igv · November 4, 2024 01:29 · rainlycoris · Aug 5, 2024 · rainlycoris · Aug 5, 2024
diff --git a/SSimSuperRes.glsl b/SSimSuperRes.glsl
 // SSimSuperRes by Shiandow
 //
 // This library is free software; you can redistribute it and/or
 // modify it under the terms of the GNU Lesser General Public
 // License as published by the Free Software Foundation; either
 // version 3.0 of the License, or (at your option) any later version.
 // 
 // This library is distributed in the hope that it will be useful,
 // but WITHOUT ANY WARRANTY; without even the implied warranty of
 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 // Lesser General Public License for more details.
 // 
 // You should have received a copy of the GNU Lesser General Public
 // License along with this library.

 //!HOOK POSTKERNEL
 //!BIND HOOKED
 //!SAVE LOWRES
 //!HEIGHT NATIVE_CROPPED.h
 //!WHEN NATIVE_CROPPED.h OUTPUT.h <
 //!COMPONENTS 4
 //!DESC SSSR Downscaling I

 #define axis        1

 #define offset      vec2(0,0)

 #define MN(B,C,x)   (x < 1.0 ? ((2.-1.5*B-(C))*x + (-3.+2.*B+C))*x*x + (1.-(B)/3.) : (((-(B)/6.-(C))*x + (B+5.*C))*x + (-2.*B-8.*C))*x+((4./3.)*B+4.*C))
 #define Kernel(x)   MN(0.334, 0.333, abs(x))
 #define taps        2.0

 #define Luma(rgb)   dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

 vec4 hook() {
    float low  = ceil((HOOKED_pos - taps/input_size) * HOOKED_size - offset - 0.5)[axis];
    float high = floor((HOOKED_pos + taps/input_size) * HOOKED_size - offset - 0.5)[axis];

    float W = 0.0;
    vec4 avg = vec4(0);
    vec2 pos = HOOKED_pos;
    vec4 tex;

    for (float k = low; k <= high; k++) {
        pos[axis] = HOOKED_pt[axis] * (k - offset[axis] + 0.5);
        float rel = (pos[axis] - HOOKED_pos[axis])*input_size[axis];
        float w = Kernel(rel);

        tex.rgb = textureLod(HOOKED_raw, pos, 0.0).rgb * HOOKED_mul;
        tex.a = Luma(tex.rgb);
        avg += w * tex;
        W += w;
    }
    avg /= W;

    return vec4(avg.rgb, max(abs(avg.a - Luma(avg.rgb)), 5e-7));
 }

 //!HOOK POSTKERNEL
 //!BIND LOWRES
 //!SAVE LOWRES
 //!WIDTH NATIVE_CROPPED.w
 //!HEIGHT NATIVE_CROPPED.h
 //!WHEN NATIVE_CROPPED.w OUTPUT.w <
 //!COMPONENTS 4
 //!DESC SSSR Downscaling II

 #define axis        0

 #define offset      vec2(0,0)

 #define MN(B,C,x)   (x < 1.0 ? ((2.-1.5*B-(C))*x + (-3.+2.*B+C))*x*x + (1.-(B)/3.) : (((-(B)/6.-(C))*x + (B+5.*C))*x + (-2.*B-8.*C))*x+((4./3.)*B+4.*C))
 #define Kernel(x)   MN(0.334, 0.333, abs(x))
 #define taps        2.0

 #define Luma(rgb)   dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

 vec4 hook() {
    float low  = ceil((LOWRES_pos - taps/input_size) * LOWRES_size - offset - 0.5)[axis];
    float high = floor((LOWRES_pos + taps/input_size) * LOWRES_size - offset - 0.5)[axis];

    float W = 0.0;
    vec4 avg = vec4(0);
    vec2 pos = LOWRES_pos;
    vec4 tex;

    for (float k = low; k <= high; k++) {
        pos[axis] = LOWRES_pt[axis] * (k - offset[axis] + 0.5);
        float rel = (pos[axis] - LOWRES_pos[axis])*input_size[axis];
        float w = Kernel(rel);

        tex.rgb = textureLod(LOWRES_raw, pos, 0.0).rgb * LOWRES_mul;
        tex.a = Luma(tex.rgb);
        avg += w * tex;
        W += w;
    }
    avg /= W;

    return vec4(avg.rgb, max(abs(avg.a - Luma(avg.rgb)), 5e-7) + LOWRES_texOff(0).a);
 }

 //!HOOK POSTKERNEL
 //!BIND PREKERNEL
 //!BIND LOWRES
 //!SAVE var
 //!WIDTH NATIVE_CROPPED.w
 //!HEIGHT NATIVE_CROPPED.h
 //!WHEN NATIVE_CROPPED.h OUTPUT.h <
 //!COMPONENTS 2
 //!DESC SSSR var

 #define spread      1.0 / 4.0

 #define GetL(x,y)   PREKERNEL_tex(PREKERNEL_pt * (PREKERNEL_pos * input_size + tex_offset + vec2(x,y))).rgb
 #define GetH(x,y)   LOWRES_texOff(vec2(x,y)).rgb

 #define Luma(rgb)   dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))
 #define diff(x,y)   vec2(Luma((GetL(x,y) - meanL)), Luma((GetH(x,y) - meanH)))

 vec4 hook() {
    vec3 meanL = GetL(0,0);
    vec3 meanH = GetH(0,0);
    for (int X=-1; X<=1; X+=2) {
        meanL += GetL(X,0) * spread;
        meanH += GetH(X,0) * spread;
    }
    for (int Y=-1; Y<=1; Y+=2) {
        meanL += GetL(0,Y) * spread;
        meanH += GetH(0,Y) * spread;
    }
    meanL /= (1.0 + 4.0*spread);
    meanH /= (1.0 + 4.0*spread);

    vec2 var = diff(0,0);
    for (int X=-1; X<=1; X+=2)
        var += diff(X,0) * spread;

    for (int Y=-1; Y<=1; Y+=2)
        var += diff(0,Y) * spread;

    return vec4(max(var / (1.0 + 4.0*spread), vec2(1e-6)), 0, 0);
 }

 //!HOOK POSTKERNEL
 //!BIND HOOKED
 //!BIND PREKERNEL
 //!BIND LOWRES
 //!BIND var
 //!WHEN NATIVE_CROPPED.h OUTPUT.h <
 //!DESC SSSR final pass

 #define oversharp   0.5

 // -- Window Size --
 #define taps        3.0
 #define even        (taps - 2.0 * floor(taps / 2.0) == 0.0)
 #define minX        int(1.0-ceil(taps/2.0))
 #define maxX        int(floor(taps/2.0))

 #define Kernel(x)   cos(acos(-1.0)*(x)/taps) // Hann kernel

 // -- Input processing --
 #define var(x,y)    var_tex(var_pt * (pos + vec2(x,y) + 0.5)).rg
 #define GetL(x,y)   PREKERNEL_tex(PREKERNEL_pt * (pos + tex_offset + vec2(x,y) + 0.5)).rgb
 #define GetH(x,y)   LOWRES_tex(LOWRES_pt * (pos + vec2(x,y) + 0.5))

 #define Luma(rgb)   dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

 vec4 hook() {
    vec4 c0 = HOOKED_texOff(0);

    vec2 pos = HOOKED_pos * LOWRES_size - vec2(0.5);
    vec2 offset = pos - (even ? floor(pos) : round(pos));
    pos -= offset;

    vec2 mVar = vec2(0.0);
    for (int X=-1; X<=1; X++)
    for (int Y=-1; Y<=1; Y++) {
        vec2 w = clamp(1.5 - abs(vec2(X,Y)), 0.0, 1.0);
        mVar += w.r * w.g * vec2(GetH(X,Y).a, 1.0);
    }
    mVar.r /= mVar.g;

    // Calculate faithfulness force
    float weightSum = 0.0;
    vec3 diff = vec3(0);

    for (int X = minX; X <= maxX; X++)
    for (int Y = minX; Y <= maxX; Y++)
    {
        float R = (-1.0 - oversharp) * sqrt(var(X,Y).r / (var(X,Y).g + mVar.r));

        vec2 krnl = Kernel(vec2(X,Y) - offset);
        float weight = krnl.r * krnl.g / (Luma((c0.rgb - GetH(X,Y).rgb)) + GetH(X,Y).a);

        diff += weight * (GetL(X,Y) + GetH(X,Y).rgb * R + (-1.0 - R) * (c0.rgb));
        weightSum += weight;
    }
    diff /= weightSum;

    c0.rgb = ((c0.rgb) + diff);

    return c0;
 }
	// SSimSuperRes by Shiandow
	//
	// This library is free software; you can redistribute it and/or
	// modify it under the terms of the GNU Lesser General Public
	// License as published by the Free Software Foundation; either
	// version 3.0 of the License, or (at your option) any later version.
	//
	// This library is distributed in the hope that it will be useful,
	// but WITHOUT ANY WARRANTY; without even the implied warranty of
	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	// Lesser General Public License for more details.
	//
	// You should have received a copy of the GNU Lesser General Public
	// License along with this library.

	//!HOOK POSTKERNEL
	//!BIND HOOKED
	//!SAVE LOWRES
	//!HEIGHT NATIVE_CROPPED.h
	//!WHEN NATIVE_CROPPED.h OUTPUT.h <
	//!COMPONENTS 4
	//!DESC SSSR Downscaling I

	#define axis 1

	#define offset vec2(0,0)

	#define MN(B,C,x) (x < 1.0 ? ((2.-1.5B-(C))x + (-3.+2.B+C))xx + (1.-(B)/3.) : (((-(B)/6.-(C))x + (B+5.C))x + (-2.B-8.C))x+((4./3.)B+4.*C))
	#define Kernel(x) MN(0.334, 0.333, abs(x))
	#define taps 2.0

	#define Luma(rgb) dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

	vec4 hook() {
	float low = ceil((HOOKED_pos - taps/input_size) * HOOKED_size - offset - 0.5)[axis];
	float high = floor((HOOKED_pos + taps/input_size) * HOOKED_size - offset - 0.5)[axis];

	float W = 0.0;
	vec4 avg = vec4(0);
	vec2 pos = HOOKED_pos;
	vec4 tex;

	for (float k = low; k <= high; k++) {
	pos[axis] = HOOKED_pt[axis] * (k - offset[axis] + 0.5);
	float rel = (pos[axis] - HOOKED_pos[axis])*input_size[axis];
	float w = Kernel(rel);

	tex.rgb = textureLod(HOOKED_raw, pos, 0.0).rgb * HOOKED_mul;
	tex.a = Luma(tex.rgb);
	avg += w * tex;
	W += w;
	}
	avg /= W;

	return vec4(avg.rgb, max(abs(avg.a - Luma(avg.rgb)), 5e-7));
	}

	//!HOOK POSTKERNEL
	//!BIND LOWRES
	//!SAVE LOWRES
	//!WIDTH NATIVE_CROPPED.w
	//!HEIGHT NATIVE_CROPPED.h
	//!WHEN NATIVE_CROPPED.w OUTPUT.w <
	//!COMPONENTS 4
	//!DESC SSSR Downscaling II

	#define axis 0

	#define offset vec2(0,0)

	#define MN(B,C,x) (x < 1.0 ? ((2.-1.5B-(C))x + (-3.+2.B+C))xx + (1.-(B)/3.) : (((-(B)/6.-(C))x + (B+5.C))x + (-2.B-8.C))x+((4./3.)B+4.*C))
	#define Kernel(x) MN(0.334, 0.333, abs(x))
	#define taps 2.0

	#define Luma(rgb) dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

	vec4 hook() {
	float low = ceil((LOWRES_pos - taps/input_size) * LOWRES_size - offset - 0.5)[axis];
	float high = floor((LOWRES_pos + taps/input_size) * LOWRES_size - offset - 0.5)[axis];

	float W = 0.0;
	vec4 avg = vec4(0);
	vec2 pos = LOWRES_pos;
	vec4 tex;

	for (float k = low; k <= high; k++) {
	pos[axis] = LOWRES_pt[axis] * (k - offset[axis] + 0.5);
	float rel = (pos[axis] - LOWRES_pos[axis])*input_size[axis];
	float w = Kernel(rel);

	tex.rgb = textureLod(LOWRES_raw, pos, 0.0).rgb * LOWRES_mul;
	tex.a = Luma(tex.rgb);
	avg += w * tex;
	W += w;
	}
	avg /= W;

	return vec4(avg.rgb, max(abs(avg.a - Luma(avg.rgb)), 5e-7) + LOWRES_texOff(0).a);
	}

	//!HOOK POSTKERNEL
	//!BIND PREKERNEL
	//!BIND LOWRES
	//!SAVE var
	//!WIDTH NATIVE_CROPPED.w
	//!HEIGHT NATIVE_CROPPED.h
	//!WHEN NATIVE_CROPPED.h OUTPUT.h <
	//!COMPONENTS 2
	//!DESC SSSR var

	#define spread 1.0 / 4.0

	#define GetL(x,y) PREKERNEL_tex(PREKERNEL_pt * (PREKERNEL_pos * input_size + tex_offset + vec2(x,y))).rgb
	#define GetH(x,y) LOWRES_texOff(vec2(x,y)).rgb

	#define Luma(rgb) dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))
	#define diff(x,y) vec2(Luma((GetL(x,y) - meanL)), Luma((GetH(x,y) - meanH)))

	vec4 hook() {
	vec3 meanL = GetL(0,0);
	vec3 meanH = GetH(0,0);
	for (int X=-1; X<=1; X+=2) {
	meanL += GetL(X,0) * spread;
	meanH += GetH(X,0) * spread;
	}
	for (int Y=-1; Y<=1; Y+=2) {
	meanL += GetL(0,Y) * spread;
	meanH += GetH(0,Y) * spread;
	}
	meanL /= (1.0 + 4.0*spread);
	meanH /= (1.0 + 4.0*spread);

	vec2 var = diff(0,0);
	for (int X=-1; X<=1; X+=2)
	var += diff(X,0) * spread;

	for (int Y=-1; Y<=1; Y+=2)
	var += diff(0,Y) * spread;

	return vec4(max(var / (1.0 + 4.0*spread), vec2(1e-6)), 0, 0);
	}

	//!HOOK POSTKERNEL
	//!BIND HOOKED
	//!BIND PREKERNEL
	//!BIND LOWRES
	//!BIND var
	//!WHEN NATIVE_CROPPED.h OUTPUT.h <
	//!DESC SSSR final pass

	#define oversharp 0.5

	// -- Window Size --
	#define taps 3.0
	#define even (taps - 2.0 * floor(taps / 2.0) == 0.0)
	#define minX int(1.0-ceil(taps/2.0))
	#define maxX int(floor(taps/2.0))

	#define Kernel(x) cos(acos(-1.0)*(x)/taps) // Hann kernel

	// -- Input processing --
	#define var(x,y) var_tex(var_pt * (pos + vec2(x,y) + 0.5)).rg
	#define GetL(x,y) PREKERNEL_tex(PREKERNEL_pt * (pos + tex_offset + vec2(x,y) + 0.5)).rgb
	#define GetH(x,y) LOWRES_tex(LOWRES_pt * (pos + vec2(x,y) + 0.5))

	#define Luma(rgb) dot(rgb*rgb, vec3(0.2126, 0.7152, 0.0722))

	vec4 hook() {
	vec4 c0 = HOOKED_texOff(0);

	vec2 pos = HOOKED_pos * LOWRES_size - vec2(0.5);
	vec2 offset = pos - (even ? floor(pos) : round(pos));
	pos -= offset;

	vec2 mVar = vec2(0.0);
	for (int X=-1; X<=1; X++)
	for (int Y=-1; Y<=1; Y++) {
	vec2 w = clamp(1.5 - abs(vec2(X,Y)), 0.0, 1.0);
	mVar += w.r * w.g * vec2(GetH(X,Y).a, 1.0);
	}
	mVar.r /= mVar.g;

	// Calculate faithfulness force
	float weightSum = 0.0;
	vec3 diff = vec3(0);

	for (int X = minX; X <= maxX; X++)
	for (int Y = minX; Y <= maxX; Y++)
	{
	float R = (-1.0 - oversharp) * sqrt(var(X,Y).r / (var(X,Y).g + mVar.r));

	vec2 krnl = Kernel(vec2(X,Y) - offset);
	float weight = krnl.r * krnl.g / (Luma((c0.rgb - GetH(X,Y).rgb)) + GetH(X,Y).a);

	diff += weight * (GetL(X,Y) + GetH(X,Y).rgb * R + (-1.0 - R) * (c0.rgb));
	weightSum += weight;
	}
	diff /= weightSum;

	c0.rgb = ((c0.rgb) + diff);

	return c0;
	}