Video/Image filter to undo upscaling.
Includes a VapourSynth and AviSynth+ plugin
The VapourSynth plugin itself supports every constant input format. If the format is subsampled, left-aligned chroma planes are always assumed.
The included python wrapper, contrary to using the plugin directly, doesn't descale the chroma planes but scales them normally with Spline36
.
descale.Debilinear(clip src, int width, int height, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Debicubic(clip src, int width, int height, float b=0.0, float c=0.5, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Delanczos(clip src, int width, int height, int taps=3, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Despline16(clip src, int width, int height, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Despline36(clip src, int width, int height, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Despline64(clip src, int width, int height, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
descale.Descale(clip src, int width, int height, str kernel, func custom_kernel, int taps=3, float b=0.0, float c=0.0, float src_left=0.0, float src_top=0.0, float src_width=width, float src_height=height, int border_handling=0, bool force=false, bool force_h=false, bool force_v=false, int opt=0)
The AviSynth+ plugin is used similarly, but without the descale
namespace.
Custom kernels are only supported in the VapourSynth plugin.
# Debilinear
core.descale.Descale(src, w, h, custom_kernel=lambda x: 1.0 - x, taps=1)
# Delanczos
import math
def sinc(x):
return 1.0 if x == 0 else math.sin(x * math.pi) / (x * math.pi)
taps = 3
core.descale.Descale(src, w, h, custom_kernel=lambda x: sinc(x) * sinc(x / taps), taps=taps)
# You can also use the python wrapper instead of calling the plugin functions directly
import descale
descale.Decustom(src, w, h, lambda x: 1.0 - x, taps=1)
Resampling can be described as A x = b
.
A is an n x m matrix with m
being the input dimension and n
the output dimension. x
is the original vector with m
elements, b
is the vector after resampling with n
elements. We want to solve this equation for x
.
To do this, we extend the equation with the transpose of A: A' A x = A' b
.
A' A
is now a banded symmetrical m x m matrix and A' b
is a vector with m
elements.
This enables us to use LDLT decomposition on A' A
to get LD L' = A' A
. LD
and L
are both triangular matrices.
Then we solve LD y = A' b
with forward substitution, and finally L' x = y
with back substitution.
We now have the original vector x
.
By default only the VapourSynth plugin is compiled.
To build the AviSynth+ plugin, add -Dlibtype=avisynth
or -Dlibtype=both
to the meson command below.
$ meson build
$ ninja -C build
$ meson build --cross-file cross-mingw-x86_64.txt
$ ninja -C build