1 files changed, 0 insertions, 548 deletions
diff --git a/mpv/shaders/Anime4K_Upscale_DTD_x2.glsl b/mpv/shaders/Anime4K_Upscale_DTD_x2.glsl
deleted file mode 100644
index abe88fc..0000000
--- a/mpv/shaders/Anime4K_Upscale_DTD_x2.glsl
+++ /dev/null
@@ -1,548 +0,0 @@
-//Anime4K v3.1 GLSL
-
-// MIT License
-
-// Copyright (c) 2019-2020 bloc97
-// All rights reserved.
-
-// Permission is hereby granted, free of charge, to any person obtaining a copy
-// of this software and associated documentation files (the "Software"), to deal
-// in the Software without restriction, including without limitation the rights
-// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-// copies of the Software, and to permit persons to whom the Software is
-// furnished to do so, subject to the following conditions:
-
-// The above copyright notice and this permission notice shall be included in all
-// copies or substantial portions of the Software.
-
-// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-// SOFTWARE.
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!SAVE MMKERNEL
-//!COMPONENTS 1
-
-#define L_tex HOOKED_tex
-
-#define SIGMA 1
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float s = SIGMA * HOOKED_size.y / 1080;
-	float kernel_size = s * 2 + 1;
-	
-	float g = (L_tex(pos).x) * gaussian(0, s, 0);
-	float gn = gaussian(0, s, 0);
-	
-	g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, s, 0);
-	gn += gaussian(1, s, 0) * 2;
-	
-	for (int i=2; i<kernel_size; i++) {
-		g += (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, s, 0);
-		gn += gaussian(i, s, 0) * 2;
-	}
-	
-	return g / gn;
-}
-
-vec4 hook() {
-    return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-//!SAVE MMKERNEL
-//!COMPONENTS 1
-
-#define L_tex MMKERNEL_tex
-
-#define SIGMA 1
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float s = SIGMA * HOOKED_size.y / 1080;
-	float kernel_size = s * 2 + 1;
-	
-	float g = (L_tex(pos).x) * gaussian(0, s, 0);
-	float gn = gaussian(0, s, 0);
-	
-	g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, s, 0);
-	gn += gaussian(1, s, 0) * 2;
-	
-	for (int i=2; i<kernel_size; i++) {
-		g += (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, s, 0);
-		gn += gaussian(i, s, 0) * 2;
-	}
-	
-	return g / gn;
-}
-
-vec4 hook() {
-    return vec4(min(HOOKED_tex(HOOKED_pos).x - lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0));
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-//!SAVE MMKERNEL
-//!COMPONENTS 1
-
-#define L_tex MMKERNEL_tex
-
-#define SIGMA 0.4
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float s = SIGMA * HOOKED_size.y / 1080;
-	float kernel_size = s * 2 + 1;
-	
-	float g = (L_tex(pos).x) * gaussian(0, s, 0);
-	float gn = gaussian(0, s, 0);
-	
-	g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, s, 0);
-	gn += gaussian(1, s, 0) * 2;
-	
-	for (int i=2; i<kernel_size; i++) {
-		g += (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, s, 0);
-		gn += gaussian(i, s, 0) * 2;
-	}
-	
-	return g / gn;
-}
-
-vec4 hook() {
-    return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-//!SAVE MMKERNEL
-//!COMPONENTS 1
-
-#define L_tex MMKERNEL_tex
-
-#define SIGMA 0.4
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float s = SIGMA * HOOKED_size.y / 1080;
-	float kernel_size = s * 2 + 1;
-	
-	float g = (L_tex(pos).x) * gaussian(0, s, 0);
-	float gn = gaussian(0, s, 0);
-	
-	g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, s, 0);
-	gn += gaussian(1, s, 0) * 2;
-	
-	for (int i=2; i<kernel_size; i++) {
-		g += (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, s, 0);
-		gn += gaussian(i, s, 0) * 2;
-	}
-	
-	return g / gn;
-}
-
-vec4 hook() {
-    return vec4(lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y)));
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-
-#define STRENGTH 1.8 //Line darken proportional strength, higher is darker.
-#define L_tex HOOKED_tex
-
-vec4 hook() {
-	float c = (MMKERNEL_tex(HOOKED_pos).x) * STRENGTH;
-	return vec4(clamp(c + L_tex(HOOKED_pos).x, 0, L_tex(HOOKED_pos).x), HOOKED_tex(HOOKED_pos).yz, 0);
-}
-
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!SAVE LUMAD
-//!COMPONENTS 2
-
-#define L_tex NATIVE_tex
-
-vec4 hook() {
-	vec2 d = HOOKED_pt;
-	
-	//[tl  t tr]
-	//[ l  c  r]
-	//[bl  b br]
-	float l = L_tex(HOOKED_pos + vec2(-d.x, 0)).x;
-	float c = L_tex(HOOKED_pos).x;
-	float r = L_tex(HOOKED_pos + vec2(d.x, 0)).x;
-	
-	
-	//Horizontal Gradient
-	//[-1  0  1]
-	//[-2  0  2]
-	//[-1  0  1]
-	float xgrad = (-l + r);
-	
-	//Vertical Gradient
-	//[-1 -2 -1]
-	//[ 0  0  0]
-	//[ 1  2  1]
-	float ygrad = (l + c + c + r);
-	
-	//Computes the luminance's gradient
-	return vec4(xgrad, ygrad, 0, 0);
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD
-//!SAVE LUMAD
-//!COMPONENTS 1
-
-vec4 hook() {
-	vec2 d = HOOKED_pt;
-	
-	//[tl  t tr]
-	//[ l cc  r]
-	//[bl  b br]
-	float tx = LUMAD_tex(HOOKED_pos + vec2(0, -d.y)).x;
-	float cx = LUMAD_tex(HOOKED_pos).x;
-	float bx = LUMAD_tex(HOOKED_pos + vec2(0, d.y)).x;
-	
-	
-	float ty = LUMAD_tex(HOOKED_pos + vec2(0, -d.y)).y;
-	//float cy = LUMAD_tex(HOOKED_pos).y;
-	float by = LUMAD_tex(HOOKED_pos + vec2(0, d.y)).y;
-	
-	
-	//Horizontal Gradient
-	//[-1  0  1]
-	//[-2  0  2]
-	//[-1  0  1]
-	float xgrad = (tx + cx + cx + bx) / 8;
-	
-	//Vertical Gradient
-	//[-1 -2 -1]
-	//[ 0  0  0]
-	//[ 1  2  1]
-	float ygrad = (-ty + by) / 8;
-	
-	//Computes the luminance's gradient
-	float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
-	return vec4(pow(norm, 0.7));
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD
-//!SAVE LUMADG
-//!COMPONENTS 1
-
-#define L_tex LUMAD_tex
-
-#define SIGMA (HOOKED_size.y / 1080) * 2
-#define KERNELSIZE (SIGMA * 2 + 1)
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float g = (L_tex(pos).x) * gaussian(0, SIGMA, 0);
-	g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, SIGMA, 0);
-	for (int i=2; i<KERNELSIZE; i++) {
-		g = g + (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, SIGMA, 0);
-	}
-	
-	return g;
-}
-
-vec4 hook() {
-    return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD
-//!BIND LUMADG
-//!SAVE LUMAD
-//!COMPONENTS 1
-
-#define L_tex LUMADG_tex
-
-#define SIGMA (HOOKED_size.y / 1080) * 2
-#define KERNELSIZE (SIGMA * 2 + 1)
-
-float gaussian(float x, float s, float m) {
-	return (1 / (s * sqrt(2 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
-}
-
-float lumGaussian(vec2 pos, vec2 d) {
-	float g = (L_tex(pos).x) * gaussian(0, SIGMA, 0);
-	g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1, SIGMA, 0);
-	for (int i=2; i<KERNELSIZE; i++) {
-		g = g + (L_tex(pos - (d * i)).x + L_tex(pos + (d * i)).x) * gaussian(i, SIGMA, 0);
-	}
-	
-	return g;
-}
-
-vec4 hook() {
-	float g = lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y));
-    return vec4(g);
-}
-
-
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD
-//!SAVE LUMAD2
-//!COMPONENTS 2
-
-vec4 hook() {
-	vec2 d = HOOKED_pt;
-	
-	//[tl  t tr]
-	//[ l  c  r]
-	//[bl  b br]
-	float l = LUMAD_tex(HOOKED_pos + vec2(-d.x, 0)).x;
-	float c = LUMAD_tex(HOOKED_pos).x;
-	float r = LUMAD_tex(HOOKED_pos + vec2(d.x, 0)).x;
-	
-	
-	//Horizontal Gradient
-	//[-1  0  1]
-	//[-2  0  2]
-	//[-1  0  1]
-	float xgrad = (-l + r);
-	
-	//Vertical Gradient
-	//[-1 -2 -1]
-	//[ 0  0  0]
-	//[ 1  2  1]
-	float ygrad = (l + c + c + r);
-	
-	//Computes the luminance's gradient
-	return vec4(xgrad, ygrad, 0, 0);
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD2
-//!SAVE LUMAD2
-//!COMPONENTS 2
-
-vec4 hook() {
-	vec2 d = HOOKED_pt;
-	
-	//[tl  t tr]
-	//[ l cc  r]
-	//[bl  b br]
-	float tx = LUMAD2_tex(HOOKED_pos + vec2(0, -d.y)).x;
-	float cx = LUMAD2_tex(HOOKED_pos).x;
-	float bx = LUMAD2_tex(HOOKED_pos + vec2(0, d.y)).x;
-	
-	
-	float ty = LUMAD2_tex(HOOKED_pos + vec2(0, -d.y)).y;
-	//float cy = LUMAD2_tex(HOOKED_pos).y;
-	float by = LUMAD2_tex(HOOKED_pos + vec2(0, d.y)).y;
-	
-	
-	//Horizontal Gradient
-	//[-1  0  1]
-	//[-2  0  2]
-	//[-1  0  1]
-	float xgrad = (tx + cx + cx + bx) / 8;
-	
-	//Vertical Gradient
-	//[-1 -2 -1]
-	//[ 0  0  0]
-	//[ 1  2  1]
-	float ygrad = (-ty + by) / 8;
-	
-	//Computes the luminance's gradient
-	return vec4(xgrad, ygrad, 0, 0);
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND LUMAD
-//!BIND LUMAD2
-//!WIDTH OUTPUT.w
-//!HEIGHT OUTPUT.h
-
-#define STRENGTH 0.4 //Strength of warping for each iteration
-#define ITERATIONS 1 //Number of iterations for the forwards solver, decreasing strength and increasing iterations improves quality at the cost of speed.
-
-#define L_tex HOOKED_tex
-
-vec4 hook() {
-	vec2 d = HOOKED_pt;
-	
-	float relstr = HOOKED_size.y / 1080 * STRENGTH;
-	
-	vec2 pos = HOOKED_pos;
-	for (int i=0; i<ITERATIONS; i++) {
-		vec2 dn = LUMAD2_tex(pos).xy;
-		vec2 dd = (dn / (length(dn) + 0.01)) * d * relstr; //Quasi-normalization for large vectors, avoids divide by zero
-		pos -= dd;
-	}
-	
-	return HOOKED_tex(pos);
-	
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(X)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!SAVE MMKERNEL
-//!WIDTH NATIVE.w 2 /
-//!HEIGHT NATIVE.h 2 /
-//!COMPONENTS 3
-
-#define L_tex HOOKED_tex
-
-float max3v(float a, float b, float c) {
-	return max(max(a, b), c);
-}
-float min3v(float a, float b, float c) {
-	return min(min(a, b), c);
-}
-
-vec2 minmax3(vec2 pos, vec2 d) {
-	float a = L_tex(pos - d).x;
-	float b = L_tex(pos).x;
-	float c = L_tex(pos + d).x;
-	
-	return vec2(min3v(a, b, c), max3v(a, b, c));
-}
-
-float lumGaussian7(vec2 pos, vec2 d) {
-	float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
-	g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
-	g = g + (L_tex(pos).x) * 0.38774;
-	
-	return g;
-}
-
-
-vec4 hook() {
-    return vec4(lumGaussian7(HOOKED_pos, vec2(HOOKED_pt.x, 0)), minmax3(HOOKED_pos, vec2(HOOKED_pt.x, 0)), 0);
-}
-
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD-Kernel(Y)
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-//!SAVE MMKERNEL
-//!WIDTH NATIVE.w 2 /
-//!HEIGHT NATIVE.h 2 /
-//!COMPONENTS 3
-
-#define L_tex MMKERNEL_tex
-
-float max3v(float a, float b, float c) {
-	return max(max(a, b), c);
-}
-float min3v(float a, float b, float c) {
-	return min(min(a, b), c);
-}
-
-vec2 minmax3(vec2 pos, vec2 d) {
-	float a0 = L_tex(pos - d).y;
-	float b0 = L_tex(pos).y;
-	float c0 = L_tex(pos + d).y;
-	
-	float a1 = L_tex(pos - d).z;
-	float b1 = L_tex(pos).z;
-	float c1 = L_tex(pos + d).z;
-	
-	return vec2(min3v(a0, b0, c0), max3v(a1, b1, c1));
-}
-
-float lumGaussian7(vec2 pos, vec2 d) {
-	float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
-	g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
-	g = g + (L_tex(pos).x) * 0.38774;
-	
-	return g;
-}
-
-
-vec4 hook() {
-    return vec4(lumGaussian7(HOOKED_pos, vec2(0, HOOKED_pt.y)), minmax3(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0);
-}
-
-//!DESC Anime4K-v3.1-Upscale(x2)-DTD
-//!HOOK NATIVE
-//!BIND HOOKED
-//!BIND MMKERNEL
-
-#define STRENGTH 0.8 //De-blur proportional strength, higher is sharper. However, it is better to tweak BLUR_CURVE instead to avoid ringing.
-#define BLUR_CURVE 0.6 //De-blur power curve, lower is sharper. Good values are between 0.3 - 1. Values greater than 1 softens the image;
-#define BLUR_THRESHOLD 0.1 //Value where curve kicks in, used to not de-blur already sharp edges. Only de-blur values that fall below this threshold.
-#define NOISE_THRESHOLD 0.004 //Value where curve stops, used to not sharpen noise. Only de-blur values that fall above this threshold.
-
-#define L_tex HOOKED_tex
-
-vec4 hook() {
-	float c = (L_tex(HOOKED_pos).x - MMKERNEL_tex(HOOKED_pos).x) * STRENGTH;
-	
-	float t_range = BLUR_THRESHOLD - NOISE_THRESHOLD;
-	
-	float c_t = abs(c);
-	if (c_t > NOISE_THRESHOLD) {
-		c_t = (c_t - NOISE_THRESHOLD) / t_range;
-		c_t = pow(c_t, BLUR_CURVE);
-		c_t = c_t * t_range + NOISE_THRESHOLD;
-		c_t = c_t * sign(c);
-	} else {
-		c_t = c;
-	}
-	return vec4(clamp(c_t + L_tex(HOOKED_pos).x, MMKERNEL_tex(HOOKED_pos).y, MMKERNEL_tex(HOOKED_pos).z), HOOKED_tex(HOOKED_pos).yz, 0);
-}
-
-
-