mirror of
https://github.com/italicsjenga/slang-shaders.git
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171 lines
5.7 KiB
Plaintext
171 lines
5.7 KiB
Plaintext
#version 450
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/*
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* Bandlimited pixel footprint shader.
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* Author: Themaister
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* License: MIT
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* Adapted from: https://github.com/Themaister/Granite/blob/master/assets/shaders/inc/bandlimited_pixel_filter.h
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*/
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precision highp float;
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precision highp int;
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layout(std140, set = 0, binding = 0) uniform UBO
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{
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mat4 MVP;
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vec4 SourceSize;
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float SMOOTHNESS;
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} global;
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#pragma parameter SMOOTHNESS "Smoothness" 0.5 0.0 5.0 0.1
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#pragma stage vertex
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layout(location = 0) in vec4 Position;
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layout(location = 1) in vec2 TexCoord;
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layout(location = 0) out vec2 vTexCoord;
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void main()
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{
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gl_Position = global.MVP * Position;
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vTexCoord = TexCoord;
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}
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#pragma stage fragment
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layout(location = 0) in vec2 vTexCoord;
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layout(location = 0) out mediump vec4 FragColor;
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layout(set = 0, binding = 1) uniform mediump sampler2D Source;
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// The cosine filter convolved with rect has a support of 0.5 + d pixels.
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// We can sample 4x4 regions, so we can deal with 2.0 pixel range in our filter,
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// and the maximum extent value we can have is 1.5.
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const float maximum_support_extent = 1.5;
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struct BandlimitedPixelInfo
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{
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vec2 uv0;
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vec2 uv1;
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vec2 uv2;
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vec2 uv3;
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mediump vec4 weights;
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mediump float l;
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};
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// Our Taylor approximation is not exact, normalize so the peak is 1.
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const float taylor_pi_half = 1.00452485553;
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const float taylor_normalization = 1.0 / taylor_pi_half;
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const float PI = 3.14159265359;
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const float PI_half = 0.5 * PI;
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#define gen_taylor(T) \
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mediump T taylor_sin(mediump T p) \
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{ \
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mediump T p2 = p * p; \
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mediump T p3 = p * p2; \
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mediump T p5 = p2 * p3; \
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return clamp(taylor_normalization * (p - p3 * (1.0 / 6.0) + p5 * (1.0 / 120.0)), -1.0, 1.0); \
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}
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// No templates in GLSL. Stamp out macros.
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gen_taylor(float)
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gen_taylor(vec2)
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gen_taylor(vec3)
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gen_taylor(vec4)
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// Given weights, compute a bilinear filter which implements the weight.
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// All weights are known to be non-negative, and separable.
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mediump vec3 compute_uv_phase_weight(mediump vec2 weights_u, mediump vec2 weights_v)
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{
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// The sum of a bilinear sample has combined weight of 1, we will need to adjust the resulting sample
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// to match our actual weight sum.
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mediump float w = dot(weights_u.xyxy, weights_v.xxyy);
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mediump float x = weights_u.y / max(weights_u.x + weights_u.y, 0.001);
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mediump float y = weights_v.y / max(weights_v.x + weights_v.y, 0.001);
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return vec3(x, y, w);
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}
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BandlimitedPixelInfo compute_pixel_weights(vec2 uv, vec2 size, vec2 inv_size)
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{
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// Get derivatives in texel space.
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// Need a non-zero derivative.
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vec2 extent = max(fwidth(uv) * size * (global.SMOOTHNESS + 0.5), 1.0 / 256.0);
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// Get base pixel and phase, range [0, 1).
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vec2 pixel = uv * size - 0.5;
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vec2 base_pixel = floor(pixel);
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vec2 phase = pixel - base_pixel;
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BandlimitedPixelInfo info;
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mediump vec2 inv_extent = 1.0 / extent;
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if (any(greaterThan(extent, vec2(maximum_support_extent))))
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{
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// We need to just do regular minimization filtering.
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info = BandlimitedPixelInfo(vec2(0.0), vec2(0.0), vec2(0.0), vec2(0.0),
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vec4(0.0, 0.0, 0.0, 0.0), 0.0);
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}
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else if (all(lessThanEqual(extent, vec2(0.5))))
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{
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// We can resolve the filter by just sampling a single 2x2 block.
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mediump vec2 shift = 0.5 + 0.5 * taylor_sin(PI_half * clamp(inv_extent * (phase - 0.5), -1.0, 1.0));
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info = BandlimitedPixelInfo((base_pixel + 0.5 + shift) * inv_size, vec2(0.0), vec2(0.0), vec2(0.0),
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vec4(1.0, 0.0, 0.0, 0.0), 1.0);
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}
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else
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{
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// Full 4x4 sampling.
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// Fade between bandlimited and normal sampling.
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// Fully use bandlimited filter at LOD 0, normal filtering at approx. LOD -0.5.
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mediump float max_extent = max(extent.x, extent.y);
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mediump float l = clamp(1.0 - (max_extent - 1.0) / (maximum_support_extent - 1.0), 0.0, 1.0);
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mediump vec4 sine_phases_x = PI_half * clamp(inv_extent.x * (phase.x + vec4(1.5, 0.5, -0.5, -1.5)), -1.0, 1.0);
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mediump vec4 sines_x = taylor_sin(sine_phases_x);
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mediump vec4 sine_phases_y = PI_half * clamp(inv_extent.y * (phase.y + vec4(1.5, 0.5, -0.5, -1.5)), -1.0, 1.0);
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mediump vec4 sines_y = taylor_sin(sine_phases_y);
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mediump vec2 sine_phases_end = PI_half * clamp(inv_extent * (phase - 2.5), -1.0, 1.0);
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mediump vec2 sines_end = taylor_sin(sine_phases_end);
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mediump vec4 weights_x = 0.5 * (sines_x - vec4(sines_x.yzw, sines_end.x));
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mediump vec4 weights_y = 0.5 * (sines_y - vec4(sines_y.yzw, sines_end.y));
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mediump vec3 w0 = compute_uv_phase_weight(weights_x.xy, weights_y.xy);
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mediump vec3 w1 = compute_uv_phase_weight(weights_x.zw, weights_y.xy);
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mediump vec3 w2 = compute_uv_phase_weight(weights_x.xy, weights_y.zw);
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mediump vec3 w3 = compute_uv_phase_weight(weights_x.zw, weights_y.zw);
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info = BandlimitedPixelInfo((base_pixel - 0.5 + w0.xy) * inv_size,
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(base_pixel + vec2(1.5, -0.5) + w1.xy) * inv_size,
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(base_pixel + vec2(-0.5, 1.5) + w2.xy) * inv_size,
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(base_pixel + 1.5 + w3.xy) * inv_size,
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vec4(w0.z, w1.z, w2.z, w3.z), l);
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}
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return info;
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}
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mediump vec4 sample_bandlimited_pixel(sampler2D samp, vec2 uv, BandlimitedPixelInfo info, float lod)
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{
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mediump vec4 color = texture(samp, uv);
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if (info.l > 0.0)
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{
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mediump vec4 bandlimited = info.weights.x * textureLod(samp, info.uv0, lod);
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if (info.weights.x < 1.0)
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{
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bandlimited += info.weights.y * textureLod(samp, info.uv1, lod);
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bandlimited += info.weights.z * textureLod(samp, info.uv2, lod);
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bandlimited += info.weights.w * textureLod(samp, info.uv3, lod);
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}
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color = mix(color, bandlimited, info.l);
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}
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return color;
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}
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void main()
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{
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BandlimitedPixelInfo info = compute_pixel_weights(vTexCoord, global.SourceSize.xy, global.SourceSize.zw);
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mediump vec3 result = sample_bandlimited_pixel(Source, vTexCoord, info, 0.0).rgb;
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FragColor = vec4(sqrt(clamp(result, 0.0, 1.0)), 1.0);
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}
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