i == 1) ? 1 : 0; + hashtable_foreach_update(h, compute_distances, &data); + p[i].v = data.furthest.v; + data.new.v = data.furthest.v; + } + hashtable_free(h); + + /* malloc check ok, using calloc */ + qp = calloc(nPixels, sizeof(uint32_t)); + if (!qp) { + goto error_1; + } + + if (nQuantPixels > UINT32_MAX / nQuantPixels) { + goto error_2; + } + + /* malloc check ok, using calloc for overflow, check of n*n above */ + avgDist = calloc(nQuantPixels * nQuantPixels, sizeof(uint32_t)); + if (!avgDist) { + goto error_2; + } + + /* malloc check ok, using calloc for overflow, check of n*n above */ + avgDistSortKey = calloc(nQuantPixels * nQuantPixels, sizeof(uint32_t *)); + if (!avgDistSortKey) { + goto error_3; + } + + if (!build_distance_tables(avgDist, avgDistSortKey, p, nQuantPixels)) { + goto error_4; + } + + if (!map_image_pixels( + pixelData, nPixels, p, nQuantPixels, avgDist, avgDistSortKey, qp)) { + goto error_4; + } + if (kmeans) { + k_means(pixelData, nPixels, p, nQuantPixels, qp, kmeans - 1); + } + + *paletteLength = nQuantPixels; + *palette = p; + *quantizedPixels = qp; + free(avgDistSortKey); + free(avgDist); + return 1; error_4: - free(avgDistSortKey); + free(avgDistSortKey); error_3: - free(avgDist); + free(avgDist); error_2: - free(qp); + free(qp); error_1: - free(p); - return 0; + free(p); + return 0; } Imaging -ImagingQuantize(Imaging im, int colors, int mode, int kmeans) -{ +ImagingQuantize(Imaging im, int colors, int mode, int kmeans) { int i, j; int x, y, v; - UINT8* pp; - Pixel* p; - Pixel* palette; + UINT8 *pp; + Pixel *p; + Pixel *palette; uint32_t paletteLength; int result; - uint32_t* newData; + uint32_t *newData; Imaging imOut; int withAlpha = 0; ImagingSectionCookie cookie; @@ -1605,17 +1630,17 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) if (colors < 1 || colors > 256) { /* FIXME: for colors > 256, consider returning an RGB image instead (see @PIL205) */ - return (Imaging) ImagingError_ValueError("bad number of colors"); + return (Imaging)ImagingError_ValueError("bad number of colors"); } if (strcmp(im->mode, "L") != 0 && strcmp(im->mode, "P") != 0 && - strcmp(im->mode, "RGB") != 0 && strcmp(im->mode, "RGBA") !=0) { + strcmp(im->mode, "RGB") != 0 && strcmp(im->mode, "RGBA") != 0) { return ImagingError_ModeError(); } /* only octree and imagequant supports RGBA */ if (!strcmp(im->mode, "RGBA") && mode != 2 && mode != 3) { - return ImagingError_ModeError(); + return ImagingError_ModeError(); } if (im->xsize > INT_MAX / im->ysize) { @@ -1653,10 +1678,10 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) for (i = y = 0; y < im->ysize; y++) { for (x = 0; x < im->xsize; x++, i++) { v = im->image8[y][x]; - p[i].c.r = pp[v*4+0]; - p[i].c.g = pp[v*4+1]; - p[i].c.b = pp[v*4+2]; - p[i].c.a = pp[v*4+3]; + p[i].c.r = pp[v * 4 + 0]; + p[i].c.g = pp[v * 4 + 1]; + p[i].c.b = pp[v * 4 + 2]; + p[i].c.a = pp[v * 4 + 3]; } } @@ -1671,72 +1696,68 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) } else { free(p); - return (Imaging) ImagingError_ValueError("internal error"); + return (Imaging)ImagingError_ValueError("internal error"); } ImagingSectionEnter(&cookie); switch (mode) { - case 0: - /* median cut */ - result = quantize( - p, - im->xsize*im->ysize, - colors, - &palette, - &paletteLength, - &newData, - kmeans - ); - break; - case 1: - /* maximum coverage */ - result = quantize2( - p, - im->xsize*im->ysize, - colors, - &palette, - &paletteLength, - &newData, - kmeans - ); - break; - case 2: - if (!strcmp(im->mode, "RGBA")) { - withAlpha = 1; - } - result = quantize_octree( - p, - im->xsize*im->ysize, - colors, - &palette, - &paletteLength, - &newData, - withAlpha - ); - break; - case 3: + case 0: + /* median cut */ + result = quantize( + p, + im->xsize * im->ysize, + colors, + &palette, + &paletteLength, + &newData, + kmeans); + break; + case 1: + /* maximum coverage */ + result = quantize2( + p, + im->xsize * im->ysize, + colors, + &palette, + &paletteLength, + &newData, + kmeans); + break; + case 2: + if (!strcmp(im->mode, "RGBA")) { + withAlpha = 1; + } + result = quantize_octree( + p, + im->xsize * im->ysize, + colors, + &palette, + &paletteLength, + &newData, + withAlpha); + break; + case 3: #ifdef HAVE_LIBIMAGEQUANT - if (!strcmp(im->mode, "RGBA")) { - withAlpha = 1; - } - result = quantize_pngquant( - p, - im->xsize, - im->ysize, - colors, - &palette, - &paletteLength, - &newData, - withAlpha - ); + if (!strcmp(im->mode, "RGBA")) { + withAlpha = 1; + } + result = quantize_pngquant( + p, + im->xsize, + im->ysize, + colors, + &palette, + &paletteLength, + &newData, + withAlpha); #else - result = -1; + result = -1; #endif - break; - default: - result = 0; - break; + break; + default: + result = 0; + break; } free(p); @@ -1748,7 +1769,7 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) for (i = y = 0; y < im->ysize; y++) { for (x = 0; x < im->xsize; x++) { - imOut->image8[y][x] = (unsigned char) newData[i++]; + imOut->image8[y][x] = (unsigned char)newData[i++]; } } @@ -1756,14 +1777,14 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) pp = imOut->palette->palette; - for (i = j = 0; i < (int) paletteLength; i++) { + for (i = j = 0; i < (int)paletteLength; i++) { *pp++ = palette[i].c.r; *pp++ = palette[i].c.g; *pp++ = palette[i].c.b; if (withAlpha) { - *pp++ = palette[i].c.a; + *pp++ = palette[i].c.a; } else { - *pp++ = 255; + *pp++ = 255; } } for (; i < 256; i++) { @@ -1783,14 +1804,12 @@ ImagingQuantize(Imaging im, int colors, int mode, int kmeans) return imOut; } else { - if (result == -1) { - return (Imaging) ImagingError_ValueError( + return (Imaging)ImagingError_ValueError( "dependency required by this method was not " "enabled at compile time"); } - return (Imaging) ImagingError_ValueError("quantization error"); - + return (Imaging)ImagingError_ValueError("quantization error"); } } diff --git a/src/libImaging/QuantHash.c b/src/libImaging/QuantHash.c index 6ff95d8857c..ea75d6037f9 100644 --- a/src/libImaging/QuantHash.c +++ b/src/libImaging/QuantHash.c @@ -24,290 +24,313 @@ #include "QuantHash.h" typedef struct _HashNode { - struct _HashNode *next; - HashKey_t key; - HashVal_t value; + struct _HashNode *next; + HashKey_t key; + HashVal_t value; } HashNode; struct _HashTable { - HashNode **table; - uint32_t length; - uint32_t count; - HashFunc hashFunc; - HashCmpFunc cmpFunc; - void *userData; + HashNode **table; + uint32_t length; + uint32_t count; + HashFunc hashFunc; + HashCmpFunc cmpFunc; + void *userData; }; #define MIN_LENGTH 11 #define RESIZE_FACTOR 3 -static int _hashtable_insert_node(HashTable *,HashNode *,int,int,CollisionFunc); +static int +_hashtable_insert_node(HashTable *, HashNode *, int, int, CollisionFunc); -HashTable *hashtable_new(HashFunc hf,HashCmpFunc cf) { - HashTable *h; - h=malloc(sizeof(HashTable)); - if (!h) { return NULL; } - h->hashFunc=hf; - h->cmpFunc=cf; - h->length=MIN_LENGTH; - h->count=0; - h->userData=NULL; - h->table=malloc(sizeof(HashNode *)*h->length); - if (!h->table) { free(h); return NULL; } - memset (h->table,0,sizeof(HashNode *)*h->length); - return h; +HashTable * +hashtable_new(HashFunc hf, HashCmpFunc cf) { + HashTable *h; + h = malloc(sizeof(HashTable)); + if (!h) { + return NULL; + } + h->hashFunc = hf; + h->cmpFunc = cf; + h->length = MIN_LENGTH; + h->count = 0; + h->userData = NULL; + h->table = malloc(sizeof(HashNode *) * h->length); + if (!h->table) { + free(h); + return NULL; + } + memset(h->table, 0, sizeof(HashNode *) * h->length); + return h; } -static uint32_t _findPrime(uint32_t start,int dir) { - static int unit[]={0,1,0,1,0,0,0,1,0,1,0,1,0,1,0,0}; - uint32_t t; - while (start>1) { - if (!unit[start&0x0f]) { - start+=dir; - continue; - } - for (t=2;t=sqrt((double)start)) { - break; - } - start+=dir; - } - return start; +static uint32_t +_findPrime(uint32_t start, int dir) { + static int unit[] = {0, 1, 0, 1, 0, 0, 0, 1, 0, 1, 0, 1, 0, 1, 0, 0}; + uint32_t t; + while (start > 1) { + if (!unit[start & 0x0f]) { + start += dir; + continue; + } + for (t = 2; t < sqrt((double)start); t++) { + if (!start % t) { + break; + } + } + if (t >= sqrt((double)start)) { + break; + } + start += dir; + } + return start; } -static void _hashtable_rehash(HashTable *h,CollisionFunc cf,uint32_t newSize) { - HashNode **oldTable=h->table; - uint32_t i; - HashNode *n,*nn; - uint32_t oldSize; - oldSize=h->length; - h->table=malloc(sizeof(HashNode *)*newSize); - if (!h->table) { - h->table=oldTable; - return; - } - h->length=newSize; - h->count=0; - memset (h->table,0,sizeof(HashNode *)*h->length); - for (i=0;inext; - _hashtable_insert_node(h,n,0,0,cf); - } - } - free(oldTable); +static void +_hashtable_rehash(HashTable *h, CollisionFunc cf, uint32_t newSize) { + HashNode **oldTable = h->table; + uint32_t i; + HashNode *n, *nn; + uint32_t oldSize; + oldSize = h->length; + h->table = malloc(sizeof(HashNode *) * newSize); + if (!h->table) { + h->table = oldTable; + return; + } + h->length = newSize; + h->count = 0; + memset(h->table, 0, sizeof(HashNode *) * h->length); + for (i = 0; i < oldSize; i++) { + for (n = oldTable[i]; n; n = nn) { + nn = n->next; + _hashtable_insert_node(h, n, 0, 0, cf); + } + } + free(oldTable); } -static void _hashtable_resize(HashTable *h) { - uint32_t newSize; - uint32_t oldSize; - oldSize=h->length; - newSize=oldSize; - if (h->count*RESIZE_FACTORlength) { - newSize=_findPrime(h->length/2-1,-1); - } else if (h->length*RESIZE_FACTORcount) { - newSize=_findPrime(h->length*2+1,+1); - } - if (newSizelength; + newSize = oldSize; + if (h->count * RESIZE_FACTOR < h->length) { + newSize = _findPrime(h->length / 2 - 1, -1); + } else if (h->length * RESIZE_FACTOR < h->count) { + newSize = _findPrime(h->length * 2 + 1, +1); + } + if (newSize < MIN_LENGTH) { + newSize = oldSize; + } + if (newSize != oldSize) { + _hashtable_rehash(h, NULL, newSize); + } } -static int _hashtable_insert_node(HashTable *h,HashNode *node,int resize,int update,CollisionFunc cf) { - uint32_t hash=h->hashFunc(h,node->key)%h->length; - HashNode **n,*nv; - int i; +static int +_hashtable_insert_node( + HashTable *h, HashNode *node, int resize, int update, CollisionFunc cf) { + uint32_t hash = h->hashFunc(h, node->key) % h->length; + HashNode **n, *nv; + int i; - for (n=&(h->table[hash]);*n;n=&((*n)->next)) { - nv=*n; - i=h->cmpFunc(h,nv->key,node->key); - if (!i) { - if (cf) { - nv->key=node->key; - cf(h,&(nv->key),&(nv->value),node->key,node->value); - free(node); - return 1; - } else { - nv->key=node->key; - nv->value=node->value; - free(node); - return 1; - } - } else if (i>0) { - break; - } - } - if (!update) { - node->next=*n; - *n=node; - h->count++; - if (resize) { - _hashtable_resize(h); - } - return 1; - } else { - return 0; - } + for (n = &(h->table[hash]); *n; n = &((*n)->next)) { + nv = *n; + i = h->cmpFunc(h, nv->key, node->key); + if (!i) { + if (cf) { + nv->key = node->key; + cf(h, &(nv->key), &(nv->value), node->key, node->value); + free(node); + return 1; + } else { + nv->key = node->key; + nv->value = node->value; + free(node); + return 1; + } + } else if (i > 0) { + break; + } + } + if (!update) { + node->next = *n; + *n = node; + h->count++; + if (resize) { + _hashtable_resize(h); + } + return 1; + } else { + return 0; + } } -static int _hashtable_insert(HashTable *h,HashKey_t key,HashVal_t val,int resize,int update) { - HashNode **n,*nv; - HashNode *t; - int i; - uint32_t hash=h->hashFunc(h,key)%h->length; +static int +_hashtable_insert(HashTable *h, HashKey_t key, HashVal_t val, int resize, int update) { + HashNode **n, *nv; + HashNode *t; + int i; + uint32_t hash = h->hashFunc(h, key) % h->length; - for (n=&(h->table[hash]);*n;n=&((*n)->next)) { - nv=*n; - i=h->cmpFunc(h,nv->key,key); - if (!i) { - nv->value=val; - return 1; - } else if (i>0) { - break; - } - } - if (!update) { - t=malloc(sizeof(HashNode)); - if (!t) { - return 0; - } - t->next=*n; - *n=t; - t->key=key; - t->value=val; - h->count++; - if (resize) { - _hashtable_resize(h); - } - return 1; - } else { - return 0; - } + for (n = &(h->table[hash]); *n; n = &((*n)->next)) { + nv = *n; + i = h->cmpFunc(h, nv->key, key); + if (!i) { + nv->value = val; + return 1; + } else if (i > 0) { + break; + } + } + if (!update) { + t = malloc(sizeof(HashNode)); + if (!t) { + return 0; + } + t->next = *n; + *n = t; + t->key = key; + t->value = val; + h->count++; + if (resize) { + _hashtable_resize(h); + } + return 1; + } else { + return 0; + } } -int hashtable_insert_or_update_computed(HashTable *h, - HashKey_t key, - ComputeFunc newFunc, - ComputeFunc existsFunc) { - HashNode **n,*nv; - HashNode *t; - int i; - uint32_t hash=h->hashFunc(h,key)%h->length; +int +hashtable_insert_or_update_computed( + HashTable *h, HashKey_t key, ComputeFunc newFunc, ComputeFunc existsFunc) { + HashNode **n, *nv; + HashNode *t; + int i; + uint32_t hash = h->hashFunc(h, key) % h->length; - for (n=&(h->table[hash]);*n;n=&((*n)->next)) { - nv=*n; - i=h->cmpFunc(h,nv->key,key); - if (!i) { - if (existsFunc) { - existsFunc(h,nv->key,&(nv->value)); - } else { - return 0; - } - return 1; - } else if (i>0) { - break; - } - } - t=malloc(sizeof(HashNode)); - if (!t) { - return 0; - } - t->key=key; - t->next=*n; - *n=t; - if (newFunc) { - newFunc(h,t->key,&(t->value)); - } else { - free(t); - return 0; - } - h->count++; - _hashtable_resize(h); - return 1; + for (n = &(h->table[hash]); *n; n = &((*n)->next)) { + nv = *n; + i = h->cmpFunc(h, nv->key, key); + if (!i) { + if (existsFunc) { + existsFunc(h, nv->key, &(nv->value)); + } else { + return 0; + } + return 1; + } else if (i > 0) { + break; + } + } + t = malloc(sizeof(HashNode)); + if (!t) { + return 0; + } + t->key = key; + t->next = *n; + *n = t; + if (newFunc) { + newFunc(h, t->key, &(t->value)); + } else { + free(t); + return 0; + } + h->count++; + _hashtable_resize(h); + return 1; } -int hashtable_insert(HashTable *h,HashKey_t key,HashVal_t val) { - return _hashtable_insert(h,key,val,1,0); +int +hashtable_insert(HashTable *h, HashKey_t key, HashVal_t val) { + return _hashtable_insert(h, key, val, 1, 0); } -void hashtable_foreach_update(HashTable *h,IteratorUpdateFunc i,void *u) { - HashNode *n; - uint32_t x; +void +hashtable_foreach_update(HashTable *h, IteratorUpdateFunc i, void *u) { + HashNode *n; + uint32_t x; - if (h->table) { - for (x=0;xlength;x++) { - for (n=h->table[x];n;n=n->next) { - i(h,n->key,&(n->value),u); - } - } - } + if (h->table) { + for (x = 0; x < h->length; x++) { + for (n = h->table[x]; n; n = n->next) { + i(h, n->key, &(n->value), u); + } + } + } } -void hashtable_foreach(HashTable *h,IteratorFunc i,void *u) { - HashNode *n; - uint32_t x; +void +hashtable_foreach(HashTable *h, IteratorFunc i, void *u) { + HashNode *n; + uint32_t x; - if (h->table) { - for (x=0;xlength;x++) { - for (n=h->table[x];n;n=n->next) { - i(h,n->key,n->value,u); - } - } - } + if (h->table) { + for (x = 0; x < h->length; x++) { + for (n = h->table[x]; n; n = n->next) { + i(h, n->key, n->value, u); + } + } + } } -void hashtable_free(HashTable *h) { - HashNode *n,*nn; - uint32_t i; +void +hashtable_free(HashTable *h) { + HashNode *n, *nn; + uint32_t i; - if (h->table) { - for (i=0;ilength;i++) { - for (n=h->table[i];n;n=nn) { - nn=n->next; - free(n); - } - } - free(h->table); - } - free(h); + if (h->table) { + for (i = 0; i < h->length; i++) { + for (n = h->table[i]; n; n = nn) { + nn = n->next; + free(n); + } + } + free(h->table); + } + free(h); } -void hashtable_rehash_compute(HashTable *h,CollisionFunc cf) { - _hashtable_rehash(h,cf,h->length); +void +hashtable_rehash_compute(HashTable *h, CollisionFunc cf) { + _hashtable_rehash(h, cf, h->length); } -int hashtable_lookup(const HashTable *h,const HashKey_t key,HashVal_t *valp) { - uint32_t hash=h->hashFunc(h,key)%h->length; - HashNode *n; - int i; +int +hashtable_lookup(const HashTable *h, const HashKey_t key, HashVal_t *valp) { + uint32_t hash = h->hashFunc(h, key) % h->length; + HashNode *n; + int i; - for (n=h->table[hash];n;n=n->next) { - i=h->cmpFunc(h,n->key,key); - if (!i) { - *valp=n->value; - return 1; - } else if (i>0) { - break; - } - } - return 0; + for (n = h->table[hash]; n; n = n->next) { + i = h->cmpFunc(h, n->key, key); + if (!i) { + *valp = n->value; + return 1; + } else if (i > 0) { + break; + } + } + return 0; } -uint32_t hashtable_get_count(const HashTable *h) { - return h->count; +uint32_t +hashtable_get_count(const HashTable *h) { + return h->count; } -void *hashtable_get_user_data(const HashTable *h) { - return h->userData; +void * +hashtable_get_user_data(const HashTable *h) { + return h->userData; } -void *hashtable_set_user_data(HashTable *h,void *data) { - void *r=h->userData; - h->userData=data; - return r; +void * +hashtable_set_user_data(HashTable *h, void *data) { + void *r = h->userData; + h->userData = data; + return r; } diff --git a/src/libImaging/QuantHash.h b/src/libImaging/QuantHash.h index 9874114e581..fc1a9900376 100644 --- a/src/libImaging/QuantHash.h +++ b/src/libImaging/QuantHash.h @@ -18,23 +18,38 @@ typedef struct _HashTable HashTable; typedef Pixel HashKey_t; typedef uint32_t HashVal_t; -typedef uint32_t (*HashFunc)(const HashTable *,const HashKey_t); -typedef int (*HashCmpFunc)(const HashTable *,const HashKey_t,const HashKey_t); -typedef void (*IteratorFunc)(const HashTable *,const HashKey_t,const HashVal_t,void *); -typedef void (*IteratorUpdateFunc)(const HashTable *,const HashKey_t,HashVal_t *,void *); -typedef void (*ComputeFunc)(const HashTable *,const HashKey_t,HashVal_t *); -typedef void (*CollisionFunc)(const HashTable *,HashKey_t *,HashVal_t *,HashKey_t,HashVal_t); +typedef uint32_t (*HashFunc)(const HashTable *, const HashKey_t); +typedef int (*HashCmpFunc)(const HashTable *, const HashKey_t, const HashKey_t); +typedef void (*IteratorFunc)( + const HashTable *, const HashKey_t, const HashVal_t, void *); +typedef void (*IteratorUpdateFunc)( + const HashTable *, const HashKey_t, HashVal_t *, void *); +typedef void (*ComputeFunc)(const HashTable *, const HashKey_t, HashVal_t *); +typedef void (*CollisionFunc)( + const HashTable *, HashKey_t *, HashVal_t *, HashKey_t, HashVal_t); -HashTable * hashtable_new(HashFunc hf,HashCmpFunc cf); -void hashtable_free(HashTable *h); -void hashtable_foreach(HashTable *h,IteratorFunc i,void *u); -void hashtable_foreach_update(HashTable *h,IteratorUpdateFunc i,void *u); -int hashtable_insert(HashTable *h,HashKey_t key,HashVal_t val); -int hashtable_lookup(const HashTable *h,const HashKey_t key,HashVal_t *valp); -int hashtable_insert_or_update_computed(HashTable *h,HashKey_t key,ComputeFunc newFunc,ComputeFunc existsFunc); -void *hashtable_set_user_data(HashTable *h,void *data); -void *hashtable_get_user_data(const HashTable *h); -uint32_t hashtable_get_count(const HashTable *h); -void hashtable_rehash_compute(HashTable *h,CollisionFunc cf); +HashTable * +hashtable_new(HashFunc hf, HashCmpFunc cf); +void +hashtable_free(HashTable *h); +void +hashtable_foreach(HashTable *h, IteratorFunc i, void *u); +void +hashtable_foreach_update(HashTable *h, IteratorUpdateFunc i, void *u); +int +hashtable_insert(HashTable *h, HashKey_t key, HashVal_t val); +int +hashtable_lookup(const HashTable *h, const HashKey_t key, HashVal_t *valp); +int +hashtable_insert_or_update_computed( + HashTable *h, HashKey_t key, ComputeFunc newFunc, ComputeFunc existsFunc); +void * +hashtable_set_user_data(HashTable *h, void *data); +void * +hashtable_get_user_data(const HashTable *h); +uint32_t +hashtable_get_count(const HashTable *h); +void +hashtable_rehash_compute(HashTable *h, CollisionFunc cf); -#endif // __QUANTHASH_H__ +#endif // __QUANTHASH_H__ diff --git a/src/libImaging/QuantHeap.c b/src/libImaging/QuantHeap.c index 6877e34a3e8..6fb52d8902e 100644 --- a/src/libImaging/QuantHeap.c +++ b/src/libImaging/QuantHeap.c @@ -25,10 +25,10 @@ #include "QuantHeap.h" struct _Heap { - void **heap; - unsigned int heapsize; - unsigned int heapcount; - HeapCmpFunc cf; + void **heap; + unsigned int heapsize; + unsigned int heapcount; + HeapCmpFunc cf; }; #define INITIAL_SIZE 256 @@ -36,127 +36,141 @@ struct _Heap { // #define DEBUG #ifdef DEBUG -static int _heap_test(Heap *); +static int +_heap_test(Heap *); #endif -void ImagingQuantHeapFree(Heap *h) { - free(h->heap); - free(h); +void +ImagingQuantHeapFree(Heap *h) { + free(h->heap); + free(h); } -static int _heap_grow(Heap *h,unsigned int newsize) { - void *newheap; - if (!newsize) { - newsize=h->heapsize<<1; - } - if (newsizeheapsize) { - return 0; - } - if (newsize > INT_MAX / sizeof(void *)){ - return 0; - } - /* malloc check ok, using calloc for overflow, also checking - above due to memcpy below*/ - newheap=calloc(newsize, sizeof(void *)); - if (!newheap) { - return 0; - } - memcpy(newheap,h->heap,sizeof(void *)*h->heapsize); - free(h->heap); - h->heap=newheap; - h->heapsize=newsize; - return 1; +static int +_heap_grow(Heap *h, unsigned int newsize) { + void *newheap; + if (!newsize) { + newsize = h->heapsize << 1; + } + if (newsize < h->heapsize) { + return 0; + } + if (newsize > INT_MAX / sizeof(void *)) { + return 0; + } + /* malloc check ok, using calloc for overflow, also checking + above due to memcpy below*/ + newheap = calloc(newsize, sizeof(void *)); + if (!newheap) { + return 0; + } + memcpy(newheap, h->heap, sizeof(void *) * h->heapsize); + free(h->heap); + h->heap = newheap; + h->heapsize = newsize; + return 1; } #ifdef DEBUG -static int _heap_test(Heap *h) { - unsigned int k; - for (k=1;k*2<=h->heapcount;k++) { - if (h->cf(h,h->heap[k],h->heap[k*2])<0) { - printf ("heap is bad\n"); - return 0; - } - if (k*2+1<=h->heapcount && h->cf(h,h->heap[k],h->heap[k*2+1])<0) { - printf ("heap is bad\n"); - return 0; - } - } - return 1; +static int +_heap_test(Heap *h) { + unsigned int k; + for (k = 1; k * 2 <= h->heapcount; k++) { + if (h->cf(h, h->heap[k], h->heap[k * 2]) < 0) { + printf("heap is bad\n"); + return 0; + } + if (k * 2 + 1 <= h->heapcount && h->cf(h, h->heap[k], h->heap[k * 2 + 1]) < 0) { + printf("heap is bad\n"); + return 0; + } + } + return 1; } #endif -int ImagingQuantHeapRemove(Heap* h,void **r) { - unsigned int k,l; - void *v; +int +ImagingQuantHeapRemove(Heap *h, void **r) { + unsigned int k, l; + void *v; - if (!h->heapcount) { - return 0; - } - *r=h->heap[1]; - v=h->heap[h->heapcount--]; - for (k=1;k*2<=h->heapcount;k=l) { - l=k*2; - if (lheapcount) { - if (h->cf(h,h->heap[l],h->heap[l+1])<0) { - l++; - } - } - if (h->cf(h,v,h->heap[l])>0) { - break; - } - h->heap[k]=h->heap[l]; - } - h->heap[k]=v; + if (!h->heapcount) { + return 0; + } + *r = h->heap[1]; + v = h->heap[h->heapcount--]; + for (k = 1; k * 2 <= h->heapcount; k = l) { + l = k * 2; + if (l < h->heapcount) { + if (h->cf(h, h->heap[l], h->heap[l + 1]) < 0) { + l++; + } + } + if (h->cf(h, v, h->heap[l]) > 0) { + break; + } + h->heap[k] = h->heap[l]; + } + h->heap[k] = v; #ifdef DEBUG - if (!_heap_test(h)) { printf ("oops - heap_remove messed up the heap\n"); exit(1); } + if (!_heap_test(h)) { + printf("oops - heap_remove messed up the heap\n"); + exit(1); + } #endif - return 1; + return 1; } -int ImagingQuantHeapAdd(Heap *h,void *val) { - int k; - if (h->heapcount==h->heapsize-1) { - _heap_grow(h,0); - } - k=++h->heapcount; - while (k!=1) { - if (h->cf(h,val,h->heap[k/2])<=0) { - break; - } - h->heap[k]=h->heap[k/2]; - k>>=1; - } - h->heap[k]=val; +int +ImagingQuantHeapAdd(Heap *h, void *val) { + int k; + if (h->heapcount == h->heapsize - 1) { + _heap_grow(h, 0); + } + k = ++h->heapcount; + while (k != 1) { + if (h->cf(h, val, h->heap[k / 2]) <= 0) { + break; + } + h->heap[k] = h->heap[k / 2]; + k >>= 1; + } + h->heap[k] = val; #ifdef DEBUG - if (!_heap_test(h)) { printf ("oops - heap_add messed up the heap\n"); exit(1); } + if (!_heap_test(h)) { + printf("oops - heap_add messed up the heap\n"); + exit(1); + } #endif - return 1; + return 1; } -int ImagingQuantHeapTop(Heap *h,void **r) { - if (!h->heapcount) { - return 0; - } - *r=h->heap[1]; - return 1; +int +ImagingQuantHeapTop(Heap *h, void **r) { + if (!h->heapcount) { + return 0; + } + *r = h->heap[1]; + return 1; } -Heap *ImagingQuantHeapNew(HeapCmpFunc cf) { - Heap *h; +Heap * +ImagingQuantHeapNew(HeapCmpFunc cf) { + Heap *h; - /* malloc check ok, small constant allocation */ - h=malloc(sizeof(Heap)); - if (!h) { - return NULL; - } - h->heapsize=INITIAL_SIZE; - /* malloc check ok, using calloc for overflow */ - h->heap=calloc(h->heapsize, sizeof(void *)); - if (!h->heap) { - free(h); - return NULL; - } - h->heapcount=0; - h->cf=cf; - return h; + /* malloc check ok, small constant allocation */ + h = malloc(sizeof(Heap)); + if (!h) { + return NULL; + } + h->heapsize = INITIAL_SIZE; + /* malloc check ok, using calloc for overflow */ + h->heap = calloc(h->heapsize, sizeof(void *)); + if (!h->heap) { + free(h); + return NULL; + } + h->heapcount = 0; + h->cf = cf; + return h; } diff --git a/src/libImaging/QuantHeap.h b/src/libImaging/QuantHeap.h index 77bf0d9d550..c5286dff2ba 100644 --- a/src/libImaging/QuantHeap.h +++ b/src/libImaging/QuantHeap.h @@ -16,12 +16,16 @@ typedef struct _Heap Heap; -typedef int (*HeapCmpFunc)(const Heap *,const void *,const void *); +typedef int (*HeapCmpFunc)(const Heap *, const void *, const void *); -void ImagingQuantHeapFree(Heap *); -int ImagingQuantHeapRemove(Heap *,void **); -int ImagingQuantHeapAdd(Heap *,void *); -int ImagingQuantHeapTop(Heap *,void **); +void +ImagingQuantHeapFree(Heap *); +int +ImagingQuantHeapRemove(Heap *, void **); +int +ImagingQuantHeapAdd(Heap *, void *); +int +ImagingQuantHeapTop(Heap *, void **); Heap *ImagingQuantHeapNew(HeapCmpFunc); -#endif // __QUANTHEAP_H__ +#endif // __QUANTHEAP_H__ diff --git a/src/libImaging/QuantOctree.c b/src/libImaging/QuantOctree.c index e1205acc3ba..b8d4d1d7c02 100644 --- a/src/libImaging/QuantOctree.c +++ b/src/libImaging/QuantOctree.c @@ -31,490 +31,508 @@ #include "ImagingUtils.h" #include "QuantOctree.h" -typedef struct _ColorBucket{ - /* contains palette index when used for look up cube */ - uint32_t count; - uint64_t r; - uint64_t g; - uint64_t b; - uint64_t a; -} *ColorBucket; - -typedef struct _ColorCube{ - unsigned int rBits, gBits, bBits, aBits; - unsigned int rWidth, gWidth, bWidth, aWidth; - unsigned int rOffset, gOffset, bOffset, aOffset; - - unsigned long size; - ColorBucket buckets; -} *ColorCube; - -#define MAX(a, b) (a)>(b) ? (a) : (b) +typedef struct _ColorBucket { + /* contains palette index when used for look up cube */ + uint32_t count; + uint64_t r; + uint64_t g; + uint64_t b; + uint64_t a; +} * ColorBucket; + +typedef struct _ColorCube { + unsigned int rBits, gBits, bBits, aBits; + unsigned int rWidth, gWidth, bWidth, aWidth; + unsigned int rOffset, gOffset, bOffset, aOffset; + + unsigned long size; + ColorBucket buckets; +} * ColorCube; + +#define MAX(a, b) (a) > (b) ? (a) : (b) static ColorCube new_color_cube(int r, int g, int b, int a) { - ColorCube cube; - - /* malloc check ok, small constant allocation */ - cube = malloc(sizeof(struct _ColorCube)); - if (!cube) { - return NULL; - } - - cube->rBits = MAX(r, 0); - cube->gBits = MAX(g, 0); - cube->bBits = MAX(b, 0); - cube->aBits = MAX(a, 0); - - /* overflow check for size multiplication below */ - if (cube->rBits + cube->gBits + cube->bBits + cube->aBits > 31) { - free(cube); - return NULL; - } - - /* the width of the cube for each dimension */ - cube->rWidth = 1<rBits; - cube->gWidth = 1<gBits; - cube->bWidth = 1<bBits; - cube->aWidth = 1<aBits; - - /* the offsets of each color */ - - cube->rOffset = cube->gBits + cube->bBits + cube->aBits; - cube->gOffset = cube->bBits + cube->aBits; - cube->bOffset = cube->aBits; - cube->aOffset = 0; - - /* the number of color buckets */ - cube->size = cube->rWidth * cube->gWidth * cube->bWidth * cube->aWidth; - /* malloc check ok, overflow checked above */ - cube->buckets = calloc(cube->size, sizeof(struct _ColorBucket)); - - if (!cube->buckets) { - free(cube); - return NULL; - } - return cube; + ColorCube cube; + + /* malloc check ok, small constant allocation */ + cube = malloc(sizeof(struct _ColorCube)); + if (!cube) { + return NULL; + } + + cube->rBits = MAX(r, 0); + cube->gBits = MAX(g, 0); + cube->bBits = MAX(b, 0); + cube->aBits = MAX(a, 0); + + /* overflow check for size multiplication below */ + if (cube->rBits + cube->gBits + cube->bBits + cube->aBits > 31) { + free(cube); + return NULL; + } + + /* the width of the cube for each dimension */ + cube->rWidth = 1 << cube->rBits; + cube->gWidth = 1 << cube->gBits; + cube->bWidth = 1 << cube->bBits; + cube->aWidth = 1 << cube->aBits; + + /* the offsets of each color */ + + cube->rOffset = cube->gBits + cube->bBits + cube->aBits; + cube->gOffset = cube->bBits + cube->aBits; + cube->bOffset = cube->aBits; + cube->aOffset = 0; + + /* the number of color buckets */ + cube->size = cube->rWidth * cube->gWidth * cube->bWidth * cube->aWidth; + /* malloc check ok, overflow checked above */ + cube->buckets = calloc(cube->size, sizeof(struct _ColorBucket)); + + if (!cube->buckets) { + free(cube); + return NULL; + } + return cube; } static void free_color_cube(ColorCube cube) { - if (cube != NULL) { - free(cube->buckets); - free(cube); - } + if (cube != NULL) { + free(cube->buckets); + free(cube); + } } static long -color_bucket_offset_pos(const ColorCube cube, - unsigned int r, unsigned int g, unsigned int b, unsigned int a) -{ - return r<rOffset | g<gOffset | b<bOffset | a<aOffset; +color_bucket_offset_pos( + const ColorCube cube, + unsigned int r, + unsigned int g, + unsigned int b, + unsigned int a) { + return r << cube->rOffset | g << cube->gOffset | b << cube->bOffset | + a << cube->aOffset; } static long color_bucket_offset(const ColorCube cube, const Pixel *p) { - unsigned int r = p->c.r>>(8-cube->rBits); - unsigned int g = p->c.g>>(8-cube->gBits); - unsigned int b = p->c.b>>(8-cube->bBits); - unsigned int a = p->c.a>>(8-cube->aBits); - return color_bucket_offset_pos(cube, r, g, b, a); + unsigned int r = p->c.r >> (8 - cube->rBits); + unsigned int g = p->c.g >> (8 - cube->gBits); + unsigned int b = p->c.b >> (8 - cube->bBits); + unsigned int a = p->c.a >> (8 - cube->aBits); + return color_bucket_offset_pos(cube, r, g, b, a); } static ColorBucket color_bucket_from_cube(const ColorCube cube, const Pixel *p) { - unsigned int offset = color_bucket_offset(cube, p); - return &cube->buckets[offset]; + unsigned int offset = color_bucket_offset(cube, p); + return &cube->buckets[offset]; } static void add_color_to_color_cube(const ColorCube cube, const Pixel *p) { - ColorBucket bucket = color_bucket_from_cube(cube, p); - bucket->count += 1; - bucket->r += p->c.r; - bucket->g += p->c.g; - bucket->b += p->c.b; - bucket->a += p->c.a; + ColorBucket bucket = color_bucket_from_cube(cube, p); + bucket->count += 1; + bucket->r += p->c.r; + bucket->g += p->c.g; + bucket->b += p->c.b; + bucket->a += p->c.a; } static unsigned long count_used_color_buckets(const ColorCube cube) { - unsigned long usedBuckets = 0; - unsigned long i; - for (i=0; i < cube->size; i++) { - if (cube->buckets[i].count > 0) { - usedBuckets += 1; - } - } - return usedBuckets; + unsigned long usedBuckets = 0; + unsigned long i; + for (i = 0; i < cube->size; i++) { + if (cube->buckets[i].count > 0) { + usedBuckets += 1; + } + } + return usedBuckets; } static void avg_color_from_color_bucket(const ColorBucket bucket, Pixel *dst) { - float count = bucket->count; - if (count != 0) { - dst->c.r = CLIP8((int)(bucket->r / count)); - dst->c.g = CLIP8((int)(bucket->g / count)); - dst->c.b = CLIP8((int)(bucket->b / count)); - dst->c.a = CLIP8((int)(bucket->a / count)); - } else { - dst->c.r = 0; - dst->c.g = 0; - dst->c.b = 0; - dst->c.a = 0; - } + float count = bucket->count; + if (count != 0) { + dst->c.r = CLIP8((int)(bucket->r / count)); + dst->c.g = CLIP8((int)(bucket->g / count)); + dst->c.b = CLIP8((int)(bucket->b / count)); + dst->c.a = CLIP8((int)(bucket->a / count)); + } else { + dst->c.r = 0; + dst->c.g = 0; + dst->c.b = 0; + dst->c.a = 0; + } } static int compare_bucket_count(const ColorBucket a, const ColorBucket b) { - return b->count - a->count; + return b->count - a->count; } static ColorBucket create_sorted_color_palette(const ColorCube cube) { - ColorBucket buckets; - if (cube->size > LONG_MAX / sizeof(struct _ColorBucket)) { - return NULL; - } - /* malloc check ok, calloc + overflow check above for memcpy */ - buckets = calloc(cube->size, sizeof(struct _ColorBucket)); - if (!buckets) { - return NULL; - } - memcpy(buckets, cube->buckets, sizeof(struct _ColorBucket)*cube->size); - - qsort(buckets, cube->size, sizeof(struct _ColorBucket), - (int (*)(void const *, void const *))&compare_bucket_count); - - return buckets; + ColorBucket buckets; + if (cube->size > LONG_MAX / sizeof(struct _ColorBucket)) { + return NULL; + } + /* malloc check ok, calloc + overflow check above for memcpy */ + buckets = calloc(cube->size, sizeof(struct _ColorBucket)); + if (!buckets) { + return NULL; + } + memcpy(buckets, cube->buckets, sizeof(struct _ColorBucket) * cube->size); + + qsort( + buckets, + cube->size, + sizeof(struct _ColorBucket), + (int (*)(void const *, void const *)) & compare_bucket_count); + + return buckets; } -void add_bucket_values(ColorBucket src, ColorBucket dst) { - dst->count += src->count; - dst->r += src->r; - dst->g += src->g; - dst->b += src->b; - dst->a += src->a; +void +add_bucket_values(ColorBucket src, ColorBucket dst) { + dst->count += src->count; + dst->r += src->r; + dst->g += src->g; + dst->b += src->b; + dst->a += src->a; } /* expand or shrink a given cube to level */ -static ColorCube copy_color_cube(const ColorCube cube, - unsigned int rBits, unsigned int gBits, unsigned int bBits, unsigned int aBits) -{ - unsigned int r, g, b, a; - long src_pos, dst_pos; - unsigned int src_reduce[4] = {0}, dst_reduce[4] = {0}; - unsigned int width[4]; - ColorCube result; - - result = new_color_cube(rBits, gBits, bBits, aBits); - if (!result) { - return NULL; - } - - if (cube->rBits > rBits) { - dst_reduce[0] = cube->rBits - result->rBits; - width[0] = cube->rWidth; - } else { - src_reduce[0] = result->rBits - cube->rBits; - width[0] = result->rWidth; - } - if (cube->gBits > gBits) { - dst_reduce[1] = cube->gBits - result->gBits; - width[1] = cube->gWidth; - } else { - src_reduce[1] = result->gBits - cube->gBits; - width[1] = result->gWidth; - } - if (cube->bBits > bBits) { - dst_reduce[2] = cube->bBits - result->bBits; - width[2] = cube->bWidth; - } else { - src_reduce[2] = result->bBits - cube->bBits; - width[2] = result->bWidth; - } - if (cube->aBits > aBits) { - dst_reduce[3] = cube->aBits - result->aBits; - width[3] = cube->aWidth; - } else { - src_reduce[3] = result->aBits - cube->aBits; - width[3] = result->aWidth; - } - - for (r=0; r>src_reduce[0], - g>>src_reduce[1], - b>>src_reduce[2], - a>>src_reduce[3]); - dst_pos = color_bucket_offset_pos(result, - r>>dst_reduce[0], - g>>dst_reduce[1], - b>>dst_reduce[2], - a>>dst_reduce[3]); - add_bucket_values( - &cube->buckets[src_pos], - &result->buckets[dst_pos] - ); +static ColorCube +copy_color_cube( + const ColorCube cube, + unsigned int rBits, + unsigned int gBits, + unsigned int bBits, + unsigned int aBits) { + unsigned int r, g, b, a; + long src_pos, dst_pos; + unsigned int src_reduce[4] = {0}, dst_reduce[4] = {0}; + unsigned int width[4]; + ColorCube result; + + result = new_color_cube(rBits, gBits, bBits, aBits); + if (!result) { + return NULL; + } + + if (cube->rBits > rBits) { + dst_reduce[0] = cube->rBits - result->rBits; + width[0] = cube->rWidth; + } else { + src_reduce[0] = result->rBits - cube->rBits; + width[0] = result->rWidth; + } + if (cube->gBits > gBits) { + dst_reduce[1] = cube->gBits - result->gBits; + width[1] = cube->gWidth; + } else { + src_reduce[1] = result->gBits - cube->gBits; + width[1] = result->gWidth; + } + if (cube->bBits > bBits) { + dst_reduce[2] = cube->bBits - result->bBits; + width[2] = cube->bWidth; + } else { + src_reduce[2] = result->bBits - cube->bBits; + width[2] = result->bWidth; + } + if (cube->aBits > aBits) { + dst_reduce[3] = cube->aBits - result->aBits; + width[3] = cube->aWidth; + } else { + src_reduce[3] = result->aBits - cube->aBits; + width[3] = result->aWidth; + } + + for (r = 0; r < width[0]; r++) { + for (g = 0; g < width[1]; g++) { + for (b = 0; b < width[2]; b++) { + for (a = 0; a < width[3]; a++) { + src_pos = color_bucket_offset_pos( + cube, + r >> src_reduce[0], + g >> src_reduce[1], + b >> src_reduce[2], + a >> src_reduce[3]); + dst_pos = color_bucket_offset_pos( + result, + r >> dst_reduce[0], + g >> dst_reduce[1], + b >> dst_reduce[2], + a >> dst_reduce[3]); + add_bucket_values( + &cube->buckets[src_pos], &result->buckets[dst_pos]); + } } - } - } - } - return result; + } + } + return result; } void subtract_color_buckets(ColorCube cube, ColorBucket buckets, long nBuckets) { - ColorBucket minuend, subtrahend; - long i; - Pixel p; - for (i=0; icount == 0) { - continue; - } - - avg_color_from_color_bucket(subtrahend, &p); - minuend = color_bucket_from_cube(cube, &p); - minuend->count -= subtrahend->count; - minuend->r -= subtrahend->r; - minuend->g -= subtrahend->g; - minuend->b -= subtrahend->b; - minuend->a -= subtrahend->a; - } + ColorBucket minuend, subtrahend; + long i; + Pixel p; + for (i = 0; i < nBuckets; i++) { + subtrahend = &buckets[i]; + + // If the subtrahend contains no buckets, there is nothing to subtract. + if (subtrahend->count == 0) { + continue; + } + + avg_color_from_color_bucket(subtrahend, &p); + minuend = color_bucket_from_cube(cube, &p); + minuend->count -= subtrahend->count; + minuend->r -= subtrahend->r; + minuend->g -= subtrahend->g; + minuend->b -= subtrahend->b; + minuend->a -= subtrahend->a; + } } static void set_lookup_value(const ColorCube cube, const Pixel *p, long value) { - ColorBucket bucket = color_bucket_from_cube(cube, p); - bucket->count = value; + ColorBucket bucket = color_bucket_from_cube(cube, p); + bucket->count = value; } uint64_t lookup_color(const ColorCube cube, const Pixel *p) { - ColorBucket bucket = color_bucket_from_cube(cube, p); - return bucket->count; + ColorBucket bucket = color_bucket_from_cube(cube, p); + return bucket->count; } -void add_lookup_buckets(ColorCube cube, ColorBucket palette, long nColors, long offset) { - long i; - Pixel p; - for (i=offset; i LONG_MAX - nBucketsB || - (nBucketsA+nBucketsB) > LONG_MAX / sizeof(struct _ColorBucket)) { - return NULL; - } - /* malloc check ok, overflow check above */ - result = calloc(nBucketsA + nBucketsB, sizeof(struct _ColorBucket)); - if (!result) { - return NULL; - } - memcpy(result, bucketsA, sizeof(struct _ColorBucket) * nBucketsA); - memcpy(&result[nBucketsA], bucketsB, sizeof(struct _ColorBucket) * nBucketsB); - return result; +combined_palette( + ColorBucket bucketsA, + unsigned long nBucketsA, + ColorBucket bucketsB, + unsigned long nBucketsB) { + ColorBucket result; + if (nBucketsA > LONG_MAX - nBucketsB || + (nBucketsA + nBucketsB) > LONG_MAX / sizeof(struct _ColorBucket)) { + return NULL; + } + /* malloc check ok, overflow check above */ + result = calloc(nBucketsA + nBucketsB, sizeof(struct _ColorBucket)); + if (!result) { + return NULL; + } + memcpy(result, bucketsA, sizeof(struct _ColorBucket) * nBucketsA); + memcpy(&result[nBucketsA], bucketsB, sizeof(struct _ColorBucket) * nBucketsB); + return result; } static Pixel * create_palette_array(const ColorBucket palette, unsigned int paletteLength) { - Pixel *paletteArray; - unsigned int i; - - /* malloc check ok, calloc for overflow */ - paletteArray = calloc(paletteLength, sizeof(Pixel)); - if (!paletteArray) { - return NULL; - } - - for (i=0; i 64). - - For a quantization to 256 colors all 64 coarse colors will be used - plus the 192 most used color buckets from the fine color cube. - The average of all colors within one bucket is used as the actual - color for that bucket. - - For images with alpha the cubes gets a forth dimension, - 8x16x8x8 and 4x4x4x4. - */ - - /* create fine cube */ - fineCube = new_color_cube(cubeBits[0], cubeBits[1], - cubeBits[2], cubeBits[3]); - if (!fineCube) { - goto error; - } - for (i=0; i nQuantPixels) { - nCoarseColors = nQuantPixels; - } - - /* how many space do we have in our palette for fine colors? */ - nFineColors = nQuantPixels - nCoarseColors; - - /* create fine color palette */ - paletteBucketsFine = create_sorted_color_palette(fineCube); - if (!paletteBucketsFine) { - goto error; - } - - /* remove the used fine colors from the coarse cube */ - subtract_color_buckets(coarseCube, paletteBucketsFine, nFineColors); - - /* did the subtraction cleared one or more coarse bucket? */ - while (nCoarseColors > count_used_color_buckets(coarseCube)) { - /* then we can use the free buckets for fine colors */ - nAlreadySubtracted = nFineColors; - nCoarseColors = count_used_color_buckets(coarseCube); - nFineColors = nQuantPixels - nCoarseColors; - subtract_color_buckets(coarseCube, &paletteBucketsFine[nAlreadySubtracted], - nFineColors-nAlreadySubtracted); - } - - /* create our palette buckets with fine and coarse combined */ - paletteBucketsCoarse = create_sorted_color_palette(coarseCube); - if (!paletteBucketsCoarse) { - goto error; - } - paletteBuckets = combined_palette(paletteBucketsCoarse, nCoarseColors, - paletteBucketsFine, nFineColors); - - free(paletteBucketsFine); - paletteBucketsFine = NULL; - free(paletteBucketsCoarse); - paletteBucketsCoarse = NULL; - if (!paletteBuckets) { - goto error; - } - - /* add all coarse colors to our coarse lookup cube. */ - coarseLookupCube = new_color_cube(cubeBits[4], cubeBits[5], - cubeBits[6], cubeBits[7]); - if (!coarseLookupCube) { - goto error; - } - add_lookup_buckets(coarseLookupCube, paletteBuckets, nCoarseColors, 0); - - /* expand coarse cube (64) to larger fine cube (4k). the value of each - coarse bucket is then present in the according 64 fine buckets. */ - lookupCube = copy_color_cube(coarseLookupCube, cubeBits[0], cubeBits[1], - cubeBits[2], cubeBits[3]); - if (!lookupCube) { - goto error; - } - - /* add fine colors to the lookup cube */ - add_lookup_buckets(lookupCube, paletteBuckets, nFineColors, nCoarseColors); - - /* create result pixels and map palette indices */ - /* malloc check ok, calloc for overflow */ - qp = calloc(nPixels, sizeof(Pixel)); - if (!qp) { - goto error; - } - map_image_pixels(pixelData, nPixels, lookupCube, qp); - - /* convert palette buckets to RGB pixel palette */ - *palette = create_palette_array(paletteBuckets, nQuantPixels); - if (!(*palette)) { - goto error; - } - - *quantizedPixels = qp; - *paletteLength = nQuantPixels; - - free_color_cube(coarseCube); - free_color_cube(fineCube); - free_color_cube(lookupCube); - free_color_cube(coarseLookupCube); - free(paletteBuckets); - return 1; +int +quantize_octree( + Pixel *pixelData, + uint32_t nPixels, + uint32_t nQuantPixels, + Pixel **palette, + uint32_t *paletteLength, + uint32_t **quantizedPixels, + int withAlpha) { + ColorCube fineCube = NULL; + ColorCube coarseCube = NULL; + ColorCube lookupCube = NULL; + ColorCube coarseLookupCube = NULL; + ColorBucket paletteBucketsCoarse = NULL; + ColorBucket paletteBucketsFine = NULL; + ColorBucket paletteBuckets = NULL; + uint32_t *qp = NULL; + long i; + unsigned long nCoarseColors, nFineColors, nAlreadySubtracted; + const unsigned int *cubeBits; + + if (withAlpha) { + cubeBits = CUBE_LEVELS_ALPHA; + } else { + cubeBits = CUBE_LEVELS; + } + + /* + Create two color cubes, one fine grained with 8x16x8=1024 + colors buckets and a coarse with 4x4x4=64 color buckets. + The coarse one guarantees that there are color buckets available for + the whole color range (assuming nQuantPixels > 64). + + For a quantization to 256 colors all 64 coarse colors will be used + plus the 192 most used color buckets from the fine color cube. + The average of all colors within one bucket is used as the actual + color for that bucket. + + For images with alpha the cubes gets a forth dimension, + 8x16x8x8 and 4x4x4x4. + */ + + /* create fine cube */ + fineCube = new_color_cube(cubeBits[0], cubeBits[1], cubeBits[2], cubeBits[3]); + if (!fineCube) { + goto error; + } + for (i = 0; i < nPixels; i++) { + add_color_to_color_cube(fineCube, &pixelData[i]); + } + + /* create coarse cube */ + coarseCube = + copy_color_cube(fineCube, cubeBits[4], cubeBits[5], cubeBits[6], cubeBits[7]); + if (!coarseCube) { + goto error; + } + nCoarseColors = count_used_color_buckets(coarseCube); + + /* limit to nQuantPixels */ + if (nCoarseColors > nQuantPixels) { + nCoarseColors = nQuantPixels; + } + + /* how many space do we have in our palette for fine colors? */ + nFineColors = nQuantPixels - nCoarseColors; + + /* create fine color palette */ + paletteBucketsFine = create_sorted_color_palette(fineCube); + if (!paletteBucketsFine) { + goto error; + } + + /* remove the used fine colors from the coarse cube */ + subtract_color_buckets(coarseCube, paletteBucketsFine, nFineColors); + + /* did the subtraction cleared one or more coarse bucket? */ + while (nCoarseColors > count_used_color_buckets(coarseCube)) { + /* then we can use the free buckets for fine colors */ + nAlreadySubtracted = nFineColors; + nCoarseColors = count_used_color_buckets(coarseCube); + nFineColors = nQuantPixels - nCoarseColors; + subtract_color_buckets( + coarseCube, + &paletteBucketsFine[nAlreadySubtracted], + nFineColors - nAlreadySubtracted); + } + + /* create our palette buckets with fine and coarse combined */ + paletteBucketsCoarse = create_sorted_color_palette(coarseCube); + if (!paletteBucketsCoarse) { + goto error; + } + paletteBuckets = combined_palette( + paletteBucketsCoarse, nCoarseColors, paletteBucketsFine, nFineColors); + + free(paletteBucketsFine); + paletteBucketsFine = NULL; + free(paletteBucketsCoarse); + paletteBucketsCoarse = NULL; + if (!paletteBuckets) { + goto error; + } + + /* add all coarse colors to our coarse lookup cube. */ + coarseLookupCube = + new_color_cube(cubeBits[4], cubeBits[5], cubeBits[6], cubeBits[7]); + if (!coarseLookupCube) { + goto error; + } + add_lookup_buckets(coarseLookupCube, paletteBuckets, nCoarseColors, 0); + + /* expand coarse cube (64) to larger fine cube (4k). the value of each + coarse bucket is then present in the according 64 fine buckets. */ + lookupCube = copy_color_cube( + coarseLookupCube, cubeBits[0], cubeBits[1], cubeBits[2], cubeBits[3]); + if (!lookupCube) { + goto error; + } + + /* add fine colors to the lookup cube */ + add_lookup_buckets(lookupCube, paletteBuckets, nFineColors, nCoarseColors); + + /* create result pixels and map palette indices */ + /* malloc check ok, calloc for overflow */ + qp = calloc(nPixels, sizeof(Pixel)); + if (!qp) { + goto error; + } + map_image_pixels(pixelData, nPixels, lookupCube, qp); + + /* convert palette buckets to RGB pixel palette */ + *palette = create_palette_array(paletteBuckets, nQuantPixels); + if (!(*palette)) { + goto error; + } + + *quantizedPixels = qp; + *paletteLength = nQuantPixels; + + free_color_cube(coarseCube); + free_color_cube(fineCube); + free_color_cube(lookupCube); + free_color_cube(coarseLookupCube); + free(paletteBuckets); + return 1; error: - /* everything is initialized to NULL - so we are safe to call free */ - free(qp); - free_color_cube(lookupCube); - free_color_cube(coarseLookupCube); - free(paletteBuckets); - free(paletteBucketsCoarse); - free(paletteBucketsFine); - free_color_cube(coarseCube); - free_color_cube(fineCube); - return 0; + /* everything is initialized to NULL + so we are safe to call free */ + free(qp); + free_color_cube(lookupCube); + free_color_cube(coarseLookupCube); + free(paletteBuckets); + free(paletteBucketsCoarse); + free(paletteBucketsFine); + free_color_cube(coarseCube); + free_color_cube(fineCube); + return 0; } diff --git a/src/libImaging/QuantOctree.h b/src/libImaging/QuantOctree.h index 968644eda02..e1c50407402 100644 --- a/src/libImaging/QuantOctree.h +++ b/src/libImaging/QuantOctree.h @@ -3,12 +3,7 @@ #include "QuantTypes.h" -int quantize_octree(Pixel *, - uint32_t, - uint32_t, - Pixel **, - uint32_t *, - uint32_t **, - int); +int +quantize_octree(Pixel *, uint32_t, uint32_t, Pixel **, uint32_t *, uint32_t **, int); #endif diff --git a/src/libImaging/QuantPngQuant.c b/src/libImaging/QuantPngQuant.c index 7a23ec8c5a5..7a36300e408 100644 --- a/src/libImaging/QuantPngQuant.c +++ b/src/libImaging/QuantPngQuant.c @@ -26,8 +26,7 @@ quantize_pngquant( Pixel **palette, uint32_t *paletteLength, uint32_t **quantizedPixels, - int withAlpha) -{ + int withAlpha) { int result = 0; liq_image *image = NULL; liq_attr *attr = NULL; @@ -41,23 +40,24 @@ quantize_pngquant( /* configure pngquant */ attr = liq_attr_create(); - if (!attr) { goto err; } + if (!attr) { + goto err; + } if (quantPixels) { liq_set_max_colors(attr, quantPixels); } /* prepare input image */ - image = liq_image_create_rgba( - attr, - pixelData, - width, - height, - 0.45455 /* gamma */); - if (!image) { goto err; } + image = liq_image_create_rgba(attr, pixelData, width, height, 0.45455 /* gamma */); + if (!image) { + goto err; + } /* quantize the image */ remap = liq_quantize_image(attr, image); - if (!remap) { goto err; } + if (!remap) { + goto err; + } liq_set_output_gamma(remap, 0.45455); liq_set_dithering_level(remap, 1); @@ -65,7 +65,9 @@ quantize_pngquant( const liq_palette *l_palette = liq_get_palette(remap); *paletteLength = l_palette->count; *palette = malloc(sizeof(Pixel) * l_palette->count); - if (!*palette) { goto err; } + if (!*palette) { + goto err; + } for (i = 0; i < l_palette->count; i++) { (*palette)[i].c.b = l_palette->entries[i].b; (*palette)[i].c.g = l_palette->entries[i].g; @@ -75,9 +77,13 @@ quantize_pngquant( /* write output pixels (pngquant uses char array) */ charMatrix = malloc(width * height); - if (!charMatrix) { goto err; } - charMatrixRows = malloc(height * sizeof(unsigned char*)); - if (!charMatrixRows) { goto err; } + if (!charMatrix) { + goto err; + } + charMatrixRows = malloc(height * sizeof(unsigned char *)); + if (!charMatrixRows) { + goto err; + } for (y = 0; y < height; y++) { charMatrixRows[y] = &charMatrix[y * width]; } @@ -87,7 +93,9 @@ quantize_pngquant( /* transcribe output pixels (pillow uses uint32_t array) */ *quantizedPixels = malloc(sizeof(uint32_t) * width * height); - if (!*quantizedPixels) { goto err; } + if (!*quantizedPixels) { + goto err; + } for (i = 0; i < width * height; i++) { (*quantizedPixels)[i] = charMatrix[i]; } @@ -106,16 +114,15 @@ quantize_pngquant( } free(charMatrix); free(charMatrixRows); - if (!result) { + if (!result) { free(*quantizedPixels); free(*palette); } return result; } -const char* -ImagingImageQuantVersion(void) -{ +const char * +ImagingImageQuantVersion(void) { static char version[20]; int number = liq_version(); sprintf(version, "%d.%d.%d", number / 10000, (number / 100) % 100, number % 100); diff --git a/src/libImaging/QuantPngQuant.h b/src/libImaging/QuantPngQuant.h index fb0b4cc0391..d65e42590ca 100644 --- a/src/libImaging/QuantPngQuant.h +++ b/src/libImaging/QuantPngQuant.h @@ -3,7 +3,9 @@ #include "QuantTypes.h" -int quantize_pngquant(Pixel *, +int +quantize_pngquant( + Pixel *, unsigned int, unsigned int, uint32_t, diff --git a/src/libImaging/QuantTypes.h b/src/libImaging/QuantTypes.h index 411485498ed..986b70806dc 100644 --- a/src/libImaging/QuantTypes.h +++ b/src/libImaging/QuantTypes.h @@ -20,13 +20,13 @@ typedef unsigned __int64 uint64_t; #endif typedef union { - struct { - unsigned char r,g,b,a; - } c; - struct { - unsigned char v[4]; - } a; - uint32_t v; + struct { + unsigned char r, g, b, a; + } c; + struct { + unsigned char v[4]; + } a; + uint32_t v; } Pixel; #endif diff --git a/src/libImaging/RankFilter.c b/src/libImaging/RankFilter.c index e4f2679b2cd..5bc7c42fc50 100644 --- a/src/libImaging/RankFilter.c +++ b/src/libImaging/RankFilter.c @@ -17,94 +17,98 @@ /* Fast rank algorithm (due to Wirth), based on public domain code by Nicolas Devillard, available at http://ndevilla.free.fr */ -#define SWAP(type,a,b) { register type t=(a);(a)=(b);(b)=t; } - -#define MakeRankFunction(type)\ -static type Rank##type(type a[], int n, int k)\ -{\ - register int i, j, l, m;\ - register type x;\ - l = 0; m = n-1;\ - while (l < m) {\ - x = a[k];\ - i = l;\ - j = m;\ - do {\ - while (a[i] < x) {\ - i++;\ - }\ - while (x < a[j]) {\ - j--;\ - }\ - if (i <= j) {\ - SWAP(type, a[i], a[j]);\ - i++; j--;\ - }\ - } while (i <= j);\ - if (j < k) {\ - l = i;\ - }\ - if (k < i) {\ - m = j;\ - }\ - }\ - return a[k];\ -} +#define SWAP(type, a, b) \ + { \ + register type t = (a); \ + (a) = (b); \ + (b) = t; \ + } + +#define MakeRankFunction(type) \ + static type Rank##type(type a[], int n, int k) { \ + register int i, j, l, m; \ + register type x; \ + l = 0; \ + m = n - 1; \ + while (l < m) { \ + x = a[k]; \ + i = l; \ + j = m; \ + do { \ + while (a[i] < x) { \ + i++; \ + } \ + while (x < a[j]) { \ + j--; \ + } \ + if (i <= j) { \ + SWAP(type, a[i], a[j]); \ + i++; \ + j--; \ + } \ + } while (i <= j); \ + if (j < k) { \ + l = i; \ + } \ + if (k < i) { \ + m = j; \ + } \ + } \ + return a[k]; \ + } -MakeRankFunction(UINT8) -MakeRankFunction(INT32) -MakeRankFunction(FLOAT32) +MakeRankFunction(UINT8) MakeRankFunction(INT32) MakeRankFunction(FLOAT32) -Imaging -ImagingRankFilter(Imaging im, int size, int rank) -{ + Imaging ImagingRankFilter(Imaging im, int size, int rank) { Imaging imOut = NULL; int x, y; int i, margin, size2; if (!im || im->bands != 1 || im->type == IMAGING_TYPE_SPECIAL) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (!(size & 1)) { - return (Imaging) ImagingError_ValueError("bad filter size"); + return (Imaging)ImagingError_ValueError("bad filter size"); } /* malloc check ok, for overflow in the define below */ - if (size > INT_MAX / size || - size > INT_MAX / (size * sizeof(FLOAT32))) { - return (Imaging) ImagingError_ValueError("filter size too large"); + if (size > INT_MAX / size || size > INT_MAX / (size * sizeof(FLOAT32))) { + return (Imaging)ImagingError_ValueError("filter size too large"); } size2 = size * size; - margin = (size-1) / 2; + margin = (size - 1) / 2; if (rank < 0 || rank >= size2) { - return (Imaging) ImagingError_ValueError("bad rank value"); + return (Imaging)ImagingError_ValueError("bad rank value"); } - imOut = ImagingNew(im->mode, im->xsize - 2*margin, im->ysize - 2*margin); + imOut = ImagingNew(im->mode, im->xsize - 2 * margin, im->ysize - 2 * margin); if (!imOut) { return NULL; } /* malloc check ok, checked above */ -#define RANK_BODY(type) do {\ - type* buf = malloc(size2 * sizeof(type));\ - if (!buf) {\ - goto nomemory;\ - }\ - for (y = 0; y < imOut->ysize; y++) {\ - for (x = 0; x < imOut->xsize; x++) {\ - for (i = 0; i < size; i++) {\ - memcpy(buf + i*size, &IMAGING_PIXEL_##type(im, x, y+i),\ - size * sizeof(type));\ - }\ - IMAGING_PIXEL_##type(imOut, x, y) = Rank##type(buf, size2, rank);\ - }\ - }\ - free(buf); \ -} while (0) +#define RANK_BODY(type) \ + do { \ + type *buf = malloc(size2 * sizeof(type)); \ + if (!buf) { \ + goto nomemory; \ + } \ + for (y = 0; y < imOut->ysize; y++) { \ + for (x = 0; x < imOut->xsize; x++) { \ + for (i = 0; i < size; i++) { \ + memcpy( \ + buf + i * size, \ + &IMAGING_PIXEL_##type(im, x, y + i), \ + size * sizeof(type)); \ + } \ + IMAGING_PIXEL_##type(imOut, x, y) = Rank##type(buf, size2, rank); \ + } \ + } \ + free(buf); \ + } while (0) if (im->image8) { RANK_BODY(UINT8); @@ -115,7 +119,7 @@ ImagingRankFilter(Imaging im, int size, int rank) } else { /* safety net (we shouldn't end up here) */ ImagingDelete(imOut); - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } ImagingCopyPalette(imOut, im); @@ -124,5 +128,5 @@ ImagingRankFilter(Imaging im, int size, int rank) nomemory: ImagingDelete(imOut); - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } diff --git a/src/libImaging/Raw.h b/src/libImaging/Raw.h index 4d28fa54665..ab718837f4a 100644 --- a/src/libImaging/Raw.h +++ b/src/libImaging/Raw.h @@ -1,7 +1,6 @@ /* Raw.h */ typedef struct { - /* CONFIGURATION */ /* Distance between lines (0=no padding) */ diff --git a/src/libImaging/RawDecode.c b/src/libImaging/RawDecode.c index ca3d37149a4..24abe48041f 100644 --- a/src/libImaging/RawDecode.c +++ b/src/libImaging/RawDecode.c @@ -13,22 +13,18 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include "Raw.h" - int -ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ +ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { enum { LINE = 1, SKIP }; - RAWSTATE* rawstate = state->context; + RAWSTATE *rawstate = state->context; - UINT8* ptr; + UINT8 *ptr; if (state->state == 0) { - /* Initialize context variables */ /* get size of image data and padding */ @@ -45,22 +41,19 @@ ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* check image orientation */ if (state->ystep < 0) { - state->y = state->ysize-1; + state->y = state->ysize - 1; state->ystep = -1; } else { state->ystep = 1; } state->state = LINE; - } ptr = buf; for (;;) { - if (state->state == SKIP) { - /* Skip padding between lines */ if (bytes < rawstate->skip) { @@ -71,7 +64,6 @@ ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt bytes -= rawstate->skip; state->state = LINE; - } if (bytes < state->bytes) { @@ -79,8 +71,10 @@ ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt } /* Unpack data */ - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, ptr, state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + state->xoff * im->pixelsize, + ptr, + state->xsize); ptr += state->bytes; bytes -= state->bytes; @@ -93,7 +87,5 @@ ImagingRawDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt } state->state = SKIP; - } - } diff --git a/src/libImaging/RawEncode.c b/src/libImaging/RawEncode.c index fb4ab334682..50de8d98275 100644 --- a/src/libImaging/RawEncode.c +++ b/src/libImaging/RawEncode.c @@ -17,16 +17,13 @@ * * See the README file for information on usage and redistribution. */ - #include "Imaging.h" int -ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - UINT8* ptr; +ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + UINT8 *ptr; if (!state->state) { - /* The "count" field holds the stride, if specified. Fix things up so "bytes" is the full size, and "count" the packed size */ @@ -48,14 +45,13 @@ ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* The "ystep" field specifies the orientation */ if (state->ystep < 0) { - state->y = state->ysize-1; + state->y = state->ysize - 1; state->ystep = -1; } else { state->ystep = 1; } state->state = 1; - } if (bytes < state->bytes) { @@ -66,9 +62,10 @@ ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) ptr = buf; while (bytes >= state->bytes) { - - state->shuffle(ptr, (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->xsize); + state->shuffle( + ptr, + (UINT8 *)im->image[state->y + state->yoff] + state->xoff * im->pixelsize, + state->xsize); if (state->bytes > state->count) { /* zero-pad the buffer, if necessary */ @@ -84,9 +81,7 @@ ImagingRawEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) state->errcode = IMAGING_CODEC_END; break; } - } return ptr - buf; - } diff --git a/src/libImaging/Reduce.c b/src/libImaging/Reduce.c index f6488deb269..60928d2bc36 100644 --- a/src/libImaging/Reduce.c +++ b/src/libImaging/Reduce.c @@ -2,39 +2,35 @@ #include -#define ROUND_UP(f) ((int) ((f) >= 0.0 ? (f) + 0.5F : (f) - 0.5F)) - +#define ROUND_UP(f) ((int)((f) >= 0.0 ? (f) + 0.5F : (f)-0.5F)) UINT32 -division_UINT32(int divider, int result_bits) -{ +division_UINT32(int divider, int result_bits) { UINT32 max_dividend = (1 << result_bits) * divider; float max_int = (1 << 30) * 4.0; - return (UINT32) (max_int / max_dividend); + return (UINT32)(max_int / max_dividend); } - void -ImagingReduceNxN(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) -{ +ImagingReduceNxN(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) { /* The most general implementation for any xscale and yscale - */ + */ int x, y, xx, yy; UINT32 multiplier = division_UINT32(yscale * xscale, 8); UINT32 amend = yscale * xscale / 2; if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 ss = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image8[yy]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss += line0[xx + 0] + line0[xx + 1] + - line1[xx + 0] + line1[xx + 1]; + ss += line0[xx + 0] + line0[xx + 1] + line1[xx + 0] + + line1[xx + 1]; } if (xscale & 0x01) { ss += line0[xx + 0] + line1[xx + 0]; @@ -54,125 +50,128 @@ ImagingReduceNxN(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss3 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss3 += line0[xx*4 + 3] + line0[xx*4 + 7] + - line1[xx*4 + 3] + line1[xx*4 + 7]; + ss0 += line0[xx * 4 + 0] + line0[xx * 4 + 4] + + line1[xx * 4 + 0] + line1[xx * 4 + 4]; + ss3 += line0[xx * 4 + 3] + line0[xx * 4 + 7] + + line1[xx * 4 + 3] + line1[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss3 += line0[xx*4 + 3] + line1[xx*4 + 3]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss3 += line0[xx * 4 + 3] + line1[xx * 4 + 3]; } } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss3 += line[xx*4 + 3] + line[xx*4 + 7]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss3 += line[xx * 4 + 3] + line[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss3 += line[xx * 4 + 3]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, 0, - 0, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, 0, 0, (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss1 += line0[xx*4 + 1] + line0[xx*4 + 5] + - line1[xx*4 + 1] + line1[xx*4 + 5]; - ss2 += line0[xx*4 + 2] + line0[xx*4 + 6] + - line1[xx*4 + 2] + line1[xx*4 + 6]; + ss0 += line0[xx * 4 + 0] + line0[xx * 4 + 4] + + line1[xx * 4 + 0] + line1[xx * 4 + 4]; + ss1 += line0[xx * 4 + 1] + line0[xx * 4 + 5] + + line1[xx * 4 + 1] + line1[xx * 4 + 5]; + ss2 += line0[xx * 4 + 2] + line0[xx * 4 + 6] + + line1[xx * 4 + 2] + line1[xx * 4 + 6]; } if (xscale & 0x01) { - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss1 += line0[xx*4 + 1] + line1[xx*4 + 1]; - ss2 += line0[xx*4 + 2] + line1[xx*4 + 2]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 += line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 += line0[xx * 4 + 2] + line1[xx * 4 + 2]; } } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss1 += line[xx*4 + 1] + line[xx*4 + 5]; - ss2 += line[xx*4 + 2] + line[xx*4 + 6]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss1 += line[xx * 4 + 1] + line[xx * 4 + 5]; + ss2 += line[xx * 4 + 2] + line[xx * 4 + 6]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, 0); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss1 += line0[xx*4 + 1] + line0[xx*4 + 5] + - line1[xx*4 + 1] + line1[xx*4 + 5]; - ss2 += line0[xx*4 + 2] + line0[xx*4 + 6] + - line1[xx*4 + 2] + line1[xx*4 + 6]; - ss3 += line0[xx*4 + 3] + line0[xx*4 + 7] + - line1[xx*4 + 3] + line1[xx*4 + 7]; + ss0 += line0[xx * 4 + 0] + line0[xx * 4 + 4] + + line1[xx * 4 + 0] + line1[xx * 4 + 4]; + ss1 += line0[xx * 4 + 1] + line0[xx * 4 + 5] + + line1[xx * 4 + 1] + line1[xx * 4 + 5]; + ss2 += line0[xx * 4 + 2] + line0[xx * 4 + 6] + + line1[xx * 4 + 2] + line1[xx * 4 + 6]; + ss3 += line0[xx * 4 + 3] + line0[xx * 4 + 7] + + line1[xx * 4 + 3] + line1[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss1 += line0[xx*4 + 1] + line1[xx*4 + 1]; - ss2 += line0[xx*4 + 2] + line1[xx*4 + 2]; - ss3 += line0[xx*4 + 3] + line1[xx*4 + 3]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 += line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 += line0[xx * 4 + 2] + line1[xx * 4 + 2]; + ss3 += line0[xx * 4 + 3] + line1[xx * 4 + 3]; } } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss1 += line[xx*4 + 1] + line[xx*4 + 5]; - ss2 += line[xx*4 + 2] + line[xx*4 + 6]; - ss3 += line[xx*4 + 3] + line[xx*4 + 7]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss1 += line[xx * 4 + 1] + line[xx * 4 + 5]; + ss2 += line[xx * 4 + 2] + line[xx * 4 + 6]; + ss3 += line[xx * 4 + 3] + line[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -180,12 +179,10 @@ ImagingReduceNxN(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale } } - void -ImagingReduce1xN(Imaging imOut, Imaging imIn, int box[4], int yscale) -{ +ImagingReduce1xN(Imaging imOut, Imaging imIn, int box[4], int yscale) { /* Optimized implementation for xscale = 1. - */ + */ int x, y, yy; int xscale = 1; UINT32 multiplier = division_UINT32(yscale * xscale, 8); @@ -193,9 +190,9 @@ ImagingReduce1xN(Imaging imOut, Imaging imIn, int box[4], int yscale) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 ss = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image8[yy]; @@ -211,74 +208,77 @@ ImagingReduce1xN(Imaging imOut, Imaging imIn, int box[4], int yscale) } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss3 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss3 += line0[xx*4 + 3] + line1[xx*4 + 3]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss3 += line0[xx * 4 + 3] + line1[xx * 4 + 3]; } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; - ss0 += line[xx*4 + 0]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss3 += line[xx * 4 + 3]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, 0, - 0, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, 0, 0, (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss1 += line0[xx*4 + 1] + line1[xx*4 + 1]; - ss2 += line0[xx*4 + 2] + line1[xx*4 + 2]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 += line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 += line0[xx * 4 + 2] + line1[xx * 4 + 2]; } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, 0); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { UINT8 *line0 = (UINT8 *)imIn->image[yy]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; - ss0 += line0[xx*4 + 0] + line1[xx*4 + 0]; - ss1 += line0[xx*4 + 1] + line1[xx*4 + 1]; - ss2 += line0[xx*4 + 2] + line1[xx*4 + 2]; - ss3 += line0[xx*4 + 3] + line1[xx*4 + 3]; + ss0 += line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 += line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 += line0[xx * 4 + 2] + line1[xx * 4 + 2]; + ss3 += line0[xx * 4 + 3] + line1[xx * 4 + 3]; } if (yscale & 0x01) { UINT8 *line = (UINT8 *)imIn->image[yy]; - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -286,12 +286,10 @@ ImagingReduce1xN(Imaging imOut, Imaging imIn, int box[4], int yscale) } } - void -ImagingReduceNx1(Imaging imOut, Imaging imIn, int box[4], int xscale) -{ +ImagingReduceNx1(Imaging imOut, Imaging imIn, int box[4], int xscale) { /* Optimized implementation for yscale = 1. - */ + */ int x, y, xx; int yscale = 1; UINT32 multiplier = division_UINT32(yscale * xscale, 8); @@ -299,10 +297,10 @@ ImagingReduceNx1(Imaging imOut, Imaging imIn, int box[4], int xscale) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line = (UINT8 *)imIn->image8[yy]; for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 ss = amend; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { ss += line[xx + 0] + line[xx + 1]; @@ -315,66 +313,69 @@ ImagingReduceNx1(Imaging imOut, Imaging imIn, int box[4], int xscale) } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line = (UINT8 *)imIn->image[yy]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss3 = amend; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss3 += line[xx*4 + 3] + line[xx*4 + 7]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss3 += line[xx * 4 + 3] + line[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss3 += line[xx * 4 + 3]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, 0, - 0, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, 0, 0, (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss1 += line[xx*4 + 1] + line[xx*4 + 5]; - ss2 += line[xx*4 + 2] + line[xx*4 + 6]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss1 += line[xx * 4 + 1] + line[xx * 4 + 5]; + ss2 += line[xx * 4 + 2] + line[xx * 4 + 6]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, 0); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss0 += line[xx*4 + 0] + line[xx*4 + 4]; - ss1 += line[xx*4 + 1] + line[xx*4 + 5]; - ss2 += line[xx*4 + 2] + line[xx*4 + 6]; - ss3 += line[xx*4 + 3] + line[xx*4 + 7]; + ss0 += line[xx * 4 + 0] + line[xx * 4 + 4]; + ss1 += line[xx * 4 + 1] + line[xx * 4 + 5]; + ss2 += line[xx * 4 + 2] + line[xx * 4 + 6]; + ss3 += line[xx * 4 + 3] + line[xx * 4 + 7]; } if (xscale & 0x01) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -383,10 +384,9 @@ ImagingReduceNx1(Imaging imOut, Imaging imIn, int box[4], int xscale) } void -ImagingReduce1x2(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce1x2(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 1 and yscale = 2. - */ + */ int xscale = 1, yscale = 2; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -394,61 +394,53 @@ ImagingReduce1x2(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; - ss0 = line0[xx + 0] + - line1[xx + 0]; + int xx = box[0] + x * xscale; + ss0 = line0[xx + 0] + line1[xx + 0]; imOut->image8[y][x] = (ss0 + amend) >> 1; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0]; - ss3 = line0[xx*4 + 3] + - line1[xx*4 + 3]; - v = MAKE_UINT32((ss0 + amend) >> 1, 0, - 0, (ss3 + amend) >> 1); + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss3 = line0[xx * 4 + 3] + line1[xx * 4 + 3]; + v = MAKE_UINT32((ss0 + amend) >> 1, 0, 0, (ss3 + amend) >> 1); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0]; - ss1 = line0[xx*4 + 1] + - line1[xx*4 + 1]; - ss2 = line0[xx*4 + 2] + - line1[xx*4 + 2]; - v = MAKE_UINT32((ss0 + amend) >> 1, (ss1 + amend) >> 1, - (ss2 + amend) >> 1, 0); + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 = line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 = line0[xx * 4 + 2] + line1[xx * 4 + 2]; + v = MAKE_UINT32( + (ss0 + amend) >> 1, (ss1 + amend) >> 1, (ss2 + amend) >> 1, 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0]; - ss1 = line0[xx*4 + 1] + - line1[xx*4 + 1]; - ss2 = line0[xx*4 + 2] + - line1[xx*4 + 2]; - ss3 = line0[xx*4 + 3] + - line1[xx*4 + 3]; - v = MAKE_UINT32((ss0 + amend) >> 1, (ss1 + amend) >> 1, - (ss2 + amend) >> 1, (ss3 + amend) >> 1); + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0]; + ss1 = line0[xx * 4 + 1] + line1[xx * 4 + 1]; + ss2 = line0[xx * 4 + 2] + line1[xx * 4 + 2]; + ss3 = line0[xx * 4 + 3] + line1[xx * 4 + 3]; + v = MAKE_UINT32( + (ss0 + amend) >> 1, + (ss1 + amend) >> 1, + (ss2 + amend) >> 1, + (ss3 + amend) >> 1); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -456,12 +448,10 @@ ImagingReduce1x2(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce2x1(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce2x1(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 2 and yscale = 1. - */ + */ int xscale = 2, yscale = 1; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -469,49 +459,51 @@ ImagingReduce2x1(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; ss0 = line0[xx + 0] + line0[xx + 1]; imOut->image8[y][x] = (ss0 + amend) >> 1; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7]; - v = MAKE_UINT32((ss0 + amend) >> 1, 0, - 0, (ss3 + amend) >> 1); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7]; + v = MAKE_UINT32((ss0 + amend) >> 1, 0, 0, (ss3 + amend) >> 1); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6]; - v = MAKE_UINT32((ss0 + amend) >> 1, (ss1 + amend) >> 1, - (ss2 + amend) >> 1, 0); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6]; + v = MAKE_UINT32( + (ss0 + amend) >> 1, (ss1 + amend) >> 1, (ss2 + amend) >> 1, 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7]; - v = MAKE_UINT32((ss0 + amend) >> 1, (ss1 + amend) >> 1, - (ss2 + amend) >> 1, (ss3 + amend) >> 1); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7]; + v = MAKE_UINT32( + (ss0 + amend) >> 1, + (ss1 + amend) >> 1, + (ss2 + amend) >> 1, + (ss3 + amend) >> 1); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -519,12 +511,10 @@ ImagingReduce2x1(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce2x2(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce2x2(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 2 and yscale = 2. - */ + */ int xscale = 2, yscale = 2; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -532,61 +522,62 @@ ImagingReduce2x2(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; - ss0 = line0[xx + 0] + line0[xx + 1] + - line1[xx + 0] + line1[xx + 1]; + int xx = box[0] + x * xscale; + ss0 = line0[xx + 0] + line0[xx + 1] + line1[xx + 0] + line1[xx + 1]; imOut->image8[y][x] = (ss0 + amend) >> 2; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + - line1[xx*4 + 3] + line1[xx*4 + 7]; - v = MAKE_UINT32((ss0 + amend) >> 2, 0, - 0, (ss3 + amend) >> 2); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line1[xx * 4 + 0] + + line1[xx * 4 + 4]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line1[xx * 4 + 3] + + line1[xx * 4 + 7]; + v = MAKE_UINT32((ss0 + amend) >> 2, 0, 0, (ss3 + amend) >> 2); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + - line1[xx*4 + 1] + line1[xx*4 + 5]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + - line1[xx*4 + 2] + line1[xx*4 + 6]; - v = MAKE_UINT32((ss0 + amend) >> 2, (ss1 + amend) >> 2, - (ss2 + amend) >> 2, 0); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line1[xx * 4 + 0] + + line1[xx * 4 + 4]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line1[xx * 4 + 1] + + line1[xx * 4 + 5]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line1[xx * 4 + 2] + + line1[xx * 4 + 6]; + v = MAKE_UINT32( + (ss0 + amend) >> 2, (ss1 + amend) >> 2, (ss2 + amend) >> 2, 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + - line1[xx*4 + 0] + line1[xx*4 + 4]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + - line1[xx*4 + 1] + line1[xx*4 + 5]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + - line1[xx*4 + 2] + line1[xx*4 + 6]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + - line1[xx*4 + 3] + line1[xx*4 + 7]; - v = MAKE_UINT32((ss0 + amend) >> 2, (ss1 + amend) >> 2, - (ss2 + amend) >> 2, (ss3 + amend) >> 2); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line1[xx * 4 + 0] + + line1[xx * 4 + 4]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line1[xx * 4 + 1] + + line1[xx * 4 + 5]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line1[xx * 4 + 2] + + line1[xx * 4 + 6]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line1[xx * 4 + 3] + + line1[xx * 4 + 7]; + v = MAKE_UINT32( + (ss0 + amend) >> 2, + (ss1 + amend) >> 2, + (ss2 + amend) >> 2, + (ss3 + amend) >> 2); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -594,12 +585,10 @@ ImagingReduce2x2(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce1x3(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce1x3(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 1 and yscale = 3. - */ + */ int xscale = 1, yscale = 3; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -608,76 +597,62 @@ ImagingReduce1x3(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image8[yy + 2]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; - ss0 = line0[xx + 0] + - line1[xx + 0] + - line2[xx + 0]; + int xx = box[0] + x * xscale; + ss0 = line0[xx + 0] + line1[xx + 0] + line2[xx + 0]; imOut->image8[y][x] = ((ss0 + amend) * multiplier) >> 24; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image[yy + 2]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0] + - line2[xx*4 + 0]; - ss3 = line0[xx*4 + 3] + - line1[xx*4 + 3] + - line2[xx*4 + 3]; + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0] + line2[xx * 4 + 0]; + ss3 = line0[xx * 4 + 3] + line1[xx * 4 + 3] + line2[xx * 4 + 3]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, 0, - 0, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + 0, + 0, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0] + - line2[xx*4 + 0]; - ss1 = line0[xx*4 + 1] + - line1[xx*4 + 1] + - line2[xx*4 + 1]; - ss2 = line0[xx*4 + 2] + - line1[xx*4 + 2] + - line2[xx*4 + 2]; + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0] + line2[xx * 4 + 0]; + ss1 = line0[xx * 4 + 1] + line1[xx * 4 + 1] + line2[xx * 4 + 1]; + ss2 = line0[xx * 4 + 2] + line1[xx * 4 + 2] + line2[xx * 4 + 2]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, 0); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + - line1[xx*4 + 0] + - line2[xx*4 + 0]; - ss1 = line0[xx*4 + 1] + - line1[xx*4 + 1] + - line2[xx*4 + 1]; - ss2 = line0[xx*4 + 2] + - line1[xx*4 + 2] + - line2[xx*4 + 2]; - ss3 = line0[xx*4 + 3] + - line1[xx*4 + 3] + - line2[xx*4 + 3]; + ss0 = line0[xx * 4 + 0] + line1[xx * 4 + 0] + line2[xx * 4 + 0]; + ss1 = line0[xx * 4 + 1] + line1[xx * 4 + 1] + line2[xx * 4 + 1]; + ss2 = line0[xx * 4 + 2] + line1[xx * 4 + 2] + line2[xx * 4 + 2]; + ss3 = line0[xx * 4 + 3] + line1[xx * 4 + 3] + line2[xx * 4 + 3]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -685,12 +660,10 @@ ImagingReduce1x3(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce3x1(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce3x1(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 3 and yscale = 1. - */ + */ int xscale = 3, yscale = 1; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -699,52 +672,58 @@ ImagingReduce3x1(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2]; imOut->image8[y][x] = ((ss0 + amend) * multiplier) >> 24; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, 0, - 0, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + 0, + 0, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, 0); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -752,12 +731,10 @@ ImagingReduce3x1(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce3x3(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce3x3(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 3 and yscale = 3. - */ + */ int xscale = 3, yscale = 3; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -766,76 +743,82 @@ ImagingReduce3x3(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image8[yy + 2]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; - ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2] + - line1[xx + 0] + line1[xx + 1] + line1[xx + 2] + - line2[xx + 0] + line2[xx + 1] + line2[xx + 2]; + int xx = box[0] + x * xscale; + ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2] + line1[xx + 0] + + line1[xx + 1] + line1[xx + 2] + line2[xx + 0] + line2[xx + 1] + + line2[xx + 2]; imOut->image8[y][x] = ((ss0 + amend) * multiplier) >> 24; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image[yy + 2]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line1[xx * 4 + 0] + line1[xx * 4 + 4] + line1[xx * 4 + 8] + + line2[xx * 4 + 0] + line2[xx * 4 + 4] + line2[xx * 4 + 8]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line1[xx * 4 + 3] + line1[xx * 4 + 7] + line1[xx * 4 + 11] + + line2[xx * 4 + 3] + line2[xx * 4 + 7] + line2[xx * 4 + 11]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, 0, - 0, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + 0, + 0, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line1[xx * 4 + 0] + line1[xx * 4 + 4] + line1[xx * 4 + 8] + + line2[xx * 4 + 0] + line2[xx * 4 + 4] + line2[xx * 4 + 8]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line1[xx * 4 + 1] + line1[xx * 4 + 5] + line1[xx * 4 + 9] + + line2[xx * 4 + 1] + line2[xx * 4 + 5] + line2[xx * 4 + 9]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line1[xx * 4 + 2] + line1[xx * 4 + 6] + line1[xx * 4 + 10] + + line2[xx * 4 + 2] + line2[xx * 4 + 6] + line2[xx * 4 + 10]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, 0); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line1[xx * 4 + 0] + line1[xx * 4 + 4] + line1[xx * 4 + 8] + + line2[xx * 4 + 0] + line2[xx * 4 + 4] + line2[xx * 4 + 8]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line1[xx * 4 + 1] + line1[xx * 4 + 5] + line1[xx * 4 + 9] + + line2[xx * 4 + 1] + line2[xx * 4 + 5] + line2[xx * 4 + 9]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line1[xx * 4 + 2] + line1[xx * 4 + 6] + line1[xx * 4 + 10] + + line2[xx * 4 + 2] + line2[xx * 4 + 6] + line2[xx * 4 + 10]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line1[xx * 4 + 3] + line1[xx * 4 + 7] + line1[xx * 4 + 11] + + line2[xx * 4 + 3] + line2[xx * 4 + 7] + line2[xx * 4 + 11]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -844,10 +827,9 @@ ImagingReduce3x3(Imaging imOut, Imaging imIn, int box[4]) } void -ImagingReduce4x4(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce4x4(Imaging imOut, Imaging imIn, int box[4]) { /* Optimized implementation for xscale = 4 and yscale = 4. - */ + */ int xscale = 4, yscale = 4; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -855,13 +837,13 @@ ImagingReduce4x4(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image8[yy + 2]; UINT8 *line3 = (UINT8 *)imIn->image8[yy + 3]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2] + line0[xx + 3] + line1[xx + 0] + line1[xx + 1] + line1[xx + 2] + line1[xx + 3] + line2[xx + 0] + line2[xx + 1] + line2[xx + 2] + line2[xx + 3] + @@ -871,69 +853,89 @@ ImagingReduce4x4(Imaging imOut, Imaging imIn, int box[4]) } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image[yy + 2]; UINT8 *line3 = (UINT8 *)imIn->image[yy + 3]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + line0[xx*4 + 15] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + line1[xx*4 + 15] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11] + line2[xx*4 + 15] + - line3[xx*4 + 3] + line3[xx*4 + 7] + line3[xx*4 + 11] + line3[xx*4 + 15]; - v = MAKE_UINT32((ss0 + amend) >> 4, 0, - 0, (ss3 + amend) >> 4); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line1[xx * 4 + 0] + line1[xx * 4 + 4] + + line1[xx * 4 + 8] + line1[xx * 4 + 12] + line2[xx * 4 + 0] + + line2[xx * 4 + 4] + line2[xx * 4 + 8] + line2[xx * 4 + 12] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line0[xx * 4 + 15] + line1[xx * 4 + 3] + line1[xx * 4 + 7] + + line1[xx * 4 + 11] + line1[xx * 4 + 15] + line2[xx * 4 + 3] + + line2[xx * 4 + 7] + line2[xx * 4 + 11] + line2[xx * 4 + 15] + + line3[xx * 4 + 3] + line3[xx * 4 + 7] + line3[xx * 4 + 11] + + line3[xx * 4 + 15]; + v = MAKE_UINT32((ss0 + amend) >> 4, 0, 0, (ss3 + amend) >> 4); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + line0[xx*4 + 13] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + line1[xx*4 + 13] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9] + line2[xx*4 + 13] + - line3[xx*4 + 1] + line3[xx*4 + 5] + line3[xx*4 + 9] + line3[xx*4 + 13]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + line0[xx*4 + 14] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + line1[xx*4 + 14] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10] + line2[xx*4 + 14] + - line3[xx*4 + 2] + line3[xx*4 + 6] + line3[xx*4 + 10] + line3[xx*4 + 14]; - v = MAKE_UINT32((ss0 + amend) >> 4, (ss1 + amend) >> 4, - (ss2 + amend) >> 4, 0); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line1[xx * 4 + 0] + line1[xx * 4 + 4] + + line1[xx * 4 + 8] + line1[xx * 4 + 12] + line2[xx * 4 + 0] + + line2[xx * 4 + 4] + line2[xx * 4 + 8] + line2[xx * 4 + 12] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line0[xx * 4 + 13] + line1[xx * 4 + 1] + line1[xx * 4 + 5] + + line1[xx * 4 + 9] + line1[xx * 4 + 13] + line2[xx * 4 + 1] + + line2[xx * 4 + 5] + line2[xx * 4 + 9] + line2[xx * 4 + 13] + + line3[xx * 4 + 1] + line3[xx * 4 + 5] + line3[xx * 4 + 9] + + line3[xx * 4 + 13]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line0[xx * 4 + 14] + line1[xx * 4 + 2] + line1[xx * 4 + 6] + + line1[xx * 4 + 10] + line1[xx * 4 + 14] + line2[xx * 4 + 2] + + line2[xx * 4 + 6] + line2[xx * 4 + 10] + line2[xx * 4 + 14] + + line3[xx * 4 + 2] + line3[xx * 4 + 6] + line3[xx * 4 + 10] + + line3[xx * 4 + 14]; + v = MAKE_UINT32( + (ss0 + amend) >> 4, (ss1 + amend) >> 4, (ss2 + amend) >> 4, 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + line0[xx*4 + 13] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + line1[xx*4 + 13] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9] + line2[xx*4 + 13] + - line3[xx*4 + 1] + line3[xx*4 + 5] + line3[xx*4 + 9] + line3[xx*4 + 13]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + line0[xx*4 + 14] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + line1[xx*4 + 14] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10] + line2[xx*4 + 14] + - line3[xx*4 + 2] + line3[xx*4 + 6] + line3[xx*4 + 10] + line3[xx*4 + 14]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + line0[xx*4 + 15] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + line1[xx*4 + 15] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11] + line2[xx*4 + 15] + - line3[xx*4 + 3] + line3[xx*4 + 7] + line3[xx*4 + 11] + line3[xx*4 + 15]; - v = MAKE_UINT32((ss0 + amend) >> 4, (ss1 + amend) >> 4, - (ss2 + amend) >> 4, (ss3 + amend) >> 4); + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line1[xx * 4 + 0] + line1[xx * 4 + 4] + + line1[xx * 4 + 8] + line1[xx * 4 + 12] + line2[xx * 4 + 0] + + line2[xx * 4 + 4] + line2[xx * 4 + 8] + line2[xx * 4 + 12] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line0[xx * 4 + 13] + line1[xx * 4 + 1] + line1[xx * 4 + 5] + + line1[xx * 4 + 9] + line1[xx * 4 + 13] + line2[xx * 4 + 1] + + line2[xx * 4 + 5] + line2[xx * 4 + 9] + line2[xx * 4 + 13] + + line3[xx * 4 + 1] + line3[xx * 4 + 5] + line3[xx * 4 + 9] + + line3[xx * 4 + 13]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line0[xx * 4 + 14] + line1[xx * 4 + 2] + line1[xx * 4 + 6] + + line1[xx * 4 + 10] + line1[xx * 4 + 14] + line2[xx * 4 + 2] + + line2[xx * 4 + 6] + line2[xx * 4 + 10] + line2[xx * 4 + 14] + + line3[xx * 4 + 2] + line3[xx * 4 + 6] + line3[xx * 4 + 10] + + line3[xx * 4 + 14]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line0[xx * 4 + 15] + line1[xx * 4 + 3] + line1[xx * 4 + 7] + + line1[xx * 4 + 11] + line1[xx * 4 + 15] + line2[xx * 4 + 3] + + line2[xx * 4 + 7] + line2[xx * 4 + 11] + line2[xx * 4 + 15] + + line3[xx * 4 + 3] + line3[xx * 4 + 7] + line3[xx * 4 + 11] + + line3[xx * 4 + 15]; + v = MAKE_UINT32( + (ss0 + amend) >> 4, + (ss1 + amend) >> 4, + (ss2 + amend) >> 4, + (ss3 + amend) >> 4); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -941,12 +943,10 @@ ImagingReduce4x4(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduce5x5(Imaging imOut, Imaging imIn, int box[4]) -{ +ImagingReduce5x5(Imaging imOut, Imaging imIn, int box[4]) { /* Fast special case for xscale = 5 and yscale = 5. - */ + */ int xscale = 5, yscale = 5; int x, y; UINT32 ss0, ss1, ss2, ss3; @@ -955,25 +955,27 @@ ImagingReduce5x5(Imaging imOut, Imaging imIn, int box[4]) if (imIn->image8) { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image8[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image8[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image8[yy + 2]; UINT8 *line3 = (UINT8 *)imIn->image8[yy + 3]; UINT8 *line4 = (UINT8 *)imIn->image8[yy + 4]; for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; - ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2] + line0[xx + 3] + line0[xx + 4] + - line1[xx + 0] + line1[xx + 1] + line1[xx + 2] + line1[xx + 3] + line1[xx + 4] + - line2[xx + 0] + line2[xx + 1] + line2[xx + 2] + line2[xx + 3] + line2[xx + 4] + - line3[xx + 0] + line3[xx + 1] + line3[xx + 2] + line3[xx + 3] + line3[xx + 4] + - line4[xx + 0] + line4[xx + 1] + line4[xx + 2] + line4[xx + 3] + line4[xx + 4]; + int xx = box[0] + x * xscale; + ss0 = line0[xx + 0] + line0[xx + 1] + line0[xx + 2] + line0[xx + 3] + + line0[xx + 4] + line1[xx + 0] + line1[xx + 1] + line1[xx + 2] + + line1[xx + 3] + line1[xx + 4] + line2[xx + 0] + line2[xx + 1] + + line2[xx + 2] + line2[xx + 3] + line2[xx + 4] + line3[xx + 0] + + line3[xx + 1] + line3[xx + 2] + line3[xx + 3] + line3[xx + 4] + + line4[xx + 0] + line4[xx + 1] + line4[xx + 2] + line4[xx + 3] + + line4[xx + 4]; imOut->image8[y][x] = ((ss0 + amend) * multiplier) >> 24; } } } else { for (y = 0; y < box[3] / yscale; y++) { - int yy = box[1] + y*yscale; + int yy = box[1] + y * yscale; UINT8 *line0 = (UINT8 *)imIn->image[yy + 0]; UINT8 *line1 = (UINT8 *)imIn->image[yy + 1]; UINT8 *line2 = (UINT8 *)imIn->image[yy + 2]; @@ -981,74 +983,116 @@ ImagingReduce5x5(Imaging imOut, Imaging imIn, int box[4]) UINT8 *line4 = (UINT8 *)imIn->image[yy + 4]; if (imIn->bands == 2) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + line0[xx*4 + 16] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + line1[xx*4 + 16] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + line2[xx*4 + 16] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12] + line3[xx*4 + 16] + - line4[xx*4 + 0] + line4[xx*4 + 4] + line4[xx*4 + 8] + line4[xx*4 + 12] + line4[xx*4 + 16]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + line0[xx*4 + 15] + line0[xx*4 + 19] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + line1[xx*4 + 15] + line1[xx*4 + 19] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11] + line2[xx*4 + 15] + line2[xx*4 + 19] + - line3[xx*4 + 3] + line3[xx*4 + 7] + line3[xx*4 + 11] + line3[xx*4 + 15] + line3[xx*4 + 19] + - line4[xx*4 + 3] + line4[xx*4 + 7] + line4[xx*4 + 11] + line4[xx*4 + 15] + line4[xx*4 + 19]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line0[xx * 4 + 16] + line1[xx * 4 + 0] + + line1[xx * 4 + 4] + line1[xx * 4 + 8] + line1[xx * 4 + 12] + + line1[xx * 4 + 16] + line2[xx * 4 + 0] + line2[xx * 4 + 4] + + line2[xx * 4 + 8] + line2[xx * 4 + 12] + line2[xx * 4 + 16] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12] + line3[xx * 4 + 16] + line4[xx * 4 + 0] + + line4[xx * 4 + 4] + line4[xx * 4 + 8] + line4[xx * 4 + 12] + + line4[xx * 4 + 16]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line0[xx * 4 + 15] + line0[xx * 4 + 19] + line1[xx * 4 + 3] + + line1[xx * 4 + 7] + line1[xx * 4 + 11] + line1[xx * 4 + 15] + + line1[xx * 4 + 19] + line2[xx * 4 + 3] + line2[xx * 4 + 7] + + line2[xx * 4 + 11] + line2[xx * 4 + 15] + line2[xx * 4 + 19] + + line3[xx * 4 + 3] + line3[xx * 4 + 7] + line3[xx * 4 + 11] + + line3[xx * 4 + 15] + line3[xx * 4 + 19] + line4[xx * 4 + 3] + + line4[xx * 4 + 7] + line4[xx * 4 + 11] + line4[xx * 4 + 15] + + line4[xx * 4 + 19]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, 0, - 0, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + 0, + 0, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else if (imIn->bands == 3) { for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + line0[xx*4 + 16] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + line1[xx*4 + 16] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + line2[xx*4 + 16] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12] + line3[xx*4 + 16] + - line4[xx*4 + 0] + line4[xx*4 + 4] + line4[xx*4 + 8] + line4[xx*4 + 12] + line4[xx*4 + 16]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + line0[xx*4 + 13] + line0[xx*4 + 17] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + line1[xx*4 + 13] + line1[xx*4 + 17] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9] + line2[xx*4 + 13] + line2[xx*4 + 17] + - line3[xx*4 + 1] + line3[xx*4 + 5] + line3[xx*4 + 9] + line3[xx*4 + 13] + line3[xx*4 + 17] + - line4[xx*4 + 1] + line4[xx*4 + 5] + line4[xx*4 + 9] + line4[xx*4 + 13] + line4[xx*4 + 17]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + line0[xx*4 + 14] + line0[xx*4 + 18] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + line1[xx*4 + 14] + line1[xx*4 + 18] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10] + line2[xx*4 + 14] + line2[xx*4 + 18] + - line3[xx*4 + 2] + line3[xx*4 + 6] + line3[xx*4 + 10] + line3[xx*4 + 14] + line3[xx*4 + 18] + - line4[xx*4 + 2] + line4[xx*4 + 6] + line4[xx*4 + 10] + line4[xx*4 + 14] + line4[xx*4 + 18]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line0[xx * 4 + 16] + line1[xx * 4 + 0] + + line1[xx * 4 + 4] + line1[xx * 4 + 8] + line1[xx * 4 + 12] + + line1[xx * 4 + 16] + line2[xx * 4 + 0] + line2[xx * 4 + 4] + + line2[xx * 4 + 8] + line2[xx * 4 + 12] + line2[xx * 4 + 16] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12] + line3[xx * 4 + 16] + line4[xx * 4 + 0] + + line4[xx * 4 + 4] + line4[xx * 4 + 8] + line4[xx * 4 + 12] + + line4[xx * 4 + 16]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line0[xx * 4 + 13] + line0[xx * 4 + 17] + line1[xx * 4 + 1] + + line1[xx * 4 + 5] + line1[xx * 4 + 9] + line1[xx * 4 + 13] + + line1[xx * 4 + 17] + line2[xx * 4 + 1] + line2[xx * 4 + 5] + + line2[xx * 4 + 9] + line2[xx * 4 + 13] + line2[xx * 4 + 17] + + line3[xx * 4 + 1] + line3[xx * 4 + 5] + line3[xx * 4 + 9] + + line3[xx * 4 + 13] + line3[xx * 4 + 17] + line4[xx * 4 + 1] + + line4[xx * 4 + 5] + line4[xx * 4 + 9] + line4[xx * 4 + 13] + + line4[xx * 4 + 17]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line0[xx * 4 + 14] + line0[xx * 4 + 18] + line1[xx * 4 + 2] + + line1[xx * 4 + 6] + line1[xx * 4 + 10] + line1[xx * 4 + 14] + + line1[xx * 4 + 18] + line2[xx * 4 + 2] + line2[xx * 4 + 6] + + line2[xx * 4 + 10] + line2[xx * 4 + 14] + line2[xx * 4 + 18] + + line3[xx * 4 + 2] + line3[xx * 4 + 6] + line3[xx * 4 + 10] + + line3[xx * 4 + 14] + line3[xx * 4 + 18] + line4[xx * 4 + 2] + + line4[xx * 4 + 6] + line4[xx * 4 + 10] + line4[xx * 4 + 14] + + line4[xx * 4 + 18]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, 0); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + 0); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } else { // bands == 4 for (x = 0; x < box[2] / xscale; x++) { - int xx = box[0] + x*xscale; + int xx = box[0] + x * xscale; UINT32 v; - ss0 = line0[xx*4 + 0] + line0[xx*4 + 4] + line0[xx*4 + 8] + line0[xx*4 + 12] + line0[xx*4 + 16] + - line1[xx*4 + 0] + line1[xx*4 + 4] + line1[xx*4 + 8] + line1[xx*4 + 12] + line1[xx*4 + 16] + - line2[xx*4 + 0] + line2[xx*4 + 4] + line2[xx*4 + 8] + line2[xx*4 + 12] + line2[xx*4 + 16] + - line3[xx*4 + 0] + line3[xx*4 + 4] + line3[xx*4 + 8] + line3[xx*4 + 12] + line3[xx*4 + 16] + - line4[xx*4 + 0] + line4[xx*4 + 4] + line4[xx*4 + 8] + line4[xx*4 + 12] + line4[xx*4 + 16]; - ss1 = line0[xx*4 + 1] + line0[xx*4 + 5] + line0[xx*4 + 9] + line0[xx*4 + 13] + line0[xx*4 + 17] + - line1[xx*4 + 1] + line1[xx*4 + 5] + line1[xx*4 + 9] + line1[xx*4 + 13] + line1[xx*4 + 17] + - line2[xx*4 + 1] + line2[xx*4 + 5] + line2[xx*4 + 9] + line2[xx*4 + 13] + line2[xx*4 + 17] + - line3[xx*4 + 1] + line3[xx*4 + 5] + line3[xx*4 + 9] + line3[xx*4 + 13] + line3[xx*4 + 17] + - line4[xx*4 + 1] + line4[xx*4 + 5] + line4[xx*4 + 9] + line4[xx*4 + 13] + line4[xx*4 + 17]; - ss2 = line0[xx*4 + 2] + line0[xx*4 + 6] + line0[xx*4 + 10] + line0[xx*4 + 14] + line0[xx*4 + 18] + - line1[xx*4 + 2] + line1[xx*4 + 6] + line1[xx*4 + 10] + line1[xx*4 + 14] + line1[xx*4 + 18] + - line2[xx*4 + 2] + line2[xx*4 + 6] + line2[xx*4 + 10] + line2[xx*4 + 14] + line2[xx*4 + 18] + - line3[xx*4 + 2] + line3[xx*4 + 6] + line3[xx*4 + 10] + line3[xx*4 + 14] + line3[xx*4 + 18] + - line4[xx*4 + 2] + line4[xx*4 + 6] + line4[xx*4 + 10] + line4[xx*4 + 14] + line4[xx*4 + 18]; - ss3 = line0[xx*4 + 3] + line0[xx*4 + 7] + line0[xx*4 + 11] + line0[xx*4 + 15] + line0[xx*4 + 19] + - line1[xx*4 + 3] + line1[xx*4 + 7] + line1[xx*4 + 11] + line1[xx*4 + 15] + line1[xx*4 + 19] + - line2[xx*4 + 3] + line2[xx*4 + 7] + line2[xx*4 + 11] + line2[xx*4 + 15] + line2[xx*4 + 19] + - line3[xx*4 + 3] + line3[xx*4 + 7] + line3[xx*4 + 11] + line3[xx*4 + 15] + line3[xx*4 + 19] + - line4[xx*4 + 3] + line4[xx*4 + 7] + line4[xx*4 + 11] + line4[xx*4 + 15] + line4[xx*4 + 19]; + ss0 = line0[xx * 4 + 0] + line0[xx * 4 + 4] + line0[xx * 4 + 8] + + line0[xx * 4 + 12] + line0[xx * 4 + 16] + line1[xx * 4 + 0] + + line1[xx * 4 + 4] + line1[xx * 4 + 8] + line1[xx * 4 + 12] + + line1[xx * 4 + 16] + line2[xx * 4 + 0] + line2[xx * 4 + 4] + + line2[xx * 4 + 8] + line2[xx * 4 + 12] + line2[xx * 4 + 16] + + line3[xx * 4 + 0] + line3[xx * 4 + 4] + line3[xx * 4 + 8] + + line3[xx * 4 + 12] + line3[xx * 4 + 16] + line4[xx * 4 + 0] + + line4[xx * 4 + 4] + line4[xx * 4 + 8] + line4[xx * 4 + 12] + + line4[xx * 4 + 16]; + ss1 = line0[xx * 4 + 1] + line0[xx * 4 + 5] + line0[xx * 4 + 9] + + line0[xx * 4 + 13] + line0[xx * 4 + 17] + line1[xx * 4 + 1] + + line1[xx * 4 + 5] + line1[xx * 4 + 9] + line1[xx * 4 + 13] + + line1[xx * 4 + 17] + line2[xx * 4 + 1] + line2[xx * 4 + 5] + + line2[xx * 4 + 9] + line2[xx * 4 + 13] + line2[xx * 4 + 17] + + line3[xx * 4 + 1] + line3[xx * 4 + 5] + line3[xx * 4 + 9] + + line3[xx * 4 + 13] + line3[xx * 4 + 17] + line4[xx * 4 + 1] + + line4[xx * 4 + 5] + line4[xx * 4 + 9] + line4[xx * 4 + 13] + + line4[xx * 4 + 17]; + ss2 = line0[xx * 4 + 2] + line0[xx * 4 + 6] + line0[xx * 4 + 10] + + line0[xx * 4 + 14] + line0[xx * 4 + 18] + line1[xx * 4 + 2] + + line1[xx * 4 + 6] + line1[xx * 4 + 10] + line1[xx * 4 + 14] + + line1[xx * 4 + 18] + line2[xx * 4 + 2] + line2[xx * 4 + 6] + + line2[xx * 4 + 10] + line2[xx * 4 + 14] + line2[xx * 4 + 18] + + line3[xx * 4 + 2] + line3[xx * 4 + 6] + line3[xx * 4 + 10] + + line3[xx * 4 + 14] + line3[xx * 4 + 18] + line4[xx * 4 + 2] + + line4[xx * 4 + 6] + line4[xx * 4 + 10] + line4[xx * 4 + 14] + + line4[xx * 4 + 18]; + ss3 = line0[xx * 4 + 3] + line0[xx * 4 + 7] + line0[xx * 4 + 11] + + line0[xx * 4 + 15] + line0[xx * 4 + 19] + line1[xx * 4 + 3] + + line1[xx * 4 + 7] + line1[xx * 4 + 11] + line1[xx * 4 + 15] + + line1[xx * 4 + 19] + line2[xx * 4 + 3] + line2[xx * 4 + 7] + + line2[xx * 4 + 11] + line2[xx * 4 + 15] + line2[xx * 4 + 19] + + line3[xx * 4 + 3] + line3[xx * 4 + 7] + line3[xx * 4 + 11] + + line3[xx * 4 + 15] + line3[xx * 4 + 19] + line4[xx * 4 + 3] + + line4[xx * 4 + 7] + line4[xx * 4 + 11] + line4[xx * 4 + 15] + + line4[xx * 4 + 19]; v = MAKE_UINT32( - ((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24, - ((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24); + ((ss0 + amend) * multiplier) >> 24, + ((ss1 + amend) * multiplier) >> 24, + ((ss2 + amend) * multiplier) >> 24, + ((ss3 + amend) * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -1056,12 +1100,10 @@ ImagingReduce5x5(Imaging imOut, Imaging imIn, int box[4]) } } - void -ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) -{ +ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) { /* Fill the last row and the last column for any xscale and yscale. - */ + */ int x, y, xx, yy; if (imIn->image8) { @@ -1070,13 +1112,13 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 multiplier = division_UINT32(scale, 8); UINT32 amend = scale / 2; for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; UINT32 ss = amend; x = box[2] / xscale; for (yy = yy_from; yy < yy_from + yscale; yy++) { UINT8 *line = (UINT8 *)imIn->image8[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { ss += line[xx + 0]; } } @@ -1089,9 +1131,9 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 amend = scale / 2; y = box[3] / yscale; for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 ss = amend; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { UINT8 *line = (UINT8 *)imIn->image8[yy]; for (xx = xx_from; xx < xx_from + xscale; xx++) { ss += line[xx + 0]; @@ -1107,9 +1149,9 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 ss = amend; x = box[2] / xscale; y = box[3] / yscale; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { UINT8 *line = (UINT8 *)imIn->image8[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { ss += line[xx + 0]; } } @@ -1121,23 +1163,25 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 multiplier = division_UINT32(scale, 8); UINT32 amend = scale / 2; for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; + int yy_from = box[1] + y * yscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; x = box[2] / xscale; for (yy = yy_from; yy < yy_from + yscale; yy++) { UINT8 *line = (UINT8 *)imIn->image[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -1147,21 +1191,23 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 amend = scale / 2; y = box[3] / yscale; for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + int xx_from = box[0] + x * xscale; UINT32 v; UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { UINT8 *line = (UINT8 *)imIn->image[yy]; for (xx = xx_from; xx < xx_from + xscale; xx++) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } @@ -1173,265 +1219,262 @@ ImagingReduceCorners(Imaging imOut, Imaging imIn, int box[4], int xscale, int ys UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend; x = box[2] / xscale; y = box[3] / yscale; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { UINT8 *line = (UINT8 *)imIn->image[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss0 += line[xx*4 + 0]; - ss1 += line[xx*4 + 1]; - ss2 += line[xx*4 + 2]; - ss3 += line[xx*4 + 3]; + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { + ss0 += line[xx * 4 + 0]; + ss1 += line[xx * 4 + 1]; + ss2 += line[xx * 4 + 2]; + ss3 += line[xx * 4 + 3]; } } v = MAKE_UINT32( - (ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24, - (ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24); + (ss0 * multiplier) >> 24, + (ss1 * multiplier) >> 24, + (ss2 * multiplier) >> 24, + (ss3 * multiplier) >> 24); memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v)); } } } - void -ImagingReduceNxN_32bpc(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) -{ +ImagingReduceNxN_32bpc( + Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) { /* The most general implementation for any xscale and yscale - */ + */ int x, y, xx, yy; double multiplier = 1.0 / (yscale * xscale); - switch(imIn->type) { - case IMAGING_TYPE_INT32: - for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; - for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; - double ss = 0; - for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { - INT32 *line0 = (INT32 *)imIn->image32[yy]; - INT32 *line1 = (INT32 *)imIn->image32[yy + 1]; - for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss += line0[xx + 0] + line0[xx + 1] + - line1[xx + 0] + line1[xx + 1]; - } - if (xscale & 0x01) { - ss += line0[xx + 0] + line1[xx + 0]; - } - } - if (yscale & 0x01) { - INT32 *line = (INT32 *)imIn->image32[yy]; - for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss += line[xx + 0] + line[xx + 1]; + switch (imIn->type) { + case IMAGING_TYPE_INT32: + for (y = 0; y < box[3] / yscale; y++) { + int yy_from = box[1] + y * yscale; + for (x = 0; x < box[2] / xscale; x++) { + int xx_from = box[0] + x * xscale; + double ss = 0; + for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { + INT32 *line0 = (INT32 *)imIn->image32[yy]; + INT32 *line1 = (INT32 *)imIn->image32[yy + 1]; + for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { + ss += line0[xx + 0] + line0[xx + 1] + line1[xx + 0] + + line1[xx + 1]; + } + if (xscale & 0x01) { + ss += line0[xx + 0] + line1[xx + 0]; + } } - if (xscale & 0x01) { - ss += line[xx + 0]; + if (yscale & 0x01) { + INT32 *line = (INT32 *)imIn->image32[yy]; + for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { + ss += line[xx + 0] + line[xx + 1]; + } + if (xscale & 0x01) { + ss += line[xx + 0]; + } } + IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); } - IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); } - } - break; + break; - case IMAGING_TYPE_FLOAT32: - for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; - for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; - double ss = 0; - for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { - FLOAT32 *line0 = (FLOAT32 *)imIn->image32[yy]; - FLOAT32 *line1 = (FLOAT32 *)imIn->image32[yy + 1]; - for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss += line0[xx + 0] + line0[xx + 1] + - line1[xx + 0] + line1[xx + 1]; - } - if (xscale & 0x01) { - ss += line0[xx + 0] + line1[xx + 0]; - } - } - if (yscale & 0x01) { - FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; - for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { - ss += line[xx + 0] + line[xx + 1]; + case IMAGING_TYPE_FLOAT32: + for (y = 0; y < box[3] / yscale; y++) { + int yy_from = box[1] + y * yscale; + for (x = 0; x < box[2] / xscale; x++) { + int xx_from = box[0] + x * xscale; + double ss = 0; + for (yy = yy_from; yy < yy_from + yscale - 1; yy += 2) { + FLOAT32 *line0 = (FLOAT32 *)imIn->image32[yy]; + FLOAT32 *line1 = (FLOAT32 *)imIn->image32[yy + 1]; + for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { + ss += line0[xx + 0] + line0[xx + 1] + line1[xx + 0] + + line1[xx + 1]; + } + if (xscale & 0x01) { + ss += line0[xx + 0] + line1[xx + 0]; + } } - if (xscale & 0x01) { - ss += line[xx + 0]; + if (yscale & 0x01) { + FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; + for (xx = xx_from; xx < xx_from + xscale - 1; xx += 2) { + ss += line[xx + 0] + line[xx + 1]; + } + if (xscale & 0x01) { + ss += line[xx + 0]; + } } + IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } - IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } - } - break; + break; } } - void -ImagingReduceCorners_32bpc(Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) -{ +ImagingReduceCorners_32bpc( + Imaging imOut, Imaging imIn, int box[4], int xscale, int yscale) { /* Fill the last row and the last column for any xscale and yscale. - */ + */ int x, y, xx, yy; - switch(imIn->type) { - case IMAGING_TYPE_INT32: - if (box[2] % xscale) { - double multiplier = 1.0 / ((box[2] % xscale) * yscale); - for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; - double ss = 0; - x = box[2] / xscale; - for (yy = yy_from; yy < yy_from + yscale; yy++) { - INT32 *line = (INT32 *)imIn->image32[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss += line[xx + 0]; + switch (imIn->type) { + case IMAGING_TYPE_INT32: + if (box[2] % xscale) { + double multiplier = 1.0 / ((box[2] % xscale) * yscale); + for (y = 0; y < box[3] / yscale; y++) { + int yy_from = box[1] + y * yscale; + double ss = 0; + x = box[2] / xscale; + for (yy = yy_from; yy < yy_from + yscale; yy++) { + INT32 *line = (INT32 *)imIn->image32[yy]; + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { + ss += line[xx + 0]; + } } + IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); } - IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); } - } - if (box[3] % yscale) { - double multiplier = 1.0 / (xscale * (box[3] % yscale)); - y = box[3] / yscale; - for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + if (box[3] % yscale) { + double multiplier = 1.0 / (xscale * (box[3] % yscale)); + y = box[3] / yscale; + for (x = 0; x < box[2] / xscale; x++) { + int xx_from = box[0] + x * xscale; + double ss = 0; + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { + INT32 *line = (INT32 *)imIn->image32[yy]; + for (xx = xx_from; xx < xx_from + xscale; xx++) { + ss += line[xx + 0]; + } + } + IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); + } + } + if (box[2] % xscale && box[3] % yscale) { + double multiplier = 1.0 / ((box[2] % xscale) * (box[3] % yscale)); double ss = 0; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + x = box[2] / xscale; + y = box[3] / yscale; + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { INT32 *line = (INT32 *)imIn->image32[yy]; - for (xx = xx_from; xx < xx_from + xscale; xx++) { + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { ss += line[xx + 0]; } } IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); } - } - if (box[2] % xscale && box[3] % yscale) { - double multiplier = 1.0 / ((box[2] % xscale) * (box[3] % yscale)); - double ss = 0; - x = box[2] / xscale; - y = box[3] / yscale; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { - INT32 *line = (INT32 *)imIn->image32[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss += line[xx + 0]; + break; + + case IMAGING_TYPE_FLOAT32: + if (box[2] % xscale) { + double multiplier = 1.0 / ((box[2] % xscale) * yscale); + for (y = 0; y < box[3] / yscale; y++) { + int yy_from = box[1] + y * yscale; + double ss = 0; + x = box[2] / xscale; + for (yy = yy_from; yy < yy_from + yscale; yy++) { + FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { + ss += line[xx + 0]; + } + } + IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } } - IMAGING_PIXEL_I(imOut, x, y) = ROUND_UP(ss * multiplier); - } - break; - - case IMAGING_TYPE_FLOAT32: - if (box[2] % xscale) { - double multiplier = 1.0 / ((box[2] % xscale) * yscale); - for (y = 0; y < box[3] / yscale; y++) { - int yy_from = box[1] + y*yscale; - double ss = 0; - x = box[2] / xscale; - for (yy = yy_from; yy < yy_from + yscale; yy++) { - FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss += line[xx + 0]; + if (box[3] % yscale) { + double multiplier = 1.0 / (xscale * (box[3] % yscale)); + y = box[3] / yscale; + for (x = 0; x < box[2] / xscale; x++) { + int xx_from = box[0] + x * xscale; + double ss = 0; + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { + FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; + for (xx = xx_from; xx < xx_from + xscale; xx++) { + ss += line[xx + 0]; + } } + IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } - IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } - } - if (box[3] % yscale) { - double multiplier = 1.0 / (xscale * (box[3] % yscale)); - y = box[3] / yscale; - for (x = 0; x < box[2] / xscale; x++) { - int xx_from = box[0] + x*xscale; + if (box[2] % xscale && box[3] % yscale) { + double multiplier = 1.0 / ((box[2] % xscale) * (box[3] % yscale)); double ss = 0; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { + x = box[2] / xscale; + y = box[3] / yscale; + for (yy = box[1] + y * yscale; yy < box[1] + box[3]; yy++) { FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; - for (xx = xx_from; xx < xx_from + xscale; xx++) { + for (xx = box[0] + x * xscale; xx < box[0] + box[2]; xx++) { ss += line[xx + 0]; } } IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; } - } - if (box[2] % xscale && box[3] % yscale) { - double multiplier = 1.0 / ((box[2] % xscale) * (box[3] % yscale)); - double ss = 0; - x = box[2] / xscale; - y = box[3] / yscale; - for (yy = box[1] + y*yscale; yy < box[1] + box[3]; yy++) { - FLOAT32 *line = (FLOAT32 *)imIn->image32[yy]; - for (xx = box[0] + x*xscale; xx < box[0] + box[2]; xx++) { - ss += line[xx + 0]; - } - } - IMAGING_PIXEL_F(imOut, x, y) = ss * multiplier; - } - break; + break; } } - Imaging -ImagingReduce(Imaging imIn, int xscale, int yscale, int box[4]) -{ +ImagingReduce(Imaging imIn, int xscale, int yscale, int box[4]) { ImagingSectionCookie cookie; Imaging imOut = NULL; if (strcmp(imIn->mode, "P") == 0 || strcmp(imIn->mode, "1") == 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->type == IMAGING_TYPE_SPECIAL) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } - imOut = ImagingNewDirty(imIn->mode, - (box[2] + xscale - 1) / xscale, - (box[3] + yscale - 1) / yscale); - if ( ! imOut) { + imOut = ImagingNewDirty( + imIn->mode, (box[2] + xscale - 1) / xscale, (box[3] + yscale - 1) / yscale); + if (!imOut) { return NULL; } ImagingSectionEnter(&cookie); - switch(imIn->type) { - case IMAGING_TYPE_UINT8: - if (xscale == 1) { - if (yscale == 2) { - ImagingReduce1x2(imOut, imIn, box); - } else if (yscale == 3) { - ImagingReduce1x3(imOut, imIn, box); - } else { - ImagingReduce1xN(imOut, imIn, box, yscale); - } - } else if (yscale == 1) { - if (xscale == 2) { - ImagingReduce2x1(imOut, imIn, box); - } else if (xscale == 3) { - ImagingReduce3x1(imOut, imIn, box); - } else { - ImagingReduceNx1(imOut, imIn, box, xscale); - } - } else if (xscale == yscale && xscale <= 5) { - if (xscale == 2) { - ImagingReduce2x2(imOut, imIn, box); - } else if (xscale == 3) { - ImagingReduce3x3(imOut, imIn, box); - } else if (xscale == 4) { - ImagingReduce4x4(imOut, imIn, box); + switch (imIn->type) { + case IMAGING_TYPE_UINT8: + if (xscale == 1) { + if (yscale == 2) { + ImagingReduce1x2(imOut, imIn, box); + } else if (yscale == 3) { + ImagingReduce1x3(imOut, imIn, box); + } else { + ImagingReduce1xN(imOut, imIn, box, yscale); + } + } else if (yscale == 1) { + if (xscale == 2) { + ImagingReduce2x1(imOut, imIn, box); + } else if (xscale == 3) { + ImagingReduce3x1(imOut, imIn, box); + } else { + ImagingReduceNx1(imOut, imIn, box, xscale); + } + } else if (xscale == yscale && xscale <= 5) { + if (xscale == 2) { + ImagingReduce2x2(imOut, imIn, box); + } else if (xscale == 3) { + ImagingReduce3x3(imOut, imIn, box); + } else if (xscale == 4) { + ImagingReduce4x4(imOut, imIn, box); + } else { + ImagingReduce5x5(imOut, imIn, box); + } } else { - ImagingReduce5x5(imOut, imIn, box); + ImagingReduceNxN(imOut, imIn, box, xscale, yscale); } - } else { - ImagingReduceNxN(imOut, imIn, box, xscale, yscale); - } - ImagingReduceCorners(imOut, imIn, box, xscale, yscale); - break; + ImagingReduceCorners(imOut, imIn, box, xscale, yscale); + break; - case IMAGING_TYPE_INT32: - case IMAGING_TYPE_FLOAT32: - ImagingReduceNxN_32bpc(imOut, imIn, box, xscale, yscale); + case IMAGING_TYPE_INT32: + case IMAGING_TYPE_FLOAT32: + ImagingReduceNxN_32bpc(imOut, imIn, box, xscale, yscale); - ImagingReduceCorners_32bpc(imOut, imIn, box, xscale, yscale); - break; + ImagingReduceCorners_32bpc(imOut, imIn, box, xscale, yscale); + break; } ImagingSectionLeave(&cookie); diff --git a/src/libImaging/Resample.c b/src/libImaging/Resample.c index ec35303d8c5..aa54500153f 100644 --- a/src/libImaging/Resample.c +++ b/src/libImaging/Resample.c @@ -2,36 +2,34 @@ #include - -#define ROUND_UP(f) ((int) ((f) >= 0.0 ? (f) + 0.5F : (f) - 0.5F)) - +#define ROUND_UP(f) ((int)((f) >= 0.0 ? (f) + 0.5F : (f)-0.5F)) struct filter { double (*filter)(double x); double support; }; -static inline double box_filter(double x) -{ +static inline double +box_filter(double x) { if (x > -0.5 && x <= 0.5) { return 1.0; } return 0.0; } -static inline double bilinear_filter(double x) -{ +static inline double +bilinear_filter(double x) { if (x < 0.0) { x = -x; } if (x < 1.0) { - return 1.0-x; + return 1.0 - x; } return 0.0; } -static inline double hamming_filter(double x) -{ +static inline double +hamming_filter(double x) { if (x < 0.0) { x = -x; } @@ -45,15 +43,16 @@ static inline double hamming_filter(double x) return sin(x) / x * (0.54f + 0.46f * cos(x)); } -static inline double bicubic_filter(double x) -{ - /* https://en.wikipedia.org/wiki/Bicubic_interpolation#Bicubic_convolution_algorithm */ +static inline double +bicubic_filter(double x) { + /* https://en.wikipedia.org/wiki/Bicubic_interpolation#Bicubic_convolution_algorithm + */ #define a -0.5 if (x < 0.0) { x = -x; } if (x < 1.0) { - return ((a + 2.0) * x - (a + 3.0)) * x*x + 1; + return ((a + 2.0) * x - (a + 3.0)) * x * x + 1; } if (x < 2.0) { return (((x - 5) * x + 8) * x - 4) * a; @@ -62,8 +61,8 @@ static inline double bicubic_filter(double x) #undef a } -static inline double sinc_filter(double x) -{ +static inline double +sinc_filter(double x) { if (x == 0.0) { return 1.0; } @@ -71,21 +70,20 @@ static inline double sinc_filter(double x) return sin(x) / x; } -static inline double lanczos_filter(double x) -{ +static inline double +lanczos_filter(double x) { /* truncated sinc */ if (-3.0 <= x && x < 3.0) { - return sinc_filter(x) * sinc_filter(x/3); + return sinc_filter(x) * sinc_filter(x / 3); } return 0.0; } -static struct filter BOX = { box_filter, 0.5 }; -static struct filter BILINEAR = { bilinear_filter, 1.0 }; -static struct filter HAMMING = { hamming_filter, 1.0 }; -static struct filter BICUBIC = { bicubic_filter, 2.0 }; -static struct filter LANCZOS = { lanczos_filter, 3.0 }; - +static struct filter BOX = {box_filter, 0.5}; +static struct filter BILINEAR = {bilinear_filter, 1.0}; +static struct filter HAMMING = {hamming_filter, 1.0}; +static struct filter BICUBIC = {bicubic_filter, 2.0}; +static struct filter LANCZOS = {lanczos_filter, 3.0}; /* 8 bits for result. Filter can have negative areas. In one cases the sum of the coefficients will be negative, @@ -93,102 +91,102 @@ static struct filter LANCZOS = { lanczos_filter, 3.0 }; two extra bits for overflow and int type. */ #define PRECISION_BITS (32 - 8 - 2) - /* Handles values form -640 to 639. */ UINT8 _clip8_lookups[1280] = { - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, - 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, - 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, - 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, - 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, - 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, - 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, - 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, - 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, - 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, - 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, - 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, - 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, - 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, - 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, - 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, - 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, + 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, + 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, + 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, + 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, + 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, + 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, + 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, + 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, + 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, + 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, + 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, + 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, + 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, + 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, }; UINT8 *clip8_lookups = &_clip8_lookups[640]; -static inline UINT8 clip8(int in) -{ +static inline UINT8 +clip8(int in) { return clip8_lookups[in >> PRECISION_BITS]; } - int -precompute_coeffs(int inSize, float in0, float in1, int outSize, - struct filter *filterp, int **boundsp, double **kkp) { +precompute_coeffs( + int inSize, + float in0, + float in1, + int outSize, + struct filter *filterp, + int **boundsp, + double **kkp) { double support, scale, filterscale; double center, ww, ss; int xx, x, ksize, xmin, xmax; @@ -196,7 +194,7 @@ precompute_coeffs(int inSize, float in0, float in1, int outSize, double *kk, *k; /* prepare for horizontal stretch */ - filterscale = scale = (double) (in1 - in0) / outSize; + filterscale = scale = (double)(in1 - in0) / outSize; if (filterscale < 1.0) { filterscale = 1.0; } @@ -205,7 +203,7 @@ precompute_coeffs(int inSize, float in0, float in1, int outSize, support = filterp->support * filterscale; /* maximum number of coeffs */ - ksize = (int) ceil(support) * 2 + 1; + ksize = (int)ceil(support) * 2 + 1; // check for overflow if (outSize > INT_MAX / (ksize * sizeof(double))) { @@ -216,14 +214,14 @@ precompute_coeffs(int inSize, float in0, float in1, int outSize, /* coefficient buffer */ /* malloc check ok, overflow checked above */ kk = malloc(outSize * ksize * sizeof(double)); - if ( ! kk) { + if (!kk) { ImagingError_MemoryError(); return 0; } /* malloc check ok, ksize*sizeof(double) > 2*sizeof(int) */ bounds = malloc(outSize * 2 * sizeof(int)); - if ( ! bounds) { + if (!bounds) { free(kk); ImagingError_MemoryError(); return 0; @@ -234,12 +232,12 @@ precompute_coeffs(int inSize, float in0, float in1, int outSize, ww = 0.0; ss = 1.0 / filterscale; // Round the value - xmin = (int) (center - support + 0.5); + xmin = (int)(center - support + 0.5); if (xmin < 0) { xmin = 0; } // Round the value - xmax = (int) (center + support + 0.5); + xmax = (int)(center + support + 0.5); if (xmax > inSize) { xmax = inSize; } @@ -267,38 +265,33 @@ precompute_coeffs(int inSize, float in0, float in1, int outSize, return ksize; } - void -normalize_coeffs_8bpc(int outSize, int ksize, double *prekk) -{ +normalize_coeffs_8bpc(int outSize, int ksize, double *prekk) { int x; INT32 *kk; // use the same buffer for normalized coefficients - kk = (INT32 *) prekk; + kk = (INT32 *)prekk; for (x = 0; x < outSize * ksize; x++) { if (prekk[x] < 0) { - kk[x] = (int) (-0.5 + prekk[x] * (1 << PRECISION_BITS)); + kk[x] = (int)(-0.5 + prekk[x] * (1 << PRECISION_BITS)); } else { - kk[x] = (int) (0.5 + prekk[x] * (1 << PRECISION_BITS)); + kk[x] = (int)(0.5 + prekk[x] * (1 << PRECISION_BITS)); } } } - - void -ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, - int ksize, int *bounds, double *prekk) -{ +ImagingResampleHorizontal_8bpc( + Imaging imOut, Imaging imIn, int offset, int ksize, int *bounds, double *prekk) { ImagingSectionCookie cookie; int ss0, ss1, ss2, ss3; int xx, yy, x, xmin, xmax; INT32 *k, *kk; // use the same buffer for normalized coefficients - kk = (INT32 *) prekk; + kk = (INT32 *)prekk; normalize_coeffs_8bpc(imOut->xsize, ksize, prekk); ImagingSectionEnter(&cookie); @@ -308,9 +301,9 @@ ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, xmin = bounds[xx * 2 + 0]; xmax = bounds[xx * 2 + 1]; k = &kk[xx * ksize]; - ss0 = 1 << (PRECISION_BITS -1); + ss0 = 1 << (PRECISION_BITS - 1); for (x = 0; x < xmax; x++) { - ss0 += ((UINT8) imIn->image8[yy + offset][x + xmin]) * k[x]; + ss0 += ((UINT8)imIn->image8[yy + offset][x + xmin]) * k[x]; } imOut->image8[yy][xx] = clip8(ss0); } @@ -323,10 +316,12 @@ ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, xmin = bounds[xx * 2 + 0]; xmax = bounds[xx * 2 + 1]; k = &kk[xx * ksize]; - ss0 = ss3 = 1 << (PRECISION_BITS -1); + ss0 = ss3 = 1 << (PRECISION_BITS - 1); for (x = 0; x < xmax; x++) { - ss0 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 0]) * k[x]; - ss3 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 3]) * k[x]; + ss0 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 0]) * + k[x]; + ss3 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 3]) * + k[x]; } v = MAKE_UINT32(clip8(ss0), 0, 0, clip8(ss3)); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -339,11 +334,14 @@ ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, xmin = bounds[xx * 2 + 0]; xmax = bounds[xx * 2 + 1]; k = &kk[xx * ksize]; - ss0 = ss1 = ss2 = 1 << (PRECISION_BITS -1); + ss0 = ss1 = ss2 = 1 << (PRECISION_BITS - 1); for (x = 0; x < xmax; x++) { - ss0 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 0]) * k[x]; - ss1 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 1]) * k[x]; - ss2 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 2]) * k[x]; + ss0 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 0]) * + k[x]; + ss1 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 1]) * + k[x]; + ss2 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 2]) * + k[x]; } v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), 0); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -356,12 +354,16 @@ ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, xmin = bounds[xx * 2 + 0]; xmax = bounds[xx * 2 + 1]; k = &kk[xx * ksize]; - ss0 = ss1 = ss2 = ss3 = 1 << (PRECISION_BITS -1); + ss0 = ss1 = ss2 = ss3 = 1 << (PRECISION_BITS - 1); for (x = 0; x < xmax; x++) { - ss0 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 0]) * k[x]; - ss1 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 1]) * k[x]; - ss2 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 2]) * k[x]; - ss3 += ((UINT8) imIn->image[yy + offset][(x + xmin)*4 + 3]) * k[x]; + ss0 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 0]) * + k[x]; + ss1 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 1]) * + k[x]; + ss2 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 2]) * + k[x]; + ss3 += ((UINT8)imIn->image[yy + offset][(x + xmin) * 4 + 3]) * + k[x]; } v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -372,18 +374,16 @@ ImagingResampleHorizontal_8bpc(Imaging imOut, Imaging imIn, int offset, ImagingSectionLeave(&cookie); } - void -ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, - int ksize, int *bounds, double *prekk) -{ +ImagingResampleVertical_8bpc( + Imaging imOut, Imaging imIn, int offset, int ksize, int *bounds, double *prekk) { ImagingSectionCookie cookie; int ss0, ss1, ss2, ss3; int xx, yy, y, ymin, ymax; INT32 *k, *kk; // use the same buffer for normalized coefficients - kk = (INT32 *) prekk; + kk = (INT32 *)prekk; normalize_coeffs_8bpc(imOut->ysize, ksize, prekk); ImagingSectionEnter(&cookie); @@ -393,9 +393,9 @@ ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, ymin = bounds[yy * 2 + 0]; ymax = bounds[yy * 2 + 1]; for (xx = 0; xx < imOut->xsize; xx++) { - ss0 = 1 << (PRECISION_BITS -1); + ss0 = 1 << (PRECISION_BITS - 1); for (y = 0; y < ymax; y++) { - ss0 += ((UINT8) imIn->image8[y + ymin][xx]) * k[y]; + ss0 += ((UINT8)imIn->image8[y + ymin][xx]) * k[y]; } imOut->image8[yy][xx] = clip8(ss0); } @@ -408,10 +408,10 @@ ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, ymax = bounds[yy * 2 + 1]; for (xx = 0; xx < imOut->xsize; xx++) { UINT32 v; - ss0 = ss3 = 1 << (PRECISION_BITS -1); + ss0 = ss3 = 1 << (PRECISION_BITS - 1); for (y = 0; y < ymax; y++) { - ss0 += ((UINT8) imIn->image[y + ymin][xx*4 + 0]) * k[y]; - ss3 += ((UINT8) imIn->image[y + ymin][xx*4 + 3]) * k[y]; + ss0 += ((UINT8)imIn->image[y + ymin][xx * 4 + 0]) * k[y]; + ss3 += ((UINT8)imIn->image[y + ymin][xx * 4 + 3]) * k[y]; } v = MAKE_UINT32(clip8(ss0), 0, 0, clip8(ss3)); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -424,11 +424,11 @@ ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, ymax = bounds[yy * 2 + 1]; for (xx = 0; xx < imOut->xsize; xx++) { UINT32 v; - ss0 = ss1 = ss2 = 1 << (PRECISION_BITS -1); + ss0 = ss1 = ss2 = 1 << (PRECISION_BITS - 1); for (y = 0; y < ymax; y++) { - ss0 += ((UINT8) imIn->image[y + ymin][xx*4 + 0]) * k[y]; - ss1 += ((UINT8) imIn->image[y + ymin][xx*4 + 1]) * k[y]; - ss2 += ((UINT8) imIn->image[y + ymin][xx*4 + 2]) * k[y]; + ss0 += ((UINT8)imIn->image[y + ymin][xx * 4 + 0]) * k[y]; + ss1 += ((UINT8)imIn->image[y + ymin][xx * 4 + 1]) * k[y]; + ss2 += ((UINT8)imIn->image[y + ymin][xx * 4 + 2]) * k[y]; } v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), 0); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -441,12 +441,12 @@ ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, ymax = bounds[yy * 2 + 1]; for (xx = 0; xx < imOut->xsize; xx++) { UINT32 v; - ss0 = ss1 = ss2 = ss3 = 1 << (PRECISION_BITS -1); + ss0 = ss1 = ss2 = ss3 = 1 << (PRECISION_BITS - 1); for (y = 0; y < ymax; y++) { - ss0 += ((UINT8) imIn->image[y + ymin][xx*4 + 0]) * k[y]; - ss1 += ((UINT8) imIn->image[y + ymin][xx*4 + 1]) * k[y]; - ss2 += ((UINT8) imIn->image[y + ymin][xx*4 + 2]) * k[y]; - ss3 += ((UINT8) imIn->image[y + ymin][xx*4 + 3]) * k[y]; + ss0 += ((UINT8)imIn->image[y + ymin][xx * 4 + 0]) * k[y]; + ss1 += ((UINT8)imIn->image[y + ymin][xx * 4 + 1]) * k[y]; + ss2 += ((UINT8)imIn->image[y + ymin][xx * 4 + 2]) * k[y]; + ss3 += ((UINT8)imIn->image[y + ymin][xx * 4 + 3]) * k[y]; } v = MAKE_UINT32(clip8(ss0), clip8(ss1), clip8(ss2), clip8(ss3)); memcpy(imOut->image[yy] + xx * sizeof(v), &v, sizeof(v)); @@ -457,18 +457,16 @@ ImagingResampleVertical_8bpc(Imaging imOut, Imaging imIn, int offset, ImagingSectionLeave(&cookie); } - void -ImagingResampleHorizontal_32bpc(Imaging imOut, Imaging imIn, int offset, - int ksize, int *bounds, double *kk) -{ +ImagingResampleHorizontal_32bpc( + Imaging imOut, Imaging imIn, int offset, int ksize, int *bounds, double *kk) { ImagingSectionCookie cookie; double ss; int xx, yy, x, xmin, xmax; double *k; ImagingSectionEnter(&cookie); - switch(imIn->type) { + switch (imIn->type) { case IMAGING_TYPE_INT32: for (yy = 0; yy < imOut->ysize; yy++) { for (xx = 0; xx < imOut->xsize; xx++) { @@ -502,18 +500,16 @@ ImagingResampleHorizontal_32bpc(Imaging imOut, Imaging imIn, int offset, ImagingSectionLeave(&cookie); } - void -ImagingResampleVertical_32bpc(Imaging imOut, Imaging imIn, int offset, - int ksize, int *bounds, double *kk) -{ +ImagingResampleVertical_32bpc( + Imaging imOut, Imaging imIn, int offset, int ksize, int *bounds, double *kk) { ImagingSectionCookie cookie; double ss; int xx, yy, y, ymin, ymax; double *k; ImagingSectionEnter(&cookie); - switch(imIn->type) { + switch (imIn->type) { case IMAGING_TYPE_INT32: for (yy = 0; yy < imOut->ysize; yy++) { ymin = bounds[yy * 2 + 0]; @@ -547,36 +543,36 @@ ImagingResampleVertical_32bpc(Imaging imOut, Imaging imIn, int offset, ImagingSectionLeave(&cookie); } - -typedef void (*ResampleFunction)(Imaging imOut, Imaging imIn, int offset, - int ksize, int *bounds, double *kk); - +typedef void (*ResampleFunction)( + Imaging imOut, Imaging imIn, int offset, int ksize, int *bounds, double *kk); Imaging -ImagingResampleInner(Imaging imIn, int xsize, int ysize, - struct filter *filterp, float box[4], - ResampleFunction ResampleHorizontal, - ResampleFunction ResampleVertical); - +ImagingResampleInner( + Imaging imIn, + int xsize, + int ysize, + struct filter *filterp, + float box[4], + ResampleFunction ResampleHorizontal, + ResampleFunction ResampleVertical); Imaging -ImagingResample(Imaging imIn, int xsize, int ysize, int filter, float box[4]) -{ +ImagingResample(Imaging imIn, int xsize, int ysize, int filter, float box[4]) { struct filter *filterp; ResampleFunction ResampleHorizontal; ResampleFunction ResampleVertical; if (strcmp(imIn->mode, "P") == 0 || strcmp(imIn->mode, "1") == 0) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } if (imIn->type == IMAGING_TYPE_SPECIAL) { - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } else if (imIn->image8) { ResampleHorizontal = ImagingResampleHorizontal_8bpc; ResampleVertical = ImagingResampleVertical_8bpc; } else { - switch(imIn->type) { + switch (imIn->type) { case IMAGING_TYPE_UINT8: ResampleHorizontal = ImagingResampleHorizontal_8bpc; ResampleVertical = ImagingResampleVertical_8bpc; @@ -587,44 +583,44 @@ ImagingResample(Imaging imIn, int xsize, int ysize, int filter, float box[4]) ResampleVertical = ImagingResampleVertical_32bpc; break; default: - return (Imaging) ImagingError_ModeError(); + return (Imaging)ImagingError_ModeError(); } } /* check filter */ switch (filter) { - case IMAGING_TRANSFORM_BOX: - filterp = &BOX; - break; - case IMAGING_TRANSFORM_BILINEAR: - filterp = &BILINEAR; - break; - case IMAGING_TRANSFORM_HAMMING: - filterp = &HAMMING; - break; - case IMAGING_TRANSFORM_BICUBIC: - filterp = &BICUBIC; - break; - case IMAGING_TRANSFORM_LANCZOS: - filterp = &LANCZOS; - break; - default: - return (Imaging) ImagingError_ValueError( - "unsupported resampling filter" - ); + case IMAGING_TRANSFORM_BOX: + filterp = &BOX; + break; + case IMAGING_TRANSFORM_BILINEAR: + filterp = &BILINEAR; + break; + case IMAGING_TRANSFORM_HAMMING: + filterp = &HAMMING; + break; + case IMAGING_TRANSFORM_BICUBIC: + filterp = &BICUBIC; + break; + case IMAGING_TRANSFORM_LANCZOS: + filterp = &LANCZOS; + break; + default: + return (Imaging)ImagingError_ValueError("unsupported resampling filter"); } - return ImagingResampleInner(imIn, xsize, ysize, filterp, box, - ResampleHorizontal, ResampleVertical); + return ImagingResampleInner( + imIn, xsize, ysize, filterp, box, ResampleHorizontal, ResampleVertical); } - Imaging -ImagingResampleInner(Imaging imIn, int xsize, int ysize, - struct filter *filterp, float box[4], - ResampleFunction ResampleHorizontal, - ResampleFunction ResampleVertical) -{ +ImagingResampleInner( + Imaging imIn, + int xsize, + int ysize, + struct filter *filterp, + float box[4], + ResampleFunction ResampleHorizontal, + ResampleFunction ResampleVertical) { Imaging imTemp = NULL; Imaging imOut = NULL; @@ -637,15 +633,15 @@ ImagingResampleInner(Imaging imIn, int xsize, int ysize, need_horizontal = xsize != imIn->xsize || box[0] || box[2] != xsize; need_vertical = ysize != imIn->ysize || box[1] || box[3] != ysize; - ksize_horiz = precompute_coeffs(imIn->xsize, box[0], box[2], xsize, - filterp, &bounds_horiz, &kk_horiz); - if ( ! ksize_horiz) { + ksize_horiz = precompute_coeffs( + imIn->xsize, box[0], box[2], xsize, filterp, &bounds_horiz, &kk_horiz); + if (!ksize_horiz) { return NULL; } - ksize_vert = precompute_coeffs(imIn->ysize, box[1], box[3], ysize, - filterp, &bounds_vert, &kk_vert); - if ( ! ksize_vert) { + ksize_vert = precompute_coeffs( + imIn->ysize, box[1], box[3], ysize, filterp, &bounds_vert, &kk_vert); + if (!ksize_vert) { free(bounds_horiz); free(kk_horiz); return NULL; @@ -654,8 +650,7 @@ ImagingResampleInner(Imaging imIn, int xsize, int ysize, // First used row in the source image ybox_first = bounds_vert[0]; // Last used row in the source image - ybox_last = bounds_vert[ysize*2 - 2] + bounds_vert[ysize*2 - 1]; - + ybox_last = bounds_vert[ysize * 2 - 2] + bounds_vert[ysize * 2 - 1]; /* two-pass resize, horizontal pass */ if (need_horizontal) { @@ -666,12 +661,12 @@ ImagingResampleInner(Imaging imIn, int xsize, int ysize, imTemp = ImagingNewDirty(imIn->mode, xsize, ybox_last - ybox_first); if (imTemp) { - ResampleHorizontal(imTemp, imIn, ybox_first, - ksize_horiz, bounds_horiz, kk_horiz); + ResampleHorizontal( + imTemp, imIn, ybox_first, ksize_horiz, bounds_horiz, kk_horiz); } free(bounds_horiz); free(kk_horiz); - if ( ! imTemp) { + if (!imTemp) { free(bounds_vert); free(kk_vert); return NULL; @@ -688,15 +683,14 @@ ImagingResampleInner(Imaging imIn, int xsize, int ysize, imOut = ImagingNewDirty(imIn->mode, imIn->xsize, ysize); if (imOut) { /* imIn can be the original image or horizontally resampled one */ - ResampleVertical(imOut, imIn, 0, - ksize_vert, bounds_vert, kk_vert); + ResampleVertical(imOut, imIn, 0, ksize_vert, bounds_vert, kk_vert); } /* it's safe to call ImagingDelete with empty value if previous step was not performed. */ ImagingDelete(imTemp); free(bounds_vert); free(kk_vert); - if ( ! imOut) { + if (!imOut) { return NULL; } } else { @@ -706,7 +700,7 @@ ImagingResampleInner(Imaging imIn, int xsize, int ysize, } /* none of the previous steps are performed, copying */ - if ( ! imOut) { + if (!imOut) { imOut = ImagingCopy(imIn); } diff --git a/src/libImaging/Sgi.h b/src/libImaging/Sgi.h index 8015d6661e4..39dd6882567 100644 --- a/src/libImaging/Sgi.h +++ b/src/libImaging/Sgi.h @@ -1,7 +1,6 @@ /* Sgi.h */ typedef struct { - /* CONFIGURATION */ /* Number of bytes per channel per pixel */ diff --git a/src/libImaging/SgiRleDecode.c b/src/libImaging/SgiRleDecode.c index a03ecd456e8..e01e5724345 100644 --- a/src/libImaging/SgiRleDecode.c +++ b/src/libImaging/SgiRleDecode.c @@ -20,18 +20,17 @@ #define RLE_COPY_FLAG 0x80 #define RLE_MAX_RUN 0x7f -static void read4B(UINT32* dest, UINT8* buf) -{ +static void +read4B(UINT32 *dest, UINT8 *buf) { *dest = (UINT32)((buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]); } -static int expandrow(UINT8* dest, UINT8* src, int n, int z, int xsize) -{ +static int +expandrow(UINT8 *dest, UINT8 *src, int n, int z, int xsize) { UINT8 pixel, count; int x = 0; - for (;n > 0; n--) - { + for (; n > 0; n--) { pixel = *src++; if (n == 1 && pixel != 0) { return n; @@ -45,34 +44,31 @@ static int expandrow(UINT8* dest, UINT8* src, int n, int z, int xsize) } x += count; if (pixel & RLE_COPY_FLAG) { - while(count--) { + while (count--) { *dest = *src++; dest += z; } - } - else { + } else { pixel = *src++; while (count--) { *dest = pixel; dest += z; } } - } return 0; } -static int expandrow2(UINT8* dest, const UINT8* src, int n, int z, int xsize) -{ +static int +expandrow2(UINT8 *dest, const UINT8 *src, int n, int z, int xsize) { UINT8 pixel, count; int x = 0; - for (;n > 0; n--) - { + for (; n > 0; n--) { pixel = src[1]; - src+=2; + src += 2; if (n == 1 && pixel != 0) { return n; } @@ -85,35 +81,31 @@ static int expandrow2(UINT8* dest, const UINT8* src, int n, int z, int xsize) } x += count; if (pixel & RLE_COPY_FLAG) { - while(count--) { + while (count--) { memcpy(dest, src, 2); src += 2; dest += z * 2; } - } - else { + } else { while (count--) { memcpy(dest, src, 2); dest += z * 2; } - src+=2; + src += 2; } } return 0; } - int -ImagingSgiRleDecode(Imaging im, ImagingCodecState state, - UINT8* buf, Py_ssize_t bytes) -{ +ImagingSgiRleDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { UINT8 *ptr; SGISTATE *c; int err = 0; int status; /* Get all data from File descriptor */ - c = (SGISTATE*)state->context; + c = (SGISTATE *)state->context; _imaging_seek_pyFd(state->fd, 0L, SEEK_END); c->bufsize = _imaging_tell_pyFd(state->fd); c->bufsize -= SGI_HEADER_SIZE; @@ -122,8 +114,7 @@ ImagingSgiRleDecode(Imaging im, ImagingCodecState state, return IMAGING_CODEC_MEMORY; } _imaging_seek_pyFd(state->fd, SGI_HEADER_SIZE, SEEK_SET); - _imaging_read_pyFd(state->fd, (char*)ptr, c->bufsize); - + _imaging_read_pyFd(state->fd, (char *)ptr, c->bufsize); /* decoder initialization */ state->count = 0; @@ -134,8 +125,7 @@ ImagingSgiRleDecode(Imaging im, ImagingCodecState state, state->ystep = 1; } - if (im->xsize > INT_MAX / im->bands || - im->ysize > INT_MAX / im->bands) { + if (im->xsize > INT_MAX / im->bands || im->ysize > INT_MAX / im->bands) { err = IMAGING_CODEC_MEMORY; goto sgi_finish_decode; } @@ -148,28 +138,27 @@ ImagingSgiRleDecode(Imaging im, ImagingCodecState state, c->tablen = im->bands * im->ysize; c->starttab = calloc(c->tablen, sizeof(UINT32)); c->lengthtab = calloc(c->tablen, sizeof(UINT32)); - if (!state->buffer || - !c->starttab || - !c->lengthtab) { + if (!state->buffer || !c->starttab || !c->lengthtab) { err = IMAGING_CODEC_MEMORY; goto sgi_finish_decode; } /* populate offsets table */ - for (c->tabindex = 0, c->bufindex = 0; c->tabindex < c->tablen; c->tabindex++, c->bufindex+=4) { + for (c->tabindex = 0, c->bufindex = 0; c->tabindex < c->tablen; + c->tabindex++, c->bufindex += 4) { read4B(&c->starttab[c->tabindex], &ptr[c->bufindex]); } /* populate lengths table */ - for (c->tabindex = 0, c->bufindex = c->tablen * sizeof(UINT32); c->tabindex < c->tablen; c->tabindex++, c->bufindex+=4) { + for (c->tabindex = 0, c->bufindex = c->tablen * sizeof(UINT32); + c->tabindex < c->tablen; + c->tabindex++, c->bufindex += 4) { read4B(&c->lengthtab[c->tabindex], &ptr[c->bufindex]); } state->count += c->tablen * sizeof(UINT32) * 2; /* read compressed rows */ - for (c->rowno = 0; c->rowno < im->ysize; c->rowno++, state->y += state->ystep) - { - for (c->channo = 0; c->channo < im->bands; c->channo++) - { + for (c->rowno = 0; c->rowno < im->ysize; c->rowno++, state->y += state->ystep) { + for (c->channo = 0; c->channo < im->bands; c->channo++) { c->rleoffset = c->starttab[c->rowno + c->channo * im->ysize]; c->rlelength = c->lengthtab[c->rowno + c->channo * im->ysize]; c->rleoffset -= SGI_HEADER_SIZE; @@ -180,11 +169,20 @@ ImagingSgiRleDecode(Imaging im, ImagingCodecState state, } /* row decompression */ - if (c->bpc ==1) { - status = expandrow(&state->buffer[c->channo], &ptr[c->rleoffset], c->rlelength, im->bands, im->xsize); - } - else { - status = expandrow2(&state->buffer[c->channo * 2], &ptr[c->rleoffset], c->rlelength, im->bands, im->xsize); + if (c->bpc == 1) { + status = expandrow( + &state->buffer[c->channo], + &ptr[c->rleoffset], + c->rlelength, + im->bands, + im->xsize); + } else { + status = expandrow2( + &state->buffer[c->channo * 2], + &ptr[c->rleoffset], + c->rlelength, + im->bands, + im->xsize); } if (status == -1) { state->errcode = IMAGING_CODEC_OVERRUN; @@ -197,18 +195,17 @@ ImagingSgiRleDecode(Imaging im, ImagingCodecState state, } /* store decompressed data in image */ - state->shuffle((UINT8*)im->image[state->y], state->buffer, im->xsize); - + state->shuffle((UINT8 *)im->image[state->y], state->buffer, im->xsize); } c->bufsize++; -sgi_finish_decode: ; +sgi_finish_decode:; free(c->starttab); free(c->lengthtab); free(ptr); - if (err != 0){ + if (err != 0) { return err; } return state->count - c->bufsize; diff --git a/src/libImaging/Storage.c b/src/libImaging/Storage.c index c9a24e6aa7a..76750aaf7f2 100644 --- a/src/libImaging/Storage.c +++ b/src/libImaging/Storage.c @@ -34,11 +34,9 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" #include - int ImagingNewCount = 0; /* -------------------------------------------------------------------- @@ -46,18 +44,17 @@ int ImagingNewCount = 0; */ Imaging -ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) -{ +ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) { Imaging im; /* linesize overflow check, roughly the current largest space req'd */ if (xsize > (INT_MAX / 4) - 1) { - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } - im = (Imaging) calloc(1, size); + im = (Imaging)calloc(1, size); if (!im) { - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } /* Setup image descriptor */ @@ -115,8 +112,9 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) im->linesize = xsize * 4; im->type = IMAGING_TYPE_INT32; - } else if (strcmp(mode, "I;16") == 0 || strcmp(mode, "I;16L") == 0 \ - || strcmp(mode, "I;16B") == 0 || strcmp(mode, "I;16N") == 0) { + } else if ( + strcmp(mode, "I;16") == 0 || strcmp(mode, "I;16L") == 0 || + strcmp(mode, "I;16B") == 0 || strcmp(mode, "I;16N") == 0) { /* EXPERIMENTAL */ /* 16-bit raw integer images */ im->bands = 1; @@ -135,7 +133,7 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) /* 15-bit reversed true colour */ im->bands = 1; im->pixelsize = 2; - im->linesize = (xsize*2 + 3) & -4; + im->linesize = (xsize * 2 + 3) & -4; im->type = IMAGING_TYPE_SPECIAL; } else if (strcmp(mode, "BGR;16") == 0) { @@ -143,7 +141,7 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) /* 16-bit reversed true colour */ im->bands = 1; im->pixelsize = 2; - im->linesize = (xsize*2 + 3) & -4; + im->linesize = (xsize * 2 + 3) & -4; im->type = IMAGING_TYPE_SPECIAL; } else if (strcmp(mode, "BGR;24") == 0) { @@ -151,7 +149,7 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) /* 24-bit reversed true colour */ im->bands = 1; im->pixelsize = 3; - im->linesize = (xsize*3 + 3) & -4; + im->linesize = (xsize * 3 + 3) & -4; im->type = IMAGING_TYPE_SPECIAL; } else if (strcmp(mode, "BGR;32") == 0) { @@ -159,7 +157,7 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) /* 32-bit reversed true colour */ im->bands = 1; im->pixelsize = 4; - im->linesize = (xsize*4 + 3) & -4; + im->linesize = (xsize * 4 + 3) & -4; im->type = IMAGING_TYPE_SPECIAL; } else if (strcmp(mode, "RGBX") == 0) { @@ -204,7 +202,7 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) } else { free(im); - return (Imaging) ImagingError_ValueError("unrecognized image mode"); + return (Imaging)ImagingError_ValueError("unrecognized image mode"); } /* Setup image descriptor */ @@ -212,21 +210,23 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) /* Pointer array (allocate at least one line, to avoid MemoryError exceptions on platforms where calloc(0, x) returns NULL) */ - im->image = (char **) calloc((ysize > 0) ? ysize : 1, sizeof(void *)); + im->image = (char **)calloc((ysize > 0) ? ysize : 1, sizeof(void *)); - if ( ! im->image) { + if (!im->image) { free(im); - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } /* Initialize alias pointers to pixel data. */ switch (im->pixelsize) { - case 1: case 2: case 3: - im->image8 = (UINT8 **) im->image; - break; - case 4: - im->image32 = (INT32 **) im->image; - break; + case 1: + case 2: + case 3: + im->image8 = (UINT8 **)im->image; + break; + case 4: + im->image32 = (INT32 **)im->image; + break; } ImagingDefaultArena.stats_new_count += 1; @@ -235,15 +235,13 @@ ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size) } Imaging -ImagingNewPrologue(const char *mode, int xsize, int ysize) -{ +ImagingNewPrologue(const char *mode, int xsize, int ysize) { return ImagingNewPrologueSubtype( mode, xsize, ysize, sizeof(struct ImagingMemoryInstance)); } void -ImagingDelete(Imaging im) -{ +ImagingDelete(Imaging im) { if (!im) { return; } @@ -263,7 +261,6 @@ ImagingDelete(Imaging im) free(im); } - /* Array Storage Type */ /* ------------------ */ /* Allocate image as an array of line buffers. */ @@ -271,17 +268,20 @@ ImagingDelete(Imaging im) #define IMAGING_PAGE_SIZE (4096) struct ImagingMemoryArena ImagingDefaultArena = { - 1, // alignment - 16*1024*1024, // block_size - 0, // blocks_max - 0, // blocks_cached - NULL, // blocks_pool - 0, 0, 0, 0, 0 // Stats + 1, // alignment + 16 * 1024 * 1024, // block_size + 0, // blocks_max + 0, // blocks_cached + NULL, // blocks_pool + 0, + 0, + 0, + 0, + 0 // Stats }; int -ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max) -{ +ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max) { void *p; /* Free already cached blocks */ ImagingMemoryClearCache(arena, blocks_max); @@ -291,14 +291,14 @@ ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max) arena->blocks_pool = NULL; } else if (arena->blocks_pool != NULL) { p = realloc(arena->blocks_pool, sizeof(*arena->blocks_pool) * blocks_max); - if ( ! p) { + if (!p) { // Leave previous blocks_max value return 0; } arena->blocks_pool = p; } else { arena->blocks_pool = calloc(sizeof(*arena->blocks_pool), blocks_max); - if ( ! arena->blocks_pool) { + if (!arena->blocks_pool) { return 0; } } @@ -308,8 +308,7 @@ ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max) } void -ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size) -{ +ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size) { while (arena->blocks_cached > new_size) { arena->blocks_cached -= 1; free(arena->blocks_pool[arena->blocks_cached].ptr); @@ -318,8 +317,7 @@ ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size) } ImagingMemoryBlock -memory_get_block(ImagingMemoryArena arena, int requested_size, int dirty) -{ +memory_get_block(ImagingMemoryArena arena, int requested_size, int dirty) { ImagingMemoryBlock block = {NULL, 0}; if (arena->blocks_cached > 0) { @@ -327,16 +325,16 @@ memory_get_block(ImagingMemoryArena arena, int requested_size, int dirty) arena->blocks_cached -= 1; block = arena->blocks_pool[arena->blocks_cached]; // Reallocate if needed - if (block.size != requested_size){ + if (block.size != requested_size) { block.ptr = realloc(block.ptr, requested_size); } - if ( ! block.ptr) { + if (!block.ptr) { // Can't allocate, free previous pointer (it is still valid) free(arena->blocks_pool[arena->blocks_cached].ptr); arena->stats_freed_blocks += 1; return block; } - if ( ! dirty) { + if (!dirty) { memset(block.ptr, 0, requested_size); } arena->stats_reused_blocks += 1; @@ -356,9 +354,8 @@ memory_get_block(ImagingMemoryArena arena, int requested_size, int dirty) } void -memory_return_block(ImagingMemoryArena arena, ImagingMemoryBlock block) -{ - if (arena->blocks_cached < arena->blocks_max) { +memory_return_block(ImagingMemoryArena arena, ImagingMemoryBlock block) { + if (arena->blocks_cached < arena->blocks_max) { // Reduce block size if (block.size > arena->block_size) { block.size = arena->block_size; @@ -372,15 +369,13 @@ memory_return_block(ImagingMemoryArena arena, ImagingMemoryBlock block) } } - static void -ImagingDestroyArray(Imaging im) -{ +ImagingDestroyArray(Imaging im) { int y = 0; if (im->blocks) { while (im->blocks[y].ptr) { - memory_return_block(&ImagingDefaultArena, im->blocks[y]); + memory_return_block(&ImagingDefaultArena, im->blocks[y]); y += 1; } free(im->blocks); @@ -388,8 +383,7 @@ ImagingDestroyArray(Imaging im) } Imaging -ImagingAllocateArray(Imaging im, int dirty, int block_size) -{ +ImagingAllocateArray(Imaging im, int dirty, int block_size) { int y, line_in_block, current_block; ImagingMemoryArena arena = &ImagingDefaultArena; ImagingMemoryBlock block = {NULL, 0}; @@ -397,7 +391,7 @@ ImagingAllocateArray(Imaging im, int dirty, int block_size) char *aligned_ptr = NULL; /* 0-width or 0-height image. No need to do anything */ - if ( ! im->linesize || ! im->ysize) { + if (!im->linesize || !im->ysize) { return im; } @@ -412,8 +406,8 @@ ImagingAllocateArray(Imaging im, int dirty, int block_size) /* One extra pointer is always NULL */ im->blocks = calloc(sizeof(*im->blocks), blocks_count + 1); - if ( ! im->blocks) { - return (Imaging) ImagingError_MemoryError(); + if (!im->blocks) { + return (Imaging)ImagingError_MemoryError(); } /* Allocate image as an array of lines */ @@ -428,9 +422,9 @@ ImagingAllocateArray(Imaging im, int dirty, int block_size) } required = lines_remaining * aligned_linesize + arena->alignment - 1; block = memory_get_block(arena, required, dirty); - if ( ! block.ptr) { + if (!block.ptr) { ImagingDestroyArray(im); - return (Imaging) ImagingError_MemoryError(); + return (Imaging)ImagingError_MemoryError(); } im->blocks[current_block] = block; /* Bulletproof code from libc _int_memalign */ @@ -454,42 +448,38 @@ ImagingAllocateArray(Imaging im, int dirty, int block_size) return im; } - /* Block Storage Type */ /* ------------------ */ /* Allocate image as a single block. */ static void -ImagingDestroyBlock(Imaging im) -{ +ImagingDestroyBlock(Imaging im) { if (im->block) { free(im->block); } } Imaging -ImagingAllocateBlock(Imaging im) -{ +ImagingAllocateBlock(Imaging im) { Py_ssize_t y, i; /* overflow check for malloc */ - if (im->linesize && - im->ysize > INT_MAX / im->linesize) { - return (Imaging) ImagingError_MemoryError(); + if (im->linesize && im->ysize > INT_MAX / im->linesize) { + return (Imaging)ImagingError_MemoryError(); } if (im->ysize * im->linesize <= 0) { /* some platforms return NULL for malloc(0); this fix prevents MemoryError on zero-sized images on such platforms */ - im->block = (char *) malloc(1); + im->block = (char *)malloc(1); } else { /* malloc check ok, overflow check above */ - im->block = (char *) calloc(im->ysize, im->linesize); + im->block = (char *)calloc(im->ysize, im->linesize); } - if ( ! im->block) { - return (Imaging) ImagingError_MemoryError(); + if (!im->block) { + return (Imaging)ImagingError_MemoryError(); } for (y = i = 0; y < im->ysize; y++) { @@ -507,16 +497,15 @@ ImagingAllocateBlock(Imaging im) */ Imaging -ImagingNewInternal(const char* mode, int xsize, int ysize, int dirty) -{ +ImagingNewInternal(const char *mode, int xsize, int ysize, int dirty) { Imaging im; if (xsize < 0 || ysize < 0) { - return (Imaging) ImagingError_ValueError("bad image size"); + return (Imaging)ImagingError_ValueError("bad image size"); } im = ImagingNewPrologue(mode, xsize, ysize); - if ( ! im) { + if (!im) { return NULL; } @@ -536,28 +525,25 @@ ImagingNewInternal(const char* mode, int xsize, int ysize, int dirty) } Imaging -ImagingNew(const char* mode, int xsize, int ysize) -{ +ImagingNew(const char *mode, int xsize, int ysize) { return ImagingNewInternal(mode, xsize, ysize, 0); } Imaging -ImagingNewDirty(const char* mode, int xsize, int ysize) -{ +ImagingNewDirty(const char *mode, int xsize, int ysize) { return ImagingNewInternal(mode, xsize, ysize, 1); } Imaging -ImagingNewBlock(const char* mode, int xsize, int ysize) -{ +ImagingNewBlock(const char *mode, int xsize, int ysize) { Imaging im; if (xsize < 0 || ysize < 0) { - return (Imaging) ImagingError_ValueError("bad image size"); + return (Imaging)ImagingError_ValueError("bad image size"); } im = ImagingNewPrologue(mode, xsize, ysize); - if ( ! im) { + if (!im) { return NULL; } @@ -570,15 +556,13 @@ ImagingNewBlock(const char* mode, int xsize, int ysize) } Imaging -ImagingNew2Dirty(const char* mode, Imaging imOut, Imaging imIn) -{ +ImagingNew2Dirty(const char *mode, Imaging imOut, Imaging imIn) { /* allocate or validate output image */ if (imOut) { /* make sure images match */ - if (strcmp(imOut->mode, mode) != 0 - || imOut->xsize != imIn->xsize - || imOut->ysize != imIn->ysize) { + if (strcmp(imOut->mode, mode) != 0 || imOut->xsize != imIn->xsize || + imOut->ysize != imIn->ysize) { return ImagingError_Mismatch(); } } else { @@ -593,8 +577,7 @@ ImagingNew2Dirty(const char* mode, Imaging imOut, Imaging imIn) } void -ImagingCopyPalette(Imaging destination, Imaging source) -{ +ImagingCopyPalette(Imaging destination, Imaging source) { if (source->palette) { if (destination->palette) { ImagingPaletteDelete(destination->palette); diff --git a/src/libImaging/SunRleDecode.c b/src/libImaging/SunRleDecode.c index acb39133a19..9d8e1292a47 100644 --- a/src/libImaging/SunRleDecode.c +++ b/src/libImaging/SunRleDecode.c @@ -15,37 +15,30 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - int -ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ +ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { int n; - UINT8* ptr; + UINT8 *ptr; UINT8 extra_data = 0; UINT8 extra_bytes = 0; ptr = buf; for (;;) { - if (bytes < 1) { return ptr - buf; } if (ptr[0] == 0x80) { - if (bytes < 2) { break; } n = ptr[1]; - if (n == 0) { - /* Literal 0x80 (2 bytes) */ n = 1; @@ -55,7 +48,6 @@ ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes -= 2; } else { - /* Run (3 bytes) */ if (bytes < 3) { break; @@ -84,7 +76,7 @@ ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t n += 1; if (state->x + n > state->bytes) { - extra_bytes = n; /* full value */ + extra_bytes = n; /* full value */ n = state->bytes - state->x; extra_bytes -= n; extra_data = ptr[2]; @@ -94,11 +86,9 @@ ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t ptr += 3; bytes -= 3; - } } else { - /* Literal byte */ n = 1; @@ -106,18 +96,18 @@ ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t ptr += 1; bytes -= 1; - } for (;;) { state->x += n; if (state->x >= state->bytes) { - /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->buffer, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer, + state->xsize); state->x = 0; @@ -132,7 +122,7 @@ ImagingSunRleDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t } if (state->x > 0) { - break; // assert + break; // assert } if (extra_bytes >= state->bytes) { diff --git a/src/libImaging/TgaRleDecode.c b/src/libImaging/TgaRleDecode.c index b1364e004ad..273ecdffd6b 100644 --- a/src/libImaging/TgaRleDecode.c +++ b/src/libImaging/TgaRleDecode.c @@ -14,43 +14,35 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - int -ImagingTgaRleDecode(Imaging im, ImagingCodecState state, - UINT8* buf, Py_ssize_t bytes) -{ +ImagingTgaRleDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { int n, depth; - UINT8* ptr; + UINT8 *ptr; ptr = buf; if (state->state == 0) { - /* check image orientation */ if (state->ystep < 0) { - state->y = state->ysize-1; + state->y = state->ysize - 1; state->ystep = -1; } else { state->ystep = 1; } state->state = 1; - } depth = state->count; for (;;) { - if (bytes < 1) { return ptr - buf; } if (ptr[0] & 0x80) { - /* Run (1 + pixelsize bytes) */ if (bytes < 1 + depth) { @@ -69,7 +61,7 @@ ImagingTgaRleDecode(Imaging im, ImagingCodecState state, } else { int i; for (i = 0; i < n; i += depth) { - memcpy(state->buffer + state->x + i, ptr+1, depth); + memcpy(state->buffer + state->x + i, ptr + 1, depth); } } @@ -77,7 +69,6 @@ ImagingTgaRleDecode(Imaging im, ImagingCodecState state, bytes -= 1 + depth; } else { - /* Literal (1+n+1 bytes block) */ n = depth * (ptr[0] + 1); @@ -94,17 +85,17 @@ ImagingTgaRleDecode(Imaging im, ImagingCodecState state, ptr += 1 + n; bytes -= 1 + n; - } state->x += n; if (state->x >= state->bytes) { - /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->buffer, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer, + state->xsize); state->x = 0; @@ -114,9 +105,7 @@ ImagingTgaRleDecode(Imaging im, ImagingCodecState state, /* End of file (errcode = 0) */ return -1; } - } - } return ptr - buf; diff --git a/src/libImaging/TgaRleEncode.c b/src/libImaging/TgaRleEncode.c index c65dcf5ec50..aa7e7b96d81 100644 --- a/src/libImaging/TgaRleEncode.c +++ b/src/libImaging/TgaRleEncode.c @@ -4,18 +4,15 @@ #include #include - -static int comparePixels(const UINT8* buf, int x, int bytesPerPixel) -{ +static int +comparePixels(const UINT8 *buf, int x, int bytesPerPixel) { buf += x * bytesPerPixel; return memcmp(buf, buf + bytesPerPixel, bytesPerPixel) == 0; } - int -ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - UINT8* dst; +ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + UINT8 *dst; int bytesPerPixel; if (state->state == 0) { @@ -40,7 +37,7 @@ ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) * excluding the 1-byte descriptor. */ if (state->count == 0) { - UINT8* row; + UINT8 *row; UINT8 descriptor; int startX; @@ -64,8 +61,8 @@ ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) if (state->x == 0) { state->shuffle( state->buffer, - (UINT8*)im->image[state->y + state->yoff] - + state->xoff * im->pixelsize, + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, state->xsize); } @@ -149,9 +146,7 @@ ImagingTgaRleEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) } memcpy( - dst, - state->buffer + (state->x * bytesPerPixel - state->count), - flushCount); + dst, state->buffer + (state->x * bytesPerPixel - state->count), flushCount); dst += flushCount; bytes -= flushCount; diff --git a/src/libImaging/TiffDecode.c b/src/libImaging/TiffDecode.c index 532db1f685f..e3e5665355d 100644 --- a/src/libImaging/TiffDecode.c +++ b/src/libImaging/TiffDecode.c @@ -20,16 +20,23 @@ #include "TiffDecode.h" -void dump_state(const TIFFSTATE *state){ - TRACE(("State: Location %u size %d eof %d data: %p ifd: %d\n", (uint)state->loc, - (int)state->size, (uint)state->eof, state->data, state->ifd)); +void +dump_state(const TIFFSTATE *state) { + TRACE( + ("State: Location %u size %d eof %d data: %p ifd: %d\n", + (uint)state->loc, + (int)state->size, + (uint)state->eof, + state->data, + state->ifd)); } /* procs for TIFFOpenClient */ -tsize_t _tiffReadProc(thandle_t hdata, tdata_t buf, tsize_t size) { +tsize_t +_tiffReadProc(thandle_t hdata, tdata_t buf, tsize_t size) { TIFFSTATE *state = (TIFFSTATE *)hdata; tsize_t to_read; @@ -42,11 +49,12 @@ tsize_t _tiffReadProc(thandle_t hdata, tdata_t buf, tsize_t size) { _TIFFmemcpy(buf, (UINT8 *)state->data + state->loc, to_read); state->loc += (toff_t)to_read; - TRACE( ("location: %u\n", (uint)state->loc)); + TRACE(("location: %u\n", (uint)state->loc)); return to_read; } -tsize_t _tiffWriteProc(thandle_t hdata, tdata_t buf, tsize_t size) { +tsize_t +_tiffWriteProc(thandle_t hdata, tdata_t buf, tsize_t size) { TIFFSTATE *state = (TIFFSTATE *)hdata; tsize_t to_write; @@ -54,14 +62,14 @@ tsize_t _tiffWriteProc(thandle_t hdata, tdata_t buf, tsize_t size) { dump_state(state); to_write = min(size, state->size - (tsize_t)state->loc); - if (state->flrealloc && size>to_write) { + if (state->flrealloc && size > to_write) { tdata_t new_data; - tsize_t newsize=state->size; + tsize_t newsize = state->size; while (newsize < (size + state->size)) { - if (newsize > INT_MAX - 64*1024){ + if (newsize > INT_MAX - 64 * 1024) { return 0; } - newsize += 64*1024; + newsize += 64 * 1024; // newsize*=2; // UNDONE, by 64k chunks? } TRACE(("Reallocing in write to %d bytes\n", (int)newsize)); @@ -86,27 +94,29 @@ tsize_t _tiffWriteProc(thandle_t hdata, tdata_t buf, tsize_t size) { return to_write; } -toff_t _tiffSeekProc(thandle_t hdata, toff_t off, int whence) { +toff_t +_tiffSeekProc(thandle_t hdata, toff_t off, int whence) { TIFFSTATE *state = (TIFFSTATE *)hdata; TRACE(("_tiffSeekProc: off: %u whence: %d \n", (uint)off, whence)); dump_state(state); switch (whence) { - case 0: - state->loc = off; - break; - case 1: - state->loc += off; - break; - case 2: - state->loc = state->eof + off; - break; + case 0: + state->loc = off; + break; + case 1: + state->loc += off; + break; + case 2: + state->loc = state->eof + off; + break; } dump_state(state); return state->loc; } -int _tiffCloseProc(thandle_t hdata) { +int +_tiffCloseProc(thandle_t hdata) { TIFFSTATE *state = (TIFFSTATE *)hdata; TRACE(("_tiffCloseProc \n")); @@ -115,8 +125,8 @@ int _tiffCloseProc(thandle_t hdata) { return 0; } - -toff_t _tiffSizeProc(thandle_t hdata) { +toff_t +_tiffSizeProc(thandle_t hdata) { TIFFSTATE *state = (TIFFSTATE *)hdata; TRACE(("_tiffSizeProc \n")); @@ -125,7 +135,8 @@ toff_t _tiffSizeProc(thandle_t hdata) { return (toff_t)state->size; } -int _tiffMapProc(thandle_t hdata, tdata_t* pbase, toff_t* psize) { +int +_tiffMapProc(thandle_t hdata, tdata_t *pbase, toff_t *psize) { TIFFSTATE *state = (TIFFSTATE *)hdata; TRACE(("_tiffMapProc input size: %u, data: %p\n", (uint)*psize, *pbase)); @@ -137,25 +148,41 @@ int _tiffMapProc(thandle_t hdata, tdata_t* pbase, toff_t* psize) { return (1); } -int _tiffNullMapProc(thandle_t hdata, tdata_t* pbase, toff_t* psize) { - (void) hdata; (void) pbase; (void) psize; +int +_tiffNullMapProc(thandle_t hdata, tdata_t *pbase, toff_t *psize) { + (void)hdata; + (void)pbase; + (void)psize; return (0); } -void _tiffUnmapProc(thandle_t hdata, tdata_t base, toff_t size) { +void +_tiffUnmapProc(thandle_t hdata, tdata_t base, toff_t size) { TRACE(("_tiffUnMapProc\n")); - (void) hdata; (void) base; (void) size; + (void)hdata; + (void)base; + (void)size; } -int ImagingLibTiffInit(ImagingCodecState state, int fp, uint32 offset) { +int +ImagingLibTiffInit(ImagingCodecState state, int fp, uint32 offset) { TIFFSTATE *clientstate = (TIFFSTATE *)state->context; TRACE(("initing libtiff\n")); - TRACE(("filepointer: %d \n", fp)); - TRACE(("State: count %d, state %d, x %d, y %d, ystep %d\n", state->count, state->state, - state->x, state->y, state->ystep)); - TRACE(("State: xsize %d, ysize %d, xoff %d, yoff %d \n", state->xsize, state->ysize, - state->xoff, state->yoff)); + TRACE(("filepointer: %d \n", fp)); + TRACE( + ("State: count %d, state %d, x %d, y %d, ystep %d\n", + state->count, + state->state, + state->x, + state->y, + state->ystep)); + TRACE( + ("State: xsize %d, ysize %d, xoff %d, yoff %d \n", + state->xsize, + state->ysize, + state->xoff, + state->yoff)); TRACE(("State: bits %d, bytes %d \n", state->bits, state->bytes)); TRACE(("State: context %p \n", state->context)); @@ -169,8 +196,8 @@ int ImagingLibTiffInit(ImagingCodecState state, int fp, uint32 offset) { return 1; } - -int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) { +int +ReadTile(TIFF *tiff, UINT32 col, UINT32 row, UINT32 *buffer) { uint16 photometric = 0; TIFFGetField(tiff, TIFFTAG_PHOTOMETRIC, &photometric); @@ -178,7 +205,7 @@ int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) { // To avoid dealing with YCbCr subsampling, let libtiff handle it if (photometric == PHOTOMETRIC_YCBCR) { UINT32 tile_width, tile_height, swap_line_size, i_row; - UINT32* swap_line; + UINT32 *swap_line; TIFFGetField(tiff, TIFFTAG_TILEWIDTH, &tile_width); TIFFGetField(tiff, TIFFTAG_TILELENGTH, &tile_height); @@ -193,7 +220,7 @@ int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) { return -1; } - swap_line = (UINT32*)malloc(swap_line_size); + swap_line = (UINT32 *)malloc(swap_line_size); if (swap_line == NULL) { return -1; } @@ -201,15 +228,15 @@ int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) { * For some reason the TIFFReadRGBATile() function chooses the * lower left corner as the origin. Vertically mirror scanlines. */ - for(i_row = 0; i_row < tile_height / 2; i_row++) { + for (i_row = 0; i_row < tile_height / 2; i_row++) { UINT32 *top_line, *bottom_line; top_line = buffer + tile_width * i_row; bottom_line = buffer + tile_width * (tile_height - i_row - 1); - memcpy(swap_line, top_line, 4*tile_width); - memcpy(top_line, bottom_line, 4*tile_width); - memcpy(bottom_line, swap_line, 4*tile_width); + memcpy(swap_line, top_line, 4 * tile_width); + memcpy(top_line, bottom_line, 4 * tile_width); + memcpy(bottom_line, swap_line, 4 * tile_width); } free(swap_line); @@ -227,8 +254,9 @@ int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) { return 0; } -int ReadStrip(TIFF* tiff, UINT32 row, UINT32* buffer) { - uint16 photometric = 0; // init to not PHOTOMETRIC_YCBCR +int +ReadStrip(TIFF *tiff, UINT32 row, UINT32 *buffer) { + uint16 photometric = 0; // init to not PHOTOMETRIC_YCBCR TIFFGetField(tiff, TIFFTAG_PHOTOMETRIC, &photometric); // To avoid dealing with YCbCr subsampling, let libtiff handle it @@ -238,7 +266,6 @@ int ReadStrip(TIFF* tiff, UINT32 row, UINT32* buffer) { UINT32 rows_per_strip, rows_to_read; int ok; - TIFFGetFieldDefaulted(tiff, TIFFTAG_ROWSPERSTRIP, &rows_per_strip); if ((row % rows_per_strip) != 0) { TRACE(("Row passed to ReadStrip() must be first in a strip.")); @@ -270,7 +297,8 @@ int ReadStrip(TIFF* tiff, UINT32 row, UINT32* buffer) { return 0; } - if (TIFFReadEncodedStrip(tiff, TIFFComputeStrip(tiff, row, 0), (tdata_t)buffer, -1) == -1) { + if (TIFFReadEncodedStrip( + tiff, TIFFComputeStrip(tiff, row, 0), (tdata_t)buffer, -1) == -1) { TRACE(("Decode Error, strip %d\n", TIFFComputeStrip(tiff, row, 0))); return -1; } @@ -278,7 +306,9 @@ int ReadStrip(TIFF* tiff, UINT32 row, UINT32* buffer) { return 0; } -int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ssize_t bytes) { +int +ImagingLibTiffDecode( + Imaging im, ImagingCodecState state, UINT8 *buffer, Py_ssize_t bytes) { TIFFSTATE *clientstate = (TIFFSTATE *)state->context; char *filename = "tempfile.tif"; char *mode = "r"; @@ -288,19 +318,47 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ /* it all ends up in state->buffer, which is a uint8* from Imaging.h */ TRACE(("in decoder: bytes %d\n", bytes)); - TRACE(("State: count %d, state %d, x %d, y %d, ystep %d\n", state->count, state->state, - state->x, state->y, state->ystep)); - TRACE(("State: xsize %d, ysize %d, xoff %d, yoff %d \n", state->xsize, state->ysize, - state->xoff, state->yoff)); + TRACE( + ("State: count %d, state %d, x %d, y %d, ystep %d\n", + state->count, + state->state, + state->x, + state->y, + state->ystep)); + TRACE( + ("State: xsize %d, ysize %d, xoff %d, yoff %d \n", + state->xsize, + state->ysize, + state->xoff, + state->yoff)); TRACE(("State: bits %d, bytes %d \n", state->bits, state->bytes)); - TRACE(("Buffer: %p: %c%c%c%c\n", buffer, (char)buffer[0], (char)buffer[1],(char)buffer[2], (char)buffer[3])); - TRACE(("State->Buffer: %c%c%c%c\n", (char)state->buffer[0], (char)state->buffer[1],(char)state->buffer[2], (char)state->buffer[3])); - TRACE(("Image: mode %s, type %d, bands: %d, xsize %d, ysize %d \n", - im->mode, im->type, im->bands, im->xsize, im->ysize)); - TRACE(("Image: image8 %p, image32 %p, image %p, block %p \n", - im->image8, im->image32, im->image, im->block)); - TRACE(("Image: pixelsize: %d, linesize %d \n", - im->pixelsize, im->linesize)); + TRACE( + ("Buffer: %p: %c%c%c%c\n", + buffer, + (char)buffer[0], + (char)buffer[1], + (char)buffer[2], + (char)buffer[3])); + TRACE( + ("State->Buffer: %c%c%c%c\n", + (char)state->buffer[0], + (char)state->buffer[1], + (char)state->buffer[2], + (char)state->buffer[3])); + TRACE( + ("Image: mode %s, type %d, bands: %d, xsize %d, ysize %d \n", + im->mode, + im->type, + im->bands, + im->xsize, + im->ysize)); + TRACE( + ("Image: image8 %p, image32 %p, image %p, block %p \n", + im->image8, + im->image32, + im->image, + im->block)); + TRACE(("Image: pixelsize: %d, linesize %d \n", im->pixelsize, im->linesize)); dump_state(clientstate); clientstate->size = bytes; @@ -314,30 +372,36 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ TIFFSetWarningHandlerExt(NULL); if (clientstate->fp) { - TRACE(("Opening using fd: %d\n",clientstate->fp)); - lseek(clientstate->fp,0,SEEK_SET); // Sometimes, I get it set to the end. + TRACE(("Opening using fd: %d\n", clientstate->fp)); + lseek(clientstate->fp, 0, SEEK_SET); // Sometimes, I get it set to the end. tiff = TIFFFdOpen(clientstate->fp, filename, mode); } else { TRACE(("Opening from string\n")); - tiff = TIFFClientOpen(filename, mode, - (thandle_t) clientstate, - _tiffReadProc, _tiffWriteProc, - _tiffSeekProc, _tiffCloseProc, _tiffSizeProc, - _tiffMapProc, _tiffUnmapProc); + tiff = TIFFClientOpen( + filename, + mode, + (thandle_t)clientstate, + _tiffReadProc, + _tiffWriteProc, + _tiffSeekProc, + _tiffCloseProc, + _tiffSizeProc, + _tiffMapProc, + _tiffUnmapProc); } - if (!tiff){ + if (!tiff) { TRACE(("Error, didn't get the tiff\n")); state->errcode = IMAGING_CODEC_BROKEN; return -1; } - if (clientstate->ifd){ + if (clientstate->ifd) { int rv; uint32 ifdoffset = clientstate->ifd; TRACE(("reading tiff ifd %u\n", ifdoffset)); rv = TIFFSetSubDirectory(tiff, ifdoffset); - if (!rv){ + if (!rv) { TRACE(("error in TIFFSetSubDirectory")); return -1; } @@ -360,11 +424,12 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ TIFFClose(tiff); return -1; } - + state->bytes = row_byte_size * tile_length; if (TIFFTileSize(tiff) > state->bytes) { - // If the strip size as expected by LibTiff isn't what we're expecting, abort. + // If the strip size as expected by LibTiff isn't what we're expecting, + // abort. state->errcode = IMAGING_CODEC_MEMORY; TIFFClose(tiff); return -1; @@ -372,7 +437,7 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ /* realloc to fit whole tile */ /* malloc check above */ - new_data = realloc (state->buffer, state->bytes); + new_data = realloc(state->buffer, state->bytes); if (!new_data) { state->errcode = IMAGING_CODEC_MEMORY; TIFFClose(tiff); @@ -385,7 +450,7 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ for (y = state->yoff; y < state->ysize; y += tile_length) { for (x = state->xoff; x < state->xsize; x += tile_width) { - if (ReadTile(tiff, x, y, (UINT32*) state->buffer) == -1) { + if (ReadTile(tiff, x, y, (UINT32 *)state->buffer) == -1) { TRACE(("Decode Error, Tile at %dx%d\n", x, y)); state->errcode = IMAGING_CODEC_BROKEN; TIFFClose(tiff); @@ -397,16 +462,22 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ current_tile_width = min(tile_width, state->xsize - x); // iterate over each line in the tile and stuff data into image - for (tile_y = 0; tile_y < min(tile_length, state->ysize - y); tile_y++) { - TRACE(("Writing tile data at %dx%d using tile_width: %d; \n", tile_y + y, x, current_tile_width)); + for (tile_y = 0; tile_y < min(tile_length, state->ysize - y); + tile_y++) { + TRACE( + ("Writing tile data at %dx%d using tile_width: %d; \n", + tile_y + y, + x, + current_tile_width)); // UINT8 * bbb = state->buffer + tile_y * row_byte_size; - // TRACE(("chars: %x%x%x%x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3])); + // TRACE(("chars: %x%x%x%x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], + // ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3])); - state->shuffle((UINT8*) im->image[tile_y + y] + x * im->pixelsize, - state->buffer + tile_y * row_byte_size, - current_tile_width - ); + state->shuffle( + (UINT8 *)im->image[tile_y + y] + x * im->pixelsize, + state->buffer + tile_y * row_byte_size, + current_tile_width); } } } @@ -422,7 +493,8 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ } TRACE(("RowsPerStrip: %u \n", rows_per_strip)); - // We could use TIFFStripSize, but for YCbCr data it returns subsampled data size + // We could use TIFFStripSize, but for YCbCr data it returns subsampled data + // size row_byte_size = (state->xsize * state->bits + 7) / 8; /* overflow check for realloc */ @@ -437,8 +509,9 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ TRACE(("StripSize: %d \n", state->bytes)); if (TIFFStripSize(tiff) > state->bytes) { - // If the strip size as expected by LibTiff isn't what we're expecting, abort. - // man: TIFFStripSize returns the equivalent size for a strip of data as it would be returned in a + // If the strip size as expected by LibTiff isn't what we're expecting, + // abort. man: TIFFStripSize returns the equivalent size for a strip of + // data as it would be returned in a // call to TIFFReadEncodedStrip ... state->errcode = IMAGING_CODEC_MEMORY; @@ -448,7 +521,7 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ /* realloc to fit whole strip */ /* malloc check above */ - new_data = realloc (state->buffer, state->bytes); + new_data = realloc(state->buffer, state->bytes); if (!new_data) { state->errcode = IMAGING_CODEC_MEMORY; TIFFClose(tiff); @@ -459,7 +532,8 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ for (; state->y < state->ysize; state->y += rows_per_strip) { if (ReadStrip(tiff, state->y, (UINT32 *)state->buffer) == -1) { - TRACE(("Decode Error, strip %d\n", TIFFComputeStrip(tiff, state->y, 0))); + TRACE( + ("Decode Error, strip %d\n", TIFFComputeStrip(tiff, state->y, 0))); state->errcode = IMAGING_CODEC_BROKEN; TIFFClose(tiff); return -1; @@ -468,16 +542,20 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ TRACE(("Decoded strip for row %d \n", state->y)); // iterate over each row in the strip and stuff data into image - for (strip_row = 0; strip_row < min(rows_per_strip, state->ysize - state->y); strip_row++) { + for (strip_row = 0; + strip_row < min(rows_per_strip, state->ysize - state->y); + strip_row++) { TRACE(("Writing data into line %d ; \n", state->y + strip_row)); - // UINT8 * bbb = state->buffer + strip_row * (state->bytes / rows_per_strip); - // TRACE(("chars: %x %x %x %x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3])); + // UINT8 * bbb = state->buffer + strip_row * (state->bytes / + // rows_per_strip); TRACE(("chars: %x %x %x %x\n", ((UINT8 *)bbb)[0], + // ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3])); - state->shuffle((UINT8*) im->image[state->y + state->yoff + strip_row] + - state->xoff * im->pixelsize, - state->buffer + strip_row * row_byte_size, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff + strip_row] + + state->xoff * im->pixelsize, + state->buffer + strip_row * row_byte_size, + state->xsize); } } } @@ -489,7 +567,8 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_ return -1; } -int ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp) { +int +ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp) { // Open the FD or the pointer as a tiff file, for writing. // We may have to do some monkeying around to make this really work. // If we have a fp, then we're good. @@ -498,21 +577,30 @@ int ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp) { // Going to have to deal with the directory as well. TIFFSTATE *clientstate = (TIFFSTATE *)state->context; - int bufsize = 64*1024; + int bufsize = 64 * 1024; char *mode = "w"; TRACE(("initing libtiff\n")); - TRACE(("Filename %s, filepointer: %d \n", filename, fp)); - TRACE(("State: count %d, state %d, x %d, y %d, ystep %d\n", state->count, state->state, - state->x, state->y, state->ystep)); - TRACE(("State: xsize %d, ysize %d, xoff %d, yoff %d \n", state->xsize, state->ysize, - state->xoff, state->yoff)); + TRACE(("Filename %s, filepointer: %d \n", filename, fp)); + TRACE( + ("State: count %d, state %d, x %d, y %d, ystep %d\n", + state->count, + state->state, + state->x, + state->y, + state->ystep)); + TRACE( + ("State: xsize %d, ysize %d, xoff %d, yoff %d \n", + state->xsize, + state->ysize, + state->xoff, + state->yoff)); TRACE(("State: bits %d, bytes %d \n", state->bits, state->bytes)); TRACE(("State: context %p \n", state->context)); clientstate->loc = 0; clientstate->size = 0; - clientstate->eof =0; + clientstate->eof = 0; clientstate->data = 0; clientstate->flrealloc = 0; clientstate->fp = fp; @@ -520,27 +608,33 @@ int ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp) { state->state = 0; if (fp) { - TRACE(("Opening using fd: %d for writing \n",clientstate->fp)); + TRACE(("Opening using fd: %d for writing \n", clientstate->fp)); clientstate->tiff = TIFFFdOpen(clientstate->fp, filename, mode); } else { - // malloc a buffer to write the tif, we're going to need to realloc or something if we need bigger. + // malloc a buffer to write the tif, we're going to need to realloc or something + // if we need bigger. TRACE(("Opening a buffer for writing \n")); /* malloc check ok, small constant allocation */ clientstate->data = malloc(bufsize); clientstate->size = bufsize; - clientstate->flrealloc=1; + clientstate->flrealloc = 1; if (!clientstate->data) { TRACE(("Error, couldn't allocate a buffer of size %d\n", bufsize)); return 0; } - clientstate->tiff = TIFFClientOpen(filename, mode, - (thandle_t) clientstate, - _tiffReadProc, _tiffWriteProc, - _tiffSeekProc, _tiffCloseProc, _tiffSizeProc, - _tiffNullMapProc, _tiffUnmapProc); /*force no mmap*/ - + clientstate->tiff = TIFFClientOpen( + filename, + mode, + (thandle_t)clientstate, + _tiffReadProc, + _tiffWriteProc, + _tiffSeekProc, + _tiffCloseProc, + _tiffSizeProc, + _tiffNullMapProc, + _tiffUnmapProc); /*force no mmap*/ } if (!clientstate->tiff) { @@ -549,10 +643,11 @@ int ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp) { } return 1; - } -int ImagingLibTiffMergeFieldInfo(ImagingCodecState state, TIFFDataType field_type, int key, int is_var_length){ +int +ImagingLibTiffMergeFieldInfo( + ImagingCodecState state, TIFFDataType field_type, int key, int is_var_length) { // Refer to libtiff docs (http://www.simplesystems.org/libtiff/addingtags.html) TIFFSTATE *clientstate = (TIFFSTATE *)state->context; char field_name[10]; @@ -567,9 +662,14 @@ int ImagingLibTiffMergeFieldInfo(ImagingCodecState state, TIFFDataType field_typ // whether the first value should encode the number of values. int passcount = 0; - TIFFFieldInfo info[] = { - { key, readcount, writecount, field_type, FIELD_CUSTOM, 1, passcount, field_name } - }; + TIFFFieldInfo info[] = {{key, + readcount, + writecount, + field_type, + FIELD_CUSTOM, + 1, + passcount, + field_name}}; if (is_var_length) { info[0].field_writecount = -1; @@ -582,7 +682,8 @@ int ImagingLibTiffMergeFieldInfo(ImagingCodecState state, TIFFDataType field_typ n = sizeof(info) / sizeof(info[0]); // Test for libtiff 4.0 or later, excluding libtiff 3.9.6 and 3.9.7 -#if TIFFLIB_VERSION >= 20111221 && TIFFLIB_VERSION != 20120218 && TIFFLIB_VERSION != 20120922 +#if TIFFLIB_VERSION >= 20111221 && TIFFLIB_VERSION != 20120218 && \ + TIFFLIB_VERSION != 20120922 status = TIFFMergeFieldInfo(clientstate->tiff, info, n); #else TIFFMergeFieldInfo(clientstate->tiff, info, n); @@ -590,7 +691,8 @@ int ImagingLibTiffMergeFieldInfo(ImagingCodecState state, TIFFDataType field_typ return status; } -int ImagingLibTiffSetField(ImagingCodecState state, ttag_t tag, ...){ +int +ImagingLibTiffSetField(ImagingCodecState state, ttag_t tag, ...) { // after tif_dir.c->TIFFSetField. TIFFSTATE *clientstate = (TIFFSTATE *)state->context; va_list ap; @@ -602,8 +704,8 @@ int ImagingLibTiffSetField(ImagingCodecState state, ttag_t tag, ...){ return status; } - -int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int bytes) { +int +ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8 *buffer, int bytes) { /* One shot encoder. Encode everything to the tiff in the clientstate. If we're running off of a FD, then run once, we're good, everything ends up in the file, we close and we're done. @@ -617,35 +719,65 @@ int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int TIFF *tiff = clientstate->tiff; TRACE(("in encoder: bytes %d\n", bytes)); - TRACE(("State: count %d, state %d, x %d, y %d, ystep %d\n", state->count, state->state, - state->x, state->y, state->ystep)); - TRACE(("State: xsize %d, ysize %d, xoff %d, yoff %d \n", state->xsize, state->ysize, - state->xoff, state->yoff)); + TRACE( + ("State: count %d, state %d, x %d, y %d, ystep %d\n", + state->count, + state->state, + state->x, + state->y, + state->ystep)); + TRACE( + ("State: xsize %d, ysize %d, xoff %d, yoff %d \n", + state->xsize, + state->ysize, + state->xoff, + state->yoff)); TRACE(("State: bits %d, bytes %d \n", state->bits, state->bytes)); - TRACE(("Buffer: %p: %c%c%c%c\n", buffer, (char)buffer[0], (char)buffer[1],(char)buffer[2], (char)buffer[3])); - TRACE(("State->Buffer: %c%c%c%c\n", (char)state->buffer[0], (char)state->buffer[1],(char)state->buffer[2], (char)state->buffer[3])); - TRACE(("Image: mode %s, type %d, bands: %d, xsize %d, ysize %d \n", - im->mode, im->type, im->bands, im->xsize, im->ysize)); - TRACE(("Image: image8 %p, image32 %p, image %p, block %p \n", - im->image8, im->image32, im->image, im->block)); - TRACE(("Image: pixelsize: %d, linesize %d \n", - im->pixelsize, im->linesize)); + TRACE( + ("Buffer: %p: %c%c%c%c\n", + buffer, + (char)buffer[0], + (char)buffer[1], + (char)buffer[2], + (char)buffer[3])); + TRACE( + ("State->Buffer: %c%c%c%c\n", + (char)state->buffer[0], + (char)state->buffer[1], + (char)state->buffer[2], + (char)state->buffer[3])); + TRACE( + ("Image: mode %s, type %d, bands: %d, xsize %d, ysize %d \n", + im->mode, + im->type, + im->bands, + im->xsize, + im->ysize)); + TRACE( + ("Image: image8 %p, image32 %p, image %p, block %p \n", + im->image8, + im->image32, + im->image, + im->block)); + TRACE(("Image: pixelsize: %d, linesize %d \n", im->pixelsize, im->linesize)); dump_state(clientstate); if (state->state == 0) { TRACE(("Encoding line bt line")); - while(state->y < state->ysize){ - state->shuffle(state->buffer, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, - state->xsize); - - if (TIFFWriteScanline(tiff, (tdata_t)(state->buffer), (uint32)state->y, 0) == -1) { + while (state->y < state->ysize) { + state->shuffle( + state->buffer, + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->xsize); + + if (TIFFWriteScanline( + tiff, (tdata_t)(state->buffer), (uint32)state->y, 0) == -1) { TRACE(("Encode Error, row %d\n", state->y)); state->errcode = IMAGING_CODEC_BROKEN; TIFFClose(tiff); - if (!clientstate->fp){ + if (!clientstate->fp) { free(clientstate->data); } return -1; @@ -654,7 +786,7 @@ int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int } if (state->y == state->ysize) { - state->state=1; + state->state = 1; TRACE(("Flushing \n")); if (!TIFFFlush(tiff)) { @@ -662,7 +794,7 @@ int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int // likely reason is memory. state->errcode = IMAGING_CODEC_MEMORY; TIFFClose(tiff); - if (!clientstate->fp){ + if (!clientstate->fp) { free(clientstate->data); } return -1; @@ -671,13 +803,19 @@ int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int TIFFClose(tiff); // reset the clientstate metadata to use it to read out the buffer. clientstate->loc = 0; - clientstate->size = clientstate->eof; // redundant? + clientstate->size = clientstate->eof; // redundant? } } if (state->state == 1 && !clientstate->fp) { int read = (int)_tiffReadProc(clientstate, (tdata_t)buffer, (tsize_t)bytes); - TRACE(("Buffer: %p: %c%c%c%c\n", buffer, (char)buffer[0], (char)buffer[1],(char)buffer[2], (char)buffer[3])); + TRACE( + ("Buffer: %p: %c%c%c%c\n", + buffer, + (char)buffer[0], + (char)buffer[1], + (char)buffer[2], + (char)buffer[3])); if (clientstate->loc == clientstate->eof) { TRACE(("Hit EOF, calling an end, freeing data")); state->errcode = IMAGING_CODEC_END; @@ -690,9 +828,8 @@ int ImagingLibTiffEncode(Imaging im, ImagingCodecState state, UINT8* buffer, int return 0; } -const char* -ImagingTiffVersion(void) -{ +const char * +ImagingTiffVersion(void) { return TIFFGetVersion(); } diff --git a/src/libImaging/TiffDecode.h b/src/libImaging/TiffDecode.h index 3d27e65b676..2c3d88caa4c 100644 --- a/src/libImaging/TiffDecode.h +++ b/src/libImaging/TiffDecode.h @@ -20,8 +20,8 @@ */ #ifndef min -#define min(x,y) (( x > y ) ? y : x ) -#define max(x,y) (( x < y ) ? y : x ) +#define min(x, y) ((x > y) ? y : x) +#define max(x, y) ((x < y) ? y : x) #endif #ifndef _PIL_LIBTIFF_ @@ -32,22 +32,24 @@ typedef struct { toff_t loc; /* toff_t == uint32 */ tsize_t size; /* tsize_t == int32 */ int fp; - uint32 ifd; /* offset of the ifd, used for multipage - * Should be uint32 for libtiff 3.9.x - * uint64 for libtiff 4.0.x - */ - TIFF *tiff; /* Used in write */ + uint32 ifd; /* offset of the ifd, used for multipage + * Should be uint32 for libtiff 3.9.x + * uint64 for libtiff 4.0.x + */ + TIFF *tiff; /* Used in write */ toff_t eof; - int flrealloc;/* may we realloc */ + int flrealloc; /* may we realloc */ } TIFFSTATE; - - -extern int ImagingLibTiffInit(ImagingCodecState state, int fp, uint32 offset); -extern int ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp); -extern int ImagingLibTiffMergeFieldInfo(ImagingCodecState state, TIFFDataType field_type, int key, int is_var_length); -extern int ImagingLibTiffSetField(ImagingCodecState state, ttag_t tag, ...); - +extern int +ImagingLibTiffInit(ImagingCodecState state, int fp, uint32 offset); +extern int +ImagingLibTiffEncodeInit(ImagingCodecState state, char *filename, int fp); +extern int +ImagingLibTiffMergeFieldInfo( + ImagingCodecState state, TIFFDataType field_type, int key, int is_var_length); +extern int +ImagingLibTiffSetField(ImagingCodecState state, ttag_t tag, ...); /* Trace debugging diff --git a/src/libImaging/Unpack.c b/src/libImaging/Unpack.c index 917da6ab32e..b4ba283b2e7 100644 --- a/src/libImaging/Unpack.c +++ b/src/libImaging/Unpack.c @@ -46,20 +46,28 @@ /* byte-swapping macros */ -#define C16N\ - (tmp[0]=in[0], tmp[1]=in[1]); -#define C16S\ - (tmp[1]=in[0], tmp[0]=in[1]); -#define C32N\ - (tmp[0]=in[0], tmp[1]=in[1], tmp[2]=in[2], tmp[3]=in[3]); -#define C32S\ - (tmp[3]=in[0], tmp[2]=in[1], tmp[1]=in[2], tmp[0]=in[3]); -#define C64N\ - (tmp[0]=in[0], tmp[1]=in[1], tmp[2]=in[2], tmp[3]=in[3],\ - tmp[4]=in[4], tmp[5]=in[5], tmp[6]=in[6], tmp[7]=in[7]); -#define C64S\ - (tmp[7]=in[0], tmp[6]=in[1], tmp[5]=in[2], tmp[4]=in[3],\ - tmp[3]=in[4], tmp[2]=in[5], tmp[1]=in[6], tmp[0]=in[7]); +#define C16N (tmp[0] = in[0], tmp[1] = in[1]); +#define C16S (tmp[1] = in[0], tmp[0] = in[1]); +#define C32N (tmp[0] = in[0], tmp[1] = in[1], tmp[2] = in[2], tmp[3] = in[3]); +#define C32S (tmp[3] = in[0], tmp[2] = in[1], tmp[1] = in[2], tmp[0] = in[3]); +#define C64N \ + (tmp[0] = in[0], \ + tmp[1] = in[1], \ + tmp[2] = in[2], \ + tmp[3] = in[3], \ + tmp[4] = in[4], \ + tmp[5] = in[5], \ + tmp[6] = in[6], \ + tmp[7] = in[7]); +#define C64S \ + (tmp[7] = in[0], \ + tmp[6] = in[1], \ + tmp[5] = in[2], \ + tmp[4] = in[3], \ + tmp[3] = in[4], \ + tmp[2] = in[5], \ + tmp[1] = in[6], \ + tmp[0] = in[7]); #ifdef WORDS_BIGENDIAN #define C16B C16N @@ -80,111 +88,163 @@ /* bit-swapping */ static UINT8 BITFLIP[] = { - 0, 128, 64, 192, 32, 160, 96, 224, 16, 144, 80, 208, 48, 176, 112, - 240, 8, 136, 72, 200, 40, 168, 104, 232, 24, 152, 88, 216, 56, 184, - 120, 248, 4, 132, 68, 196, 36, 164, 100, 228, 20, 148, 84, 212, 52, - 180, 116, 244, 12, 140, 76, 204, 44, 172, 108, 236, 28, 156, 92, 220, - 60, 188, 124, 252, 2, 130, 66, 194, 34, 162, 98, 226, 18, 146, 82, - 210, 50, 178, 114, 242, 10, 138, 74, 202, 42, 170, 106, 234, 26, 154, - 90, 218, 58, 186, 122, 250, 6, 134, 70, 198, 38, 166, 102, 230, 22, - 150, 86, 214, 54, 182, 118, 246, 14, 142, 78, 206, 46, 174, 110, 238, - 30, 158, 94, 222, 62, 190, 126, 254, 1, 129, 65, 193, 33, 161, 97, - 225, 17, 145, 81, 209, 49, 177, 113, 241, 9, 137, 73, 201, 41, 169, - 105, 233, 25, 153, 89, 217, 57, 185, 121, 249, 5, 133, 69, 197, 37, - 165, 101, 229, 21, 149, 85, 213, 53, 181, 117, 245, 13, 141, 77, 205, - 45, 173, 109, 237, 29, 157, 93, 221, 61, 189, 125, 253, 3, 131, 67, - 195, 35, 163, 99, 227, 19, 147, 83, 211, 51, 179, 115, 243, 11, 139, - 75, 203, 43, 171, 107, 235, 27, 155, 91, 219, 59, 187, 123, 251, 7, - 135, 71, 199, 39, 167, 103, 231, 23, 151, 87, 215, 55, 183, 119, 247, - 15, 143, 79, 207, 47, 175, 111, 239, 31, 159, 95, 223, 63, 191, 127, - 255 -}; + 0, 128, 64, 192, 32, 160, 96, 224, 16, 144, 80, 208, 48, 176, 112, 240, + 8, 136, 72, 200, 40, 168, 104, 232, 24, 152, 88, 216, 56, 184, 120, 248, + 4, 132, 68, 196, 36, 164, 100, 228, 20, 148, 84, 212, 52, 180, 116, 244, + 12, 140, 76, 204, 44, 172, 108, 236, 28, 156, 92, 220, 60, 188, 124, 252, + 2, 130, 66, 194, 34, 162, 98, 226, 18, 146, 82, 210, 50, 178, 114, 242, + 10, 138, 74, 202, 42, 170, 106, 234, 26, 154, 90, 218, 58, 186, 122, 250, + 6, 134, 70, 198, 38, 166, 102, 230, 22, 150, 86, 214, 54, 182, 118, 246, + 14, 142, 78, 206, 46, 174, 110, 238, 30, 158, 94, 222, 62, 190, 126, 254, + 1, 129, 65, 193, 33, 161, 97, 225, 17, 145, 81, 209, 49, 177, 113, 241, + 9, 137, 73, 201, 41, 169, 105, 233, 25, 153, 89, 217, 57, 185, 121, 249, + 5, 133, 69, 197, 37, 165, 101, 229, 21, 149, 85, 213, 53, 181, 117, 245, + 13, 141, 77, 205, 45, 173, 109, 237, 29, 157, 93, 221, 61, 189, 125, 253, + 3, 131, 67, 195, 35, 163, 99, 227, 19, 147, 83, 211, 51, 179, 115, 243, + 11, 139, 75, 203, 43, 171, 107, 235, 27, 155, 91, 219, 59, 187, 123, 251, + 7, 135, 71, 199, 39, 167, 103, 231, 23, 151, 87, 215, 55, 183, 119, 247, + 15, 143, 79, 207, 47, 175, 111, 239, 31, 159, 95, 223, 63, 191, 127, 255}; /* Unpack to "1" image */ static void -unpack1(UINT8* out, const UINT8* in, int pixels) -{ +unpack1(UINT8 *out, const UINT8 *in, int pixels) { /* bits (msb first, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 7: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 6: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 5: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 4: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 3: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 2: *out++ = (byte & 128) ? 255 : 0; byte <<= 1; - case 1: *out++ = (byte & 128) ? 255 : 0; + default: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 7: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 6: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 5: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 4: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 3: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 2: + *out++ = (byte & 128) ? 255 : 0; + byte <<= 1; + case 1: + *out++ = (byte & 128) ? 255 : 0; } pixels -= 8; } } static void -unpack1I(UINT8* out, const UINT8* in, int pixels) -{ +unpack1I(UINT8 *out, const UINT8 *in, int pixels) { /* bits (msb first, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 7: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 6: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 5: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 4: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 3: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 2: *out++ = (byte & 128) ? 0 : 255; byte <<= 1; - case 1: *out++ = (byte & 128) ? 0 : 255; + default: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 7: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 6: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 5: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 4: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 3: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 2: + *out++ = (byte & 128) ? 0 : 255; + byte <<= 1; + case 1: + *out++ = (byte & 128) ? 0 : 255; } pixels -= 8; } } static void -unpack1R(UINT8* out, const UINT8* in, int pixels) -{ +unpack1R(UINT8 *out, const UINT8 *in, int pixels) { /* bits (lsb first, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 7: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 6: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 5: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 4: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 3: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 2: *out++ = (byte & 1) ? 255 : 0; byte >>= 1; - case 1: *out++ = (byte & 1) ? 255 : 0; + default: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 7: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 6: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 5: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 4: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 3: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 2: + *out++ = (byte & 1) ? 255 : 0; + byte >>= 1; + case 1: + *out++ = (byte & 1) ? 255 : 0; } pixels -= 8; } } static void -unpack1IR(UINT8* out, const UINT8* in, int pixels) -{ +unpack1IR(UINT8 *out, const UINT8 *in, int pixels) { /* bits (lsb first, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 7: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 6: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 5: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 4: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 3: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 2: *out++ = (byte & 1) ? 0 : 255; byte >>= 1; - case 1: *out++ = (byte & 1) ? 0 : 255; + default: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 7: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 6: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 5: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 4: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 3: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 2: + *out++ = (byte & 1) ? 0 : 255; + byte >>= 1; + case 1: + *out++ = (byte & 1) ? 0 : 255; } pixels -= 8; } } static void -unpack18(UINT8* out, const UINT8* in, int pixels) -{ +unpack18(UINT8 *out, const UINT8 *in, int pixels) { /* Unpack a '|b1' image, which is a numpy boolean. 1 == true, 0==false, in bytes */ @@ -194,160 +254,188 @@ unpack18(UINT8* out, const UINT8* in, int pixels) } } - - /* Unpack to "L" image */ static void -unpackL2(UINT8* out, const UINT8* in, int pixels) -{ +unpackL2(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (msb first, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 3: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 2: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 1: *out++ = ((byte >> 6) & 0x03U) * 0x55U; + default: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 3: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 2: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 1: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; } pixels -= 4; } } static void -unpackL2I(UINT8* out, const UINT8* in, int pixels) -{ +unpackL2I(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (msb first, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 3: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 2: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 1: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + default: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 3: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 2: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 1: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); } pixels -= 4; } } static void -unpackL2R(UINT8* out, const UINT8* in, int pixels) -{ +unpackL2R(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (bit order reversed, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; byte = BITFLIP[byte]; switch (pixels) { - default: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 3: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 2: *out++ = ((byte >> 6) & 0x03U) * 0x55U; byte <<= 2; - case 1: *out++ = ((byte >> 6) & 0x03U) * 0x55U; + default: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 3: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 2: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; + byte <<= 2; + case 1: + *out++ = ((byte >> 6) & 0x03U) * 0x55U; } pixels -= 4; } } static void -unpackL2IR(UINT8* out, const UINT8* in, int pixels) -{ +unpackL2IR(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (bit order reversed, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; byte = BITFLIP[byte]; switch (pixels) { - default: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 3: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 2: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); byte <<= 2; - case 1: *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + default: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 3: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 2: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); + byte <<= 2; + case 1: + *out++ = 0xFFU - (UINT8)(((byte >> 6) & 0x03U) * 0x55U); } pixels -= 4; } } static void -unpackL4(UINT8* out, const UINT8* in, int pixels) -{ +unpackL4(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (msb first, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = ((byte >> 4) & 0x0FU) * 0x11U; byte <<= 4; - case 1: *out++ = ((byte >> 4) & 0x0FU) * 0x11U; + default: + *out++ = ((byte >> 4) & 0x0FU) * 0x11U; + byte <<= 4; + case 1: + *out++ = ((byte >> 4) & 0x0FU) * 0x11U; } pixels -= 2; } } static void -unpackL4I(UINT8* out, const UINT8* in, int pixels) -{ +unpackL4I(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (msb first, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); byte <<= 4; - case 1: *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); + default: + *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); + byte <<= 4; + case 1: + *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); } pixels -= 2; } } static void -unpackL4R(UINT8* out, const UINT8* in, int pixels) -{ +unpackL4R(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (bit order reversed, white is non-zero) */ while (pixels > 0) { UINT8 byte = *in++; byte = BITFLIP[byte]; switch (pixels) { - default: *out++ = ((byte >> 4) & 0x0FU) * 0x11U; byte <<= 4; - case 1: *out++ = ((byte >> 4) & 0x0FU) * 0x11U; + default: + *out++ = ((byte >> 4) & 0x0FU) * 0x11U; + byte <<= 4; + case 1: + *out++ = ((byte >> 4) & 0x0FU) * 0x11U; } pixels -= 2; } } static void -unpackL4IR(UINT8* out, const UINT8* in, int pixels) -{ +unpackL4IR(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles (bit order reversed, white is zero) */ while (pixels > 0) { UINT8 byte = *in++; byte = BITFLIP[byte]; switch (pixels) { - default: *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); byte <<= 4; - case 1: *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); + default: + *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); + byte <<= 4; + case 1: + *out++ = 0xFFU - (UINT8)(((byte >> 4) & 0x0FU) * 0x11U); } pixels -= 2; } } static void -unpackLA(UINT8* _out, const UINT8* in, int pixels) -{ +unpackLA(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* LA, pixel interleaved */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[0], in[0], in[0], in[1]); memcpy(_out, &iv, sizeof(iv)); - in += 2; _out += 4; + in += 2; + _out += 4; } } static void -unpackLAL(UINT8* _out, const UINT8* in, int pixels) -{ +unpackLAL(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* LA, line interleaved */ - for (i = 0; i < pixels; i++, _out+=4) { - UINT32 iv = MAKE_UINT32(in[i], in[i], in[i], in[i+pixels]); + for (i = 0; i < pixels; i++, _out += 4) { + UINT32 iv = MAKE_UINT32(in[i], in[i], in[i], in[i + pixels]); memcpy(_out, &iv, sizeof(iv)); } } static void -unpackLI(UINT8* out, const UINT8* in, int pixels) -{ +unpackLI(UINT8 *out, const UINT8 *in, int pixels) { /* negative */ int i; for (i = 0; i < pixels; i++) { @@ -356,8 +444,7 @@ unpackLI(UINT8* out, const UINT8* in, int pixels) } static void -unpackLR(UINT8* out, const UINT8* in, int pixels) -{ +unpackLR(UINT8 *out, const UINT8 *in, int pixels) { int i; /* RGB, bit reversed */ for (i = 0; i < pixels; i++) { @@ -366,8 +453,7 @@ unpackLR(UINT8* out, const UINT8* in, int pixels) } static void -unpackL16(UINT8* out, const UINT8* in, int pixels) -{ +unpackL16(UINT8 *out, const UINT8 *in, int pixels) { /* int16 (upper byte, little endian) */ int i; for (i = 0; i < pixels; i++) { @@ -377,8 +463,7 @@ unpackL16(UINT8* out, const UINT8* in, int pixels) } static void -unpackL16B(UINT8* out, const UINT8* in, int pixels) -{ +unpackL16B(UINT8 *out, const UINT8 *in, int pixels) { int i; /* int16 (upper byte, big endian) */ for (i = 0; i < pixels; i++) { @@ -387,66 +472,86 @@ unpackL16B(UINT8* out, const UINT8* in, int pixels) } } - /* Unpack to "P" image */ static void -unpackP1(UINT8* out, const UINT8* in, int pixels) -{ +unpackP1(UINT8 *out, const UINT8 *in, int pixels) { /* bits */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte >> 7) & 1; byte <<= 1; - case 7: *out++ = (byte >> 7) & 1; byte <<= 1; - case 6: *out++ = (byte >> 7) & 1; byte <<= 1; - case 5: *out++ = (byte >> 7) & 1; byte <<= 1; - case 4: *out++ = (byte >> 7) & 1; byte <<= 1; - case 3: *out++ = (byte >> 7) & 1; byte <<= 1; - case 2: *out++ = (byte >> 7) & 1; byte <<= 1; - case 1: *out++ = (byte >> 7) & 1; + default: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 7: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 6: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 5: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 4: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 3: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 2: + *out++ = (byte >> 7) & 1; + byte <<= 1; + case 1: + *out++ = (byte >> 7) & 1; } pixels -= 8; } } static void -unpackP2(UINT8* out, const UINT8* in, int pixels) -{ +unpackP2(UINT8 *out, const UINT8 *in, int pixels) { /* bit pairs */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte >> 6) & 3; byte <<= 2; - case 3: *out++ = (byte >> 6) & 3; byte <<= 2; - case 2: *out++ = (byte >> 6) & 3; byte <<= 2; - case 1: *out++ = (byte >> 6) & 3; + default: + *out++ = (byte >> 6) & 3; + byte <<= 2; + case 3: + *out++ = (byte >> 6) & 3; + byte <<= 2; + case 2: + *out++ = (byte >> 6) & 3; + byte <<= 2; + case 1: + *out++ = (byte >> 6) & 3; } pixels -= 4; } } static void -unpackP4(UINT8* out, const UINT8* in, int pixels) -{ +unpackP4(UINT8 *out, const UINT8 *in, int pixels) { /* nibbles */ while (pixels > 0) { UINT8 byte = *in++; switch (pixels) { - default: *out++ = (byte >> 4) & 15; byte <<= 4; - case 1: *out++ = (byte >> 4) & 15; + default: + *out++ = (byte >> 4) & 15; + byte <<= 4; + case 1: + *out++ = (byte >> 4) & 15; } pixels -= 2; } } static void -unpackP2L(UINT8* out, const UINT8* in, int pixels) -{ +unpackP2L(UINT8 *out, const UINT8 *in, int pixels) { int i, j, m, s; /* bit layers */ m = 128; - s = (pixels+7)/8; + s = (pixels + 7) / 8; for (i = j = 0; i < pixels; i++) { out[i] = ((in[j] & m) ? 1 : 0) + ((in[j + s] & m) ? 2 : 0); if ((m >>= 1) == 0) { @@ -457,15 +562,14 @@ unpackP2L(UINT8* out, const UINT8* in, int pixels) } static void -unpackP4L(UINT8* out, const UINT8* in, int pixels) -{ +unpackP4L(UINT8 *out, const UINT8 *in, int pixels) { int i, j, m, s; /* bit layers (trust the optimizer ;-) */ m = 128; - s = (pixels+7)/8; + s = (pixels + 7) / 8; for (i = j = 0; i < pixels; i++) { out[i] = ((in[j] & m) ? 1 : 0) + ((in[j + s] & m) ? 2 : 0) + - ((in[j + 2*s] & m) ? 4 : 0) + ((in[j + 3*s] & m) ? 8 : 0); + ((in[j + 2 * s] & m) ? 4 : 0) + ((in[j + 3 * s] & m) ? 8 : 0); if ((m >>= 1) == 0) { m = 128; j++; @@ -473,403 +577,410 @@ unpackP4L(UINT8* out, const UINT8* in, int pixels) } } - /* Unpack to "RGB" image */ void -ImagingUnpackRGB(UINT8* _out, const UINT8* in, int pixels) -{ +ImagingUnpackRGB(UINT8 *_out, const UINT8 *in, int pixels) { int i = 0; /* RGB triplets */ - for (; i < pixels-1; i++) { + for (; i < pixels - 1; i++) { UINT32 iv; memcpy(&iv, in, sizeof(iv)); iv |= MASK_UINT32_CHANNEL_3; memcpy(_out, &iv, sizeof(iv)); - in += 3; _out += 4; + in += 3; + _out += 4; } for (; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[0], in[1], in[2], 255); memcpy(_out, &iv, sizeof(iv)); - in += 3; _out += 4; + in += 3; + _out += 4; } } void -unpackRGB16L(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGB16L(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* 16-bit RGB triplets, little-endian order */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[1], in[3], in[5], 255); memcpy(_out, &iv, sizeof(iv)); - in += 6; _out += 4; + in += 6; + _out += 4; } } void -unpackRGB16B(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGB16B(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* 16-bit RGB triplets, big-endian order */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[0], in[2], in[4], 255); memcpy(_out, &iv, sizeof(iv)); - in += 6; _out += 4; + in += 6; + _out += 4; } } static void -unpackRGBL(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBL(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, line interleaved */ - for (i = 0; i < pixels; i++, _out+=4) { - UINT32 iv = MAKE_UINT32(in[i], in[i+pixels], in[i+pixels+pixels], 255); + for (i = 0; i < pixels; i++, _out += 4) { + UINT32 iv = MAKE_UINT32(in[i], in[i + pixels], in[i + pixels + pixels], 255); memcpy(_out, &iv, sizeof(iv)); } } static void -unpackRGBR(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBR(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, bit reversed */ for (i = 0; i < pixels; i++) { - UINT32 iv = MAKE_UINT32(BITFLIP[in[0]], BITFLIP[in[1]], - BITFLIP[in[2]], 255); + UINT32 iv = MAKE_UINT32(BITFLIP[in[0]], BITFLIP[in[1]], BITFLIP[in[2]], 255); memcpy(_out, &iv, sizeof(iv)); - in += 3; _out += 4; + in += 3; + _out += 4; } } void -ImagingUnpackBGR(UINT8* _out, const UINT8* in, int pixels) -{ +ImagingUnpackBGR(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, reversed bytes */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[2], in[1], in[0], 255); memcpy(_out, &iv, sizeof(iv)); - in += 3; _out += 4; + in += 3; + _out += 4; } } void -ImagingUnpackRGB15(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackRGB15(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, 5 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[R] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 31) * 255 / 31; - out[B] = ((pixel>>10) & 31) * 255 / 31; + out[G] = ((pixel >> 5) & 31) * 255 / 31; + out[B] = ((pixel >> 10) & 31) * 255 / 31; out[A] = 255; - out += 4; in += 2; + out += 4; + in += 2; } } void -ImagingUnpackRGBA15(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackRGBA15(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, 5/5/5/1 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[R] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 31) * 255 / 31; - out[B] = ((pixel>>10) & 31) * 255 / 31; - out[A] = (pixel>>15) * 255; - out += 4; in += 2; + out[G] = ((pixel >> 5) & 31) * 255 / 31; + out[B] = ((pixel >> 10) & 31) * 255 / 31; + out[A] = (pixel >> 15) * 255; + out += 4; + in += 2; } } void -ImagingUnpackBGR15(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackBGR15(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, reversed bytes, 5 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[B] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 31) * 255 / 31; - out[R] = ((pixel>>10) & 31) * 255 / 31; + out[G] = ((pixel >> 5) & 31) * 255 / 31; + out[R] = ((pixel >> 10) & 31) * 255 / 31; out[A] = 255; - out += 4; in += 2; + out += 4; + in += 2; } } void -ImagingUnpackBGRA15(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackBGRA15(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, reversed bytes, 5/5/5/1 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[B] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 31) * 255 / 31; - out[R] = ((pixel>>10) & 31) * 255 / 31; - out[A] = (pixel>>15) * 255; - out += 4; in += 2; + out[G] = ((pixel >> 5) & 31) * 255 / 31; + out[R] = ((pixel >> 10) & 31) * 255 / 31; + out[A] = (pixel >> 15) * 255; + out += 4; + in += 2; } } void -ImagingUnpackRGB16(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackRGB16(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, 5/6/5 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[R] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 63) * 255 / 63; - out[B] = ((pixel>>11) & 31) * 255 / 31; + out[G] = ((pixel >> 5) & 63) * 255 / 63; + out[B] = ((pixel >> 11) & 31) * 255 / 31; out[A] = 255; - out += 4; in += 2; + out += 4; + in += 2; } } void -ImagingUnpackBGR16(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackBGR16(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, reversed bytes, 5/6/5 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[B] = (pixel & 31) * 255 / 31; - out[G] = ((pixel>>5) & 63) * 255 / 63; - out[R] = ((pixel>>11) & 31) * 255 / 31; + out[G] = ((pixel >> 5) & 63) * 255 / 63; + out[R] = ((pixel >> 11) & 31) * 255 / 31; out[A] = 255; - out += 4; in += 2; + out += 4; + in += 2; } } void -ImagingUnpackRGB4B(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackRGB4B(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGB, 4 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[R] = (pixel & 15) * 17; - out[G] = ((pixel>>4) & 15) * 17; - out[B] = ((pixel>>8) & 15) * 17; + out[G] = ((pixel >> 4) & 15) * 17; + out[B] = ((pixel >> 8) & 15) * 17; out[A] = 255; - out += 4; in += 2; + out += 4; + in += 2; } } void -ImagingUnpackRGBA4B(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackRGBA4B(UINT8 *out, const UINT8 *in, int pixels) { int i, pixel; /* RGBA, 4 bits per pixel */ for (i = 0; i < pixels; i++) { pixel = in[0] + (in[1] << 8); out[R] = (pixel & 15) * 17; - out[G] = ((pixel>>4) & 15) * 17; - out[B] = ((pixel>>8) & 15) * 17; - out[A] = ((pixel>>12) & 15) * 17; - out += 4; in += 2; + out[G] = ((pixel >> 4) & 15) * 17; + out[B] = ((pixel >> 8) & 15) * 17; + out[A] = ((pixel >> 12) & 15) * 17; + out += 4; + in += 2; } } static void -ImagingUnpackBGRX(UINT8* _out, const UINT8* in, int pixels) -{ +ImagingUnpackBGRX(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, reversed bytes with padding */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[2], in[1], in[0], 255); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -ImagingUnpackXRGB(UINT8* _out, const UINT8* in, int pixels) -{ +ImagingUnpackXRGB(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, leading pad */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[1], in[2], in[3], 255); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -ImagingUnpackXBGR(UINT8* _out, const UINT8* in, int pixels) -{ +ImagingUnpackXBGR(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGB, reversed bytes, leading pad */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[3], in[2], in[1], 255); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } /* Unpack to "RGBA" image */ static void -unpackRGBALA(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBALA(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* greyscale with alpha */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[0], in[0], in[0], in[1]); memcpy(_out, &iv, sizeof(iv)); - in += 2; _out += 4; + in += 2; + _out += 4; } } static void -unpackRGBALA16B(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBALA16B(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* 16-bit greyscale with alpha, big-endian */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[0], in[0], in[0], in[2]); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -unpackRGBa16L(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBa16L(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* premultiplied 16-bit RGBA, little-endian */ for (i = 0; i < pixels; i++) { int a = in[7]; UINT32 iv; - if ( ! a) { + if (!a) { iv = 0; } else if (a == 255) { iv = MAKE_UINT32(in[1], in[3], in[5], a); } else { - iv = MAKE_UINT32(CLIP8(in[1] * 255 / a), - CLIP8(in[3] * 255 / a), - CLIP8(in[5] * 255 / a), a); + iv = MAKE_UINT32( + CLIP8(in[1] * 255 / a), + CLIP8(in[3] * 255 / a), + CLIP8(in[5] * 255 / a), + a); } memcpy(_out, &iv, sizeof(iv)); - in += 8; _out += 4; + in += 8; + _out += 4; } } static void -unpackRGBa16B(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBa16B(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* premultiplied 16-bit RGBA, big-endian */ for (i = 0; i < pixels; i++) { int a = in[6]; UINT32 iv; - if ( ! a) { + if (!a) { iv = 0; } else if (a == 255) { iv = MAKE_UINT32(in[0], in[2], in[4], a); } else { - iv = MAKE_UINT32(CLIP8(in[0] * 255 / a), - CLIP8(in[2] * 255 / a), - CLIP8(in[4] * 255 / a), a); + iv = MAKE_UINT32( + CLIP8(in[0] * 255 / a), + CLIP8(in[2] * 255 / a), + CLIP8(in[4] * 255 / a), + a); } memcpy(_out, &iv, sizeof(iv)); - in += 8; _out += 4; + in += 8; + _out += 4; } } static void -unpackRGBa(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBa(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* premultiplied RGBA */ for (i = 0; i < pixels; i++) { int a = in[3]; UINT32 iv; - if ( ! a) { + if (!a) { iv = 0; } else if (a == 255) { iv = MAKE_UINT32(in[0], in[1], in[2], a); } else { - iv = MAKE_UINT32(CLIP8(in[0] * 255 / a), - CLIP8(in[1] * 255 / a), - CLIP8(in[2] * 255 / a), a); + iv = MAKE_UINT32( + CLIP8(in[0] * 255 / a), + CLIP8(in[1] * 255 / a), + CLIP8(in[2] * 255 / a), + a); } memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -unpackRGBaskip1(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBaskip1(UINT8 *_out, const UINT8 *in, int pixels) { int i; - UINT32* out = (UINT32*) _out; + UINT32 *out = (UINT32 *)_out; /* premultiplied RGBA */ for (i = 0; i < pixels; i++) { int a = in[3]; - if ( ! a) { + if (!a) { out[i] = 0; } else if (a == 255) { out[i] = MAKE_UINT32(in[0], in[1], in[2], a); } else { - out[i] = MAKE_UINT32(CLIP8(in[0] * 255 / a), - CLIP8(in[1] * 255 / a), - CLIP8(in[2] * 255 / a), a); + out[i] = MAKE_UINT32( + CLIP8(in[0] * 255 / a), + CLIP8(in[1] * 255 / a), + CLIP8(in[2] * 255 / a), + a); } in += 5; } } static void -unpackRGBaskip2(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBaskip2(UINT8 *_out, const UINT8 *in, int pixels) { int i; - UINT32* out = (UINT32*) _out; + UINT32 *out = (UINT32 *)_out; /* premultiplied RGBA */ for (i = 0; i < pixels; i++) { int a = in[3]; - if ( ! a) { + if (!a) { out[i] = 0; } else if (a == 255) { out[i] = MAKE_UINT32(in[0], in[1], in[2], a); } else { - out[i] = MAKE_UINT32(CLIP8(in[0] * 255 / a), - CLIP8(in[1] * 255 / a), - CLIP8(in[2] * 255 / a), a); + out[i] = MAKE_UINT32( + CLIP8(in[0] * 255 / a), + CLIP8(in[1] * 255 / a), + CLIP8(in[2] * 255 / a), + a); } in += 6; } } static void -unpackBGRa(UINT8* _out, const UINT8* in, int pixels) -{ +unpackBGRa(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* premultiplied BGRA */ for (i = 0; i < pixels; i++) { int a = in[3]; UINT32 iv; - if ( ! a) { + if (!a) { iv = 0; } else if (a == 255) { iv = MAKE_UINT32(in[2], in[1], in[0], a); } else { - iv = MAKE_UINT32(CLIP8(in[2] * 255 / a), - CLIP8(in[1] * 255 / a), - CLIP8(in[0] * 255 / a), a); + iv = MAKE_UINT32( + CLIP8(in[2] * 255 / a), + CLIP8(in[1] * 255 / a), + CLIP8(in[0] * 255 / a), + a); } memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -unpackRGBAI(UINT8* out, const UINT8* in, int pixels) -{ +unpackRGBAI(UINT8 *out, const UINT8 *in, int pixels) { int i; /* RGBA, inverted RGB bytes (FlashPix) */ for (i = 0; i < pixels; i++) { @@ -877,28 +988,30 @@ unpackRGBAI(UINT8* out, const UINT8* in, int pixels) out[G] = ~in[1]; out[B] = ~in[2]; out[A] = in[3]; - out += 4; in += 4; + out += 4; + in += 4; } } static void -unpackRGBAL(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBAL(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGBA, line interleaved */ - for (i = 0; i < pixels; i++, _out+=4) { - UINT32 iv = MAKE_UINT32(in[i], in[i+pixels], in[i+pixels+pixels], - in[i+pixels+pixels+pixels]); + for (i = 0; i < pixels; i++, _out += 4) { + UINT32 iv = MAKE_UINT32( + in[i], + in[i + pixels], + in[i + pixels + pixels], + in[i + pixels + pixels + pixels]); memcpy(_out, &iv, sizeof(iv)); } } void -unpackRGBA16L(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBA16L(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* 16-bit RGBA, little-endian order */ - for (i = 0; i < pixels; i++, _out+=4) { + for (i = 0; i < pixels; i++, _out += 4) { UINT32 iv = MAKE_UINT32(in[1], in[3], in[5], in[7]); memcpy(_out, &iv, sizeof(iv)); in += 8; @@ -906,11 +1019,10 @@ unpackRGBA16L(UINT8* _out, const UINT8* in, int pixels) } void -unpackRGBA16B(UINT8* _out, const UINT8* in, int pixels) -{ +unpackRGBA16B(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* 16-bit RGBA, big-endian order */ - for (i = 0; i < pixels; i++, _out+=4) { + for (i = 0; i < pixels; i++, _out += 4) { UINT32 iv = MAKE_UINT32(in[0], in[2], in[4], in[6]); memcpy(_out, &iv, sizeof(iv)); in += 8; @@ -918,53 +1030,52 @@ unpackRGBA16B(UINT8* _out, const UINT8* in, int pixels) } static void -unpackARGB(UINT8* _out, const UINT8* in, int pixels) -{ +unpackARGB(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGBA, leading pad */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[1], in[2], in[3], in[0]); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -unpackABGR(UINT8* _out, const UINT8* in, int pixels) -{ +unpackABGR(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGBA, reversed bytes */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[3], in[2], in[1], in[0]); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } static void -unpackBGRA(UINT8* _out, const UINT8* in, int pixels) -{ +unpackBGRA(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* RGBA, reversed bytes */ for (i = 0; i < pixels; i++) { UINT32 iv = MAKE_UINT32(in[2], in[1], in[0], in[3]); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } - /* Unpack to "CMYK" image */ static void -unpackCMYKI(UINT8* _out, const UINT8* in, int pixels) -{ +unpackCMYKI(UINT8 *_out, const UINT8 *in, int pixels) { int i; /* CMYK, inverted bytes (Photoshop 2.5) */ for (i = 0; i < pixels; i++) { UINT32 iv = ~MAKE_UINT32(in[0], in[1], in[2], in[3]); memcpy(_out, &iv, sizeof(iv)); - in += 4; _out += 4; + in += 4; + _out += 4; } } @@ -980,8 +1091,7 @@ unpackCMYKI(UINT8* _out, const UINT8* in, int pixels) internally, and we'll unshift for saving and whatnot. */ void -ImagingUnpackLAB(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackLAB(UINT8 *out, const UINT8 *in, int pixels) { int i; /* LAB triplets */ for (i = 0; i < pixels; i++) { @@ -989,32 +1099,34 @@ ImagingUnpackLAB(UINT8* out, const UINT8* in, int pixels) out[1] = in[1] ^ 128; /* signed in outside world */ out[2] = in[2] ^ 128; out[3] = 255; - out += 4; in += 3; + out += 4; + in += 3; } } static void -unpackI16N_I16B(UINT8* out, const UINT8* in, int pixels){ +unpackI16N_I16B(UINT8 *out, const UINT8 *in, int pixels) { int i; - UINT8* tmp = (UINT8*) out; + UINT8 *tmp = (UINT8 *)out; for (i = 0; i < pixels; i++) { C16B; - in += 2; tmp += 2; + in += 2; + tmp += 2; } - } static void -unpackI16N_I16(UINT8* out, const UINT8* in, int pixels){ +unpackI16N_I16(UINT8 *out, const UINT8 *in, int pixels) { int i; - UINT8* tmp = (UINT8*) out; + UINT8 *tmp = (UINT8 *)out; for (i = 0; i < pixels; i++) { C16L; - in += 2; tmp += 2; + in += 2; + tmp += 2; } } static void -unpackI12_I16(UINT8* out, const UINT8* in, int pixels){ +unpackI12_I16(UINT8 *out, const UINT8 *in, int pixels) { /* Fillorder 1/MSB -> LittleEndian, for 12bit integer greyscale tiffs. According to the TIFF spec: @@ -1036,103 +1148,100 @@ unpackI12_I16(UINT8* out, const UINT8* in, int pixels){ int i; UINT16 pixel; #ifdef WORDS_BIGENDIAN - UINT8* tmp = (UINT8 *)&pixel; + UINT8 *tmp = (UINT8 *)&pixel; #endif - for (i = 0; i < pixels-1; i+=2) { - pixel = (((UINT16) in[0]) << 4 ) + (in[1] >>4); + for (i = 0; i < pixels - 1; i += 2) { + pixel = (((UINT16)in[0]) << 4) + (in[1] >> 4); #ifdef WORDS_BIGENDIAN - out[0] = tmp[1]; out[1] = tmp[0]; + out[0] = tmp[1]; + out[1] = tmp[0]; #else memcpy(out, &pixel, sizeof(pixel)); #endif - out+=2; - pixel = (((UINT16) (in[1] & 0x0F)) << 8) + in[2]; + out += 2; + pixel = (((UINT16)(in[1] & 0x0F)) << 8) + in[2]; #ifdef WORDS_BIGENDIAN - out[0] = tmp[1]; out[1] = tmp[0]; + out[0] = tmp[1]; + out[1] = tmp[0]; #else memcpy(out, &pixel, sizeof(pixel)); #endif - in += 3; out+=2; + in += 3; + out += 2; } - if (i == pixels-1) { - pixel = (((UINT16) in[0]) << 4 ) + (in[1] >>4); + if (i == pixels - 1) { + pixel = (((UINT16)in[0]) << 4) + (in[1] >> 4); #ifdef WORDS_BIGENDIAN - out[0] = tmp[1]; out[1] = tmp[0]; + out[0] = tmp[1]; + out[1] = tmp[0]; #else memcpy(out, &pixel, sizeof(pixel)); #endif } } - static void -copy1(UINT8* out, const UINT8* in, int pixels) -{ +copy1(UINT8 *out, const UINT8 *in, int pixels) { /* L, P */ memcpy(out, in, pixels); } static void -copy2(UINT8* out, const UINT8* in, int pixels) -{ +copy2(UINT8 *out, const UINT8 *in, int pixels) { /* I;16 */ - memcpy(out, in, pixels*2); + memcpy(out, in, pixels * 2); } static void -copy4(UINT8* out, const UINT8* in, int pixels) -{ +copy4(UINT8 *out, const UINT8 *in, int pixels) { /* RGBA, CMYK quadruples */ memcpy(out, in, 4 * pixels); } static void -copy4skip1(UINT8* _out, const UINT8* in, int pixels) -{ +copy4skip1(UINT8 *_out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++) { memcpy(_out, in, 4); - in += 5; _out += 4; + in += 5; + _out += 4; } } static void -copy4skip2(UINT8* _out, const UINT8* in, int pixels) -{ +copy4skip2(UINT8 *_out, const UINT8 *in, int pixels) { int i; for (i = 0; i < pixels; i++) { memcpy(_out, in, 4); - in += 6; _out += 4; + in += 6; + _out += 4; } } - /* Unpack to "I" and "F" images */ -#define UNPACK_RAW(NAME, GET, INTYPE, OUTTYPE)\ -static void NAME(UINT8* out_, const UINT8* in, int pixels)\ -{\ - int i;\ - OUTTYPE* out = (OUTTYPE*) out_;\ - for (i = 0; i < pixels; i++, in += sizeof(INTYPE)) {\ - out[i] = (OUTTYPE) ((INTYPE) GET);\ - }\ -} - -#define UNPACK(NAME, COPY, INTYPE, OUTTYPE)\ -static void NAME(UINT8* out_, const UINT8* in, int pixels)\ -{\ - int i;\ - OUTTYPE* out = (OUTTYPE*) out_;\ - INTYPE tmp_;\ - UINT8* tmp = (UINT8*) &tmp_;\ - for (i = 0; i < pixels; i++, in += sizeof(INTYPE)) {\ - COPY;\ - out[i] = (OUTTYPE) tmp_;\ - }\ -} +#define UNPACK_RAW(NAME, GET, INTYPE, OUTTYPE) \ + static void NAME(UINT8 *out_, const UINT8 *in, int pixels) { \ + int i; \ + OUTTYPE *out = (OUTTYPE *)out_; \ + for (i = 0; i < pixels; i++, in += sizeof(INTYPE)) { \ + out[i] = (OUTTYPE)((INTYPE)GET); \ + } \ + } + +#define UNPACK(NAME, COPY, INTYPE, OUTTYPE) \ + static void NAME(UINT8 *out_, const UINT8 *in, int pixels) { \ + int i; \ + OUTTYPE *out = (OUTTYPE *)out_; \ + INTYPE tmp_; \ + UINT8 *tmp = (UINT8 *)&tmp_; \ + for (i = 0; i < pixels; i++, in += sizeof(INTYPE)) { \ + COPY; \ + out[i] = (OUTTYPE)tmp_; \ + } \ + } UNPACK_RAW(unpackI8, in[0], UINT8, INT32) UNPACK_RAW(unpackI8S, in[0], INT8, INT32) @@ -1172,12 +1281,10 @@ UNPACK(unpackF64BF, C64B, FLOAT64, FLOAT32) UNPACK(unpackF64NF, C64N, FLOAT64, FLOAT32) #endif - /* Misc. unpackers */ static void -band0(UINT8* out, const UINT8* in, int pixels) -{ +band0(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 0 only */ for (i = 0; i < pixels; i++) { @@ -1187,8 +1294,7 @@ band0(UINT8* out, const UINT8* in, int pixels) } static void -band1(UINT8* out, const UINT8* in, int pixels) -{ +band1(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 1 only */ for (i = 0; i < pixels; i++) { @@ -1198,8 +1304,7 @@ band1(UINT8* out, const UINT8* in, int pixels) } static void -band2(UINT8* out, const UINT8* in, int pixels) -{ +band2(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 2 only */ for (i = 0; i < pixels; i++) { @@ -1209,8 +1314,7 @@ band2(UINT8* out, const UINT8* in, int pixels) } static void -band3(UINT8* out, const UINT8* in, int pixels) -{ +band3(UINT8 *out, const UINT8 *in, int pixels) { /* band 3 only */ int i; for (i = 0; i < pixels; i++) { @@ -1220,8 +1324,7 @@ band3(UINT8* out, const UINT8* in, int pixels) } static void -band0I(UINT8* out, const UINT8* in, int pixels) -{ +band0I(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 0 only */ for (i = 0; i < pixels; i++) { @@ -1231,8 +1334,7 @@ band0I(UINT8* out, const UINT8* in, int pixels) } static void -band1I(UINT8* out, const UINT8* in, int pixels) -{ +band1I(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 1 only */ for (i = 0; i < pixels; i++) { @@ -1242,8 +1344,7 @@ band1I(UINT8* out, const UINT8* in, int pixels) } static void -band2I(UINT8* out, const UINT8* in, int pixels) -{ +band2I(UINT8 *out, const UINT8 *in, int pixels) { int i; /* band 2 only */ for (i = 0; i < pixels; i++) { @@ -1253,8 +1354,7 @@ band2I(UINT8* out, const UINT8* in, int pixels) } static void -band3I(UINT8* out, const UINT8* in, int pixels) -{ +band3I(UINT8 *out, const UINT8 *in, int pixels) { /* band 3 only */ int i; for (i = 0; i < pixels; i++) { @@ -1264,8 +1364,8 @@ band3I(UINT8* out, const UINT8* in, int pixels) } static struct { - const char* mode; - const char* rawmode; + const char *mode; + const char *rawmode; int bits; ImagingShuffler unpack; } unpackers[] = { @@ -1282,244 +1382,242 @@ static struct { /* exception: rawmodes "I" and "F" are always native endian byte order */ /* bilevel */ - {"1", "1", 1, unpack1}, - {"1", "1;I", 1, unpack1I}, - {"1", "1;R", 1, unpack1R}, - {"1", "1;IR", 1, unpack1IR}, - {"1", "1;8", 8, unpack18}, + {"1", "1", 1, unpack1}, + {"1", "1;I", 1, unpack1I}, + {"1", "1;R", 1, unpack1R}, + {"1", "1;IR", 1, unpack1IR}, + {"1", "1;8", 8, unpack18}, /* greyscale */ - {"L", "L;2", 2, unpackL2}, - {"L", "L;2I", 2, unpackL2I}, - {"L", "L;2R", 2, unpackL2R}, - {"L", "L;2IR", 2, unpackL2IR}, - - {"L", "L;4", 4, unpackL4}, - {"L", "L;4I", 4, unpackL4I}, - {"L", "L;4R", 4, unpackL4R}, - {"L", "L;4IR", 4, unpackL4IR}, - - {"L", "L", 8, copy1}, - {"L", "L;I", 8, unpackLI}, - {"L", "L;R", 8, unpackLR}, - {"L", "L;16", 16, unpackL16}, - {"L", "L;16B", 16, unpackL16B}, + {"L", "L;2", 2, unpackL2}, + {"L", "L;2I", 2, unpackL2I}, + {"L", "L;2R", 2, unpackL2R}, + {"L", "L;2IR", 2, unpackL2IR}, + + {"L", "L;4", 4, unpackL4}, + {"L", "L;4I", 4, unpackL4I}, + {"L", "L;4R", 4, unpackL4R}, + {"L", "L;4IR", 4, unpackL4IR}, + + {"L", "L", 8, copy1}, + {"L", "L;I", 8, unpackLI}, + {"L", "L;R", 8, unpackLR}, + {"L", "L;16", 16, unpackL16}, + {"L", "L;16B", 16, unpackL16B}, /* greyscale w. alpha */ - {"LA", "LA", 16, unpackLA}, - {"LA", "LA;L", 16, unpackLAL}, + {"LA", "LA", 16, unpackLA}, + {"LA", "LA;L", 16, unpackLAL}, /* greyscale w. alpha premultiplied */ - {"La", "La", 16, unpackLA}, + {"La", "La", 16, unpackLA}, /* palette */ - {"P", "P;1", 1, unpackP1}, - {"P", "P;2", 2, unpackP2}, - {"P", "P;2L", 2, unpackP2L}, - {"P", "P;4", 4, unpackP4}, - {"P", "P;4L", 4, unpackP4L}, - {"P", "P", 8, copy1}, - {"P", "P;R", 8, unpackLR}, + {"P", "P;1", 1, unpackP1}, + {"P", "P;2", 2, unpackP2}, + {"P", "P;2L", 2, unpackP2L}, + {"P", "P;4", 4, unpackP4}, + {"P", "P;4L", 4, unpackP4L}, + {"P", "P", 8, copy1}, + {"P", "P;R", 8, unpackLR}, /* palette w. alpha */ - {"PA", "PA", 16, unpackLA}, - {"PA", "PA;L", 16, unpackLAL}, + {"PA", "PA", 16, unpackLA}, + {"PA", "PA;L", 16, unpackLAL}, /* true colour */ - {"RGB", "RGB", 24, ImagingUnpackRGB}, - {"RGB", "RGB;L", 24, unpackRGBL}, - {"RGB", "RGB;R", 24, unpackRGBR}, - {"RGB", "RGB;16L", 48, unpackRGB16L}, - {"RGB", "RGB;16B", 48, unpackRGB16B}, - {"RGB", "BGR", 24, ImagingUnpackBGR}, - {"RGB", "RGB;15", 16, ImagingUnpackRGB15}, - {"RGB", "BGR;15", 16, ImagingUnpackBGR15}, - {"RGB", "RGB;16", 16, ImagingUnpackRGB16}, - {"RGB", "BGR;16", 16, ImagingUnpackBGR16}, - {"RGB", "RGB;4B", 16, ImagingUnpackRGB4B}, - {"RGB", "BGR;5", 16, ImagingUnpackBGR15}, /* compat */ - {"RGB", "RGBX", 32, copy4}, - {"RGB", "RGBX;L", 32, unpackRGBAL}, - {"RGB", "RGBA;L", 32, unpackRGBAL}, - {"RGB", "BGRX", 32, ImagingUnpackBGRX}, - {"RGB", "XRGB", 32, ImagingUnpackXRGB}, - {"RGB", "XBGR", 32, ImagingUnpackXBGR}, - {"RGB", "YCC;P", 24, ImagingUnpackYCC}, - {"RGB", "R", 8, band0}, - {"RGB", "G", 8, band1}, - {"RGB", "B", 8, band2}, + {"RGB", "RGB", 24, ImagingUnpackRGB}, + {"RGB", "RGB;L", 24, unpackRGBL}, + {"RGB", "RGB;R", 24, unpackRGBR}, + {"RGB", "RGB;16L", 48, unpackRGB16L}, + {"RGB", "RGB;16B", 48, unpackRGB16B}, + {"RGB", "BGR", 24, ImagingUnpackBGR}, + {"RGB", "RGB;15", 16, ImagingUnpackRGB15}, + {"RGB", "BGR;15", 16, ImagingUnpackBGR15}, + {"RGB", "RGB;16", 16, ImagingUnpackRGB16}, + {"RGB", "BGR;16", 16, ImagingUnpackBGR16}, + {"RGB", "RGB;4B", 16, ImagingUnpackRGB4B}, + {"RGB", "BGR;5", 16, ImagingUnpackBGR15}, /* compat */ + {"RGB", "RGBX", 32, copy4}, + {"RGB", "RGBX;L", 32, unpackRGBAL}, + {"RGB", "RGBA;L", 32, unpackRGBAL}, + {"RGB", "BGRX", 32, ImagingUnpackBGRX}, + {"RGB", "XRGB", 32, ImagingUnpackXRGB}, + {"RGB", "XBGR", 32, ImagingUnpackXBGR}, + {"RGB", "YCC;P", 24, ImagingUnpackYCC}, + {"RGB", "R", 8, band0}, + {"RGB", "G", 8, band1}, + {"RGB", "B", 8, band2}, /* true colour w. alpha */ - {"RGBA", "LA", 16, unpackRGBALA}, - {"RGBA", "LA;16B", 32, unpackRGBALA16B}, - {"RGBA", "RGBA", 32, copy4}, - {"RGBA", "RGBAX", 40, copy4skip1}, - {"RGBA", "RGBAXX", 48, copy4skip2}, - {"RGBA", "RGBa", 32, unpackRGBa}, - {"RGBA", "RGBaX", 40, unpackRGBaskip1}, - {"RGBA", "RGBaXX", 48, unpackRGBaskip2}, - {"RGBA", "RGBa;16L", 64, unpackRGBa16L}, - {"RGBA", "RGBa;16B", 64, unpackRGBa16B}, - {"RGBA", "BGRa", 32, unpackBGRa}, - {"RGBA", "RGBA;I", 32, unpackRGBAI}, - {"RGBA", "RGBA;L", 32, unpackRGBAL}, - {"RGBA", "RGBA;15", 16, ImagingUnpackRGBA15}, - {"RGBA", "BGRA;15", 16, ImagingUnpackBGRA15}, - {"RGBA", "RGBA;4B", 16, ImagingUnpackRGBA4B}, - {"RGBA", "RGBA;16L", 64, unpackRGBA16L}, - {"RGBA", "RGBA;16B", 64, unpackRGBA16B}, - {"RGBA", "BGRA", 32, unpackBGRA}, - {"RGBA", "ARGB", 32, unpackARGB}, - {"RGBA", "ABGR", 32, unpackABGR}, - {"RGBA", "YCCA;P", 32, ImagingUnpackYCCA}, - {"RGBA", "R", 8, band0}, - {"RGBA", "G", 8, band1}, - {"RGBA", "B", 8, band2}, - {"RGBA", "A", 8, band3}, + {"RGBA", "LA", 16, unpackRGBALA}, + {"RGBA", "LA;16B", 32, unpackRGBALA16B}, + {"RGBA", "RGBA", 32, copy4}, + {"RGBA", "RGBAX", 40, copy4skip1}, + {"RGBA", "RGBAXX", 48, copy4skip2}, + {"RGBA", "RGBa", 32, unpackRGBa}, + {"RGBA", "RGBaX", 40, unpackRGBaskip1}, + {"RGBA", "RGBaXX", 48, unpackRGBaskip2}, + {"RGBA", "RGBa;16L", 64, unpackRGBa16L}, + {"RGBA", "RGBa;16B", 64, unpackRGBa16B}, + {"RGBA", "BGRa", 32, unpackBGRa}, + {"RGBA", "RGBA;I", 32, unpackRGBAI}, + {"RGBA", "RGBA;L", 32, unpackRGBAL}, + {"RGBA", "RGBA;15", 16, ImagingUnpackRGBA15}, + {"RGBA", "BGRA;15", 16, ImagingUnpackBGRA15}, + {"RGBA", "RGBA;4B", 16, ImagingUnpackRGBA4B}, + {"RGBA", "RGBA;16L", 64, unpackRGBA16L}, + {"RGBA", "RGBA;16B", 64, unpackRGBA16B}, + {"RGBA", "BGRA", 32, unpackBGRA}, + {"RGBA", "ARGB", 32, unpackARGB}, + {"RGBA", "ABGR", 32, unpackABGR}, + {"RGBA", "YCCA;P", 32, ImagingUnpackYCCA}, + {"RGBA", "R", 8, band0}, + {"RGBA", "G", 8, band1}, + {"RGBA", "B", 8, band2}, + {"RGBA", "A", 8, band3}, #ifdef WORDS_BIGENDIAN - {"RGB", "RGB;16N", 48, unpackRGB16B}, - {"RGBA", "RGBa;16N", 64, unpackRGBa16B}, - {"RGBA", "RGBA;16N", 64, unpackRGBA16B}, - {"RGBX", "RGBX;16N", 64, unpackRGBA16B}, + {"RGB", "RGB;16N", 48, unpackRGB16B}, + {"RGBA", "RGBa;16N", 64, unpackRGBa16B}, + {"RGBA", "RGBA;16N", 64, unpackRGBA16B}, + {"RGBX", "RGBX;16N", 64, unpackRGBA16B}, #else - {"RGB", "RGB;16N", 48, unpackRGB16L}, - {"RGBA", "RGBa;16N", 64, unpackRGBa16L}, - {"RGBA", "RGBA;16N", 64, unpackRGBA16L}, - {"RGBX", "RGBX;16N", 64, unpackRGBA16B}, + {"RGB", "RGB;16N", 48, unpackRGB16L}, + {"RGBA", "RGBa;16N", 64, unpackRGBa16L}, + {"RGBA", "RGBA;16N", 64, unpackRGBA16L}, + {"RGBX", "RGBX;16N", 64, unpackRGBA16B}, #endif /* true colour w. alpha premultiplied */ - {"RGBa", "RGBa", 32, copy4}, - {"RGBa", "BGRa", 32, unpackBGRA}, - {"RGBa", "aRGB", 32, unpackARGB}, - {"RGBa", "aBGR", 32, unpackABGR}, + {"RGBa", "RGBa", 32, copy4}, + {"RGBa", "BGRa", 32, unpackBGRA}, + {"RGBa", "aRGB", 32, unpackARGB}, + {"RGBa", "aBGR", 32, unpackABGR}, /* true colour w. padding */ - {"RGBX", "RGB", 24, ImagingUnpackRGB}, - {"RGBX", "RGB;L", 24, unpackRGBL}, - {"RGBX", "RGB;16B", 48, unpackRGB16B}, - {"RGBX", "BGR", 24, ImagingUnpackBGR}, - {"RGBX", "RGB;15", 16, ImagingUnpackRGB15}, - {"RGBX", "BGR;15", 16, ImagingUnpackBGR15}, - {"RGBX", "RGB;4B", 16, ImagingUnpackRGB4B}, - {"RGBX", "BGR;5", 16, ImagingUnpackBGR15}, /* compat */ - {"RGBX", "RGBX", 32, copy4}, - {"RGBX", "RGBXX", 40, copy4skip1}, - {"RGBX", "RGBXXX", 48, copy4skip2}, - {"RGBX", "RGBX;L", 32, unpackRGBAL}, - {"RGBX", "RGBX;16L", 64, unpackRGBA16L}, - {"RGBX", "RGBX;16B", 64, unpackRGBA16B}, - {"RGBX", "BGRX", 32, ImagingUnpackBGRX}, - {"RGBX", "XRGB", 32, ImagingUnpackXRGB}, - {"RGBX", "XBGR", 32, ImagingUnpackXBGR}, - {"RGBX", "YCC;P", 24, ImagingUnpackYCC}, - {"RGBX", "R", 8, band0}, - {"RGBX", "G", 8, band1}, - {"RGBX", "B", 8, band2}, - {"RGBX", "X", 8, band3}, + {"RGBX", "RGB", 24, ImagingUnpackRGB}, + {"RGBX", "RGB;L", 24, unpackRGBL}, + {"RGBX", "RGB;16B", 48, unpackRGB16B}, + {"RGBX", "BGR", 24, ImagingUnpackBGR}, + {"RGBX", "RGB;15", 16, ImagingUnpackRGB15}, + {"RGBX", "BGR;15", 16, ImagingUnpackBGR15}, + {"RGBX", "RGB;4B", 16, ImagingUnpackRGB4B}, + {"RGBX", "BGR;5", 16, ImagingUnpackBGR15}, /* compat */ + {"RGBX", "RGBX", 32, copy4}, + {"RGBX", "RGBXX", 40, copy4skip1}, + {"RGBX", "RGBXXX", 48, copy4skip2}, + {"RGBX", "RGBX;L", 32, unpackRGBAL}, + {"RGBX", "RGBX;16L", 64, unpackRGBA16L}, + {"RGBX", "RGBX;16B", 64, unpackRGBA16B}, + {"RGBX", "BGRX", 32, ImagingUnpackBGRX}, + {"RGBX", "XRGB", 32, ImagingUnpackXRGB}, + {"RGBX", "XBGR", 32, ImagingUnpackXBGR}, + {"RGBX", "YCC;P", 24, ImagingUnpackYCC}, + {"RGBX", "R", 8, band0}, + {"RGBX", "G", 8, band1}, + {"RGBX", "B", 8, band2}, + {"RGBX", "X", 8, band3}, /* colour separation */ - {"CMYK", "CMYK", 32, copy4}, - {"CMYK", "CMYKX", 40, copy4skip1}, - {"CMYK", "CMYKXX", 48, copy4skip2}, - {"CMYK", "CMYK;I", 32, unpackCMYKI}, - {"CMYK", "CMYK;L", 32, unpackRGBAL}, - {"CMYK", "CMYK;16L", 64, unpackRGBA16L}, - {"CMYK", "CMYK;16B", 64, unpackRGBA16B}, - {"CMYK", "C", 8, band0}, - {"CMYK", "M", 8, band1}, - {"CMYK", "Y", 8, band2}, - {"CMYK", "K", 8, band3}, - {"CMYK", "C;I", 8, band0I}, - {"CMYK", "M;I", 8, band1I}, - {"CMYK", "Y;I", 8, band2I}, - {"CMYK", "K;I", 8, band3I}, + {"CMYK", "CMYK", 32, copy4}, + {"CMYK", "CMYKX", 40, copy4skip1}, + {"CMYK", "CMYKXX", 48, copy4skip2}, + {"CMYK", "CMYK;I", 32, unpackCMYKI}, + {"CMYK", "CMYK;L", 32, unpackRGBAL}, + {"CMYK", "CMYK;16L", 64, unpackRGBA16L}, + {"CMYK", "CMYK;16B", 64, unpackRGBA16B}, + {"CMYK", "C", 8, band0}, + {"CMYK", "M", 8, band1}, + {"CMYK", "Y", 8, band2}, + {"CMYK", "K", 8, band3}, + {"CMYK", "C;I", 8, band0I}, + {"CMYK", "M;I", 8, band1I}, + {"CMYK", "Y;I", 8, band2I}, + {"CMYK", "K;I", 8, band3I}, #ifdef WORDS_BIGENDIAN - {"CMYK", "CMYK;16N", 64, unpackRGBA16B}, + {"CMYK", "CMYK;16N", 64, unpackRGBA16B}, #else - {"CMYK", "CMYK;16N", 64, unpackRGBA16L}, + {"CMYK", "CMYK;16N", 64, unpackRGBA16L}, #endif /* video (YCbCr) */ - {"YCbCr", "YCbCr", 24, ImagingUnpackRGB}, - {"YCbCr", "YCbCr;L", 24, unpackRGBL}, - {"YCbCr", "YCbCrX", 32, copy4}, - {"YCbCr", "YCbCrK", 32, copy4}, + {"YCbCr", "YCbCr", 24, ImagingUnpackRGB}, + {"YCbCr", "YCbCr;L", 24, unpackRGBL}, + {"YCbCr", "YCbCrX", 32, copy4}, + {"YCbCr", "YCbCrK", 32, copy4}, /* LAB Color */ - {"LAB", "LAB", 24, ImagingUnpackLAB}, - {"LAB", "L", 8, band0}, - {"LAB", "A", 8, band1}, - {"LAB", "B", 8, band2}, + {"LAB", "LAB", 24, ImagingUnpackLAB}, + {"LAB", "L", 8, band0}, + {"LAB", "A", 8, band1}, + {"LAB", "B", 8, band2}, /* HSV Color */ - {"HSV", "HSV", 24, ImagingUnpackRGB}, - {"HSV", "H", 8, band0}, - {"HSV", "S", 8, band1}, - {"HSV", "V", 8, band2}, + {"HSV", "HSV", 24, ImagingUnpackRGB}, + {"HSV", "H", 8, band0}, + {"HSV", "S", 8, band1}, + {"HSV", "V", 8, band2}, /* integer variations */ - {"I", "I", 32, copy4}, - {"I", "I;8", 8, unpackI8}, - {"I", "I;8S", 8, unpackI8S}, - {"I", "I;16", 16, unpackI16}, - {"I", "I;16S", 16, unpackI16S}, - {"I", "I;16B", 16, unpackI16B}, - {"I", "I;16BS", 16, unpackI16BS}, - {"I", "I;16N", 16, unpackI16N}, - {"I", "I;16NS", 16, unpackI16NS}, - {"I", "I;32", 32, unpackI32}, - {"I", "I;32S", 32, unpackI32S}, - {"I", "I;32B", 32, unpackI32B}, - {"I", "I;32BS", 32, unpackI32BS}, - {"I", "I;32N", 32, unpackI32N}, - {"I", "I;32NS", 32, unpackI32NS}, + {"I", "I", 32, copy4}, + {"I", "I;8", 8, unpackI8}, + {"I", "I;8S", 8, unpackI8S}, + {"I", "I;16", 16, unpackI16}, + {"I", "I;16S", 16, unpackI16S}, + {"I", "I;16B", 16, unpackI16B}, + {"I", "I;16BS", 16, unpackI16BS}, + {"I", "I;16N", 16, unpackI16N}, + {"I", "I;16NS", 16, unpackI16NS}, + {"I", "I;32", 32, unpackI32}, + {"I", "I;32S", 32, unpackI32S}, + {"I", "I;32B", 32, unpackI32B}, + {"I", "I;32BS", 32, unpackI32BS}, + {"I", "I;32N", 32, unpackI32N}, + {"I", "I;32NS", 32, unpackI32NS}, /* floating point variations */ - {"F", "F", 32, copy4}, - {"F", "F;8", 8, unpackF8}, - {"F", "F;8S", 8, unpackF8S}, - {"F", "F;16", 16, unpackF16}, - {"F", "F;16S", 16, unpackF16S}, - {"F", "F;16B", 16, unpackF16B}, - {"F", "F;16BS", 16, unpackF16BS}, - {"F", "F;16N", 16, unpackF16N}, - {"F", "F;16NS", 16, unpackF16NS}, - {"F", "F;32", 32, unpackF32}, - {"F", "F;32S", 32, unpackF32S}, - {"F", "F;32B", 32, unpackF32B}, - {"F", "F;32BS", 32, unpackF32BS}, - {"F", "F;32N", 32, unpackF32N}, - {"F", "F;32NS", 32, unpackF32NS}, - {"F", "F;32F", 32, unpackF32F}, - {"F", "F;32BF", 32, unpackF32BF}, - {"F", "F;32NF", 32, unpackF32NF}, + {"F", "F", 32, copy4}, + {"F", "F;8", 8, unpackF8}, + {"F", "F;8S", 8, unpackF8S}, + {"F", "F;16", 16, unpackF16}, + {"F", "F;16S", 16, unpackF16S}, + {"F", "F;16B", 16, unpackF16B}, + {"F", "F;16BS", 16, unpackF16BS}, + {"F", "F;16N", 16, unpackF16N}, + {"F", "F;16NS", 16, unpackF16NS}, + {"F", "F;32", 32, unpackF32}, + {"F", "F;32S", 32, unpackF32S}, + {"F", "F;32B", 32, unpackF32B}, + {"F", "F;32BS", 32, unpackF32BS}, + {"F", "F;32N", 32, unpackF32N}, + {"F", "F;32NS", 32, unpackF32NS}, + {"F", "F;32F", 32, unpackF32F}, + {"F", "F;32BF", 32, unpackF32BF}, + {"F", "F;32NF", 32, unpackF32NF}, #ifdef FLOAT64 - {"F", "F;64F", 64, unpackF64F}, - {"F", "F;64BF", 64, unpackF64BF}, - {"F", "F;64NF", 64, unpackF64NF}, + {"F", "F;64F", 64, unpackF64F}, + {"F", "F;64BF", 64, unpackF64BF}, + {"F", "F;64NF", 64, unpackF64NF}, #endif /* storage modes */ - {"I;16", "I;16", 16, copy2}, - {"I;16B", "I;16B", 16, copy2}, - {"I;16L", "I;16L", 16, copy2}, + {"I;16", "I;16", 16, copy2}, + {"I;16B", "I;16B", 16, copy2}, + {"I;16L", "I;16L", 16, copy2}, - {"I;16", "I;16N", 16, unpackI16N_I16}, // LibTiff native->image endian. - {"I;16L", "I;16N", 16, unpackI16N_I16}, // LibTiff native->image endian. - {"I;16B", "I;16N", 16, unpackI16N_I16B}, + {"I;16", "I;16N", 16, unpackI16N_I16}, // LibTiff native->image endian. + {"I;16L", "I;16N", 16, unpackI16N_I16}, // LibTiff native->image endian. + {"I;16B", "I;16N", 16, unpackI16N_I16B}, - {"I;16", "I;12", 12, unpackI12_I16}, // 12 bit Tiffs stored in 16bits. + {"I;16", "I;12", 12, unpackI12_I16}, // 12 bit Tiffs stored in 16bits. {NULL} /* sentinel */ }; - ImagingShuffler -ImagingFindUnpacker(const char* mode, const char* rawmode, int* bits_out) -{ +ImagingFindUnpacker(const char *mode, const char *rawmode, int *bits_out) { int i; /* find a suitable pixel unpacker */ diff --git a/src/libImaging/UnpackYCC.c b/src/libImaging/UnpackYCC.c index d6bce17ad02..0b177bdd4f5 100644 --- a/src/libImaging/UnpackYCC.c +++ b/src/libImaging/UnpackYCC.c @@ -13,150 +13,151 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - /* Tables generated by pcdtables.py, based on transforms taken from the "Colour Space Conversions FAQ" by Roberts/Ford. */ -static INT16 L[] = { 0, 1, 3, 4, 5, 7, 8, 10, 11, 12, 14, 15, 16, 18, -19, 20, 22, 23, 24, 26, 27, 29, 30, 31, 33, 34, 35, 37, 38, 39, 41, -42, 43, 45, 46, 48, 49, 50, 52, 53, 54, 56, 57, 58, 60, 61, 62, 64, -65, 67, 68, 69, 71, 72, 73, 75, 76, 77, 79, 80, 82, 83, 84, 86, 87, -88, 90, 91, 92, 94, 95, 96, 98, 99, 101, 102, 103, 105, 106, 107, 109, -110, 111, 113, 114, 115, 117, 118, 120, 121, 122, 124, 125, 126, 128, -129, 130, 132, 133, 134, 136, 137, 139, 140, 141, 143, 144, 145, 147, -148, 149, 151, 152, 153, 155, 156, 158, 159, 160, 162, 163, 164, 166, -167, 168, 170, 171, 173, 174, 175, 177, 178, 179, 181, 182, 183, 185, -186, 187, 189, 190, 192, 193, 194, 196, 197, 198, 200, 201, 202, 204, -205, 206, 208, 209, 211, 212, 213, 215, 216, 217, 219, 220, 221, 223, -224, 225, 227, 228, 230, 231, 232, 234, 235, 236, 238, 239, 240, 242, -243, 245, 246, 247, 249, 250, 251, 253, 254, 255, 257, 258, 259, 261, -262, 264, 265, 266, 268, 269, 270, 272, 273, 274, 276, 277, 278, 280, -281, 283, 284, 285, 287, 288, 289, 291, 292, 293, 295, 296, 297, 299, -300, 302, 303, 304, 306, 307, 308, 310, 311, 312, 314, 315, 317, 318, -319, 321, 322, 323, 325, 326, 327, 329, 330, 331, 333, 334, 336, 337, -338, 340, 341, 342, 344, 345, 346 }; +static INT16 L[] = { + 0, 1, 3, 4, 5, 7, 8, 10, 11, 12, 14, 15, 16, 18, 19, 20, + 22, 23, 24, 26, 27, 29, 30, 31, 33, 34, 35, 37, 38, 39, 41, 42, + 43, 45, 46, 48, 49, 50, 52, 53, 54, 56, 57, 58, 60, 61, 62, 64, + 65, 67, 68, 69, 71, 72, 73, 75, 76, 77, 79, 80, 82, 83, 84, 86, + 87, 88, 90, 91, 92, 94, 95, 96, 98, 99, 101, 102, 103, 105, 106, 107, + 109, 110, 111, 113, 114, 115, 117, 118, 120, 121, 122, 124, 125, 126, 128, 129, + 130, 132, 133, 134, 136, 137, 139, 140, 141, 143, 144, 145, 147, 148, 149, 151, + 152, 153, 155, 156, 158, 159, 160, 162, 163, 164, 166, 167, 168, 170, 171, 173, + 174, 175, 177, 178, 179, 181, 182, 183, 185, 186, 187, 189, 190, 192, 193, 194, + 196, 197, 198, 200, 201, 202, 204, 205, 206, 208, 209, 211, 212, 213, 215, 216, + 217, 219, 220, 221, 223, 224, 225, 227, 228, 230, 231, 232, 234, 235, 236, 238, + 239, 240, 242, 243, 245, 246, 247, 249, 250, 251, 253, 254, 255, 257, 258, 259, + 261, 262, 264, 265, 266, 268, 269, 270, 272, 273, 274, 276, 277, 278, 280, 281, + 283, 284, 285, 287, 288, 289, 291, 292, 293, 295, 296, 297, 299, 300, 302, 303, + 304, 306, 307, 308, 310, 311, 312, 314, 315, 317, 318, 319, 321, 322, 323, 325, + 326, 327, 329, 330, 331, 333, 334, 336, 337, 338, 340, 341, 342, 344, 345, 346}; -static INT16 CB[] = { -345, -343, -341, -338, -336, -334, -332, -329, --327, -325, -323, -321, -318, -316, -314, -312, -310, -307, -305, --303, -301, -298, -296, -294, -292, -290, -287, -285, -283, -281, --278, -276, -274, -272, -270, -267, -265, -263, -261, -258, -256, --254, -252, -250, -247, -245, -243, -241, -239, -236, -234, -232, --230, -227, -225, -223, -221, -219, -216, -214, -212, -210, -207, --205, -203, -201, -199, -196, -194, -192, -190, -188, -185, -183, --181, -179, -176, -174, -172, -170, -168, -165, -163, -161, -159, --156, -154, -152, -150, -148, -145, -143, -141, -139, -137, -134, --132, -130, -128, -125, -123, -121, -119, -117, -114, -112, -110, --108, -105, -103, -101, -99, -97, -94, -92, -90, -88, -85, -83, -81, --79, -77, -74, -72, -70, -68, -66, -63, -61, -59, -57, -54, -52, -50, --48, -46, -43, -41, -39, -37, -34, -32, -30, -28, -26, -23, -21, -19, --17, -15, -12, -10, -8, -6, -3, -1, 0, 2, 4, 7, 9, 11, 13, 16, 18, 20, -22, 24, 27, 29, 31, 33, 35, 38, 40, 42, 44, 47, 49, 51, 53, 55, 58, -60, 62, 64, 67, 69, 71, 73, 75, 78, 80, 82, 84, 86, 89, 91, 93, 95, -98, 100, 102, 104, 106, 109, 111, 113, 115, 118, 120, 122, 124, 126, -129, 131, 133, 135, 138, 140, 142, 144, 146, 149, 151, 153, 155, 157, -160, 162, 164, 166, 169, 171, 173, 175, 177, 180, 182, 184, 186, 189, -191, 193, 195, 197, 200, 202, 204, 206, 208, 211, 213, 215, 217, 220 }; +static INT16 CB[] = { + -345, -343, -341, -338, -336, -334, -332, -329, -327, -325, -323, -321, -318, -316, + -314, -312, -310, -307, -305, -303, -301, -298, -296, -294, -292, -290, -287, -285, + -283, -281, -278, -276, -274, -272, -270, -267, -265, -263, -261, -258, -256, -254, + -252, -250, -247, -245, -243, -241, -239, -236, -234, -232, -230, -227, -225, -223, + -221, -219, -216, -214, -212, -210, -207, -205, -203, -201, -199, -196, -194, -192, + -190, -188, -185, -183, -181, -179, -176, -174, -172, -170, -168, -165, -163, -161, + -159, -156, -154, -152, -150, -148, -145, -143, -141, -139, -137, -134, -132, -130, + -128, -125, -123, -121, -119, -117, -114, -112, -110, -108, -105, -103, -101, -99, + -97, -94, -92, -90, -88, -85, -83, -81, -79, -77, -74, -72, -70, -68, + -66, -63, -61, -59, -57, -54, -52, -50, -48, -46, -43, -41, -39, -37, + -34, -32, -30, -28, -26, -23, -21, -19, -17, -15, -12, -10, -8, -6, + -3, -1, 0, 2, 4, 7, 9, 11, 13, 16, 18, 20, 22, 24, + 27, 29, 31, 33, 35, 38, 40, 42, 44, 47, 49, 51, 53, 55, + 58, 60, 62, 64, 67, 69, 71, 73, 75, 78, 80, 82, 84, 86, + 89, 91, 93, 95, 98, 100, 102, 104, 106, 109, 111, 113, 115, 118, + 120, 122, 124, 126, 129, 131, 133, 135, 138, 140, 142, 144, 146, 149, + 151, 153, 155, 157, 160, 162, 164, 166, 169, 171, 173, 175, 177, 180, + 182, 184, 186, 189, 191, 193, 195, 197, 200, 202, 204, 206, 208, 211, + 213, 215, 217, 220}; -static INT16 GB[] = { 67, 67, 66, 66, 65, 65, 65, 64, 64, 63, 63, 62, -62, 62, 61, 61, 60, 60, 59, 59, 59, 58, 58, 57, 57, 56, 56, 56, 55, -55, 54, 54, 53, 53, 52, 52, 52, 51, 51, 50, 50, 49, 49, 49, 48, 48, -47, 47, 46, 46, 46, 45, 45, 44, 44, 43, 43, 43, 42, 42, 41, 41, 40, -40, 40, 39, 39, 38, 38, 37, 37, 37, 36, 36, 35, 35, 34, 34, 34, 33, -33, 32, 32, 31, 31, 31, 30, 30, 29, 29, 28, 28, 28, 27, 27, 26, 26, -25, 25, 25, 24, 24, 23, 23, 22, 22, 22, 21, 21, 20, 20, 19, 19, 19, -18, 18, 17, 17, 16, 16, 15, 15, 15, 14, 14, 13, 13, 12, 12, 12, 11, -11, 10, 10, 9, 9, 9, 8, 8, 7, 7, 6, 6, 6, 5, 5, 4, 4, 3, 3, 3, 2, 2, -1, 1, 0, 0, 0, 0, 0, -1, -1, -2, -2, -2, -3, -3, -4, -4, -5, -5, -5, --6, -6, -7, -7, -8, -8, -8, -9, -9, -10, -10, -11, -11, -11, -12, -12, --13, -13, -14, -14, -14, -15, -15, -16, -16, -17, -17, -18, -18, -18, --19, -19, -20, -20, -21, -21, -21, -22, -22, -23, -23, -24, -24, -24, --25, -25, -26, -26, -27, -27, -27, -28, -28, -29, -29, -30, -30, -30, --31, -31, -32, -32, -33, -33, -33, -34, -34, -35, -35, -36, -36, -36, --37, -37, -38, -38, -39, -39, -39, -40, -40, -41, -41, -42 }; +static INT16 GB[] = { + 67, 67, 66, 66, 65, 65, 65, 64, 64, 63, 63, 62, 62, 62, 61, 61, + 60, 60, 59, 59, 59, 58, 58, 57, 57, 56, 56, 56, 55, 55, 54, 54, + 53, 53, 52, 52, 52, 51, 51, 50, 50, 49, 49, 49, 48, 48, 47, 47, + 46, 46, 46, 45, 45, 44, 44, 43, 43, 43, 42, 42, 41, 41, 40, 40, + 40, 39, 39, 38, 38, 37, 37, 37, 36, 36, 35, 35, 34, 34, 34, 33, + 33, 32, 32, 31, 31, 31, 30, 30, 29, 29, 28, 28, 28, 27, 27, 26, + 26, 25, 25, 25, 24, 24, 23, 23, 22, 22, 22, 21, 21, 20, 20, 19, + 19, 19, 18, 18, 17, 17, 16, 16, 15, 15, 15, 14, 14, 13, 13, 12, + 12, 12, 11, 11, 10, 10, 9, 9, 9, 8, 8, 7, 7, 6, 6, 6, + 5, 5, 4, 4, 3, 3, 3, 2, 2, 1, 1, 0, 0, 0, 0, 0, + -1, -1, -2, -2, -2, -3, -3, -4, -4, -5, -5, -5, -6, -6, -7, -7, + -8, -8, -8, -9, -9, -10, -10, -11, -11, -11, -12, -12, -13, -13, -14, -14, + -14, -15, -15, -16, -16, -17, -17, -18, -18, -18, -19, -19, -20, -20, -21, -21, + -21, -22, -22, -23, -23, -24, -24, -24, -25, -25, -26, -26, -27, -27, -27, -28, + -28, -29, -29, -30, -30, -30, -31, -31, -32, -32, -33, -33, -33, -34, -34, -35, + -35, -36, -36, -36, -37, -37, -38, -38, -39, -39, -39, -40, -40, -41, -41, -42}; -static INT16 CR[] = { -249, -247, -245, -243, -241, -239, -238, -236, --234, -232, -230, -229, -227, -225, -223, -221, -219, -218, -216, --214, -212, -210, -208, -207, -205, -203, -201, -199, -198, -196, --194, -192, -190, -188, -187, -185, -183, -181, -179, -178, -176, --174, -172, -170, -168, -167, -165, -163, -161, -159, -157, -156, --154, -152, -150, -148, -147, -145, -143, -141, -139, -137, -136, --134, -132, -130, -128, -127, -125, -123, -121, -119, -117, -116, --114, -112, -110, -108, -106, -105, -103, -101, -99, -97, -96, -94, --92, -90, -88, -86, -85, -83, -81, -79, -77, -76, -74, -72, -70, -68, --66, -65, -63, -61, -59, -57, -55, -54, -52, -50, -48, -46, -45, -43, --41, -39, -37, -35, -34, -32, -30, -28, -26, -25, -23, -21, -19, -17, --15, -14, -12, -10, -8, -6, -4, -3, -1, 0, 2, 4, 5, 7, 9, 11, 13, 15, -16, 18, 20, 22, 24, 26, 27, 29, 31, 33, 35, 36, 38, 40, 42, 44, 46, -47, 49, 51, 53, 55, 56, 58, 60, 62, 64, 66, 67, 69, 71, 73, 75, 77, -78, 80, 82, 84, 86, 87, 89, 91, 93, 95, 97, 98, 100, 102, 104, 106, -107, 109, 111, 113, 115, 117, 118, 120, 122, 124, 126, 128, 129, 131, -133, 135, 137, 138, 140, 142, 144, 146, 148, 149, 151, 153, 155, 157, -158, 160, 162, 164, 166, 168, 169, 171, 173, 175, 177, 179, 180, 182, -184, 186, 188, 189, 191, 193, 195, 197, 199, 200, 202, 204, 206, 208, -209, 211, 213, 215 }; +static INT16 CR[] = { + -249, -247, -245, -243, -241, -239, -238, -236, -234, -232, -230, -229, -227, -225, + -223, -221, -219, -218, -216, -214, -212, -210, -208, -207, -205, -203, -201, -199, + -198, -196, -194, -192, -190, -188, -187, -185, -183, -181, -179, -178, -176, -174, + -172, -170, -168, -167, -165, -163, -161, -159, -157, -156, -154, -152, -150, -148, + -147, -145, -143, -141, -139, -137, -136, -134, -132, -130, -128, -127, -125, -123, + -121, -119, -117, -116, -114, -112, -110, -108, -106, -105, -103, -101, -99, -97, + -96, -94, -92, -90, -88, -86, -85, -83, -81, -79, -77, -76, -74, -72, + -70, -68, -66, -65, -63, -61, -59, -57, -55, -54, -52, -50, -48, -46, + -45, -43, -41, -39, -37, -35, -34, -32, -30, -28, -26, -25, -23, -21, + -19, -17, -15, -14, -12, -10, -8, -6, -4, -3, -1, 0, 2, 4, + 5, 7, 9, 11, 13, 15, 16, 18, 20, 22, 24, 26, 27, 29, + 31, 33, 35, 36, 38, 40, 42, 44, 46, 47, 49, 51, 53, 55, + 56, 58, 60, 62, 64, 66, 67, 69, 71, 73, 75, 77, 78, 80, + 82, 84, 86, 87, 89, 91, 93, 95, 97, 98, 100, 102, 104, 106, + 107, 109, 111, 113, 115, 117, 118, 120, 122, 124, 126, 128, 129, 131, + 133, 135, 137, 138, 140, 142, 144, 146, 148, 149, 151, 153, 155, 157, + 158, 160, 162, 164, 166, 168, 169, 171, 173, 175, 177, 179, 180, 182, + 184, 186, 188, 189, 191, 193, 195, 197, 199, 200, 202, 204, 206, 208, + 209, 211, 213, 215}; -static INT16 GR[] = { 127, 126, 125, 124, 123, 122, 121, 121, 120, 119, -118, 117, 116, 115, 114, 113, 112, 111, 110, 109, 108, 108, 107, 106, -105, 104, 103, 102, 101, 100, 99, 98, 97, 96, 95, 95, 94, 93, 92, 91, -90, 89, 88, 87, 86, 85, 84, 83, 83, 82, 81, 80, 79, 78, 77, 76, 75, -74, 73, 72, 71, 70, 70, 69, 68, 67, 66, 65, 64, 63, 62, 61, 60, 59, -58, 57, 57, 56, 55, 54, 53, 52, 51, 50, 49, 48, 47, 46, 45, 45, 44, -43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 32, 31, 30, 29, 28, -27, 26, 25, 24, 23, 22, 21, 20, 19, 19, 18, 17, 16, 15, 14, 13, 12, -11, 10, 9, 8, 7, 6, 6, 5, 4, 3, 2, 1, 0, 0, -1, -2, -3, -4, -5, -5, --6, -7, -8, -9, -10, -11, -12, -13, -14, -15, -16, -17, -18, -18, -19, --20, -21, -22, -23, -24, -25, -26, -27, -28, -29, -30, -31, -31, -32, --33, -34, -35, -36, -37, -38, -39, -40, -41, -42, -43, -44, -44, -45, --46, -47, -48, -49, -50, -51, -52, -53, -54, -55, -56, -56, -57, -58, --59, -60, -61, -62, -63, -64, -65, -66, -67, -68, -69, -69, -70, -71, --72, -73, -74, -75, -76, -77, -78, -79, -80, -81, -82, -82, -83, -84, --85, -86, -87, -88, -89, -90, -91, -92, -93, -94, -94, -95, -96, -97, --98, -99, -100, -101, -102, -103, -104, -105, -106, -107, -107, -108 }; +static INT16 GR[] = { + 127, 126, 125, 124, 123, 122, 121, 121, 120, 119, 118, 117, 116, 115, 114, + 113, 112, 111, 110, 109, 108, 108, 107, 106, 105, 104, 103, 102, 101, 100, + 99, 98, 97, 96, 95, 95, 94, 93, 92, 91, 90, 89, 88, 87, 86, + 85, 84, 83, 83, 82, 81, 80, 79, 78, 77, 76, 75, 74, 73, 72, + 71, 70, 70, 69, 68, 67, 66, 65, 64, 63, 62, 61, 60, 59, 58, + 57, 57, 56, 55, 54, 53, 52, 51, 50, 49, 48, 47, 46, 45, 45, + 44, 43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 32, 31, + 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 19, 18, 17, + 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 6, 5, 4, 3, + 2, 1, 0, 0, -1, -2, -3, -4, -5, -5, -6, -7, -8, -9, -10, + -11, -12, -13, -14, -15, -16, -17, -18, -18, -19, -20, -21, -22, -23, -24, + -25, -26, -27, -28, -29, -30, -31, -31, -32, -33, -34, -35, -36, -37, -38, + -39, -40, -41, -42, -43, -44, -44, -45, -46, -47, -48, -49, -50, -51, -52, + -53, -54, -55, -56, -56, -57, -58, -59, -60, -61, -62, -63, -64, -65, -66, + -67, -68, -69, -69, -70, -71, -72, -73, -74, -75, -76, -77, -78, -79, -80, + -81, -82, -82, -83, -84, -85, -86, -87, -88, -89, -90, -91, -92, -93, -94, + -94, -95, -96, -97, -98, -99, -100, -101, -102, -103, -104, -105, -106, -107, -107, + -108}; #define R 0 #define G 1 #define B 2 #define A 3 -#define YCC2RGB(rgb, y, cb, cr) {\ - int l = L[y];\ - int r = l + CR[cr];\ - int g = l + GR[cr] + GB[cb];\ - int b = l + CB[cb];\ - rgb[0] = (r <= 0) ? 0 : (r >= 255) ? 255 : r;\ - rgb[1] = (g <= 0) ? 0 : (g >= 255) ? 255 : g;\ - rgb[2] = (b <= 0) ? 0 : (b >= 255) ? 255 : b;\ -} +#define YCC2RGB(rgb, y, cb, cr) \ + { \ + int l = L[y]; \ + int r = l + CR[cr]; \ + int g = l + GR[cr] + GB[cb]; \ + int b = l + CB[cb]; \ + rgb[0] = (r <= 0) ? 0 : (r >= 255) ? 255 : r; \ + rgb[1] = (g <= 0) ? 0 : (g >= 255) ? 255 : g; \ + rgb[2] = (b <= 0) ? 0 : (b >= 255) ? 255 : b; \ + } void -ImagingUnpackYCC(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackYCC(UINT8 *out, const UINT8 *in, int pixels) { int i; /* PhotoYCC triplets */ for (i = 0; i < pixels; i++) { YCC2RGB(out, in[0], in[1], in[2]); out[A] = 255; - out += 4; in += 3; + out += 4; + in += 3; } } void -ImagingUnpackYCCA(UINT8* out, const UINT8* in, int pixels) -{ +ImagingUnpackYCCA(UINT8 *out, const UINT8 *in, int pixels) { int i; /* PhotoYCC triplets plus premultiplied alpha */ for (i = 0; i < pixels; i++) { /* Divide by alpha */ UINT8 rgb[3]; - rgb[0] = (in[3] == 0) ? 0 : (((int) in[0] * 255) / in[3]); - rgb[1] = (in[3] == 0) ? 0 : (((int) in[1] * 255) / in[3]); - rgb[2] = (in[3] == 0) ? 0 : (((int) in[2] * 255) / in[3]); + rgb[0] = (in[3] == 0) ? 0 : (((int)in[0] * 255) / in[3]); + rgb[1] = (in[3] == 0) ? 0 : (((int)in[1] * 255) / in[3]); + rgb[2] = (in[3] == 0) ? 0 : (((int)in[2] * 255) / in[3]); /* Convert non-multiplied data to RGB */ YCC2RGB(out, rgb[0], rgb[1], rgb[2]); out[A] = in[3]; - out += 4; in += 4; + out += 4; + in += 4; } } diff --git a/src/libImaging/UnsharpMask.c b/src/libImaging/UnsharpMask.c index 59e595e8213..643ced49f17 100644 --- a/src/libImaging/UnsharpMask.c +++ b/src/libImaging/UnsharpMask.c @@ -8,26 +8,22 @@ #include "Imaging.h" - typedef UINT8 pixel[4]; - -static inline UINT8 clip8(int in) -{ +static inline UINT8 +clip8(int in) { if (in >= 255) { - return 255; + return 255; } if (in <= 0) { return 0; } - return (UINT8) in; + return (UINT8)in; } - Imaging -ImagingUnsharpMask(Imaging imOut, Imaging imIn, float radius, int percent, - int threshold) -{ +ImagingUnsharpMask( + Imaging imOut, Imaging imIn, float radius, int percent, int threshold) { ImagingSectionCookie cookie; Imaging result; @@ -53,8 +49,7 @@ ImagingUnsharpMask(Imaging imOut, Imaging imIn, float radius, int percent, ImagingSectionEnter(&cookie); for (y = 0; y < imIn->ysize; y++) { - if (imIn->image8) - { + if (imIn->image8) { lineIn8 = imIn->image8[y]; lineOut8 = imOut->image8[y]; for (x = 0; x < imIn->xsize; x++) { @@ -74,20 +69,24 @@ ImagingUnsharpMask(Imaging imOut, Imaging imIn, float radius, int percent, for (x = 0; x < imIn->xsize; x++) { /* compare in/out pixels, apply sharpening */ diff = lineIn[x][0] - lineOut[x][0]; - lineOut[x][0] = abs(diff) > threshold ? - clip8(lineIn[x][0] + diff * percent / 100) : lineIn[x][0]; + lineOut[x][0] = abs(diff) > threshold + ? clip8(lineIn[x][0] + diff * percent / 100) + : lineIn[x][0]; diff = lineIn[x][1] - lineOut[x][1]; - lineOut[x][1] = abs(diff) > threshold ? - clip8(lineIn[x][1] + diff * percent / 100) : lineIn[x][1]; + lineOut[x][1] = abs(diff) > threshold + ? clip8(lineIn[x][1] + diff * percent / 100) + : lineIn[x][1]; diff = lineIn[x][2] - lineOut[x][2]; - lineOut[x][2] = abs(diff) > threshold ? - clip8(lineIn[x][2] + diff * percent / 100) : lineIn[x][2]; + lineOut[x][2] = abs(diff) > threshold + ? clip8(lineIn[x][2] + diff * percent / 100) + : lineIn[x][2]; diff = lineIn[x][3] - lineOut[x][3]; - lineOut[x][3] = abs(diff) > threshold ? - clip8(lineIn[x][3] + diff * percent / 100) : lineIn[x][3]; + lineOut[x][3] = abs(diff) > threshold + ? clip8(lineIn[x][3] + diff * percent / 100) + : lineIn[x][3]; } } } diff --git a/src/libImaging/XbmDecode.c b/src/libImaging/XbmDecode.c index 607f1058a00..5cc924e272a 100644 --- a/src/libImaging/XbmDecode.c +++ b/src/libImaging/XbmDecode.c @@ -13,19 +13,19 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" -#define HEX(v) ((v >= '0' && v <= '9') ? v - '0' :\ - (v >= 'a' && v <= 'f') ? v - 'a' + 10 :\ - (v >= 'A' && v <= 'F') ? v - 'A' + 10 : 0) +#define HEX(v) \ + ((v >= '0' && v <= '9') \ + ? v - '0' \ + : (v >= 'a' && v <= 'f') ? v - 'a' + 10 \ + : (v >= 'A' && v <= 'F') ? v - 'A' + 10 : 0) int -ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ +ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { enum { BYTE = 1, SKIP }; - UINT8* ptr; + UINT8 *ptr; if (!state->state) { state->state = SKIP; @@ -34,9 +34,7 @@ ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt ptr = buf; for (;;) { - if (state->state == SKIP) { - /* Skip forward until next 'x' */ while (bytes > 0) { @@ -52,20 +50,17 @@ ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt } state->state = BYTE; - } if (bytes < 3) { return ptr - buf; } - state->buffer[state->x] = (HEX(ptr[1])<<4) + HEX(ptr[2]); + state->buffer[state->x] = (HEX(ptr[1]) << 4) + HEX(ptr[2]); if (++state->x >= state->bytes) { - /* Got a full line, unpack it */ - state->shuffle((UINT8*) im->image[state->y], state->buffer, - state->xsize); + state->shuffle((UINT8 *)im->image[state->y], state->buffer, state->xsize); state->x = 0; @@ -79,7 +74,5 @@ ImagingXbmDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt bytes -= 3; state->state = SKIP; - } - } diff --git a/src/libImaging/XbmEncode.c b/src/libImaging/XbmEncode.c index d1bc086dbcb..eec4c0d8462 100644 --- a/src/libImaging/XbmEncode.c +++ b/src/libImaging/XbmEncode.c @@ -13,25 +13,20 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" - int -ImagingXbmEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ +ImagingXbmEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { const char *hex = "0123456789abcdef"; - UINT8* ptr = buf; + UINT8 *ptr = buf; int i, n; if (!state->state) { - /* 8 pixels are stored in no more than 6 bytes */ - state->bytes = 6*(state->xsize+7)/8; + state->bytes = 6 * (state->xsize + 7) / 8; state->state = 1; - } if (bytes < state->bytes) { @@ -42,60 +37,54 @@ ImagingXbmEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) ptr = buf; while (bytes >= state->bytes) { + state->shuffle( + state->buffer, + (UINT8 *)im->image[state->y + state->yoff] + state->xoff * im->pixelsize, + state->xsize); - state->shuffle(state->buffer, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, state->xsize); - - if (state->y < state->ysize-1) { - + if (state->y < state->ysize - 1) { /* any line but the last */ for (n = 0; n < state->xsize; n += 8) { - - i = state->buffer[n/8]; + i = state->buffer[n / 8]; *ptr++ = '0'; *ptr++ = 'x'; - *ptr++ = hex[(i>>4)&15]; - *ptr++ = hex[i&15]; + *ptr++ = hex[(i >> 4) & 15]; + *ptr++ = hex[i & 15]; *ptr++ = ','; bytes -= 5; - if (++state->count >= 79/5) { + if (++state->count >= 79 / 5) { *ptr++ = '\n'; bytes--; state->count = 0; } - } state->y++; } else { - /* last line */ for (n = 0; n < state->xsize; n += 8) { - - i = state->buffer[n/8]; + i = state->buffer[n / 8]; *ptr++ = '0'; *ptr++ = 'x'; - *ptr++ = hex[(i>>4)&15]; - *ptr++ = hex[i&15]; + *ptr++ = hex[(i >> 4) & 15]; + *ptr++ = hex[i & 15]; - if (n < state->xsize-8) { + if (n < state->xsize - 8) { *ptr++ = ','; - if (++state->count >= 79/5) { - *ptr++ = '\n'; - bytes--; - state->count = 0; + if (++state->count >= 79 / 5) { + *ptr++ = '\n'; + bytes--; + state->count = 0; } } else { *ptr++ = '\n'; } bytes -= 5; - } state->errcode = IMAGING_CODEC_END; diff --git a/src/libImaging/Zip.h b/src/libImaging/Zip.h index b05c93bb402..50218b6c69a 100644 --- a/src/libImaging/Zip.h +++ b/src/libImaging/Zip.h @@ -7,19 +7,15 @@ * Copyright (c) Fredrik Lundh 1996. */ - #include "zlib.h" - /* modes */ #define ZIP_PNG 0 /* continuous, filtered image data */ #define ZIP_PNG_PALETTE 1 /* non-continuous data, disable filtering */ #define ZIP_TIFF_PREDICTOR 2 /* TIFF, with predictor */ #define ZIP_TIFF 3 /* TIFF, without predictor */ - typedef struct { - /* CONFIGURATION */ /* Codec mode */ @@ -34,29 +30,29 @@ typedef struct { int compress_type; /* Predefined dictionary (experimental) */ - char* dictionary; + char *dictionary; int dictionary_size; /* PRIVATE CONTEXT (set by decoder/encoder) */ - z_stream z_stream; /* (de)compression stream */ + z_stream z_stream; /* (de)compression stream */ - UINT8* previous; /* previous line (allocated) */ + UINT8 *previous; /* previous line (allocated) */ - int last_output; /* # bytes last output by inflate */ + int last_output; /* # bytes last output by inflate */ /* Compressor specific stuff */ - UINT8* prior; /* filter storage (allocated) */ - UINT8* up; - UINT8* average; - UINT8* paeth; + UINT8 *prior; /* filter storage (allocated) */ + UINT8 *up; + UINT8 *average; + UINT8 *paeth; - UINT8* output; /* output data */ + UINT8 *output; /* output data */ - int prefix; /* size of filter prefix (0 for TIFF data) */ + int prefix; /* size of filter prefix (0 for TIFF data) */ - int interlaced; /* is the image interlaced? (PNG) */ + int interlaced; /* is the image interlaced? (PNG) */ - int pass; /* current pass of the interlaced image (PNG) */ + int pass; /* current pass of the interlaced image (PNG) */ } ZIPSTATE; diff --git a/src/libImaging/ZipDecode.c b/src/libImaging/ZipDecode.c index b0f8ad3261e..133b082b141 100644 --- a/src/libImaging/ZipDecode.c +++ b/src/libImaging/ZipDecode.c @@ -15,23 +15,22 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" -#ifdef HAVE_LIBZ +#ifdef HAVE_LIBZ #include "Zip.h" -static const int OFFSET[] = { 7, 3, 3, 1, 1, 0, 0 }; -static const int STARTING_COL[] = { 0, 4, 0, 2, 0, 1, 0 }; -static const int STARTING_ROW[] = { 0, 0, 4, 0, 2, 0, 1 }; -static const int COL_INCREMENT[] = { 8, 8, 4, 4, 2, 2, 1 }; -static const int ROW_INCREMENT[] = { 8, 8, 8, 4, 4, 2, 2 }; +static const int OFFSET[] = {7, 3, 3, 1, 1, 0, 0}; +static const int STARTING_COL[] = {0, 4, 0, 2, 0, 1, 0}; +static const int STARTING_ROW[] = {0, 0, 4, 0, 2, 0, 1}; +static const int COL_INCREMENT[] = {8, 8, 4, 4, 2, 2, 1}; +static const int ROW_INCREMENT[] = {8, 8, 8, 4, 4, 2, 2}; /* Get the length in bytes of a scanline in the pass specified, * for interlaced images */ -static int get_row_len(ImagingCodecState state, int pass) -{ +static int +get_row_len(ImagingCodecState state, int pass) { int row_len = (state->xsize + OFFSET[pass]) / COL_INCREMENT[pass]; return ((row_len * state->bits) + 7) / 8; } @@ -41,17 +40,15 @@ static int get_row_len(ImagingCodecState state, int pass) /* -------------------------------------------------------------------- */ int -ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t bytes) -{ - ZIPSTATE* context = (ZIPSTATE*) state->context; +ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8 *buf, Py_ssize_t bytes) { + ZIPSTATE *context = (ZIPSTATE *)state->context; int err; int n; - UINT8* ptr; + UINT8 *ptr; int i, bpp; int row_len; if (!state->state) { - /* Initialization */ if (context->mode == ZIP_PNG || context->mode == ZIP_PNG_PALETTE) { context->prefix = 1; /* PNG */ @@ -66,8 +63,8 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt prefix, and allocate a buffer to hold the previous line */ free(state->buffer); /* malloc check ok, overflow checked above */ - state->buffer = (UINT8*) malloc(state->bytes+1); - context->previous = (UINT8*) malloc(state->bytes+1); + state->buffer = (UINT8 *)malloc(state->bytes + 1); + context->previous = (UINT8 *)malloc(state->bytes + 1); if (!state->buffer || !context->previous) { state->errcode = IMAGING_CODEC_MEMORY; return -1; @@ -76,12 +73,12 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt context->last_output = 0; /* Initialize to black */ - memset(context->previous, 0, state->bytes+1); + memset(context->previous, 0, state->bytes + 1); /* Setup decompression context */ - context->z_stream.zalloc = (alloc_func) NULL; - context->z_stream.zfree = (free_func) NULL; - context->z_stream.opaque = (voidpf) NULL; + context->z_stream.zalloc = (alloc_func)NULL; + context->z_stream.zfree = (free_func)NULL; + context->z_stream.opaque = (voidpf)NULL; err = inflateInit(&context->z_stream); if (err < 0) { @@ -98,7 +95,6 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* Ready to decode */ state->state = 1; - } if (context->interlaced) { @@ -113,10 +109,8 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* Decompress what we've got this far */ while (context->z_stream.avail_in > 0) { - context->z_stream.next_out = state->buffer + context->last_output; - context->z_stream.avail_out = - row_len + context->prefix - context->last_output; + context->z_stream.avail_out = row_len + context->prefix - context->last_output; err = inflate(&context->z_stream, Z_NO_FLUSH); @@ -144,74 +138,73 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt /* Apply predictor */ switch (context->mode) { - case ZIP_PNG: - switch (state->buffer[0]) { - case 0: - break; - case 1: - /* prior */ - bpp = (state->bits + 7) / 8; - for (i = bpp+1; i <= row_len; i++) { - state->buffer[i] += state->buffer[i-bpp]; + case ZIP_PNG: + switch (state->buffer[0]) { + case 0: + break; + case 1: + /* prior */ + bpp = (state->bits + 7) / 8; + for (i = bpp + 1; i <= row_len; i++) { + state->buffer[i] += state->buffer[i - bpp]; + } + break; + case 2: + /* up */ + for (i = 1; i <= row_len; i++) { + state->buffer[i] += context->previous[i]; + } + break; + case 3: + /* average */ + bpp = (state->bits + 7) / 8; + for (i = 1; i <= bpp; i++) { + state->buffer[i] += context->previous[i] / 2; + } + for (; i <= row_len; i++) { + state->buffer[i] += + (state->buffer[i - bpp] + context->previous[i]) / 2; + } + break; + case 4: + /* paeth filtering */ + bpp = (state->bits + 7) / 8; + for (i = 1; i <= bpp; i++) { + state->buffer[i] += context->previous[i]; + } + for (; i <= row_len; i++) { + int a, b, c; + int pa, pb, pc; + + /* fetch pixels */ + a = state->buffer[i - bpp]; + b = context->previous[i]; + c = context->previous[i - bpp]; + + /* distances to surrounding pixels */ + pa = abs(b - c); + pb = abs(a - c); + pc = abs(a + b - 2 * c); + + /* pick predictor with the shortest distance */ + state->buffer[i] += + (pa <= pb && pa <= pc) ? a : (pb <= pc) ? b : c; + } + break; + default: + state->errcode = IMAGING_CODEC_UNKNOWN; + free(context->previous); + context->previous = NULL; + inflateEnd(&context->z_stream); + return -1; } break; - case 2: - /* up */ - for (i = 1; i <= row_len; i++) { - state->buffer[i] += context->previous[i]; - } - break; - case 3: - /* average */ + case ZIP_TIFF_PREDICTOR: bpp = (state->bits + 7) / 8; - for (i = 1; i <= bpp; i++) { - state->buffer[i] += context->previous[i]/2; - } - for (; i <= row_len; i++) { - state->buffer[i] += - (state->buffer[i-bpp] + context->previous[i])/2; + for (i = bpp + 1; i <= row_len; i++) { + state->buffer[i] += state->buffer[i - bpp]; } break; - case 4: - /* paeth filtering */ - bpp = (state->bits + 7) / 8; - for (i = 1; i <= bpp; i++) { - state->buffer[i] += context->previous[i]; - } - for (; i <= row_len; i++) { - int a, b, c; - int pa, pb, pc; - - /* fetch pixels */ - a = state->buffer[i-bpp]; - b = context->previous[i]; - c = context->previous[i-bpp]; - - /* distances to surrounding pixels */ - pa = abs(b - c); - pb = abs(a - c); - pc = abs(a + b - 2*c); - - /* pick predictor with the shortest distance */ - state->buffer[i] += - (pa <= pb && pa <= pc) ? a : (pb <= pc) ? b : c; - - } - break; - default: - state->errcode = IMAGING_CODEC_UNKNOWN; - free(context->previous); - context->previous = NULL; - inflateEnd(&context->z_stream); - return -1; - } - break; - case ZIP_TIFF_PREDICTOR: - bpp = (state->bits + 7) / 8; - for (i = bpp+1; i <= row_len; i++) { - state->buffer[i] += state->buffer[i-bpp]; - } - break; } /* Stuff data into the image */ @@ -220,20 +213,22 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt if (state->bits >= 8) { /* Stuff pixels in their correct location, one by one */ for (i = 0; i < row_len; i += ((state->bits + 7) / 8)) { - state->shuffle((UINT8*) im->image[state->y] + - col * im->pixelsize, - state->buffer + context->prefix + i, 1); + state->shuffle( + (UINT8 *)im->image[state->y] + col * im->pixelsize, + state->buffer + context->prefix + i, + 1); col += COL_INCREMENT[context->pass]; } } else { /* Handle case with more than a pixel in each byte */ - int row_bits = ((state->xsize + OFFSET[context->pass]) - / COL_INCREMENT[context->pass]) * state->bits; + int row_bits = ((state->xsize + OFFSET[context->pass]) / + COL_INCREMENT[context->pass]) * + state->bits; for (i = 0; i < row_bits; i += state->bits) { UINT8 byte = *(state->buffer + context->prefix + (i / 8)); byte <<= (i % 8); - state->shuffle((UINT8*) im->image[state->y] + - col * im->pixelsize, &byte, 1); + state->shuffle( + (UINT8 *)im->image[state->y] + col * im->pixelsize, &byte, 1); col += COL_INCREMENT[context->pass]; } } @@ -250,13 +245,14 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt row_len = get_row_len(state, context->pass); /* Since we're moving to the "first" line, the previous line * should be black to make filters work correctly */ - memset(state->buffer, 0, state->bytes+1); + memset(state->buffer, 0, state->bytes + 1); } } else { - state->shuffle((UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, - state->buffer + context->prefix, - state->xsize); + state->shuffle( + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->buffer + context->prefix, + state->xsize); state->y++; } @@ -264,7 +260,6 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt context->last_output = 0; if (state->y >= state->ysize || err == Z_STREAM_END) { - /* The image and the data should end simultaneously */ /* if (state->y < state->ysize || err != Z_STREAM_END) state->errcode = IMAGING_CODEC_BROKEN; */ @@ -273,26 +268,23 @@ ImagingZipDecode(Imaging im, ImagingCodecState state, UINT8* buf, Py_ssize_t byt context->previous = NULL; inflateEnd(&context->z_stream); return -1; /* end of file (errcode=0) */ - } /* Swap buffer pointers */ ptr = state->buffer; state->buffer = context->previous; context->previous = ptr; - } return bytes; /* consumed all of it */ - } - -int ImagingZipDecodeCleanup(ImagingCodecState state){ +int +ImagingZipDecodeCleanup(ImagingCodecState state) { /* called to free the decompression engine when the decode terminates due to a corrupt or truncated image */ - ZIPSTATE* context = (ZIPSTATE*) state->context; + ZIPSTATE *context = (ZIPSTATE *)state->context; /* Clean up */ if (context->previous) { diff --git a/src/libImaging/ZipEncode.c b/src/libImaging/ZipEncode.c index 84ccb14ea54..8efcabb21cf 100644 --- a/src/libImaging/ZipEncode.c +++ b/src/libImaging/ZipEncode.c @@ -14,25 +14,22 @@ * See the README file for information on usage and redistribution. */ - #include "Imaging.h" -#ifdef HAVE_LIBZ +#ifdef HAVE_LIBZ #include "Zip.h" int -ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) -{ - ZIPSTATE* context = (ZIPSTATE*) state->context; +ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8 *buf, int bytes) { + ZIPSTATE *context = (ZIPSTATE *)state->context; int err; int compress_level, compress_type; - UINT8* ptr; + UINT8 *ptr; int i, bpp, s, sum; ImagingSectionCookie cookie; if (!state->state) { - /* Initialization */ /* Valid modes are ZIP_PNG, ZIP_PNG_PALETTE, and ZIP_TIFF */ @@ -47,14 +44,14 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) and allocate filter buffers */ free(state->buffer); /* malloc check ok, overflow checked above */ - state->buffer = (UINT8*) malloc(state->bytes+1); - context->previous = (UINT8*) malloc(state->bytes+1); - context->prior = (UINT8*) malloc(state->bytes+1); - context->up = (UINT8*) malloc(state->bytes+1); - context->average = (UINT8*) malloc(state->bytes+1); - context->paeth = (UINT8*) malloc(state->bytes+1); - if (!state->buffer || !context->previous || !context->prior || - !context->up || !context->average || !context->paeth) { + state->buffer = (UINT8 *)malloc(state->bytes + 1); + context->previous = (UINT8 *)malloc(state->bytes + 1); + context->prior = (UINT8 *)malloc(state->bytes + 1); + context->up = (UINT8 *)malloc(state->bytes + 1); + context->average = (UINT8 *)malloc(state->bytes + 1); + context->paeth = (UINT8 *)malloc(state->bytes + 1); + if (!state->buffer || !context->previous || !context->prior || !context->up || + !context->average || !context->paeth) { free(context->paeth); free(context->average); free(context->up); @@ -72,7 +69,7 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->paeth[0] = 4; /* Initialise previous buffer to black */ - memset(context->previous, 0, state->bytes+1); + memset(context->previous, 0, state->bytes + 1); /* Setup compression context */ context->z_stream.zalloc = (alloc_func)0; @@ -81,33 +78,37 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) context->z_stream.next_in = 0; context->z_stream.avail_in = 0; - compress_level = (context->optimize) ? Z_BEST_COMPRESSION - : context->compress_level; + compress_level = + (context->optimize) ? Z_BEST_COMPRESSION : context->compress_level; if (context->compress_type == -1) { - compress_type = (context->mode == ZIP_PNG) ? Z_FILTERED - : Z_DEFAULT_STRATEGY; + compress_type = + (context->mode == ZIP_PNG) ? Z_FILTERED : Z_DEFAULT_STRATEGY; } else { compress_type = context->compress_type; } - err = deflateInit2(&context->z_stream, - /* compression level */ - compress_level, - /* compression method */ - Z_DEFLATED, - /* compression memory resources */ - 15, 9, - /* compression strategy (image data are filtered)*/ - compress_type); + err = deflateInit2( + &context->z_stream, + /* compression level */ + compress_level, + /* compression method */ + Z_DEFLATED, + /* compression memory resources */ + 15, + 9, + /* compression strategy (image data are filtered)*/ + compress_type); if (err < 0) { state->errcode = IMAGING_CODEC_CONFIG; return -1; } if (context->dictionary && context->dictionary_size > 0) { - err = deflateSetDictionary(&context->z_stream, (unsigned char *)context->dictionary, - context->dictionary_size); + err = deflateSetDictionary( + &context->z_stream, + (unsigned char *)context->dictionary, + context->dictionary_size); if (err < 0) { state->errcode = IMAGING_CODEC_CONFIG; return -1; @@ -116,7 +117,6 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) /* Ready to decode */ state->state = 1; - } /* Setup the destination buffer */ @@ -147,203 +147,193 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) ImagingSectionEnter(&cookie); for (;;) { - switch (state->state) { + case 1: + + /* Compress image data */ + while (context->z_stream.avail_out > 0) { + if (state->y >= state->ysize) { + /* End of image; now flush compressor buffers */ + state->state = 2; + break; + } - case 1: - - /* Compress image data */ - while (context->z_stream.avail_out > 0) { - - if (state->y >= state->ysize) { - /* End of image; now flush compressor buffers */ - state->state = 2; - break; - - } - - /* Stuff image data into the compressor */ - state->shuffle(state->buffer+1, - (UINT8*) im->image[state->y + state->yoff] + - state->xoff * im->pixelsize, - state->xsize); - - state->y++; - - context->output = state->buffer; - - if (context->mode == ZIP_PNG) { + /* Stuff image data into the compressor */ + state->shuffle( + state->buffer + 1, + (UINT8 *)im->image[state->y + state->yoff] + + state->xoff * im->pixelsize, + state->xsize); - /* Filter the image data. For each line, select - the filter that gives the least total distance - from zero for the filtered data (taken from - LIBPNG) */ + state->y++; - bpp = (state->bits + 7) / 8; + context->output = state->buffer; - /* 0. No filter */ - for (i = 1, sum = 0; i <= state->bytes; i++) { - UINT8 v = state->buffer[i]; - sum += (v < 128) ? v : 256 - v; - } + if (context->mode == ZIP_PNG) { + /* Filter the image data. For each line, select + the filter that gives the least total distance + from zero for the filtered data (taken from + LIBPNG) */ - /* 2. Up. We'll test this first to save time when - an image line is identical to the one above. */ - if (sum > 0) { - for (i = 1, s = 0; i <= state->bytes; i++) { - UINT8 v = state->buffer[i] - context->previous[i]; - context->up[i] = v; - s += (v < 128) ? v : 256 - v; - } - if (s < sum) { - context->output = context->up; - sum = s; /* 0 if line was duplicated */ - } - } + bpp = (state->bits + 7) / 8; - /* 1. Prior */ - if (sum > 0) { - for (i = 1, s = 0; i <= bpp; i++) { + /* 0. No filter */ + for (i = 1, sum = 0; i <= state->bytes; i++) { UINT8 v = state->buffer[i]; - context->prior[i] = v; - s += (v < 128) ? v : 256 - v; - } - for (; i <= state->bytes; i++) { - UINT8 v = state->buffer[i] - state->buffer[i-bpp]; - context->prior[i] = v; - s += (v < 128) ? v : 256 - v; + sum += (v < 128) ? v : 256 - v; } - if (s < sum) { - context->output = context->prior; - sum = s; /* 0 if line is solid */ - } - } - /* 3. Average (not very common in real-life images, - so its only used with the optimize option) */ - if (context->optimize && sum > 0) { - for (i = 1, s = 0; i <= bpp; i++) { - UINT8 v = state->buffer[i] - context->previous[i]/2; - context->average[i] = v; - s += (v < 128) ? v : 256 - v; - } - for (; i <= state->bytes; i++) { - UINT8 v = state->buffer[i] - - (state->buffer[i-bpp] + context->previous[i])/2; - context->average[i] = v; - s += (v < 128) ? v : 256 - v; + /* 2. Up. We'll test this first to save time when + an image line is identical to the one above. */ + if (sum > 0) { + for (i = 1, s = 0; i <= state->bytes; i++) { + UINT8 v = state->buffer[i] - context->previous[i]; + context->up[i] = v; + s += (v < 128) ? v : 256 - v; + } + if (s < sum) { + context->output = context->up; + sum = s; /* 0 if line was duplicated */ + } } - if (s < sum) { - context->output = context->average; - sum = s; - } - } - /* 4. Paeth */ - if (sum > 0) { - for (i = 1, s = 0; i <= bpp; i++) { - UINT8 v = state->buffer[i] - context->previous[i]; - context->paeth[i] = v; - s += (v < 128) ? v : 256 - v; + /* 1. Prior */ + if (sum > 0) { + for (i = 1, s = 0; i <= bpp; i++) { + UINT8 v = state->buffer[i]; + context->prior[i] = v; + s += (v < 128) ? v : 256 - v; + } + for (; i <= state->bytes; i++) { + UINT8 v = state->buffer[i] - state->buffer[i - bpp]; + context->prior[i] = v; + s += (v < 128) ? v : 256 - v; + } + if (s < sum) { + context->output = context->prior; + sum = s; /* 0 if line is solid */ + } } - for (; i <= state->bytes; i++) { - UINT8 v; - int a, b, c; - int pa, pb, pc; - - /* fetch pixels */ - a = state->buffer[i-bpp]; - b = context->previous[i]; - c = context->previous[i-bpp]; - - /* distances to surrounding pixels */ - pa = abs(b - c); - pb = abs(a - c); - pc = abs(a + b - 2*c); - - /* pick predictor with the shortest distance */ - v = state->buffer[i] - - ((pa <= pb && pa <= pc) ? a : - (pb <= pc) ? b : c); - context->paeth[i] = v; - s += (v < 128) ? v : 256 - v; + + /* 3. Average (not very common in real-life images, + so its only used with the optimize option) */ + if (context->optimize && sum > 0) { + for (i = 1, s = 0; i <= bpp; i++) { + UINT8 v = state->buffer[i] - context->previous[i] / 2; + context->average[i] = v; + s += (v < 128) ? v : 256 - v; + } + for (; i <= state->bytes; i++) { + UINT8 v = + state->buffer[i] - + (state->buffer[i - bpp] + context->previous[i]) / 2; + context->average[i] = v; + s += (v < 128) ? v : 256 - v; + } + if (s < sum) { + context->output = context->average; + sum = s; + } } - if (s < sum) { - context->output = context->paeth; - sum = s; + + /* 4. Paeth */ + if (sum > 0) { + for (i = 1, s = 0; i <= bpp; i++) { + UINT8 v = state->buffer[i] - context->previous[i]; + context->paeth[i] = v; + s += (v < 128) ? v : 256 - v; + } + for (; i <= state->bytes; i++) { + UINT8 v; + int a, b, c; + int pa, pb, pc; + + /* fetch pixels */ + a = state->buffer[i - bpp]; + b = context->previous[i]; + c = context->previous[i - bpp]; + + /* distances to surrounding pixels */ + pa = abs(b - c); + pb = abs(a - c); + pc = abs(a + b - 2 * c); + + /* pick predictor with the shortest distance */ + v = state->buffer[i] - + ((pa <= pb && pa <= pc) ? a : (pb <= pc) ? b : c); + context->paeth[i] = v; + s += (v < 128) ? v : 256 - v; + } + if (s < sum) { + context->output = context->paeth; + sum = s; + } } } - } - /* Compress this line */ - context->z_stream.next_in = context->output; - context->z_stream.avail_in = state->bytes+1; + /* Compress this line */ + context->z_stream.next_in = context->output; + context->z_stream.avail_in = state->bytes + 1; - err = deflate(&context->z_stream, Z_NO_FLUSH); + err = deflate(&context->z_stream, Z_NO_FLUSH); - if (err < 0) { - /* Something went wrong inside the compression library */ - if (err == Z_DATA_ERROR) { - state->errcode = IMAGING_CODEC_BROKEN; - } else if (err == Z_MEM_ERROR) { - state->errcode = IMAGING_CODEC_MEMORY; - } else { - state->errcode = IMAGING_CODEC_CONFIG; + if (err < 0) { + /* Something went wrong inside the compression library */ + if (err == Z_DATA_ERROR) { + state->errcode = IMAGING_CODEC_BROKEN; + } else if (err == Z_MEM_ERROR) { + state->errcode = IMAGING_CODEC_MEMORY; + } else { + state->errcode = IMAGING_CODEC_CONFIG; + } + free(context->paeth); + free(context->average); + free(context->up); + free(context->prior); + free(context->previous); + deflateEnd(&context->z_stream); + ImagingSectionLeave(&cookie); + return -1; } - free(context->paeth); - free(context->average); - free(context->up); - free(context->prior); - free(context->previous); - deflateEnd(&context->z_stream); - ImagingSectionLeave(&cookie); - return -1; - } - - /* Swap buffer pointers */ - ptr = state->buffer; - state->buffer = context->previous; - context->previous = ptr; - - } - - if (context->z_stream.avail_out == 0) { - break; /* Buffer full */ - } - case 2: + /* Swap buffer pointers */ + ptr = state->buffer; + state->buffer = context->previous; + context->previous = ptr; + } - /* End of image data; flush compressor buffers */ + if (context->z_stream.avail_out == 0) { + break; /* Buffer full */ + } - while (context->z_stream.avail_out > 0) { + case 2: - err = deflate(&context->z_stream, Z_FINISH); + /* End of image data; flush compressor buffers */ - if (err == Z_STREAM_END) { + while (context->z_stream.avail_out > 0) { + err = deflate(&context->z_stream, Z_FINISH); - free(context->paeth); - free(context->average); - free(context->up); - free(context->prior); - free(context->previous); + if (err == Z_STREAM_END) { + free(context->paeth); + free(context->average); + free(context->up); + free(context->prior); + free(context->previous); - deflateEnd(&context->z_stream); + deflateEnd(&context->z_stream); - state->errcode = IMAGING_CODEC_END; + state->errcode = IMAGING_CODEC_END; - break; - } + break; + } - if (context->z_stream.avail_out == 0) { - break; /* Buffer full */ + if (context->z_stream.avail_out == 0) { + break; /* Buffer full */ + } } - - } - } ImagingSectionLeave(&cookie); return bytes - context->z_stream.avail_out; - } /* Should never ever arrive here... */ @@ -358,21 +348,18 @@ ImagingZipEncode(Imaging im, ImagingCodecState state, UINT8* buf, int bytes) int ImagingZipEncodeCleanup(ImagingCodecState state) { - ZIPSTATE* context = (ZIPSTATE*) state->context; + ZIPSTATE *context = (ZIPSTATE *)state->context; if (context->dictionary) { - free (context->dictionary); + free(context->dictionary); context->dictionary = NULL; } return -1; } - - -const char* -ImagingZipVersion(void) -{ +const char * +ImagingZipVersion(void) { return zlibVersion(); } diff --git a/src/libImaging/codec_fd.c b/src/libImaging/codec_fd.c index 5cde31cdc5d..5261681107b 100644 --- a/src/libImaging/codec_fd.c +++ b/src/libImaging/codec_fd.c @@ -1,10 +1,8 @@ #include "Python.h" #include "Imaging.h" - Py_ssize_t -_imaging_read_pyFd(PyObject *fd, char* dest, Py_ssize_t bytes) -{ +_imaging_read_pyFd(PyObject *fd, char *dest, Py_ssize_t bytes) { /* dest should be a buffer bytes long, returns length of read -1 on error */ @@ -29,16 +27,13 @@ _imaging_read_pyFd(PyObject *fd, char* dest, Py_ssize_t bytes) Py_DECREF(result); return length; - err: +err: Py_DECREF(result); return -1; - } Py_ssize_t -_imaging_write_pyFd(PyObject *fd, char* src, Py_ssize_t bytes) -{ - +_imaging_write_pyFd(PyObject *fd, char *src, Py_ssize_t bytes) { PyObject *result; PyObject *byteObj; @@ -49,24 +44,20 @@ _imaging_write_pyFd(PyObject *fd, char* src, Py_ssize_t bytes) Py_DECREF(result); return bytes; - } int -_imaging_seek_pyFd(PyObject *fd, Py_ssize_t offset, int whence) -{ +_imaging_seek_pyFd(PyObject *fd, Py_ssize_t offset, int whence) { PyObject *result; result = PyObject_CallMethod(fd, "seek", "ni", offset, whence); Py_DECREF(result); return 0; - } Py_ssize_t -_imaging_tell_pyFd(PyObject *fd) -{ +_imaging_tell_pyFd(PyObject *fd) { PyObject *result; Py_ssize_t location; diff --git a/src/libImaging/raqm.h b/src/libImaging/raqm.h index eae1f43b7ea..5f865853aa1 100644 --- a/src/libImaging/raqm.h +++ b/src/libImaging/raqm.h @@ -63,8 +63,7 @@ typedef struct _raqm raqm_t; * * Since: 0.1 */ -typedef enum -{ +typedef enum { RAQM_DIRECTION_DEFAULT, RAQM_DIRECTION_RTL, RAQM_DIRECTION_LTR, @@ -106,73 +105,50 @@ typedef struct raqm_glyph_t_01 { uint32_t cluster; } raqm_glyph_t_01; - raqm_t * -raqm_create (void); +raqm_create(void); raqm_t * -raqm_reference (raqm_t *rq); +raqm_reference(raqm_t *rq); void -raqm_destroy (raqm_t *rq); +raqm_destroy(raqm_t *rq); bool -raqm_set_text (raqm_t *rq, - const uint32_t *text, - size_t len); +raqm_set_text(raqm_t *rq, const uint32_t *text, size_t len); bool -raqm_set_text_utf8 (raqm_t *rq, - const char *text, - size_t len); +raqm_set_text_utf8(raqm_t *rq, const char *text, size_t len); bool -raqm_set_par_direction (raqm_t *rq, - raqm_direction_t dir); +raqm_set_par_direction(raqm_t *rq, raqm_direction_t dir); bool -raqm_set_language (raqm_t *rq, - const char *lang, - size_t start, - size_t len); +raqm_set_language(raqm_t *rq, const char *lang, size_t start, size_t len); bool -raqm_add_font_feature (raqm_t *rq, - const char *feature, - int len); +raqm_add_font_feature(raqm_t *rq, const char *feature, int len); bool -raqm_set_freetype_face (raqm_t *rq, - FT_Face face); +raqm_set_freetype_face(raqm_t *rq, FT_Face face); bool -raqm_set_freetype_face_range (raqm_t *rq, - FT_Face face, - size_t start, - size_t len); +raqm_set_freetype_face_range(raqm_t *rq, FT_Face face, size_t start, size_t len); bool -raqm_set_freetype_load_flags (raqm_t *rq, - int flags); +raqm_set_freetype_load_flags(raqm_t *rq, int flags); bool -raqm_layout (raqm_t *rq); +raqm_layout(raqm_t *rq); raqm_glyph_t * -raqm_get_glyphs (raqm_t *rq, - size_t *length); +raqm_get_glyphs(raqm_t *rq, size_t *length); bool -raqm_index_to_position (raqm_t *rq, - size_t *index, - int *x, - int *y); +raqm_index_to_position(raqm_t *rq, size_t *index, int *x, int *y); bool -raqm_position_to_index (raqm_t *rq, - int x, - int y, - size_t *index); +raqm_position_to_index(raqm_t *rq, int x, int y, size_t *index); #ifdef __cplusplus } diff --git a/src/map.c b/src/map.c index ef29062cc76..b685de34ded 100644 --- a/src/map.c +++ b/src/map.c @@ -23,17 +23,18 @@ #include "Imaging.h" /* compatibility wrappers (defined in _imaging.c) */ -extern int PyImaging_CheckBuffer(PyObject* buffer); -extern int PyImaging_GetBuffer(PyObject* buffer, Py_buffer *view); +extern int +PyImaging_CheckBuffer(PyObject *buffer); +extern int +PyImaging_GetBuffer(PyObject *buffer, Py_buffer *view); /* -------------------------------------------------------------------- */ /* Standard mapper */ typedef struct { - PyObject_HEAD - char* base; - int size; - int offset; + PyObject_HEAD char *base; + int size; + int offset; #ifdef _WIN32 HANDLE hFile; HANDLE hMap; @@ -42,9 +43,8 @@ typedef struct { static PyTypeObject ImagingMapperType; -ImagingMapperObject* -PyImaging_MapperNew(const char* filename, int readonly) -{ +ImagingMapperObject * +PyImaging_MapperNew(const char *filename, int readonly) { ImagingMapperObject *mapper; if (PyType_Ready(&ImagingMapperType) < 0) { @@ -61,14 +61,15 @@ PyImaging_MapperNew(const char* filename, int readonly) #ifdef _WIN32 mapper->hFile = (HANDLE)-1; - mapper->hMap = (HANDLE)-1; + mapper->hMap = (HANDLE)-1; /* FIXME: currently supports readonly mappings only */ mapper->hFile = CreateFile( filename, GENERIC_READ, FILE_SHARE_READ, - NULL, OPEN_EXISTING, + NULL, + OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if (mapper->hFile == (HANDLE)-1) { @@ -77,10 +78,7 @@ PyImaging_MapperNew(const char* filename, int readonly) return NULL; } - mapper->hMap = CreateFileMapping( - mapper->hFile, NULL, - PAGE_READONLY, - 0, 0, NULL); + mapper->hMap = CreateFileMapping(mapper->hFile, NULL, PAGE_READONLY, 0, 0, NULL); if (mapper->hMap == (HANDLE)-1) { CloseHandle(mapper->hFile); PyErr_SetString(PyExc_OSError, "cannot map file"); @@ -88,10 +86,7 @@ PyImaging_MapperNew(const char* filename, int readonly) return NULL; } - mapper->base = (char*) MapViewOfFile( - mapper->hMap, - FILE_MAP_READ, - 0, 0, 0); + mapper->base = (char *)MapViewOfFile(mapper->hMap, FILE_MAP_READ, 0, 0, 0); mapper->size = GetFileSize(mapper->hFile, 0); #endif @@ -100,8 +95,7 @@ PyImaging_MapperNew(const char* filename, int readonly) } static void -mapping_dealloc(ImagingMapperObject* mapper) -{ +mapping_dealloc(ImagingMapperObject *mapper) { #ifdef _WIN32 if (mapper->base != 0) { UnmapViewOfFile(mapper->base); @@ -121,10 +115,9 @@ mapping_dealloc(ImagingMapperObject* mapper) /* -------------------------------------------------------------------- */ /* standard file operations */ -static PyObject* -mapping_read(ImagingMapperObject* mapper, PyObject* args) -{ - PyObject* buf; +static PyObject * +mapping_read(ImagingMapperObject *mapper, PyObject *args) { + PyObject *buf; int size = -1; if (!PyArg_ParseTuple(args, "|i", &size)) { @@ -152,9 +145,8 @@ mapping_read(ImagingMapperObject* mapper, PyObject* args) return buf; } -static PyObject* -mapping_seek(ImagingMapperObject* mapper, PyObject* args) -{ +static PyObject * +mapping_seek(ImagingMapperObject *mapper, PyObject *args) { int offset; int whence = 0; if (!PyArg_ParseTuple(args, "i|i", &offset, &whence)) { @@ -183,27 +175,26 @@ mapping_seek(ImagingMapperObject* mapper, PyObject* args) /* -------------------------------------------------------------------- */ /* map entire image */ -extern PyObject*PyImagingNew(Imaging im); +extern PyObject * +PyImagingNew(Imaging im); static void -ImagingDestroyMap(Imaging im) -{ +ImagingDestroyMap(Imaging im) { return; /* nothing to do! */ } -static PyObject* -mapping_readimage(ImagingMapperObject* mapper, PyObject* args) -{ +static PyObject * +mapping_readimage(ImagingMapperObject *mapper, PyObject *args) { int y, size; Imaging im; - char* mode; + char *mode; int xsize; int ysize; int stride; int orientation; - if (!PyArg_ParseTuple(args, "s(ii)ii", &mode, &xsize, &ysize, - &stride, &orientation)) { + if (!PyArg_ParseTuple( + args, "s(ii)ii", &mode, &xsize, &ysize, &stride, &orientation)) { return NULL; } @@ -237,7 +228,7 @@ mapping_readimage(ImagingMapperObject* mapper, PyObject* args) } } else { for (y = 0; y < ysize; y++) { - im->image[ysize-y-1] = mapper->base + mapper->offset + y * stride; + im->image[ysize - y - 1] = mapper->base + mapper->offset + y * stride; } } @@ -258,48 +249,46 @@ static struct PyMethodDef methods[] = { }; static PyTypeObject ImagingMapperType = { - PyVarObject_HEAD_INIT(NULL, 0) - "ImagingMapper", /*tp_name*/ - sizeof(ImagingMapperObject), /*tp_size*/ - 0, /*tp_itemsize*/ - /* methods */ - (destructor)mapping_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + PyVarObject_HEAD_INIT(NULL, 0) "ImagingMapper", /*tp_name*/ + sizeof(ImagingMapperObject), /*tp_size*/ + 0, /*tp_itemsize*/ + /* methods */ + (destructor)mapping_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; -PyObject* -PyImaging_Mapper(PyObject* self, PyObject* args) -{ - char* filename; +PyObject * +PyImaging_Mapper(PyObject *self, PyObject *args) { + char *filename; if (!PyArg_ParseTuple(args, "s", &filename)) { return NULL; } - return (PyObject*) PyImaging_MapperNew(filename, 1); + return (PyObject *)PyImaging_MapperNew(filename, 1); } /* -------------------------------------------------------------------- */ @@ -307,36 +296,43 @@ PyImaging_Mapper(PyObject* self, PyObject* args) typedef struct ImagingBufferInstance { struct ImagingMemoryInstance im; - PyObject* target; + PyObject *target; Py_buffer view; } ImagingBufferInstance; static void -mapping_destroy_buffer(Imaging im) -{ - ImagingBufferInstance* buffer = (ImagingBufferInstance*) im; +mapping_destroy_buffer(Imaging im) { + ImagingBufferInstance *buffer = (ImagingBufferInstance *)im; PyBuffer_Release(&buffer->view); Py_XDECREF(buffer->target); } -PyObject* -PyImaging_MapBuffer(PyObject* self, PyObject* args) -{ +PyObject * +PyImaging_MapBuffer(PyObject *self, PyObject *args) { Py_ssize_t y, size; Imaging im; - PyObject* target; + PyObject *target; Py_buffer view; - char* mode; - char* codec; + char *mode; + char *codec; Py_ssize_t offset; int xsize, ysize; int stride; int ystep; - if (!PyArg_ParseTuple(args, "O(ii)sn(sii)", &target, &xsize, &ysize, - &codec, &offset, &mode, &stride, &ystep)) { + if (!PyArg_ParseTuple( + args, + "O(ii)sn(sii)", + &target, + &xsize, + &ysize, + &codec, + &offset, + &mode, + &stride, + &ystep)) { return NULL; } @@ -360,7 +356,7 @@ PyImaging_MapBuffer(PyObject* self, PyObject* args) return NULL; } - size = (Py_ssize_t) ysize * stride; + size = (Py_ssize_t)ysize * stride; if (offset > PY_SSIZE_T_MAX - size) { PyErr_SetString(PyExc_MemoryError, "Integer overflow in offset"); @@ -383,8 +379,7 @@ PyImaging_MapBuffer(PyObject* self, PyObject* args) return NULL; } - im = ImagingNewPrologueSubtype( - mode, xsize, ysize, sizeof(ImagingBufferInstance)); + im = ImagingNewPrologueSubtype(mode, xsize, ysize, sizeof(ImagingBufferInstance)); if (!im) { PyBuffer_Release(&view); return NULL; @@ -393,20 +388,19 @@ PyImaging_MapBuffer(PyObject* self, PyObject* args) /* setup file pointers */ if (ystep > 0) { for (y = 0; y < ysize; y++) { - im->image[y] = (char*)view.buf + offset + y * stride; + im->image[y] = (char *)view.buf + offset + y * stride; } } else { for (y = 0; y < ysize; y++) { - im->image[ysize-y-1] = (char*)view.buf + offset + y * stride; + im->image[ysize - y - 1] = (char *)view.buf + offset + y * stride; } } im->destroy = mapping_destroy_buffer; Py_INCREF(target); - ((ImagingBufferInstance*) im)->target = target; - ((ImagingBufferInstance*) im)->view = view; + ((ImagingBufferInstance *)im)->target = target; + ((ImagingBufferInstance *)im)->view = view; return PyImagingNew(im); } - diff --git a/src/outline.c b/src/outline.c index d082febaa15..15b36616dd4 100644 --- a/src/outline.c +++ b/src/outline.c @@ -21,22 +21,19 @@ #include "Imaging.h" - /* -------------------------------------------------------------------- */ /* Class */ typedef struct { - PyObject_HEAD - ImagingOutline outline; + PyObject_HEAD ImagingOutline outline; } OutlineObject; static PyTypeObject OutlineType; #define PyOutline_Check(op) (Py_TYPE(op) == &OutlineType) -static OutlineObject* -_outline_new(void) -{ +static OutlineObject * +_outline_new(void) { OutlineObject *self; if (PyType_Ready(&OutlineType) < 0) { @@ -54,43 +51,37 @@ _outline_new(void) } static void -_outline_dealloc(OutlineObject* self) -{ +_outline_dealloc(OutlineObject *self) { ImagingOutlineDelete(self->outline); PyObject_Del(self); } ImagingOutline -PyOutline_AsOutline(PyObject* outline) -{ +PyOutline_AsOutline(PyObject *outline) { if (PyOutline_Check(outline)) { - return ((OutlineObject*) outline)->outline; + return ((OutlineObject *)outline)->outline; } return NULL; } - /* -------------------------------------------------------------------- */ /* Factories */ -PyObject* -PyOutline_Create(PyObject* self, PyObject* args) -{ +PyObject * +PyOutline_Create(PyObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, ":outline")) { return NULL; } - return (PyObject*) _outline_new(); + return (PyObject *)_outline_new(); } - /* -------------------------------------------------------------------- */ /* Methods */ -static PyObject* -_outline_move(OutlineObject* self, PyObject* args) -{ +static PyObject * +_outline_move(OutlineObject *self, PyObject *args) { float x0, y0; if (!PyArg_ParseTuple(args, "ff", &x0, &y0)) { return NULL; @@ -102,9 +93,8 @@ _outline_move(OutlineObject* self, PyObject* args) return Py_None; } -static PyObject* -_outline_line(OutlineObject* self, PyObject* args) -{ +static PyObject * +_outline_line(OutlineObject *self, PyObject *args) { float x1, y1; if (!PyArg_ParseTuple(args, "ff", &x1, &y1)) { return NULL; @@ -116,9 +106,8 @@ _outline_line(OutlineObject* self, PyObject* args) return Py_None; } -static PyObject* -_outline_curve(OutlineObject* self, PyObject* args) -{ +static PyObject * +_outline_curve(OutlineObject *self, PyObject *args) { float x1, y1, x2, y2, x3, y3; if (!PyArg_ParseTuple(args, "ffffff", &x1, &y1, &x2, &y2, &x3, &y3)) { return NULL; @@ -130,9 +119,8 @@ _outline_curve(OutlineObject* self, PyObject* args) return Py_None; } -static PyObject* -_outline_close(OutlineObject* self, PyObject* args) -{ +static PyObject * +_outline_close(OutlineObject *self, PyObject *args) { if (!PyArg_ParseTuple(args, ":close")) { return NULL; } @@ -143,11 +131,10 @@ _outline_close(OutlineObject* self, PyObject* args) return Py_None; } -static PyObject* -_outline_transform(OutlineObject* self, PyObject* args) -{ +static PyObject * +_outline_transform(OutlineObject *self, PyObject *args) { double a[6]; - if (!PyArg_ParseTuple(args, "(dddddd)", a+0, a+1, a+2, a+3, a+4, a+5)) { + if (!PyArg_ParseTuple(args, "(dddddd)", a + 0, a + 1, a + 2, a + 3, a + 4, a + 5)) { return NULL; } @@ -167,35 +154,34 @@ static struct PyMethodDef _outline_methods[] = { }; static PyTypeObject OutlineType = { - PyVarObject_HEAD_INIT(NULL, 0) - "Outline", /*tp_name*/ - sizeof(OutlineObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "Outline", /*tp_name*/ + sizeof(OutlineObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)_outline_dealloc,/*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - 0, /*tp_as_sequence */ - 0, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - _outline_methods, /*tp_methods*/ - 0, /*tp_members*/ - 0, /*tp_getset*/ + (destructor)_outline_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + 0, /*tp_as_sequence */ + 0, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + _outline_methods, /*tp_methods*/ + 0, /*tp_members*/ + 0, /*tp_getset*/ }; diff --git a/src/path.c b/src/path.c index 3cbdd5d4497..9bcd725ca79 100644 --- a/src/path.c +++ b/src/path.c @@ -25,38 +25,37 @@ * See the README file for information on usage and redistribution. */ - #include "Python.h" #include "Imaging.h" #include /* compatibility wrappers (defined in _imaging.c) */ -extern int PyImaging_CheckBuffer(PyObject* buffer); -extern int PyImaging_GetBuffer(PyObject* buffer, Py_buffer *view); +extern int +PyImaging_CheckBuffer(PyObject *buffer); +extern int +PyImaging_GetBuffer(PyObject *buffer, Py_buffer *view); /* -------------------------------------------------------------------- */ /* Class */ /* -------------------------------------------------------------------- */ typedef struct { - PyObject_HEAD - Py_ssize_t count; + PyObject_HEAD Py_ssize_t count; double *xy; int index; /* temporary use, e.g. in decimate */ } PyPathObject; static PyTypeObject PyPathType; -static double* -alloc_array(Py_ssize_t count) -{ - double* xy; +static double * +alloc_array(Py_ssize_t count) { + double *xy; if (count < 0) { PyErr_NoMemory(); return NULL; } - if (count > (SIZE_MAX / (2 * sizeof(double))) - 1 ) { + if (count > (SIZE_MAX / (2 * sizeof(double))) - 1) { PyErr_NoMemory(); return NULL; } @@ -67,14 +66,13 @@ alloc_array(Py_ssize_t count) return xy; } -static PyPathObject* -path_new(Py_ssize_t count, double* xy, int duplicate) -{ +static PyPathObject * +path_new(Py_ssize_t count, double *xy, int duplicate) { PyPathObject *path; if (duplicate) { /* duplicate path */ - double* p = alloc_array(count); + double *p = alloc_array(count); if (!p) { return NULL; } @@ -100,8 +98,7 @@ path_new(Py_ssize_t count, double* xy, int duplicate) } static void -path_dealloc(PyPathObject* path) -{ +path_dealloc(PyPathObject *path) { free(path->xy); PyObject_Del(path); } @@ -113,14 +110,13 @@ path_dealloc(PyPathObject* path) #define PyPath_Check(op) (Py_TYPE(op) == &PyPathType) Py_ssize_t -PyPath_Flatten(PyObject* data, double **pxy) -{ +PyPath_Flatten(PyObject *data, double **pxy) { Py_ssize_t i, j, n; double *xy; if (PyPath_Check(data)) { /* This was another path object. */ - PyPathObject *path = (PyPathObject*) data; + PyPathObject *path = (PyPathObject *)data; xy = alloc_array(path->count); if (!xy) { return -1; @@ -134,13 +130,13 @@ PyPath_Flatten(PyObject* data, double **pxy) /* Assume the buffer contains floats */ Py_buffer buffer; if (PyImaging_GetBuffer(data, &buffer) == 0) { - float *ptr = (float*) buffer.buf; + float *ptr = (float *)buffer.buf; n = buffer.len / (2 * sizeof(float)); xy = alloc_array(n); if (!xy) { return -1; } - for (i = 0; i < n+n; i++) { + for (i = 0; i < n + n; i++) { xy[i] = ptr[i]; } *pxy = xy; @@ -176,7 +172,7 @@ PyPath_Flatten(PyObject* data, double **pxy) if (PyFloat_Check(op)) { xy[j++] = PyFloat_AS_DOUBLE(op); } else if (PyLong_Check(op)) { - xy[j++] = (float) PyLong_AS_LONG(op); + xy[j++] = (float)PyLong_AS_LONG(op); } else if (PyNumber_Check(op)) { xy[j++] = PyFloat_AsDouble(op); } else if (PyArg_ParseTuple(op, "dd", &x, &y)) { @@ -194,7 +190,7 @@ PyPath_Flatten(PyObject* data, double **pxy) if (PyFloat_Check(op)) { xy[j++] = PyFloat_AS_DOUBLE(op); } else if (PyLong_Check(op)) { - xy[j++] = (float) PyLong_AS_LONG(op); + xy[j++] = (float)PyLong_AS_LONG(op); } else if (PyNumber_Check(op)) { xy[j++] = PyFloat_AsDouble(op); } else if (PyArg_ParseTuple(op, "dd", &x, &y)) { @@ -211,8 +207,7 @@ PyPath_Flatten(PyObject* data, double **pxy) PyObject *op = PySequence_GetItem(data, i); if (!op) { /* treat IndexError as end of sequence */ - if (PyErr_Occurred() && - PyErr_ExceptionMatches(PyExc_IndexError)) { + if (PyErr_Occurred() && PyErr_ExceptionMatches(PyExc_IndexError)) { PyErr_Clear(); break; } else { @@ -223,7 +218,7 @@ PyPath_Flatten(PyObject* data, double **pxy) if (PyFloat_Check(op)) { xy[j++] = PyFloat_AS_DOUBLE(op); } else if (PyLong_Check(op)) { - xy[j++] = (float) PyLong_AS_LONG(op); + xy[j++] = (float)PyLong_AS_LONG(op); } else if (PyNumber_Check(op)) { xy[j++] = PyFloat_AsDouble(op); } else if (PyArg_ParseTuple(op, "dd", &x, &y)) { @@ -245,23 +240,20 @@ PyPath_Flatten(PyObject* data, double **pxy) } *pxy = xy; - return j/2; + return j / 2; } - /* -------------------------------------------------------------------- */ /* Factories */ /* -------------------------------------------------------------------- */ -PyObject* -PyPath_Create(PyObject* self, PyObject* args) -{ - PyObject* data; +PyObject * +PyPath_Create(PyObject *self, PyObject *args) { + PyObject *data; Py_ssize_t count; double *xy; if (PyArg_ParseTuple(args, "n:Path", &count)) { - /* number of vertices */ xy = alloc_array(count); if (!xy) { @@ -269,7 +261,6 @@ PyPath_Create(PyObject* self, PyObject* args) } } else { - /* sequence or other path */ PyErr_Clear(); if (!PyArg_ParseTuple(args, "O", &data)) { @@ -282,17 +273,15 @@ PyPath_Create(PyObject* self, PyObject* args) } } - return (PyObject*) path_new(count, xy, 0); + return (PyObject *)path_new(count, xy, 0); } - /* -------------------------------------------------------------------- */ /* Methods */ /* -------------------------------------------------------------------- */ -static PyObject* -path_compact(PyPathObject* self, PyObject* args) -{ +static PyObject * +path_compact(PyPathObject *self, PyObject *args) { /* Simple-minded method to shorten path. A point is removed if the city block distance to the previous point is less than the given distance */ @@ -309,9 +298,10 @@ path_compact(PyPathObject* self, PyObject* args) /* remove bogus vertices */ for (i = j = 1; i < self->count; i++) { - if (fabs(xy[j+j-2]-xy[i+i]) + fabs(xy[j+j-1]-xy[i+i+1]) >= cityblock) { - xy[j+j] = xy[i+i]; - xy[j+j+1] = xy[i+i+1]; + if (fabs(xy[j + j - 2] - xy[i + i]) + fabs(xy[j + j - 1] - xy[i + i + 1]) >= + cityblock) { + xy[j + j] = xy[i + i]; + xy[j + j + 1] = xy[i + i + 1]; j++; } } @@ -326,9 +316,8 @@ path_compact(PyPathObject* self, PyObject* args) return Py_BuildValue("i", i); /* number of removed vertices */ } -static PyObject* -path_getbbox(PyPathObject* self, PyObject* args) -{ +static PyObject * +path_getbbox(PyPathObject *self, PyObject *args) { /* Find bounding box */ Py_ssize_t i; double *xy; @@ -344,26 +333,25 @@ path_getbbox(PyPathObject* self, PyObject* args) y0 = y1 = xy[1]; for (i = 1; i < self->count; i++) { - if (xy[i+i] < x0) { - x0 = xy[i+i]; + if (xy[i + i] < x0) { + x0 = xy[i + i]; } - if (xy[i+i] > x1) { - x1 = xy[i+i]; + if (xy[i + i] > x1) { + x1 = xy[i + i]; } - if (xy[i+i+1] < y0) { - y0 = xy[i+i+1]; + if (xy[i + i + 1] < y0) { + y0 = xy[i + i + 1]; } - if (xy[i+i+1] > y1) { - y1 = xy[i+i+1]; + if (xy[i + i + 1] > y1) { + y1 = xy[i + i + 1]; } } return Py_BuildValue("dddd", x0, y0, x1, y1); } -static PyObject* -path_getitem(PyPathObject* self, Py_ssize_t i) -{ +static PyObject * +path_getitem(PyPathObject *self, Py_ssize_t i) { if (i < 0) { i = self->count + i; } @@ -372,12 +360,11 @@ path_getitem(PyPathObject* self, Py_ssize_t i) return NULL; } - return Py_BuildValue("dd", self->xy[i+i], self->xy[i+i+1]); + return Py_BuildValue("dd", self->xy[i + i], self->xy[i + i + 1]); } -static PyObject* -path_getslice(PyPathObject* self, Py_ssize_t ilow, Py_ssize_t ihigh) -{ +static PyObject * +path_getslice(PyPathObject *self, Py_ssize_t ilow, Py_ssize_t ihigh) { /* adjust arguments */ if (ilow < 0) { ilow = 0; @@ -393,22 +380,20 @@ path_getslice(PyPathObject* self, Py_ssize_t ilow, Py_ssize_t ihigh) ihigh = self->count; } - return (PyObject*) path_new(ihigh - ilow, self->xy + ilow * 2, 1); + return (PyObject *)path_new(ihigh - ilow, self->xy + ilow * 2, 1); } static Py_ssize_t -path_len(PyPathObject* self) -{ +path_len(PyPathObject *self) { return self->count; } -static PyObject* -path_map(PyPathObject* self, PyObject* args) -{ +static PyObject * +path_map(PyPathObject *self, PyObject *args) { /* Map coordinate set through function */ Py_ssize_t i; double *xy; - PyObject* function; + PyObject *function; if (!PyArg_ParseTuple(args, "O:map", &function)) { return NULL; @@ -418,15 +403,15 @@ path_map(PyPathObject* self, PyObject* args) /* apply function to coordinate set */ for (i = 0; i < self->count; i++) { - double x = xy[i+i]; - double y = xy[i+i+1]; - PyObject* item = PyObject_CallFunction(function, "dd", x, y); + double x = xy[i + i]; + double y = xy[i + i + 1]; + PyObject *item = PyObject_CallFunction(function, "dd", x, y); if (!item || !PyArg_ParseTuple(item, "dd", &x, &y)) { Py_XDECREF(item); return NULL; } - xy[i+i] = x; - xy[i+i+1] = y; + xy[i + i] = x; + xy[i + i + 1] = y; Py_DECREF(item); } @@ -435,23 +420,20 @@ path_map(PyPathObject* self, PyObject* args) } static int -path_setitem(PyPathObject* self, Py_ssize_t i, PyObject* op) -{ - double* xy; +path_setitem(PyPathObject *self, Py_ssize_t i, PyObject *op) { + double *xy; if (i < 0 || i >= self->count) { - PyErr_SetString(PyExc_IndexError, - "path assignment index out of range"); + PyErr_SetString(PyExc_IndexError, "path assignment index out of range"); return -1; } if (op == NULL) { - PyErr_SetString(PyExc_TypeError, - "cannot delete from path"); + PyErr_SetString(PyExc_TypeError, "cannot delete from path"); return -1; } - xy = &self->xy[i+i]; + xy = &self->xy[i + i]; if (!PyArg_ParseTuple(op, "dd", &xy[0], &xy[1])) { return -1; @@ -460,9 +442,8 @@ path_setitem(PyPathObject* self, Py_ssize_t i, PyObject* op) return 0; } -static PyObject* -path_tolist(PyPathObject* self, PyObject* args) -{ +static PyObject * +path_tolist(PyPathObject *self, PyObject *args) { PyObject *list; Py_ssize_t i; @@ -472,9 +453,9 @@ path_tolist(PyPathObject* self, PyObject* args) } if (flat) { - list = PyList_New(self->count*2); - for (i = 0; i < self->count*2; i++) { - PyObject* item; + list = PyList_New(self->count * 2); + for (i = 0; i < self->count * 2; i++) { + PyObject *item; item = PyFloat_FromDouble(self->xy[i]); if (!item) { goto error; @@ -484,8 +465,8 @@ path_tolist(PyPathObject* self, PyObject* args) } else { list = PyList_New(self->count); for (i = 0; i < self->count; i++) { - PyObject* item; - item = Py_BuildValue("dd", self->xy[i+i], self->xy[i+i+1]); + PyObject *item; + item = Py_BuildValue("dd", self->xy[i + i], self->xy[i + i + 1]); if (!item) { goto error; } @@ -500,9 +481,8 @@ path_tolist(PyPathObject* self, PyObject* args) return NULL; } -static PyObject* -path_transform(PyPathObject* self, PyObject* args) -{ +static PyObject * +path_transform(PyPathObject *self, PyObject *args) { /* Apply affine transform to coordinate set */ Py_ssize_t i; double *xy; @@ -510,9 +490,8 @@ path_transform(PyPathObject* self, PyObject* args) double wrap = 0.0; - if (!PyArg_ParseTuple(args, "(dddddd)|d:transform", - &a, &b, &c, &d, &e, &f, - &wrap)) { + if (!PyArg_ParseTuple( + args, "(dddddd)|d:transform", &a, &b, &c, &d, &e, &f, &wrap)) { return NULL; } @@ -522,23 +501,23 @@ path_transform(PyPathObject* self, PyObject* args) if (b == 0.0 && d == 0.0) { /* scaling */ for (i = 0; i < self->count; i++) { - xy[i+i] = a*xy[i+i]+c; - xy[i+i+1] = e*xy[i+i+1]+f; + xy[i + i] = a * xy[i + i] + c; + xy[i + i + 1] = e * xy[i + i + 1] + f; } } else { /* affine transform */ for (i = 0; i < self->count; i++) { - double x = xy[i+i]; - double y = xy[i+i+1]; - xy[i+i] = a*x+b*y+c; - xy[i+i+1] = d*x+e*y+f; + double x = xy[i + i]; + double y = xy[i + i + 1]; + xy[i + i] = a * x + b * y + c; + xy[i + i + 1] = d * x + e * y + f; } } /* special treatment of geographical map data */ if (wrap != 0.0) { for (i = 0; i < self->count; i++) { - xy[i+i] = fmod(xy[i+i], wrap); + xy[i + i] = fmod(xy[i + i], wrap); } } @@ -555,19 +534,15 @@ static struct PyMethodDef methods[] = { {NULL, NULL} /* sentinel */ }; -static PyObject* -path_getattr_id(PyPathObject* self, void* closure) -{ - return Py_BuildValue("n", (Py_ssize_t) self->xy); +static PyObject * +path_getattr_id(PyPathObject *self, void *closure) { + return Py_BuildValue("n", (Py_ssize_t)self->xy); } -static struct PyGetSetDef getsetters[] = { - { "id", (getter) path_getattr_id }, - { NULL } -}; +static struct PyGetSetDef getsetters[] = {{"id", (getter)path_getattr_id}, {NULL}}; -static PyObject* -path_subscript(PyPathObject* self, PyObject* item) { +static PyObject * +path_subscript(PyPathObject *self, PyObject *item) { if (PyIndex_Check(item)) { Py_ssize_t i; i = PyNumber_AsSsize_t(item, PyExc_IndexError); @@ -586,71 +561,64 @@ path_subscript(PyPathObject* self, PyObject* item) { if (slicelength <= 0) { double *xy = alloc_array(0); - return (PyObject*) path_new(0, xy, 0); - } - else if (step == 1) { + return (PyObject *)path_new(0, xy, 0); + } else if (step == 1) { return path_getslice(self, start, stop); - } - else { + } else { PyErr_SetString(PyExc_TypeError, "slice steps not supported"); return NULL; } - } - else { - PyErr_Format(PyExc_TypeError, - "Path indices must be integers, not %.200s", - Py_TYPE(item)->tp_name); + } else { + PyErr_Format( + PyExc_TypeError, + "Path indices must be integers, not %.200s", + Py_TYPE(item)->tp_name); return NULL; } } static PySequenceMethods path_as_sequence = { - (lenfunc)path_len, /*sq_length*/ - (binaryfunc)0, /*sq_concat*/ - (ssizeargfunc)0, /*sq_repeat*/ - (ssizeargfunc)path_getitem, /*sq_item*/ - (ssizessizeargfunc)path_getslice, /*sq_slice*/ - (ssizeobjargproc)path_setitem, /*sq_ass_item*/ - (ssizessizeobjargproc)0, /*sq_ass_slice*/ + (lenfunc)path_len, /*sq_length*/ + (binaryfunc)0, /*sq_concat*/ + (ssizeargfunc)0, /*sq_repeat*/ + (ssizeargfunc)path_getitem, /*sq_item*/ + (ssizessizeargfunc)path_getslice, /*sq_slice*/ + (ssizeobjargproc)path_setitem, /*sq_ass_item*/ + (ssizessizeobjargproc)0, /*sq_ass_slice*/ }; static PyMappingMethods path_as_mapping = { - (lenfunc)path_len, - (binaryfunc)path_subscript, - NULL -}; + (lenfunc)path_len, (binaryfunc)path_subscript, NULL}; static PyTypeObject PyPathType = { - PyVarObject_HEAD_INIT(NULL, 0) - "Path", /*tp_name*/ - sizeof(PyPathObject), /*tp_size*/ - 0, /*tp_itemsize*/ + PyVarObject_HEAD_INIT(NULL, 0) "Path", /*tp_name*/ + sizeof(PyPathObject), /*tp_size*/ + 0, /*tp_itemsize*/ /* methods */ - (destructor)path_dealloc, /*tp_dealloc*/ - 0, /*tp_print*/ - 0, /*tp_getattr*/ - 0, /*tp_setattr*/ - 0, /*tp_compare*/ - 0, /*tp_repr*/ - 0, /*tp_as_number */ - &path_as_sequence, /*tp_as_sequence */ - &path_as_mapping, /*tp_as_mapping */ - 0, /*tp_hash*/ - 0, /*tp_call*/ - 0, /*tp_str*/ - 0, /*tp_getattro*/ - 0, /*tp_setattro*/ - 0, /*tp_as_buffer*/ - Py_TPFLAGS_DEFAULT, /*tp_flags*/ - 0, /*tp_doc*/ - 0, /*tp_traverse*/ - 0, /*tp_clear*/ - 0, /*tp_richcompare*/ - 0, /*tp_weaklistoffset*/ - 0, /*tp_iter*/ - 0, /*tp_iternext*/ - methods, /*tp_methods*/ - 0, /*tp_members*/ - getsetters, /*tp_getset*/ + (destructor)path_dealloc, /*tp_dealloc*/ + 0, /*tp_print*/ + 0, /*tp_getattr*/ + 0, /*tp_setattr*/ + 0, /*tp_compare*/ + 0, /*tp_repr*/ + 0, /*tp_as_number */ + &path_as_sequence, /*tp_as_sequence */ + &path_as_mapping, /*tp_as_mapping */ + 0, /*tp_hash*/ + 0, /*tp_call*/ + 0, /*tp_str*/ + 0, /*tp_getattro*/ + 0, /*tp_setattro*/ + 0, /*tp_as_buffer*/ + Py_TPFLAGS_DEFAULT, /*tp_flags*/ + 0, /*tp_doc*/ + 0, /*tp_traverse*/ + 0, /*tp_clear*/ + 0, /*tp_richcompare*/ + 0, /*tp_weaklistoffset*/ + 0, /*tp_iter*/ + 0, /*tp_iternext*/ + methods, /*tp_methods*/ + 0, /*tp_members*/ + getsetters, /*tp_getset*/ }; -