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// 3x3 convolution with weight indexing
// Source layers: 7→4 channels (RGBD output)
// Assumes 'tex' (the input) is *not* normalized to [-1,1], but is [0,1]
// UV coordinates remain in [0,1] and are normalized internally
// weights: array<array<f32, 8>, 36> (9 positions × 4 channels, each with 7 weights + bias)
fn cnn_conv3x3_7to4_src(
tex: texture_2d<f32>,
samp: sampler,
uv: vec2<f32>,
resolution: vec2<f32>,
weights: array<array<f32, 8>, 36>
) -> vec4<f32> {
let step = 1.0 / resolution;
// Compute grayscale from original (converted in [-1,1])
let original = (textureSample(tex, samp, uv) - 0.5) * 2.0;
let gray = 0.2126*original.r + 0.7152*original.g + 0.0722*original.b;
// Normalize UV to [-1,1]
let uv_norm = (uv - 0.5) * 2.0;
var sum = vec4<f32>(0.0);
var pos = 0;
for (var dy = -1; dy <= 1; dy++) {
for (var dx = -1; dx <= 1; dx++) {
let offset = vec2<f32>(f32(dx), f32(dy)) * step;
let rgbd = (textureSample(tex, samp, uv + offset) - .5) * 2.0; // convert to [-1,1]
// 7-channel input: [R,G,B,D, uv.x, uv.y, gray] all in [-1,1]
let inputs = array<f32, 7>(
rgbd.r, rgbd.g, rgbd.b, rgbd.a,
uv_norm.x, uv_norm.y, gray
);
// Accumulate for each output channel (RGBD)
for (var out_c = 0; out_c < 4; out_c++) {
let idx = pos * 4 + out_c;
var channel_sum = weights[idx][7]; // Bias (8th element)
for (var in_c = 0; in_c < 7; in_c++) {
channel_sum += weights[idx][in_c] * inputs[in_c];
}
sum[out_c] += channel_sum;
}
pos++;
}
}
return sum; // Output in [-1,1] range
}
// Inner layers: 7→4 channels (RGBD output)
// Assumes 'tex' and 'original' are already normalized to [-1,1]
// UV coordinates remain in [0,1] and are normalized internally
// weights: array<array<f32, 8>, 36> (9 positions × 4 channels, each with 7 weights + bias)
fn cnn_conv3x3_7to4(
tex: texture_2d<f32>,
samp: sampler,
uv: vec2<f32>,
resolution: vec2<f32>,
original: vec4<f32>,
weights: array<array<f32, 8>, 36>
) -> vec4<f32> {
let step = 1.0 / resolution;
// Compute grayscale from original (already in [-1,1])
let gray = 0.2126*original.r + 0.7152*original.g + 0.0722*original.b;
// Normalize UV to [-1,1]
let uv_norm = (uv - 0.5) * 2.0;
var sum = vec4<f32>(0.0);
var pos = 0;
for (var dy = -1; dy <= 1; dy++) {
for (var dx = -1; dx <= 1; dx++) {
let offset = vec2<f32>(f32(dx), f32(dy)) * step;
let rgbd = textureSample(tex, samp, uv + offset); // Already in [-1,1]
// 7-channel input: [R,G,B,D, uv.x, uv.y, gray] all in [-1,1]
let inputs = array<f32, 7>(
rgbd.r, rgbd.g, rgbd.b, rgbd.a,
uv_norm.x, uv_norm.y, gray
);
// Accumulate for each output channel (RGBD)
for (var out_c = 0; out_c < 4; out_c++) {
let idx = pos * 4 + out_c;
var channel_sum = weights[idx][7]; // Bias (8th element)
for (var in_c = 0; in_c < 7; in_c++) {
channel_sum += weights[idx][in_c] * inputs[in_c];
}
sum[out_c] += channel_sum;
}
pos++;
}
}
return sum; // Output in [-1,1] range
}
// Final layer: 7→1 channel (scalar output)
// Assumes 'tex' and 'original' are already normalized to [-1,1]
// UV coordinates remain in [0,1] and are normalized internally
// weights: array<array<f32, 8>, 9> (9 positions, each with 7 weights + bias)
fn cnn_conv3x3_7to1(
tex: texture_2d<f32>,
samp: sampler,
uv: vec2<f32>,
resolution: vec2<f32>,
original: vec4<f32>,
weights: array<array<f32, 8>, 9>
) -> f32 {
let step = 1.0 / resolution;
// Compute grayscale from original (already in [-1,1])
let gray = 0.2126*original.r + 0.7152*original.g + 0.0722*original.b;
// Normalize UV to [-1,1]
let uv_norm = (uv - 0.5) * 2.0;
var sum = 0.0;
var pos = 0;
for (var dy = -1; dy <= 1; dy++) {
for (var dx = -1; dx <= 1; dx++) {
let offset = vec2<f32>(f32(dx), f32(dy)) * step;
let rgbd = textureSample(tex, samp, uv + offset); // Already in [-1,1]
// 7-channel input all in [-1,1]
sum += weights[pos][0] * rgbd.r;
sum += weights[pos][1] * rgbd.g;
sum += weights[pos][2] * rgbd.b;
sum += weights[pos][3] * rgbd.a;
sum += weights[pos][4] * uv_norm.x;
sum += weights[pos][5] * uv_norm.y;
sum += weights[pos][6] * gray;
sum += weights[pos][7]; // Bias
pos++;
}
}
return sum; // Output in [-1,1]
}
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