test/benchmark/particles.wgsl.expected.hlsl - tint - Git at Google

 static float2 rand_seed = float2(0.0f, 0.0f);

 float rand() {
   rand_seed.x = frac((cos(dot(rand_seed, float2(23.140779495f, 232.616897583f))) * 136.816802979f));
   rand_seed.y = frac((cos(dot(rand_seed, float2(54.478565216f, 345.841522217f))) * 534.764526367f));
   return rand_seed.y;
 }

 cbuffer cbuffer_render_params : register(b0, space0) {
   uint4 render_params[6];
 };

 struct VertexInput {
   float3 position;
   float4 color;
   float2 quad_pos;
 };
 struct VertexOutput {
   float4 position;
   float4 color;
   float2 quad_pos;
 };
 struct tint_symbol_5 {
   float3 position : TEXCOORD0;
   float4 color : TEXCOORD1;
   float2 quad_pos : TEXCOORD2;
 };
 struct tint_symbol_6 {
   float4 color : TEXCOORD0;
   float2 quad_pos : TEXCOORD1;
   float4 position : SV_Position;
 };

 float4x4 tint_symbol_17(uint4 buffer[6], uint offset) {
   const uint scalar_offset = ((offset + 0u)) / 4;
   const uint scalar_offset_1 = ((offset + 16u)) / 4;
   const uint scalar_offset_2 = ((offset + 32u)) / 4;
   const uint scalar_offset_3 = ((offset + 48u)) / 4;
   return float4x4(asfloat(buffer[scalar_offset / 4]), asfloat(buffer[scalar_offset_1 / 4]), asfloat(buffer[scalar_offset_2 / 4]), asfloat(buffer[scalar_offset_3 / 4]));
 }

 VertexOutput vs_main_inner(VertexInput tint_symbol) {
   float3 quad_pos = mul(tint_symbol.quad_pos, float2x3(asfloat(render_params[4].xyz), asfloat(render_params[5].xyz)));
   float3 position = (tint_symbol.position + (quad_pos * 0.01f));
   VertexOutput tint_symbol_1 = (VertexOutput)0;
   tint_symbol_1.position = mul(float4(position, 1.0f), tint_symbol_17(render_params, 0u));
   tint_symbol_1.color = tint_symbol.color;
   tint_symbol_1.quad_pos = tint_symbol.quad_pos;
   return tint_symbol_1;
 }

 tint_symbol_6 vs_main(tint_symbol_5 tint_symbol_4) {
   const VertexInput tint_symbol_32 = {tint_symbol_4.position, tint_symbol_4.color, tint_symbol_4.quad_pos};
   const VertexOutput inner_result = vs_main_inner(tint_symbol_32);
   tint_symbol_6 wrapper_result = (tint_symbol_6)0;
   wrapper_result.position = inner_result.position;
   wrapper_result.color = inner_result.color;
   wrapper_result.quad_pos = inner_result.quad_pos;
   return wrapper_result;
 }

 struct tint_symbol_8 {
   float4 color : TEXCOORD0;
   float2 quad_pos : TEXCOORD1;
   float4 position : SV_Position;
 };
 struct tint_symbol_9 {
   float4 value : SV_Target0;
 };

 float4 fs_main_inner(VertexOutput tint_symbol) {
   float4 color = tint_symbol.color;
   color.a = (color.a * max((1.0f - length(tint_symbol.quad_pos)), 0.0f));
   return color;
 }

 tint_symbol_9 fs_main(tint_symbol_8 tint_symbol_7) {
   const VertexOutput tint_symbol_33 = {tint_symbol_7.position, tint_symbol_7.color, tint_symbol_7.quad_pos};
   const float4 inner_result_1 = fs_main_inner(tint_symbol_33);
   tint_symbol_9 wrapper_result_1 = (tint_symbol_9)0;
   wrapper_result_1.value = inner_result_1;
   return wrapper_result_1;
 }

 struct Particle {
   float3 position;
   float lifetime;
   float4 color;
   float3 velocity;
 };

 cbuffer cbuffer_sim_params : register(b0, space0) {
   uint4 sim_params[2];
 };
 RWByteAddressBuffer data : register(u1, space0);
 Texture2D<float4> tint_symbol_2 : register(t2, space0);

 struct tint_symbol_11 {
   uint3 GlobalInvocationID : SV_DispatchThreadID;
 };

 Particle tint_symbol_20(RWByteAddressBuffer buffer, uint offset) {
   const Particle tint_symbol_34 = {asfloat(buffer.Load3((offset + 0u))), asfloat(buffer.Load((offset + 12u))), asfloat(buffer.Load4((offset + 16u))), asfloat(buffer.Load3((offset + 32u)))};
   return tint_symbol_34;
 }

 void tint_symbol_25(RWByteAddressBuffer buffer, uint offset, Particle value) {
   buffer.Store3((offset + 0u), asuint(value.position));
   buffer.Store((offset + 12u), asuint(value.lifetime));
   buffer.Store4((offset + 16u), asuint(value.color));
   buffer.Store3((offset + 32u), asuint(value.velocity));
 }

 void simulate_inner(uint3 GlobalInvocationID) {
   rand_seed = ((asfloat(sim_params[1]).xy + float2(GlobalInvocationID.xy)) * asfloat(sim_params[1]).zw);
   const uint idx = GlobalInvocationID.x;
   Particle particle = tint_symbol_20(data, (48u * idx));
   particle.velocity.z = (particle.velocity.z - (asfloat(sim_params[0].x) * 0.5f));
   particle.position = (particle.position + (asfloat(sim_params[0].x) * particle.velocity));
   particle.lifetime = (particle.lifetime - asfloat(sim_params[0].x));
   particle.color.a = smoothstep(0.0f, 0.5f, particle.lifetime);
   if ((particle.lifetime < 0.0f)) {
     int2 coord = int2(0, 0);
     {
       int3 tint_tmp;
       tint_symbol_2.GetDimensions(0, tint_tmp.x, tint_tmp.y, tint_tmp.z);
       int level = (tint_tmp.z - 1);
       [loop] for(; (level > 0); level = (level - 1)) {
         const float4 probabilites = tint_symbol_2.Load(int3(coord, level));
         const float4 value = float4((rand()).xxxx);
         const bool4 mask = ((value >= float4(0.0f, probabilites.xyz)) & (value < probabilites));
         coord = (coord * 2);
         coord.x = (coord.x + (any(mask.yw) ? 1 : 0));
         coord.y = (coord.y + (any(mask.zw) ? 1 : 0));
       }
     }
     int2 tint_tmp_1;
     tint_symbol_2.GetDimensions(tint_tmp_1.x, tint_tmp_1.y);
     const float2 uv = (float2(coord) / float2(tint_tmp_1));
     particle.position = float3((((uv - 0.5f) * 3.0f) * float2(1.0f, -1.0f)), 0.0f);
     particle.color = tint_symbol_2.Load(int3(coord, 0));
     particle.velocity.x = ((rand() - 0.5f) * 0.100000001f);
     particle.velocity.y = ((rand() - 0.5f) * 0.100000001f);
     particle.velocity.z = (rand() * 0.300000012f);
     particle.lifetime = (0.5f + (rand() * 2.0f));
   }
   tint_symbol_25(data, (48u * idx), particle);
 }

 [numthreads(64, 1, 1)]
 void simulate(tint_symbol_11 tint_symbol_10) {
   simulate_inner(tint_symbol_10.GlobalInvocationID);
   return;
 }

 cbuffer cbuffer_ubo : register(b3, space0) {
   uint4 ubo[1];
 };
 ByteAddressBuffer buf_in : register(t4, space0);
 RWByteAddressBuffer buf_out : register(u5, space0);
 Texture2D<float4> tex_in : register(t6, space0);
 RWTexture2D<float4> tex_out : register(u7, space0);

 struct tint_symbol_13 {
   uint3 coord : SV_DispatchThreadID;
 };

 void import_level_inner(uint3 coord) {
   const uint offset = (coord.x + (coord.y * ubo[0].x));
   buf_out.Store((4u * offset), asuint(tex_in.Load(int3(int2(coord.xy), 0)).w));
 }

 [numthreads(64, 1, 1)]
 void import_level(tint_symbol_13 tint_symbol_12) {
   import_level_inner(tint_symbol_12.coord);
   return;
 }

 struct tint_symbol_15 {
   uint3 coord : SV_DispatchThreadID;
 };

 void export_level_inner(uint3 coord) {
   int2 tint_tmp_2;
   tex_out.GetDimensions(tint_tmp_2.x, tint_tmp_2.y);
   if (all((coord.xy < uint2(tint_tmp_2)))) {
     const uint dst_offset = (coord.x + (coord.y * ubo[0].x));
     const uint src_offset = ((coord.x * 2u) + ((coord.y * 2u) * ubo[0].x));
     const float a_1 = asfloat(buf_in.Load((4u * (src_offset + 0u))));
     const float b = asfloat(buf_in.Load((4u * (src_offset + 1u))));
     const float c = asfloat(buf_in.Load((4u * ((src_offset + 0u) + ubo[0].x))));
     const float d = asfloat(buf_in.Load((4u * ((src_offset + 1u) + ubo[0].x))));
     const float sum = dot(float4(a_1, b, c, d), float4((1.0f).xxxx));
     buf_out.Store((4u * dst_offset), asuint((sum / 4.0f)));
     const float4 probabilities = (float4(a_1, (a_1 + b), ((a_1 + b) + c), sum) / max(sum, 0.0001f));
     tex_out[int2(coord.xy)] = probabilities;
   }
 }

 [numthreads(64, 1, 1)]
 void export_level(tint_symbol_15 tint_symbol_14) {
   export_level_inner(tint_symbol_14.coord);
   return;
 }
	static float2 rand_seed = float2(0.0f, 0.0f);

	float rand() {
	rand_seed.x = frac((cos(dot(rand_seed, float2(23.140779495f, 232.616897583f))) * 136.816802979f));
	rand_seed.y = frac((cos(dot(rand_seed, float2(54.478565216f, 345.841522217f))) * 534.764526367f));
	return rand_seed.y;
	}

	cbuffer cbuffer_render_params : register(b0, space0) {
	uint4 render_params[6];
	};

	struct VertexInput {
	float3 position;
	float4 color;
	float2 quad_pos;
	};
	struct VertexOutput {
	float4 position;
	float4 color;
	float2 quad_pos;
	};
	struct tint_symbol_5 {
	float3 position : TEXCOORD0;
	float4 color : TEXCOORD1;
	float2 quad_pos : TEXCOORD2;
	};
	struct tint_symbol_6 {
	float4 color : TEXCOORD0;
	float2 quad_pos : TEXCOORD1;
	float4 position : SV_Position;
	};

	float4x4 tint_symbol_17(uint4 buffer[6], uint offset) {
	const uint scalar_offset = ((offset + 0u)) / 4;
	const uint scalar_offset_1 = ((offset + 16u)) / 4;
	const uint scalar_offset_2 = ((offset + 32u)) / 4;
	const uint scalar_offset_3 = ((offset + 48u)) / 4;
	return float4x4(asfloat(buffer[scalar_offset / 4]), asfloat(buffer[scalar_offset_1 / 4]), asfloat(buffer[scalar_offset_2 / 4]), asfloat(buffer[scalar_offset_3 / 4]));
	}

	VertexOutput vs_main_inner(VertexInput tint_symbol) {
	float3 quad_pos = mul(tint_symbol.quad_pos, float2x3(asfloat(render_params[4].xyz), asfloat(render_params[5].xyz)));
	float3 position = (tint_symbol.position + (quad_pos * 0.01f));
	VertexOutput tint_symbol_1 = (VertexOutput)0;
	tint_symbol_1.position = mul(float4(position, 1.0f), tint_symbol_17(render_params, 0u));
	tint_symbol_1.color = tint_symbol.color;
	tint_symbol_1.quad_pos = tint_symbol.quad_pos;
	return tint_symbol_1;
	}

	tint_symbol_6 vs_main(tint_symbol_5 tint_symbol_4) {
	const VertexInput tint_symbol_32 = {tint_symbol_4.position, tint_symbol_4.color, tint_symbol_4.quad_pos};
	const VertexOutput inner_result = vs_main_inner(tint_symbol_32);
	tint_symbol_6 wrapper_result = (tint_symbol_6)0;
	wrapper_result.position = inner_result.position;
	wrapper_result.color = inner_result.color;
	wrapper_result.quad_pos = inner_result.quad_pos;
	return wrapper_result;
	}

	struct tint_symbol_8 {
	float4 color : TEXCOORD0;
	float2 quad_pos : TEXCOORD1;
	float4 position : SV_Position;
	};
	struct tint_symbol_9 {
	float4 value : SV_Target0;
	};

	float4 fs_main_inner(VertexOutput tint_symbol) {
	float4 color = tint_symbol.color;
	color.a = (color.a * max((1.0f - length(tint_symbol.quad_pos)), 0.0f));
	return color;
	}

	tint_symbol_9 fs_main(tint_symbol_8 tint_symbol_7) {
	const VertexOutput tint_symbol_33 = {tint_symbol_7.position, tint_symbol_7.color, tint_symbol_7.quad_pos};
	const float4 inner_result_1 = fs_main_inner(tint_symbol_33);
	tint_symbol_9 wrapper_result_1 = (tint_symbol_9)0;
	wrapper_result_1.value = inner_result_1;
	return wrapper_result_1;
	}

	struct Particle {
	float3 position;
	float lifetime;
	float4 color;
	float3 velocity;
	};

	cbuffer cbuffer_sim_params : register(b0, space0) {
	uint4 sim_params[2];
	};
	RWByteAddressBuffer data : register(u1, space0);
	Texture2D<float4> tint_symbol_2 : register(t2, space0);

	struct tint_symbol_11 {
	uint3 GlobalInvocationID : SV_DispatchThreadID;
	};

	Particle tint_symbol_20(RWByteAddressBuffer buffer, uint offset) {
	const Particle tint_symbol_34 = {asfloat(buffer.Load3((offset + 0u))), asfloat(buffer.Load((offset + 12u))), asfloat(buffer.Load4((offset + 16u))), asfloat(buffer.Load3((offset + 32u)))};
	return tint_symbol_34;
	}

	void tint_symbol_25(RWByteAddressBuffer buffer, uint offset, Particle value) {
	buffer.Store3((offset + 0u), asuint(value.position));
	buffer.Store((offset + 12u), asuint(value.lifetime));
	buffer.Store4((offset + 16u), asuint(value.color));
	buffer.Store3((offset + 32u), asuint(value.velocity));
	}

	void simulate_inner(uint3 GlobalInvocationID) {
	rand_seed = ((asfloat(sim_params[1]).xy + float2(GlobalInvocationID.xy)) * asfloat(sim_params[1]).zw);
	const uint idx = GlobalInvocationID.x;
	Particle particle = tint_symbol_20(data, (48u * idx));
	particle.velocity.z = (particle.velocity.z - (asfloat(sim_params[0].x) * 0.5f));
	particle.position = (particle.position + (asfloat(sim_params[0].x) * particle.velocity));
	particle.lifetime = (particle.lifetime - asfloat(sim_params[0].x));
	particle.color.a = smoothstep(0.0f, 0.5f, particle.lifetime);
	if ((particle.lifetime < 0.0f)) {
	int2 coord = int2(0, 0);
	{
	int3 tint_tmp;
	tint_symbol_2.GetDimensions(0, tint_tmp.x, tint_tmp.y, tint_tmp.z);
	int level = (tint_tmp.z - 1);
	[loop] for(; (level > 0); level = (level - 1)) {
	const float4 probabilites = tint_symbol_2.Load(int3(coord, level));
	const float4 value = float4((rand()).xxxx);
	const bool4 mask = ((value >= float4(0.0f, probabilites.xyz)) & (value < probabilites));
	coord = (coord * 2);
	coord.x = (coord.x + (any(mask.yw) ? 1 : 0));
	coord.y = (coord.y + (any(mask.zw) ? 1 : 0));
	}
	}
	int2 tint_tmp_1;
	tint_symbol_2.GetDimensions(tint_tmp_1.x, tint_tmp_1.y);
	const float2 uv = (float2(coord) / float2(tint_tmp_1));
	particle.position = float3((((uv - 0.5f) * 3.0f) * float2(1.0f, -1.0f)), 0.0f);
	particle.color = tint_symbol_2.Load(int3(coord, 0));
	particle.velocity.x = ((rand() - 0.5f) * 0.100000001f);
	particle.velocity.y = ((rand() - 0.5f) * 0.100000001f);
	particle.velocity.z = (rand() * 0.300000012f);
	particle.lifetime = (0.5f + (rand() * 2.0f));
	}
	tint_symbol_25(data, (48u * idx), particle);
	}

	[numthreads(64, 1, 1)]
	void simulate(tint_symbol_11 tint_symbol_10) {
	simulate_inner(tint_symbol_10.GlobalInvocationID);
	return;
	}

	cbuffer cbuffer_ubo : register(b3, space0) {
	uint4 ubo[1];
	};
	ByteAddressBuffer buf_in : register(t4, space0);
	RWByteAddressBuffer buf_out : register(u5, space0);
	Texture2D<float4> tex_in : register(t6, space0);
	RWTexture2D<float4> tex_out : register(u7, space0);

	struct tint_symbol_13 {
	uint3 coord : SV_DispatchThreadID;
	};

	void import_level_inner(uint3 coord) {
	const uint offset = (coord.x + (coord.y * ubo[0].x));
	buf_out.Store((4u * offset), asuint(tex_in.Load(int3(int2(coord.xy), 0)).w));
	}

	[numthreads(64, 1, 1)]
	void import_level(tint_symbol_13 tint_symbol_12) {
	import_level_inner(tint_symbol_12.coord);
	return;
	}

	struct tint_symbol_15 {
	uint3 coord : SV_DispatchThreadID;
	};

	void export_level_inner(uint3 coord) {
	int2 tint_tmp_2;
	tex_out.GetDimensions(tint_tmp_2.x, tint_tmp_2.y);
	if (all((coord.xy < uint2(tint_tmp_2)))) {
	const uint dst_offset = (coord.x + (coord.y * ubo[0].x));
	const uint src_offset = ((coord.x * 2u) + ((coord.y * 2u) * ubo[0].x));
	const float a_1 = asfloat(buf_in.Load((4u * (src_offset + 0u))));
	const float b = asfloat(buf_in.Load((4u * (src_offset + 1u))));
	const float c = asfloat(buf_in.Load((4u * ((src_offset + 0u) + ubo[0].x))));
	const float d = asfloat(buf_in.Load((4u * ((src_offset + 1u) + ubo[0].x))));
	const float sum = dot(float4(a_1, b, c, d), float4((1.0f).xxxx));
	buf_out.Store((4u * dst_offset), asuint((sum / 4.0f)));
	const float4 probabilities = (float4(a_1, (a_1 + b), ((a_1 + b) + c), sum) / max(sum, 0.0001f));
	tex_out[int2(coord.xy)] = probabilities;
	}
	}

	[numthreads(64, 1, 1)]
	void export_level(tint_symbol_15 tint_symbol_14) {
	export_level_inner(tint_symbol_14.coord);
	return;
	}