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No more globals in shaders

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This commit is contained in:
Lior Halphon 2018-06-15 18:22:09 +03:00
parent c6dba26d02
commit da7c32cb10
14 changed files with 45 additions and 45 deletions
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12
Shaders/AAOmniScaleLegacy.fsh
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@ -4,7 +4,7 @@ float quickDistance(vec4 a, vec4 b)
return abs(a.x - b.x) + abs(a.y - b.y) + abs(a.z - b.z); return abs(a.x - b.x) + abs(a.y - b.y) + abs(a.z - b.z);
} }
vec4 omniScale(sampler2D image, vec2 position) vec4 omniScale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pixel = position * input_resolution - vec2(0.5, 0.5); vec2 pixel = position * input_resolution - vec2(0.5, 0.5);
@ -104,15 +104,15 @@ vec4 omniScale(sampler2D image, vec2 position)
return q22; return q22;
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pixel = vec2(1.0, 1.0) / output_resolution; vec2 pixel = vec2(1.0, 1.0) / output_resolution;
// 4-pixel super sampling // 4-pixel super sampling
vec4 q11 = omniScale(image, position + pixel * vec2(-0.25, -0.25)); vec4 q11 = omniScale(image, position + pixel * vec2(-0.25, -0.25), input_resolution, output_resolution);
vec4 q21 = omniScale(image, position + pixel * vec2(+0.25, -0.25)); vec4 q21 = omniScale(image, position + pixel * vec2(+0.25, -0.25), input_resolution, output_resolution);
vec4 q12 = omniScale(image, position + pixel * vec2(-0.25, +0.25)); vec4 q12 = omniScale(image, position + pixel * vec2(-0.25, +0.25), input_resolution, output_resolution);
vec4 q22 = omniScale(image, position + pixel * vec2(+0.25, +0.25)); vec4 q22 = omniScale(image, position + pixel * vec2(+0.25, +0.25), input_resolution, output_resolution);
return (q11 + q21 + q12 + q22) / 4.0; return (q11 + q21 + q12 + q22) / 4.0;
} }

6
Shaders/AAScale2x.fsh
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@ -1,4 +1,4 @@
vec4 scale2x(sampler2D image, vec2 position) vec4 scale2x(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;
@ -38,7 +38,7 @@ vec4 scale2x(sampler2D image, vec2 position)
} }
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
return mix(texture(image, position), scale2x(image, position), 0.5); return mix(texture(image, position), scale2x(image, position, input_resolution, output_resolution), 0.5);
} }

26
Shaders/AAScale4x.fsh
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@ -1,4 +1,4 @@
vec4 scale2x(sampler2D image, vec2 position) vec4 scale2x(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;
@ -37,12 +37,12 @@ vec4 scale2x(sampler2D image, vec2 position)
} }
} }
vec4 aaScale2x(sampler2D image, vec2 position) vec4 aaScale2x(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
return mix(texture(image, position), scale2x(image, position), 0.5); return mix(texture(image, position), scale2x(image, position, input_resolution, output_resolution), 0.5);
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / (input_resolution * 2.); vec2 o = 1.0 / (input_resolution * 2.);
@ -51,15 +51,15 @@ vec4 scale(sampler2D image, vec2 position)
// A B C // A B C
// D E F // D E F
// G H I // G H I
vec4 A = aaScale2x(image, position + vec2( -o.x, o.y)); vec4 A = aaScale2x(image, position + vec2( -o.x, o.y), input_resolution, output_resolution);
vec4 B = aaScale2x(image, position + vec2( 0, o.y)); vec4 B = aaScale2x(image, position + vec2( 0, o.y), input_resolution, output_resolution);
vec4 C = aaScale2x(image, position + vec2( o.x, o.y)); vec4 C = aaScale2x(image, position + vec2( o.x, o.y), input_resolution, output_resolution);
vec4 D = aaScale2x(image, position + vec2( -o.x, 0)); vec4 D = aaScale2x(image, position + vec2( -o.x, 0), input_resolution, output_resolution);
vec4 E = aaScale2x(image, position + vec2( 0, 0)); vec4 E = aaScale2x(image, position + vec2( 0, 0), input_resolution, output_resolution);
vec4 F = aaScale2x(image, position + vec2( o.x, 0)); vec4 F = aaScale2x(image, position + vec2( o.x, 0), input_resolution, output_resolution);
vec4 G = aaScale2x(image, position + vec2( -o.x, -o.y)); vec4 G = aaScale2x(image, position + vec2( -o.x, -o.y), input_resolution, output_resolution);
vec4 H = aaScale2x(image, position + vec2( 0, -o.y)); vec4 H = aaScale2x(image, position + vec2( 0, -o.y), input_resolution, output_resolution);
vec4 I = aaScale2x(image, position + vec2( o.x, -o.y)); vec4 I = aaScale2x(image, position + vec2( o.x, -o.y), input_resolution, output_resolution);
vec4 R; vec4 R;
vec2 p = position * input_resolution * 2.; vec2 p = position * input_resolution * 2.;
// p = the position within a pixel [0...1] // p = the position within a pixel [0...1]

2
Shaders/Bilinear.fsh
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@ -1,4 +1,4 @@
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pixel = position * input_resolution - vec2(0.5, 0.5); vec2 pixel = position * input_resolution - vec2(0.5, 0.5);

2
Shaders/HQ2x.fsh
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@ -27,7 +27,7 @@ vec4 interp_3px(vec4 c1, float w1, vec4 c2, float w2, vec4 c3, float w3)
return (c1 * w1 + c2 * w2 + c3 * w3) / (w1 + w2 + w3); return (c1 * w1 + c2 * w2 + c3 * w3) / (w1 + w2 + w3);
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;

2
Shaders/LCD.fsh
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@ -2,7 +2,7 @@
#define COLOR_HIGH 1.0 #define COLOR_HIGH 1.0
#define SCANLINE_DEPTH 0.1 #define SCANLINE_DEPTH 0.1
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pos = fract(position * input_resolution); vec2 pos = fract(position * input_resolution);
vec2 sub_pos = fract(position * input_resolution * 6); vec2 sub_pos = fract(position * input_resolution * 6);

6
Shaders/MasterShader.fsh
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@ -9,7 +9,6 @@ const vec2 input_resolution = vec2(160, 144);
out vec4 frag_color; out vec4 frag_color;
vec4 modified_frag_cord;
#line 1 #line 1
{filter} {filter}
@ -20,9 +19,10 @@ void main()
position.y = 1 - position.y; position.y = 1 - position.y;
if (mix_previous) { if (mix_previous) {
frag_color = mix(scale(image, position), scale(previous_image, position), 0.5); frag_color = mix(scale(image, position, input_resolution, output_resolution),
scale(previous_image, position, input_resolution, output_resolution), 0.5);
} }
else { else {
frag_color = scale(image, position); frag_color = scale(image, position, input_resolution, output_resolution);
} }
} }

2
Shaders/MasterShader.metal
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@ -3,7 +3,7 @@
#include <metal_math> #include <metal_math>
using namespace metal; using namespace metal;
const float4 input_resolution = float4(160, 144); constant float2 input_resolution = float2(160, 144);
/* For GLSL compatibility */ /* For GLSL compatibility */
typedef float2 vec2; typedef float2 vec2;

2
Shaders/NearestNeighbor.fsh
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@ -1,4 +1,4 @@
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
return texture(image, position); return texture(image, position);
} }

2
Shaders/OmniScale.fsh
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@ -24,7 +24,7 @@ bool is_different(vec4 a, vec4 b)
#define P(m, r) ((pattern & (m)) == (r)) #define P(m, r) ((pattern & (m)) == (r))
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;

2
Shaders/OmniScaleLegacy.fsh
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@ -4,7 +4,7 @@ float quickDistance(vec4 a, vec4 b)
return abs(a.x - b.x) + abs(a.y - b.y) + abs(a.z - b.z); return abs(a.x - b.x) + abs(a.y - b.y) + abs(a.z - b.z);
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pixel = position * input_resolution - vec2(0.5, 0.5); vec2 pixel = position * input_resolution - vec2(0.5, 0.5);

2
Shaders/Scale2x.fsh
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@ -1,6 +1,6 @@
/* Shader implementation of Scale2x is adapted from https://gist.github.com/singron/3161079 */ /* Shader implementation of Scale2x is adapted from https://gist.github.com/singron/3161079 */
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;

22
Shaders/Scale4x.fsh
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@ -1,4 +1,4 @@
vec4 scale2x(sampler2D image, vec2 position) vec4 scale2x(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / input_resolution; vec2 o = 1.0 / input_resolution;
@ -38,7 +38,7 @@ vec4 scale2x(sampler2D image, vec2 position)
} }
} }
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
// o = offset, the width of a pixel // o = offset, the width of a pixel
vec2 o = 1.0 / (input_resolution * 2.); vec2 o = 1.0 / (input_resolution * 2.);
@ -47,15 +47,15 @@ vec4 scale(sampler2D image, vec2 position)
// A B C // A B C
// D E F // D E F
// G H I // G H I
vec4 A = scale2x(image, position + vec2( -o.x, o.y)); vec4 A = scale2x(image, position + vec2( -o.x, o.y), input_resolution, output_resolution);
vec4 B = scale2x(image, position + vec2( 0, o.y)); vec4 B = scale2x(image, position + vec2( 0, o.y), input_resolution, output_resolution);
vec4 C = scale2x(image, position + vec2( o.x, o.y)); vec4 C = scale2x(image, position + vec2( o.x, o.y), input_resolution, output_resolution);
vec4 D = scale2x(image, position + vec2( -o.x, 0)); vec4 D = scale2x(image, position + vec2( -o.x, 0), input_resolution, output_resolution);
vec4 E = scale2x(image, position + vec2( 0, 0)); vec4 E = scale2x(image, position + vec2( 0, 0), input_resolution, output_resolution);
vec4 F = scale2x(image, position + vec2( o.x, 0)); vec4 F = scale2x(image, position + vec2( o.x, 0), input_resolution, output_resolution);
vec4 G = scale2x(image, position + vec2( -o.x, -o.y)); vec4 G = scale2x(image, position + vec2( -o.x, -o.y), input_resolution, output_resolution);
vec4 H = scale2x(image, position + vec2( 0, -o.y)); vec4 H = scale2x(image, position + vec2( 0, -o.y), input_resolution, output_resolution);
vec4 I = scale2x(image, position + vec2( o.x, -o.y)); vec4 I = scale2x(image, position + vec2( o.x, -o.y), input_resolution, output_resolution);
vec2 p = position * input_resolution * 2.; vec2 p = position * input_resolution * 2.;
// p = the position within a pixel [0...1] // p = the position within a pixel [0...1]
p = fract(p); p = fract(p);

2
Shaders/SmoothBilinear.fsh
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@ -1,4 +1,4 @@
vec4 scale(sampler2D image, vec2 position) vec4 scale(sampler2D image, vec2 position, vec2 input_resolution, vec2 output_resolution)
{ {
vec2 pixel = position * input_resolution - vec2(0.5, 0.5); vec2 pixel = position * input_resolution - vec2(0.5, 0.5);