test/tint/bug/tint/942.wgsl.expected.glsl - dawn - Git at Google

 #version 310 es

 shared vec3 tile[4][256];
 void tint_zero_workgroup_memory(uint local_idx) {
   {
     for(uint idx = local_idx; (idx < 1024u); idx = (idx + 64u)) {
       uint i_1 = (idx / 256u);
       uint i_2 = (idx % 256u);
       tile[i_1][i_2] = vec3(0.0f);
     }
   }
   barrier();
 }

 struct Params {
   uint filterDim;
   uint blockDim;
   uint pad;
   uint pad_1;
 };

 layout(binding = 1, std140) uniform params_block_ubo {
   Params inner;
 } params;

 layout(rgba8) uniform highp writeonly image2D outputTex;
 struct Flip {
   uint value;
   uint pad;
   uint pad_1;
   uint pad_2;
 };

 layout(binding = 3, std140) uniform flip_block_ubo {
   Flip inner;
 } flip;

 uint tint_div(uint lhs, uint rhs) {
   return (lhs / ((rhs == 0u) ? 1u : rhs));
 }

 uniform highp sampler2D inputTex_samp;

 void tint_symbol(uvec3 WorkGroupID, uvec3 LocalInvocationID, uint local_invocation_index) {
   tint_zero_workgroup_memory(local_invocation_index);
   uint filterOffset = tint_div((params.inner.filterDim - 1u), 2u);
   uvec2 dims = uvec2(textureSize(inputTex_samp, 0));
   uvec2 baseIndex = (((WorkGroupID.xy * uvec2(params.inner.blockDim, 4u)) + (LocalInvocationID.xy * uvec2(4u, 1u))) - uvec2(filterOffset, 0u));
   {
     for(uint r = 0u; (r < 4u); r = (r + 1u)) {
       {
         for(uint c = 0u; (c < 4u); c = (c + 1u)) {
           uvec2 loadIndex = (baseIndex + uvec2(c, r));
           if ((flip.inner.value != 0u)) {
             loadIndex = loadIndex.yx;
           }
           tile[r][((4u * LocalInvocationID.x) + c)] = textureLod(inputTex_samp, ((vec2(loadIndex) + vec2(0.25f)) / vec2(dims)), 0.0f).rgb;
         }
       }
     }
   }
   barrier();
   {
     for(uint r = 0u; (r < 4u); r = (r + 1u)) {
       {
         for(uint c = 0u; (c < 4u); c = (c + 1u)) {
           uvec2 writeIndex = (baseIndex + uvec2(c, r));
           if ((flip.inner.value != 0u)) {
             writeIndex = writeIndex.yx;
           }
           uint center = ((4u * LocalInvocationID.x) + c);
           bool tint_tmp_1 = (center >= filterOffset);
           if (tint_tmp_1) {
             tint_tmp_1 = (center < (256u - filterOffset));
           }
           bool tint_tmp = (tint_tmp_1);
           if (tint_tmp) {
             tint_tmp = all(lessThan(writeIndex, dims));
           }
           if ((tint_tmp)) {
             vec3 acc = vec3(0.0f);
             {
               for(uint f = 0u; (f < params.inner.filterDim); f = (f + 1u)) {
                 uint i = ((center + f) - filterOffset);
                 acc = (acc + ((1.0f / float(params.inner.filterDim)) * tile[r][i]));
               }
             }
             imageStore(outputTex, ivec2(writeIndex), vec4(acc, 1.0f));
           }
         }
       }
     }
   }
 }

 layout(local_size_x = 64, local_size_y = 1, local_size_z = 1) in;
 void main() {
   tint_symbol(gl_WorkGroupID, gl_LocalInvocationID, gl_LocalInvocationIndex);
   return;
 }
	#version 310 es

	shared vec3 tile[4][256];
	void tint_zero_workgroup_memory(uint local_idx) {
	{
	for(uint idx = local_idx; (idx < 1024u); idx = (idx + 64u)) {
	uint i_1 = (idx / 256u);
	uint i_2 = (idx % 256u);
	tile[i_1][i_2] = vec3(0.0f);
	}
	}
	barrier();
	}

	struct Params {
	uint filterDim;
	uint blockDim;
	uint pad;
	uint pad_1;
	};

	layout(binding = 1, std140) uniform params_block_ubo {
	Params inner;
	} params;

	layout(rgba8) uniform highp writeonly image2D outputTex;
	struct Flip {
	uint value;
	uint pad;
	uint pad_1;
	uint pad_2;
	};

	layout(binding = 3, std140) uniform flip_block_ubo {
	Flip inner;
	} flip;

	uint tint_div(uint lhs, uint rhs) {
	return (lhs / ((rhs == 0u) ? 1u : rhs));
	}

	uniform highp sampler2D inputTex_samp;

	void tint_symbol(uvec3 WorkGroupID, uvec3 LocalInvocationID, uint local_invocation_index) {
	tint_zero_workgroup_memory(local_invocation_index);
	uint filterOffset = tint_div((params.inner.filterDim - 1u), 2u);
	uvec2 dims = uvec2(textureSize(inputTex_samp, 0));
	uvec2 baseIndex = (((WorkGroupID.xy * uvec2(params.inner.blockDim, 4u)) + (LocalInvocationID.xy * uvec2(4u, 1u))) - uvec2(filterOffset, 0u));
	{
	for(uint r = 0u; (r < 4u); r = (r + 1u)) {
	{
	for(uint c = 0u; (c < 4u); c = (c + 1u)) {
	uvec2 loadIndex = (baseIndex + uvec2(c, r));
	if ((flip.inner.value != 0u)) {
	loadIndex = loadIndex.yx;
	}
	tile[r][((4u * LocalInvocationID.x) + c)] = textureLod(inputTex_samp, ((vec2(loadIndex) + vec2(0.25f)) / vec2(dims)), 0.0f).rgb;
	}
	}
	}
	}
	barrier();
	{
	for(uint r = 0u; (r < 4u); r = (r + 1u)) {
	{
	for(uint c = 0u; (c < 4u); c = (c + 1u)) {
	uvec2 writeIndex = (baseIndex + uvec2(c, r));
	if ((flip.inner.value != 0u)) {
	writeIndex = writeIndex.yx;
	}
	uint center = ((4u * LocalInvocationID.x) + c);
	bool tint_tmp_1 = (center >= filterOffset);
	if (tint_tmp_1) {
	tint_tmp_1 = (center < (256u - filterOffset));
	}
	bool tint_tmp = (tint_tmp_1);
	if (tint_tmp) {
	tint_tmp = all(lessThan(writeIndex, dims));
	}
	if ((tint_tmp)) {
	vec3 acc = vec3(0.0f);
	{
	for(uint f = 0u; (f < params.inner.filterDim); f = (f + 1u)) {
	uint i = ((center + f) - filterOffset);
	acc = (acc + ((1.0f / float(params.inner.filterDim)) * tile[r][i]));
	}
	}
	imageStore(outputTex, ivec2(writeIndex), vec4(acc, 1.0f));
	}
	}
	}
	}
	}
	}

	layout(local_size_x = 64, local_size_y = 1, local_size_z = 1) in;
	void main() {
	tint_symbol(gl_WorkGroupID, gl_LocalInvocationID, gl_LocalInvocationIndex);
	return;
	}