test/tint/bug/tint/1113.wgsl.expected.glsl - dawn - Git at Google

 #version 310 es


 struct Uniforms {
   uint numTriangles;
   uint gridSize;
   uint pad1;
   uint pad2;
   vec3 bbMin;
   uint tint_pad_0;
   vec3 bbMax;
   uint tint_pad_1;
 };

 struct Dbg {
   uint offsetCounter;
   uint pad0;
   uint pad1;
   uint pad2;
   uint value0;
   uint value1;
   uint value2;
   uint value3;
   float value_f32_0;
   float value_f32_1;
   float value_f32_2;
   float value_f32_3;
 };

 layout(binding = 0, std140)
 uniform uniforms_block_1_ubo {
   Uniforms inner;
 } v;
 layout(binding = 10, std430)
 buffer U32s_1_ssbo {
   uint values[];
 } indices;
 layout(binding = 11, std430)
 buffer F32s_1_ssbo {
   float values[];
 } positions;
 layout(binding = 20, std430)
 buffer AU32s_1_ssbo {
   uint values[];
 } counters;
 layout(binding = 21, std430)
 buffer AI32s_1_ssbo {
   int values[];
 } LUT;
 layout(binding = 50, std430)
 buffer dbg_block_1_ssbo {
   Dbg inner;
 } v_1;
 vec3 toVoxelPos(vec3 position) {
   vec3 bbMin = vec3(v.inner.bbMin.x, v.inner.bbMin.y, v.inner.bbMin.z);
   vec3 bbMax = vec3(v.inner.bbMax.x, v.inner.bbMax.y, v.inner.bbMax.z);
   vec3 bbSize = (bbMax - bbMin);
   float cubeSize = max(max(bbSize.x, bbSize.y), bbSize.z);
   float gridSize = float(v.inner.gridSize);
   float gx = ((gridSize * (position[0u] - v.inner.bbMin.x)) / cubeSize);
   float gy = ((gridSize * (position[1u] - v.inner.bbMin.y)) / cubeSize);
   float gz = ((gridSize * (position[2u] - v.inner.bbMin.z)) / cubeSize);
   return vec3(gx, gy, gz);
 }
 uvec3 tint_v3f32_to_v3u32(vec3 value) {
   return mix(uvec3(4294967295u), mix(uvec3(0u), uvec3(value), greaterThanEqual(value, vec3(0.0f))), lessThanEqual(value, vec3(4294967040.0f)));
 }
 uint toIndex1D(uint gridSize, vec3 voxelPos) {
   uvec3 icoord = tint_v3f32_to_v3u32(voxelPos);
   return ((icoord.x + (gridSize * icoord.y)) + ((gridSize * gridSize) * icoord.z));
 }
 vec3 loadPosition(uint vertexIndex) {
   vec3 position = vec3(positions.values[((3u * vertexIndex) + 0u)], positions.values[((3u * vertexIndex) + 1u)], positions.values[((3u * vertexIndex) + 2u)]);
   return position;
 }
 void doIgnore() {
   uint g42 = v.inner.numTriangles;
   uint kj6 = v_1.inner.value1;
   uint b53 = atomicOr(counters.values[0], 0u);
   uint rwg = indices.values[0];
   float rb5 = positions.values[0];
   int g55 = atomicOr(LUT.values[0], 0);
 }
 void main_count_inner(uvec3 GlobalInvocationID) {
   uint triangleIndex = GlobalInvocationID[0u];
   if ((triangleIndex >= v.inner.numTriangles)) {
     return;
   }
   doIgnore();
   uint v_2 = ((3u * triangleIndex) + 0u);
   uint i0 = indices.values[v_2];
   uint v_3 = ((3u * triangleIndex) + 1u);
   uint i1 = indices.values[v_3];
   uint v_4 = ((3u * triangleIndex) + 2u);
   uint i2 = indices.values[v_4];
   vec3 p0 = loadPosition(i0);
   vec3 p1 = loadPosition(i1);
   vec3 p2 = loadPosition(i2);
   vec3 center = (((p0 + p1) + p2) / 3.0f);
   vec3 voxelPos = toVoxelPos(center);
   uint voxelIndex = toIndex1D(v.inner.gridSize, voxelPos);
   uint v_5 = voxelIndex;
   uint acefg = atomicAdd(counters.values[v_5], 1u);
   if ((triangleIndex == 0u)) {
     v_1.inner.value0 = v.inner.gridSize;
     v_1.inner.value_f32_0 = center.x;
     v_1.inner.value_f32_1 = center.y;
     v_1.inner.value_f32_2 = center.z;
   }
 }
 layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
 void main() {
   main_count_inner(gl_GlobalInvocationID);
 }
 #version 310 es


 struct Uniforms {
   uint numTriangles;
   uint gridSize;
   uint pad1;
   uint pad2;
   vec3 bbMin;
   uint tint_pad_0;
   vec3 bbMax;
   uint tint_pad_1;
 };

 struct Dbg {
   uint offsetCounter;
   uint pad0;
   uint pad1;
   uint pad2;
   uint value0;
   uint value1;
   uint value2;
   uint value3;
   float value_f32_0;
   float value_f32_1;
   float value_f32_2;
   float value_f32_3;
 };

 layout(binding = 0, std140)
 uniform uniforms_block_1_ubo {
   Uniforms inner;
 } v;
 layout(binding = 10, std430)
 buffer U32s_1_ssbo {
   uint values[];
 } indices;
 layout(binding = 11, std430)
 buffer F32s_1_ssbo {
   float values[];
 } positions;
 layout(binding = 20, std430)
 buffer AU32s_1_ssbo {
   uint values[];
 } counters;
 layout(binding = 21, std430)
 buffer AI32s_1_ssbo {
   int values[];
 } LUT;
 layout(binding = 50, std430)
 buffer dbg_block_1_ssbo {
   Dbg inner;
 } v_1;
 void doIgnore() {
   uint g42 = v.inner.numTriangles;
   uint kj6 = v_1.inner.value1;
   uint b53 = atomicOr(counters.values[0], 0u);
   uint rwg = indices.values[0];
   float rb5 = positions.values[0];
   int g55 = atomicOr(LUT.values[0], 0);
 }
 void main_create_lut_inner(uvec3 GlobalInvocationID) {
   uint voxelIndex = GlobalInvocationID[0u];
   doIgnore();
   uint maxVoxels = ((v.inner.gridSize * v.inner.gridSize) * v.inner.gridSize);
   if ((voxelIndex >= maxVoxels)) {
     return;
   }
   uint v_2 = voxelIndex;
   uint numTriangles = atomicOr(counters.values[v_2], 0u);
   int offset = -1;
   if ((numTriangles > 0u)) {
     offset = int(atomicAdd(v_1.inner.offsetCounter, numTriangles));
   }
   uint v_3 = voxelIndex;
   atomicExchange(LUT.values[v_3], offset);
 }
 layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
 void main() {
   main_create_lut_inner(gl_GlobalInvocationID);
 }
 #version 310 es


 struct Uniforms {
   uint numTriangles;
   uint gridSize;
   uint pad1;
   uint pad2;
   vec3 bbMin;
   uint tint_pad_0;
   vec3 bbMax;
   uint tint_pad_1;
 };

 struct Dbg {
   uint offsetCounter;
   uint pad0;
   uint pad1;
   uint pad2;
   uint value0;
   uint value1;
   uint value2;
   uint value3;
   float value_f32_0;
   float value_f32_1;
   float value_f32_2;
   float value_f32_3;
 };

 layout(binding = 0, std140)
 uniform uniforms_block_1_ubo {
   Uniforms inner;
 } v;
 layout(binding = 10, std430)
 buffer U32s_1_ssbo {
   uint values[];
 } indices;
 layout(binding = 11, std430)
 buffer F32s_1_ssbo {
   float values[];
 } positions;
 layout(binding = 20, std430)
 buffer AU32s_1_ssbo {
   uint values[];
 } counters;
 layout(binding = 21, std430)
 buffer AI32s_1_ssbo {
   int values[];
 } LUT;
 layout(binding = 50, std430)
 buffer dbg_block_1_ssbo {
   Dbg inner;
 } v_1;
 vec3 toVoxelPos(vec3 position) {
   vec3 bbMin = vec3(v.inner.bbMin.x, v.inner.bbMin.y, v.inner.bbMin.z);
   vec3 bbMax = vec3(v.inner.bbMax.x, v.inner.bbMax.y, v.inner.bbMax.z);
   vec3 bbSize = (bbMax - bbMin);
   float cubeSize = max(max(bbSize.x, bbSize.y), bbSize.z);
   float gridSize = float(v.inner.gridSize);
   float gx = ((gridSize * (position[0u] - v.inner.bbMin.x)) / cubeSize);
   float gy = ((gridSize * (position[1u] - v.inner.bbMin.y)) / cubeSize);
   float gz = ((gridSize * (position[2u] - v.inner.bbMin.z)) / cubeSize);
   return vec3(gx, gy, gz);
 }
 uvec3 tint_v3f32_to_v3u32(vec3 value) {
   return mix(uvec3(4294967295u), mix(uvec3(0u), uvec3(value), greaterThanEqual(value, vec3(0.0f))), lessThanEqual(value, vec3(4294967040.0f)));
 }
 uint toIndex1D(uint gridSize, vec3 voxelPos) {
   uvec3 icoord = tint_v3f32_to_v3u32(voxelPos);
   return ((icoord.x + (gridSize * icoord.y)) + ((gridSize * gridSize) * icoord.z));
 }
 vec3 loadPosition(uint vertexIndex) {
   vec3 position = vec3(positions.values[((3u * vertexIndex) + 0u)], positions.values[((3u * vertexIndex) + 1u)], positions.values[((3u * vertexIndex) + 2u)]);
   return position;
 }
 void doIgnore() {
   uint g42 = v.inner.numTriangles;
   uint kj6 = v_1.inner.value1;
   uint b53 = atomicOr(counters.values[0], 0u);
   uint rwg = indices.values[0];
   float rb5 = positions.values[0];
   int g55 = atomicOr(LUT.values[0], 0);
 }
 void main_sort_triangles_inner(uvec3 GlobalInvocationID) {
   uint triangleIndex = GlobalInvocationID[0u];
   doIgnore();
   if ((triangleIndex >= v.inner.numTriangles)) {
     return;
   }
   uint v_2 = ((3u * triangleIndex) + 0u);
   uint i0 = indices.values[v_2];
   uint v_3 = ((3u * triangleIndex) + 1u);
   uint i1 = indices.values[v_3];
   uint v_4 = ((3u * triangleIndex) + 2u);
   uint i2 = indices.values[v_4];
   vec3 p0 = loadPosition(i0);
   vec3 p1 = loadPosition(i1);
   vec3 p2 = loadPosition(i2);
   vec3 center = (((p0 + p1) + p2) / 3.0f);
   vec3 voxelPos = toVoxelPos(center);
   uint voxelIndex = toIndex1D(v.inner.gridSize, voxelPos);
   uint v_5 = voxelIndex;
   int triangleOffset = atomicAdd(LUT.values[v_5], 1);
 }
 layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
 void main() {
   main_sort_triangles_inner(gl_GlobalInvocationID);
 }
	#version 310 es


	struct Uniforms {
	uint numTriangles;
	uint gridSize;
	uint pad1;
	uint pad2;
	vec3 bbMin;
	uint tint_pad_0;
	vec3 bbMax;
	uint tint_pad_1;
	};

	struct Dbg {
	uint offsetCounter;
	uint pad0;
	uint pad1;
	uint pad2;
	uint value0;
	uint value1;
	uint value2;
	uint value3;
	float value_f32_0;
	float value_f32_1;
	float value_f32_2;
	float value_f32_3;
	};

	layout(binding = 0, std140)
	uniform uniforms_block_1_ubo {
	Uniforms inner;
	} v;
	layout(binding = 10, std430)
	buffer U32s_1_ssbo {
	uint values[];
	} indices;
	layout(binding = 11, std430)
	buffer F32s_1_ssbo {
	float values[];
	} positions;
	layout(binding = 20, std430)
	buffer AU32s_1_ssbo {
	uint values[];
	} counters;
	layout(binding = 21, std430)
	buffer AI32s_1_ssbo {
	int values[];
	} LUT;
	layout(binding = 50, std430)
	buffer dbg_block_1_ssbo {
	Dbg inner;
	} v_1;
	vec3 toVoxelPos(vec3 position) {
	vec3 bbMin = vec3(v.inner.bbMin.x, v.inner.bbMin.y, v.inner.bbMin.z);
	vec3 bbMax = vec3(v.inner.bbMax.x, v.inner.bbMax.y, v.inner.bbMax.z);
	vec3 bbSize = (bbMax - bbMin);
	float cubeSize = max(max(bbSize.x, bbSize.y), bbSize.z);
	float gridSize = float(v.inner.gridSize);
	float gx = ((gridSize * (position[0u] - v.inner.bbMin.x)) / cubeSize);
	float gy = ((gridSize * (position[1u] - v.inner.bbMin.y)) / cubeSize);
	float gz = ((gridSize * (position[2u] - v.inner.bbMin.z)) / cubeSize);
	return vec3(gx, gy, gz);
	}
	uvec3 tint_v3f32_to_v3u32(vec3 value) {
	return mix(uvec3(4294967295u), mix(uvec3(0u), uvec3(value), greaterThanEqual(value, vec3(0.0f))), lessThanEqual(value, vec3(4294967040.0f)));
	}
	uint toIndex1D(uint gridSize, vec3 voxelPos) {
	uvec3 icoord = tint_v3f32_to_v3u32(voxelPos);
	return ((icoord.x + (gridSize * icoord.y)) + ((gridSize * gridSize) * icoord.z));
	}
	vec3 loadPosition(uint vertexIndex) {
	vec3 position = vec3(positions.values[((3u * vertexIndex) + 0u)], positions.values[((3u * vertexIndex) + 1u)], positions.values[((3u * vertexIndex) + 2u)]);
	return position;
	}
	void doIgnore() {
	uint g42 = v.inner.numTriangles;
	uint kj6 = v_1.inner.value1;
	uint b53 = atomicOr(counters.values[0], 0u);
	uint rwg = indices.values[0];
	float rb5 = positions.values[0];
	int g55 = atomicOr(LUT.values[0], 0);
	}
	void main_count_inner(uvec3 GlobalInvocationID) {
	uint triangleIndex = GlobalInvocationID[0u];
	if ((triangleIndex >= v.inner.numTriangles)) {
	return;
	}
	doIgnore();
	uint v_2 = ((3u * triangleIndex) + 0u);
	uint i0 = indices.values[v_2];
	uint v_3 = ((3u * triangleIndex) + 1u);
	uint i1 = indices.values[v_3];
	uint v_4 = ((3u * triangleIndex) + 2u);
	uint i2 = indices.values[v_4];
	vec3 p0 = loadPosition(i0);
	vec3 p1 = loadPosition(i1);
	vec3 p2 = loadPosition(i2);
	vec3 center = (((p0 + p1) + p2) / 3.0f);
	vec3 voxelPos = toVoxelPos(center);
	uint voxelIndex = toIndex1D(v.inner.gridSize, voxelPos);
	uint v_5 = voxelIndex;
	uint acefg = atomicAdd(counters.values[v_5], 1u);
	if ((triangleIndex == 0u)) {
	v_1.inner.value0 = v.inner.gridSize;
	v_1.inner.value_f32_0 = center.x;
	v_1.inner.value_f32_1 = center.y;
	v_1.inner.value_f32_2 = center.z;
	}
	}
	layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
	void main() {
	main_count_inner(gl_GlobalInvocationID);
	}
	#version 310 es


	struct Uniforms {
	uint numTriangles;
	uint gridSize;
	uint pad1;
	uint pad2;
	vec3 bbMin;
	uint tint_pad_0;
	vec3 bbMax;
	uint tint_pad_1;
	};

	struct Dbg {
	uint offsetCounter;
	uint pad0;
	uint pad1;
	uint pad2;
	uint value0;
	uint value1;
	uint value2;
	uint value3;
	float value_f32_0;
	float value_f32_1;
	float value_f32_2;
	float value_f32_3;
	};

	layout(binding = 0, std140)
	uniform uniforms_block_1_ubo {
	Uniforms inner;
	} v;
	layout(binding = 10, std430)
	buffer U32s_1_ssbo {
	uint values[];
	} indices;
	layout(binding = 11, std430)
	buffer F32s_1_ssbo {
	float values[];
	} positions;
	layout(binding = 20, std430)
	buffer AU32s_1_ssbo {
	uint values[];
	} counters;
	layout(binding = 21, std430)
	buffer AI32s_1_ssbo {
	int values[];
	} LUT;
	layout(binding = 50, std430)
	buffer dbg_block_1_ssbo {
	Dbg inner;
	} v_1;
	void doIgnore() {
	uint g42 = v.inner.numTriangles;
	uint kj6 = v_1.inner.value1;
	uint b53 = atomicOr(counters.values[0], 0u);
	uint rwg = indices.values[0];
	float rb5 = positions.values[0];
	int g55 = atomicOr(LUT.values[0], 0);
	}
	void main_create_lut_inner(uvec3 GlobalInvocationID) {
	uint voxelIndex = GlobalInvocationID[0u];
	doIgnore();
	uint maxVoxels = ((v.inner.gridSize * v.inner.gridSize) * v.inner.gridSize);
	if ((voxelIndex >= maxVoxels)) {
	return;
	}
	uint v_2 = voxelIndex;
	uint numTriangles = atomicOr(counters.values[v_2], 0u);
	int offset = -1;
	if ((numTriangles > 0u)) {
	offset = int(atomicAdd(v_1.inner.offsetCounter, numTriangles));
	}
	uint v_3 = voxelIndex;
	atomicExchange(LUT.values[v_3], offset);
	}
	layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
	void main() {
	main_create_lut_inner(gl_GlobalInvocationID);
	}
	#version 310 es


	struct Uniforms {
	uint numTriangles;
	uint gridSize;
	uint pad1;
	uint pad2;
	vec3 bbMin;
	uint tint_pad_0;
	vec3 bbMax;
	uint tint_pad_1;
	};

	struct Dbg {
	uint offsetCounter;
	uint pad0;
	uint pad1;
	uint pad2;
	uint value0;
	uint value1;
	uint value2;
	uint value3;
	float value_f32_0;
	float value_f32_1;
	float value_f32_2;
	float value_f32_3;
	};

	layout(binding = 0, std140)
	uniform uniforms_block_1_ubo {
	Uniforms inner;
	} v;
	layout(binding = 10, std430)
	buffer U32s_1_ssbo {
	uint values[];
	} indices;
	layout(binding = 11, std430)
	buffer F32s_1_ssbo {
	float values[];
	} positions;
	layout(binding = 20, std430)
	buffer AU32s_1_ssbo {
	uint values[];
	} counters;
	layout(binding = 21, std430)
	buffer AI32s_1_ssbo {
	int values[];
	} LUT;
	layout(binding = 50, std430)
	buffer dbg_block_1_ssbo {
	Dbg inner;
	} v_1;
	vec3 toVoxelPos(vec3 position) {
	vec3 bbMin = vec3(v.inner.bbMin.x, v.inner.bbMin.y, v.inner.bbMin.z);
	vec3 bbMax = vec3(v.inner.bbMax.x, v.inner.bbMax.y, v.inner.bbMax.z);
	vec3 bbSize = (bbMax - bbMin);
	float cubeSize = max(max(bbSize.x, bbSize.y), bbSize.z);
	float gridSize = float(v.inner.gridSize);
	float gx = ((gridSize * (position[0u] - v.inner.bbMin.x)) / cubeSize);
	float gy = ((gridSize * (position[1u] - v.inner.bbMin.y)) / cubeSize);
	float gz = ((gridSize * (position[2u] - v.inner.bbMin.z)) / cubeSize);
	return vec3(gx, gy, gz);
	}
	uvec3 tint_v3f32_to_v3u32(vec3 value) {
	return mix(uvec3(4294967295u), mix(uvec3(0u), uvec3(value), greaterThanEqual(value, vec3(0.0f))), lessThanEqual(value, vec3(4294967040.0f)));
	}
	uint toIndex1D(uint gridSize, vec3 voxelPos) {
	uvec3 icoord = tint_v3f32_to_v3u32(voxelPos);
	return ((icoord.x + (gridSize * icoord.y)) + ((gridSize * gridSize) * icoord.z));
	}
	vec3 loadPosition(uint vertexIndex) {
	vec3 position = vec3(positions.values[((3u * vertexIndex) + 0u)], positions.values[((3u * vertexIndex) + 1u)], positions.values[((3u * vertexIndex) + 2u)]);
	return position;
	}
	void doIgnore() {
	uint g42 = v.inner.numTriangles;
	uint kj6 = v_1.inner.value1;
	uint b53 = atomicOr(counters.values[0], 0u);
	uint rwg = indices.values[0];
	float rb5 = positions.values[0];
	int g55 = atomicOr(LUT.values[0], 0);
	}
	void main_sort_triangles_inner(uvec3 GlobalInvocationID) {
	uint triangleIndex = GlobalInvocationID[0u];
	doIgnore();
	if ((triangleIndex >= v.inner.numTriangles)) {
	return;
	}
	uint v_2 = ((3u * triangleIndex) + 0u);
	uint i0 = indices.values[v_2];
	uint v_3 = ((3u * triangleIndex) + 1u);
	uint i1 = indices.values[v_3];
	uint v_4 = ((3u * triangleIndex) + 2u);
	uint i2 = indices.values[v_4];
	vec3 p0 = loadPosition(i0);
	vec3 p1 = loadPosition(i1);
	vec3 p2 = loadPosition(i2);
	vec3 center = (((p0 + p1) + p2) / 3.0f);
	vec3 voxelPos = toVoxelPos(center);
	uint voxelIndex = toIndex1D(v.inner.gridSize, voxelPos);
	uint v_5 = voxelIndex;
	int triangleOffset = atomicAdd(LUT.values[v_5], 1);
	}
	layout(local_size_x = 128, local_size_y = 1, local_size_z = 1) in;
	void main() {
	main_sort_triangles_inner(gl_GlobalInvocationID);
	}