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tgc_gui.py
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tgc_gui.py
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import tkinter as tk
from tkinter import filedialog
from tkinter import *
import tkinter.ttk as ttk
from tkinter.scrolledtext import ScrolledText
import copy
import cv2
from functools import partial
import math
import numpy as np
import numpy
from PIL import Image, ImageTk
import string
import tgc_definitions
import tgc_tools
import lidar_map_api
import tgc_image_terrain
from tgc_visualizer import drawCourseAsImage
import OSMTGC
TGC_GUI_VERSION = "0.3.2"
image_width = 500
image_height = 500
# Make placeholder image
data=numpy.array(numpy.random.random((image_width,image_height))*100,dtype=int)
iim=Image.frombytes('L', (data.shape[1],data.shape[0]), data.astype('b').tostring())
root = None
canvas = None
canvas_image = None
course_json = None
scorecard = None
inner_frame = None # Scorecard inner frame
def drawPlaceholder():
global root
global canvas
global canvas_image
default_im = ImageTk.PhotoImage(image=iim)
canvas.itemconfig(canvas_image, image = default_im)
root.update()
def scorecardSumList(l):
front = 0
back = 0
total = 0
output = []
for i in range(0, len(l)):
value = math.ceil(l[i])
total += value
if i < 9:
front += value
else:
back += value
output.append(value)
if i == 8:
output.append(front)
if back > 0:
output.append(back)
output.append(total)
return output
def drawScorecard(course_json):
global scorecard
global inner_frame
# Which Tkinter colors to draw on the chart
hole_color = "snow"
par_color = "bisque"
pin_color = "gray40"
tee_color_order = course_json["teeColours"]
tee_colors_dict = {
"red":"firebrick1",
"white":"floral white",
"blue":"navy",
"black":"gray10",
"green":"dark green",
"gold":"gold"
}
tee_text_colors_dict = {
"red":"black",
"white":"black",
"blue":"white",
"black":"white",
"green":"white",
"gold":"black"
}
# Determine tee colors for chart
tee_colors = []
tee_text_colors = []
for color in tee_color_order:
color_name = tgc_definitions.tee_colors[color]
tee_colors.append(tee_colors_dict[color_name])
tee_text_colors.append(tee_text_colors_dict[color_name])
# Clear the chart each time the course is redrawn
if inner_frame is not None:
inner_frame.destroy()
inner_frame = Frame(scorecard, bg="darkgrey")
inner_frame.pack(padx=10, pady=5, fill=tk.BOTH, expand=True)
# Par and yardages values from holes
pars, pin_counts, tees = tgc_tools.get_hole_information(course_json)
# Determine number of valid tee sets
# And fill in missing information for tees that weren't placed
valid_tees = []
for tee in tees:
empty_tee = all(v is None for v in tee)
if not empty_tee:
valid_tees.append(tee)
for i in range(0, len(pars)):
last_valid_distance = 0.0
for j in range(0, len(valid_tees)):
if valid_tees[j][i] is not None:
last_valid_distance = valid_tees[j][i]
else:
valid_tees[j][i] = last_valid_distance
scorecard_pars = scorecardSumList(pars)
scorecard_tees = []
for t in valid_tees:
scorecard_tees.append(scorecardSumList(t))
# Generate top holes label and pin counts
holes = []
pins = []
for i in range(0, len(pars)):
holes.append(i+1)
pins.append(pin_counts[i])
if i == 8:
holes.append("out")
pins.append("")
if len(pars) > 9:
holes.append("in")
pins.append("")
holes.append("tot")
pins.append("")
h = Entry(inner_frame, justify='center', fg="black", readonlybackground=hole_color, width=10)
h.insert(0, "HOLE")
h.configure(state="readonly")
h.grid(row=0, column=0)
h = Entry(inner_frame, justify='center', fg="black", readonlybackground=par_color, width=10)
h.insert(0, "PAR")
h.configure(state="readonly")
h.grid(row=1, column=0)
h = Entry(inner_frame, justify='center', fg="black", readonlybackground=pin_color, width=10)
h.insert(0, "NUM PINS")
h.configure(state="readonly")
h.grid(row=2, column=0)
for j in range(0, len(scorecard_tees)):
h = Entry(inner_frame, justify='center', fg=tee_text_colors[j], readonlybackground=tee_colors[j], width=10)
h.insert(0, "TEE SET")
h.configure(state="readonly")
h.grid(row=3+j, column=0)
for i in range(0, len(holes)):
# Append hole numbers
h = Entry(inner_frame, justify='center', fg="black", readonlybackground=hole_color, width=5)
h.insert(0, str(holes[i]))
h.configure(state="readonly")
h.grid(row=0, column=i+1)
# Append par values
p = Entry(inner_frame, justify='center', fg="black", readonlybackground=par_color, width=5)
p.insert(0, str(scorecard_pars[i]))
p.configure(state="readonly")
p.grid(row=1, column=i+1)
# Append number of pins - useful for working around simulator bug
p = Entry(inner_frame, justify='center', fg="black", readonlybackground=pin_color, width=5)
p.insert(0, str(pins[i]))
p.configure(state="readonly")
p.grid(row=2, column=i+1)
# Append yardages
for j in range(0, len(scorecard_tees)):
p = Entry(inner_frame, justify='center', fg=tee_text_colors[j], readonlybackground=tee_colors[j], width=5)
p.insert(0, str(scorecard_tees[j][i]))
p.configure(state="readonly")
p.grid(row=3+j, column=i+1)
def drawCourse(cjson):
global root
global canvas
global canvas_image
data = drawCourseAsImage(cjson)
im = Image.fromarray((255.0*data).astype(np.uint8), 'RGB').resize((image_width, image_height), Image.NEAREST)
im = im.transpose(Image.FLIP_TOP_BOTTOM)
cim = ImageTk.PhotoImage(image=im)
canvas.img = cim # Need to save reference to ImageTK
canvas.itemconfig(canvas_image, image = cim)
drawScorecard(cjson)
root.update()
def getCourseDirectory(output):
global root
global course_json
cdir = tk.filedialog.askdirectory(initialdir = ".", title = "Select course directory")
if cdir:
root.filename = cdir
output.config(text=root.filename)
drawPlaceholder() # Clear out existing course while picking a new one
try:
course_json = tgc_tools.get_course_json(root.filename)
name_entry.configure(state='normal')
course_name_var.set(course_json["name"])
if course_json is not None:
drawCourse(course_json)
except:
pass
def alert(msg):
popup = tk.Toplevel()
popup.geometry("200x200")
popup.wm_title("Alert")
label = ttk.Label(popup, text=msg, wraplength=200, justify=CENTER)
label.pack(side="top", fill="x", pady=10)
B1 = ttk.Button(popup, text="OK", command = popup.destroy)
B1.pack()
popup.mainloop()
def disableAllChildren(var, frame):
for child in frame.winfo_children():
if var.get(): # Check enabled
child['state'] = 'normal'
else:
child['state'] = 'disable'
# Also support children directly outside of a frame
if len(frame.winfo_children()) == 0:
if var.get(): # Check enabled
frame['state'] = 'normal'
else:
frame['state'] = 'disable'
def validateCourseName(action_type, index, value, previous, new_text, validation_types, validation_type, widget_name):
# We also can submit as long of a course name as we want, so remove this limit!
#if len(value) > 32:
# return False
return True
# Looks like they accept almost all characters, wow...
'''allowed_chars = string.ascii_letters + string.digits + ' '
allowed_set = set(allowed_chars)
valid = all(x in allowed_set for x in new_text)
if not valid:
return False
course_name_var.set(previous)
return True'''
course_types = [
('Golf Course Files', '*.course'),
('All files', '*'),
]
def importCourseAction():
global root
global course_json
if not root or not hasattr(root, 'filename'):
alert("Select a course directory before importing a .course file")
return
input_course = tk.filedialog.askopenfilename(title='Course File', defaultextension='course', initialdir=root.filename, filetypes=course_types)
if input_course:
drawPlaceholder()
tgc_tools.unpack_course_file(root.filename, input_course)
course_json = tgc_tools.get_course_json(root.filename)
name_entry.configure(state='normal')
course_name_var.set(course_json["name"])
drawCourse(course_json)
def exportCourseAction():
global root
global course_json
if not root or not hasattr(root, 'filename'):
alert("Select a course directory before exporting a .course file")
return
if course_json is None:
alert("Make sure to import a .course file")
return
dest_file = tk.filedialog.asksaveasfilename(title='Save Course As', defaultextension='.course', initialdir=root.filename, confirmoverwrite=True, filetypes=course_types)
if dest_file:
new_course_name = course_name_var.get()
if len(new_course_name) > 0:
course_json["name"] = new_course_name
# Need to update the metadata file or it won't show up right in the course list
tgc_tools.set_course_metadata_name(root.filename, course_json["name"])
drawPlaceholder()
tgc_tools.pack_course_file(root.filename, None, dest_file, course_json)
drawCourse(course_json)
def autoPositionAction():
global course_json
drawPlaceholder()
course_json = tgc_tools.auto_position_course(course_json)
drawCourse(course_json)
def shiftAction(ew_entry, ns_entry, stype="course"):
global course_json
try:
easting_shift = float(ew_entry.get())
northing_shift = float(ns_entry.get())
except:
print("No action taken: Could not get valid shifts from entry")
return
drawPlaceholder()
if stype == "course":
course_json = tgc_tools.shift_course(course_json, easting_shift, northing_shift)
elif stype == "terrain":
course_json = tgc_tools.shift_terrain(course_json, easting_shift, northing_shift)
elif stype == "features":
course_json = tgc_tools.shift_features(course_json, easting_shift, northing_shift)
else:
print("No action taken: Unknown shift type: " + stype)
drawCourse(course_json)
def rotateAction(rotate_entry):
global course_json
try:
rotation_degrees = float(rotate_entry.get())
rotation = rotation_degrees * math.pi / 180.0
except:
print("No action taken: Could not get valid rotation from entry")
return
drawPlaceholder()
course_json = tgc_tools.rotate_course(course_json, -rotation)
drawCourse(course_json)
def elevateAction(elevate_entry, auto=False):
global course_json
elevation_shift = None
if not auto:
try:
elevation_shift = float(elevate_entry.get())
except:
print("No action taken: Could not get valid elevation shift from entry")
return
if elevation_shift is not None and elevation_shift == 0.0:
# Need to not pass in 0.0 or auto elevation shift will be triggered
print("No action taken: shift requested was zero")
return
drawPlaceholder()
course_json = tgc_tools.elevate_terrain(course_json, elevation_shift)
drawCourse(course_json)
numpy_types = [
('Golf Course Features', '*.npy'),
('All files', '*'),
]
numpy_terrain_types = [
('Golf Course Terrain', '*.terrain.npy'),
('All files', '*'),
]
numpy_holes_types = [
('Golf Course Holes', '*.holes.npy'),
('All files', '*'),
]
def separateAction(stype="terrain"):
global course_json
if stype == "terrain":
name = "Terrain"
f = tgc_tools.strip_terrain
ext = ".terrain.npy"
filetypes = numpy_terrain_types
elif stype == "holes":
name = "Holes"
f = tgc_tools.strip_holes
ext = ".holes.npy"
filetypes = numpy_holes_types
else:
print("No action taken: Unknown separate type: " + stype)
return
dest_file = tk.filedialog.asksaveasfilename(title=name+' filename', defaultextension=ext, initialdir=root.filename, confirmoverwrite=True, filetypes=filetypes)
if dest_file:
drawPlaceholder()
course_json = f(course_json, dest_file)
drawCourse(course_json)
def insertAction(stype="terrain"):
global course_json
if stype == "terrain":
name = "Terrain"
f = tgc_tools.insert_terrain
ext = ".terrain.npy"
filetypes = numpy_terrain_types
elif stype == "holes":
name = "Holes"
f = tgc_tools.insert_holes
ext = ".holes.npy"
filetypes = numpy_holes_types
else:
print("No action taken: Unknown insert type: " + stype)
return
input_file = tk.filedialog.askopenfilename(title=name+' filename', defaultextension=ext, initialdir=root.filename, filetypes=filetypes)
if input_file:
drawPlaceholder()
course_json = f(course_json, input_file)
drawCourse(course_json)
def confirmCourse(popup, new_course_json):
global course_json
popup.destroy()
drawPlaceholder()
if new_course_json is not None:
course_json = new_course_json
drawCourse(course_json)
def combineAction():
global course_json
other_course_dir = tk.filedialog.askdirectory(initialdir = ".", title = "Select second course directory")
if other_course_dir:
drawPlaceholder()
course1_json = copy.deepcopy(course_json) # Make copy so this isn't "permanent" in memory
course2_json = tgc_tools.get_course_json(other_course_dir)
course1_json = tgc_tools.merge_courses(course1_json, course2_json)
drawCourse(course1_json)
popup = tk.Toplevel()
popup.geometry("400x400")
popup.wm_title("Confirm course merge?")
label = ttk.Label(popup, text="Confirm course merge?")
label.pack(side="top", fill="x", pady=10)
B1 = ttk.Button(popup, text="Yes, Merge", command = partial(confirmCourse, popup, course1_json))
B1.pack()
B2 = ttk.Button(popup, text="No, Abandon Merge", command = partial(confirmCourse, popup, None))
B2.pack()
popup.mainloop()
def rightClickMenu(e):
try:
def rClick_Copy(e, apnd=0):
e.widget.event_generate('<Control-c>')
def rClick_CopyAll(e, apnd=0):
e.widget.event_generate('<Control-a>')
e.widget.event_generate('<Control-c>')
e.widget.focus()
nclst=[('Copy', lambda e=e: rClick_Copy(e)),
('Copy All', lambda e=e: rClick_CopyAll(e))]
rmenu = Menu(None, tearoff=0, takefocus=0)
for (txt, cmd) in nclst:
rmenu.add_command(label=txt, command=cmd)
rmenu.tk_popup(e.x_root+40, e.y_root+10,entry="0")
except TclError:
pass
return "break"
def tkinterPrintFunction(root, textfield, message):
textfield.configure(state='normal')
textfield.insert(tk.END, message + "\n")
textfield.configure(state='disabled')
textfield.see(tk.END)
textfield.bind('<Button-3>', rightClickMenu, add='')
root.update()
def runLidar(scale_entry, epsg_entry, printf):
global root
if not root or not hasattr(root, 'filename'):
alert("Select a course directory before processing lidar files")
return
try:
sample_scale = float(scale_entry.get())
except:
alert("No action taken: Could not get valid resolution from entry")
return
force_epsg = None
try:
epsg_raw = epsg_entry.get()
if epsg_raw: # Don't process empty string
force_epsg = int(epsg_raw)
except:
alert("No action taken: Could not get valid force epsg from entry")
return
lidar_dir_path = tk.filedialog.askdirectory(initialdir=root.filename, title="Select las/laz files directory")
if lidar_dir_path:
lidar_map_api.generate_lidar_previews(lidar_dir_path, sample_scale, root.filename, force_epsg=force_epsg, printf=printf)
def generateCourseFromLidar(options_entries_dict, printf):
global root
global course_json
if not root or not hasattr(root, 'filename'):
alert("Select a course directory before processing heightmap file")
return
if course_json is None:
alert("Make sure to import a .course file")
return
# There may be many options for this in the future (which splines to add, clear splines?, flatten fairways/greens, etc) so store efficiently
options_dict = {}
# Snapshot the current values of the entries dictionary into the options_dict
# We are reusing the same keys, so try not to change them often
# All values in the entries_dict must support the get() function
for key, entry in options_entries_dict.items():
options_dict[key] = entry.get()
heightmap_dir_path = tk.filedialog.askdirectory(initialdir=root.filename, title="Select heightmap and mask files directory")
if heightmap_dir_path:
drawPlaceholder()
course_json = tgc_image_terrain.generate_course(course_json, heightmap_dir_path, options_dict=options_dict, printf=printf)
drawCourse(course_json)
printf("Done Rendering Course Preview")
osm_types = [
('Open Street Map Exports', '*.osm'),
('All files', '*'),
]
def importOSMFile(options_entries_dict, printf):
global root
global course_json
if not root or not hasattr(root, 'filename'):
alert("Select a course directory before importing OSM Flat Course")
return
if course_json is None:
alert("Make sure to import a .course file")
return
# There may be many options for this in the future (which splines to add, clear splines?, flatten fairways/greens, etc) so store efficiently
options_dict = {}
# Snapshot the current values of the entries dictionary into the options_dict
# We are reusing the same keys, so try not to change them often
# All values in the entries_dict must support the get() function
for key, entry in options_entries_dict.items():
options_dict[key] = entry.get()
osm_file = tk.filedialog.askopenfilename(title='Select your OpenStreetMap Export', defaultextension='osm', initialdir=root.filename, filetypes=osm_types)
if osm_file:
with open(osm_file, encoding="utf8") as f:
xml_data = f.read()
printf("Loading OpenStreetMap Data from " + str(osm_file))
drawPlaceholder()
course_json = tgc_image_terrain.generate_flat_course(course_json, xml_data, options_dict=options_dict, printf=printf)
drawCourse(course_json)
printf("Done Rendering Course Preview")
root = tk.Tk()
root.geometry("800x600")
style = ttk.Style()
style.theme_create( "TabStyle", parent="alt", settings={
"TNotebook": {"configure": {"tabmargins": [2, 5, 2, 0] } },
"TNotebook.Tab": {"configure": {"padding": [30, 5] },}})
style.theme_use("TabStyle")
root.title("TGC Golf Tools " + TGC_GUI_VERSION)
header_frame = Frame(root)
output = Label(header_frame, background="lightgrey", width=75, height=1)
output.pack(side=LEFT)
B = Button(header_frame, text = "Select Course Directory", command = partial(getCourseDirectory, output))
B.pack(side=LEFT)
header_frame.pack(fill=X)
nb = ttk.Notebook(root)
s = ttk.Style()
s.configure('new.TFrame', background='#A9A9A9')
tools = ttk.Frame(nb, style='new.TFrame')
lidar = ttk.Frame(nb, style='new.TFrame')
course = ttk.Frame(nb, style='new.TFrame')
scorecard = ttk.Frame(nb, style='new.TFrame')
nb.pack(fill=BOTH, expand=1)
nb.add(tools, text='Course Tools')
nb.add(lidar, text='Process Lidar')
nb.add(course, text='Import Terrain and Features')
nb.add(scorecard, text="Scorecard")
## Tools Tab
image_frame = Frame(tools, width=image_width, height=image_height)
image_frame.pack(anchor=NW, side=LEFT)
canvas = tk.Canvas(image_frame, width=image_width, height=image_height)
canvas.place(x=0,y=0)
bg_color = "darkgrey"
tool_bg = "grey25"
text_fg = "grey90"
tool_buttons_frame = Frame(tools, bg=bg_color)
tool_buttons_frame.pack(side=LEFT, fill=BOTH, expand=1)
ib = Button(tool_buttons_frame, text="Import .course", command=importCourseAction)
ib.pack(pady=5)
eb = Button(tool_buttons_frame, text="Export .course", command=exportCourseAction)
eb.pack(pady=5)
name_frame = Frame(tool_buttons_frame, bg=tool_bg)
Label(name_frame, text="Name", fg=text_fg, bg=tool_bg).pack(side=LEFT, padx=5)
course_name_var = tk.StringVar()
name_entry = tk.Entry(name_frame,textvariable=course_name_var, width=32, justify='left', validate="key")
name_entry['validatecommand'] = (name_entry.register(validateCourseName), '%d', '%i', '%P', '%s', '%S', '%v', '%V', '%W')
name_entry.configure(state='disabled')
name_entry.configure(disabledbackground="grey50")
name_entry.pack(side=LEFT, padx=10, pady=5)
name_frame.pack(pady=5)
# Buttons that move things
move_frame = Frame(tool_buttons_frame, bg=tool_bg)
Label(move_frame, text="West->East", fg=text_fg, bg=tool_bg).grid(row=0, sticky=W, padx=5)
Label(move_frame, text="South->North", fg=text_fg, bg=tool_bg).grid(row=1, sticky=W, padx=5)
ew = tk.Entry(move_frame, width=10, justify='center')
ew.insert(END, '0.0')
ew.grid(row=0, column=1, padx=5)
ns = tk.Entry(move_frame, width=10, justify='center')
ns.insert(END, '0.0')
ns.grid(row=1, column=1, padx=5)
move_buttons_frame = Frame(move_frame, bg=tool_bg)
mcb = Button(move_buttons_frame, text="Move Course", command=partial(shiftAction, ew, ns, "course"))
mcb.pack(pady=5)
mtb = Button(move_buttons_frame, text="Shift Terrain", command=partial(shiftAction, ew, ns, "terrain"))
mtb.pack(pady=5)
mfb = Button(move_buttons_frame, text="Shift Features", command=partial(shiftAction, ew, ns, "features"))
mfb.pack(pady=5)
move_buttons_frame.grid(row=0, column=2, rowspan=2, padx=10)
move_frame.pack(pady=5)
# Rotation with text field
rotate_frame = Frame(tool_buttons_frame, bg=tool_bg)
Label(rotate_frame, text="Rotation (Degrees)", fg=text_fg, bg=tool_bg).grid(row=0, sticky=W, padx=5)
er = tk.Entry(rotate_frame, width=8, justify='center')
er.insert(END, '0.0')
er.grid(row=0, column=1, padx=5)
rb = Button(rotate_frame, text="Rotate", command=partial(rotateAction, er))
rb.grid(row=0, column=2, padx=10, pady=5)
rotate_frame.pack(pady=5)
# Elevation shift
aeb = Button(tool_buttons_frame, text="Auto Shift Elevations", command=partial(elevateAction, None, True))
aeb.pack(pady=5)
elevate_frame = Frame(tool_buttons_frame, bg=tool_bg)
Label(elevate_frame, text="Down->Up", fg=text_fg, bg=tool_bg).grid(row=0, sticky=W, padx=5)
ee = tk.Entry(elevate_frame, width=8, justify='center')
ee.insert(END, '0.0')
ee.grid(row=0, column=1, padx=5)
etb = Button(elevate_frame, text="Shift Elevations", command=partial(elevateAction, ee))
etb.grid(row=0, column=2, padx=10, pady=5)
elevate_frame.pack(pady=5)
terrain_frame = Frame(tool_buttons_frame, bg=bg_color)
stb = Button(terrain_frame, text="Separate Terrain", command=partial(separateAction, "terrain"))
stb.pack(side=LEFT, padx=5, pady=5)
itb = Button(terrain_frame, text="Insert Terrain File", command=partial(insertAction, "terrain"))
itb.pack(side=LEFT, pady=5)
terrain_frame.pack()
holes_frame = Frame(tool_buttons_frame, bg=bg_color)
shb = Button(holes_frame, text="Separate Holes", command=partial(separateAction, "holes"))
shb.pack(side=LEFT, padx=5, pady=5)
ihb = Button(holes_frame, text="Insert Holes File", command=partial(insertAction, "holes"))
ihb.pack(side=LEFT, pady=5)
holes_frame.pack()
ccb = Button(tool_buttons_frame, text="Combine Course Directory", command=combineAction)
ccb.pack(pady=5)
default_im = ImageTk.PhotoImage(image=iim)
canvas_image = canvas.create_image(0,0,image=default_im,anchor=tk.NW)
root.update()
## Lidar Tab
lidarConsoleOutput = tk.scrolledtext.ScrolledText(master=lidar, wrap=tk.WORD, width=20, height=10, state=DISABLED)
lidarPrintf = partial(tkinterPrintFunction, lidar, lidarConsoleOutput)
lidarControlFrame = Frame(lidar, bg=tool_bg)
scale_label = Label(lidarControlFrame, text="Map Scale", fg=text_fg, bg=tool_bg)
scale_entry = tk.Entry(lidarControlFrame, width=8, justify='center')
scale_entry.insert(END, 2.0)
epsg_label = Label(lidarControlFrame, text="Force Lidar EPSG Projection", fg=text_fg, bg=tool_bg)
epsg_entry = tk.Entry(lidarControlFrame, width=8, justify='center')
epsg_entry.insert(END, "")
lidarbutton = Button(lidarControlFrame, text="Select Lidar and Generate Heightmap", command=partial(runLidar, scale_entry, epsg_entry, lidarPrintf))
scale_label.pack(side=LEFT, padx=5)
scale_entry.pack(side=LEFT, padx=5)
epsg_label.pack(side=LEFT, padx=5)
epsg_entry.pack(side=LEFT, padx=5)
lidarbutton.pack(side=LEFT, padx=5, pady=5)
lidarControlFrame.pack(pady=5)
lidarConsoleOutput.pack(padx=10, pady=5, fill=tk.BOTH, expand=True)
## Import Terrain and Features Tab
courseConsoleOutput = tk.scrolledtext.ScrolledText(master=course, wrap=tk.WORD, width=20, height=10, state=DISABLED)
coursePrintf = partial(tkinterPrintFunction, course, courseConsoleOutput)
courseControlFrame = Frame(course, bg=bg_color)
options_entries_dict = {} # Store the many entries into one dictionary
# OpenStreetMap Options
check_fg = "black" # Check fg can't be light or near white or it is invisible in the checkbox
check_bg = "grey80"
osmControlFrame = Frame(courseControlFrame, bg=tool_bg)
osmSubFrame = Frame(osmControlFrame, bg=check_bg) # Can disable all OSM Options easily inside of this
options_entries_dict["use_osm"] = tk.BooleanVar()
useOSMCheck = Checkbutton(osmControlFrame, text="Import OpenStreetMap", variable=options_entries_dict["use_osm"], fg=check_fg, bg="grey60")
useOSMCheck['command'] = partial(disableAllChildren, options_entries_dict["use_osm"], osmSubFrame)
useOSMCheck.select() # Default to Checked
Label(osmSubFrame, text="Fine Shift West->East", fg=check_fg, bg=check_bg).grid(row=0, sticky=W, padx=5)
Label(osmSubFrame, text="Fine Shift South->North", fg=check_fg, bg=check_bg).grid(row=1, sticky=W, padx=5)
osmew = tk.Entry(osmSubFrame, width=10, justify='center')
osmew.insert(END, '0.0')
options_entries_dict["adjust_ew"] = osmew
osmns = tk.Entry(osmSubFrame, width=10, justify='center')
osmns.insert(END, '0.0')
options_entries_dict["adjust_ns"] = osmns
options_entries_dict["bunker"] = tk.BooleanVar()
bunkerCheck = Checkbutton(osmSubFrame, text="Import Bunkers", variable=options_entries_dict["bunker"], fg=check_fg, bg=check_bg)
bunkerCheck.select()
options_entries_dict["green"] = tk.BooleanVar()
greenCheck = Checkbutton(osmSubFrame, text="Import Greens", variable=options_entries_dict["green"], fg=check_fg, bg=check_bg)
greenCheck.select()
options_entries_dict["fairway"] = tk.BooleanVar()
fairwayCheck = Checkbutton(osmSubFrame, text="Import Fairways", variable=options_entries_dict["fairway"], fg=check_fg, bg=check_bg)
fairwayCheck.select()
options_entries_dict["range"] = tk.BooleanVar()
rangeCheck = Checkbutton(osmSubFrame, text="Import Driving Ranges", variable=options_entries_dict["range"], fg=check_fg, bg=check_bg)
rangeCheck.select()
options_entries_dict["teebox"] = tk.BooleanVar()
teeboxCheck = Checkbutton(osmSubFrame, text="Import Teeboxes", variable=options_entries_dict["teebox"], fg=check_fg, bg=check_bg)
teeboxCheck.select()
options_entries_dict["rough"] = tk.BooleanVar()
roughCheck = Checkbutton(osmSubFrame, text="Import Rough", variable=options_entries_dict["rough"], fg=check_fg, bg=check_bg)
roughCheck.select()
options_entries_dict["water"] = tk.BooleanVar()
waterCheck = Checkbutton(osmSubFrame, text="Import Water", variable=options_entries_dict["water"], fg=check_fg, bg=check_bg)
waterCheck.select()
options_entries_dict["cartpath"] = tk.BooleanVar()
cartpathCheck = Checkbutton(osmSubFrame, text="Import Cartpaths", variable=options_entries_dict["cartpath"], fg=check_fg, bg=check_bg)
cartpathCheck.select()
options_entries_dict["path"] = tk.BooleanVar()
pathCheck = Checkbutton(osmSubFrame, text="Import Walking Paths", variable=options_entries_dict["path"], fg=check_fg, bg=check_bg)
pathCheck.select()
options_entries_dict["hole"] = tk.BooleanVar()
holeCheck = Checkbutton(osmSubFrame, text="Import Holes", variable=options_entries_dict["hole"], fg=check_fg, bg=check_bg)
holeCheck.select()
osm_hole_filter = tk.Entry(osmSubFrame, width=10, justify='center')
options_entries_dict["hole_name_filter"] = osm_hole_filter
options_entries_dict["building"] = tk.BooleanVar()
buildingCheck = Checkbutton(osmSubFrame, text="Import Buildings", variable=options_entries_dict["building"], fg=check_fg, bg=check_bg)
buildingCheck.select()
options_entries_dict["tree"] = tk.BooleanVar()
treeCheck = Checkbutton(osmSubFrame, text="Import Mapped Woods/Trees", variable=options_entries_dict["tree"], fg=check_fg, bg=check_bg)
treeCheck.deselect()
osmbutton = Button(osmSubFrame, text="Make Flat Course From OSM File", command=partial(importOSMFile, options_entries_dict, coursePrintf))
osmew.grid(row=0, column=1, padx=5)
osmns.grid(row=1, column=1, padx=5)
bunkerCheck.grid(row=2, columnspan=2, sticky=W, padx=5)
greenCheck.grid(row=3, columnspan=2, sticky=W, padx=5)
fairwayCheck.grid(row=4, columnspan=2, sticky=W, padx=5)
rangeCheck.grid(row=5, columnspan=2, sticky=W, padx=5)
teeboxCheck.grid(row=6, columnspan=2, sticky=W, padx=5)
roughCheck.grid(row=7, columnspan=2, sticky=W, padx=5)
waterCheck.grid(row=8, columnspan=2, sticky=W, padx=5)
cartpathCheck.grid(row=9, columnspan=2, sticky=W, padx=5)
pathCheck.grid(row=10, columnspan=2, sticky=W, padx=5)
holeCheck.grid(row=11, columnspan=2, sticky=W, padx=5)
Label(osmSubFrame, text="Match Hole Names", fg=check_fg, bg=check_bg).grid(row=12, sticky=W, padx=5)
osm_hole_filter.grid(row=12, column=1, padx=5)
buildingCheck.grid(row=13, columnspan=2, sticky=W, padx=5)
treeCheck.grid(row=14, columnspan=2, sticky=W, padx=5)
osmbutton.grid(row=15, columnspan=2)
useOSMCheck.pack(padx=10, pady=10)
osmSubFrame.pack(padx=5, pady=5)
coursebutton = Button(courseControlFrame, text="Select and Import Heightmap and OSM into Course", command=partial(generateCourseFromLidar, options_entries_dict, coursePrintf))
# Pack the controls frames, button at the top followed by the options
coursebutton.pack(padx=10, pady=10)
# Other Course Options
courseOptionsFrame = Frame(courseControlFrame, bg=tool_bg)
courseSubFrame = Frame(courseOptionsFrame, bg=check_bg) # Not needed for anything here, but I like the look
Label(courseOptionsFrame, text='Course Options', fg=text_fg, bg=tool_bg).pack(pady=(15,10))
options_entries_dict["add_background"] = tk.BooleanVar()
backgroundCheck = Checkbutton(courseSubFrame, text="Add Background Terrain/Remove Cliffs", variable=options_entries_dict["add_background"], fg=check_fg, bg=check_bg)
backgroundCheck.deselect()
bgentry = tk.Entry(courseSubFrame, width=10, justify='center')
bgentry.insert(END, '16.0')
options_entries_dict["background_scale"] = bgentry
backgroundCheck['command'] = partial(disableAllChildren, options_entries_dict["add_background"], bgentry)
options_entries_dict["lidar_trees"] = tk.BooleanVar()
lidarTreeCheck = Checkbutton(courseSubFrame, text="Add Trees From Lidar (Experimental)", variable=options_entries_dict["lidar_trees"], fg=check_fg, bg=check_bg)
lidarTreeCheck.deselect()
options_entries_dict["tree_variety"] = tk.BooleanVar()
treeVarietyCheck = Checkbutton(courseSubFrame, text="Tree Variety (Lidar and OSM)", variable=options_entries_dict["tree_variety"], fg=check_fg, bg=check_bg)
treeVarietyCheck.deselect()
options_entries_dict["fill_water"] = tk.BooleanVar()
fillWaterCheck = Checkbutton(courseSubFrame, text="Fill Holes Under Blue Mask", variable=options_entries_dict["fill_water"], fg=check_fg, bg=check_bg)
fillWaterCheck.deselect()
options_entries_dict["purge_water"] = tk.BooleanVar()
purgeWaterCheck = Checkbutton(courseSubFrame, text="Remove All Terrain Under Blue Mask", variable=options_entries_dict["purge_water"], fg=check_fg, bg=check_bg)
purgeWaterCheck.deselect()
# Pack the osmControlFrame
courseSubFrame.pack(padx=5, pady=5, fill=X, expand=True)
backgroundCheck.grid(row=0, columnspan=2, sticky=W, padx=5)
Label(courseSubFrame, text="Background Scale", fg=check_fg, bg=check_bg).grid(row=1, column=0, sticky=W, padx=5)
bgentry.grid(row=1, column=1, sticky=W, padx=5)
lidarTreeCheck.grid(row=2, columnspan=2, sticky=W, padx=5)
treeVarietyCheck.grid(row=3, columnspan=2, sticky=W, padx=5)
fillWaterCheck.grid(row=4, columnspan=2, sticky=W, padx=5)
purgeWaterCheck.grid(row=5, columnspan=2, sticky=W, padx=5)
# Pack the two option frames side by side
osmControlFrame.pack(side=LEFT, anchor=N, padx=5)
courseOptionsFrame.pack(side=LEFT, anchor=N, padx=5, fill=X, expand=True)
# Pack the big frames side by side
courseControlFrame.pack(side=LEFT, padx=5, pady=5, fill=tk.BOTH, expand=True)
courseConsoleOutput.pack(side=LEFT, padx=5, pady=5, fill=tk.BOTH, expand=True)
root.mainloop()