test/tint/builtins/atomicStore/array/aliased_arrays.spvasm.expected.fxc.hlsl - dawn - Git at Google

 static uint local_invocation_index_1 = 0u;
 groupshared uint wg[3][2][1];

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

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

 void compute_main_inner(uint local_invocation_index) {
   uint idx = 0u;
   idx = local_invocation_index;
   while (true) {
     const uint x_25 = idx;
     if (!((x_25 < 6u))) {
       break;
     }
     const uint x_31 = idx;
     const uint x_33 = idx;
     const uint x_35 = idx;
     const uint tint_symbol_2 = tint_div(x_31, 2u);
     const uint tint_symbol_3 = tint_mod(x_33, 2u);
     const uint tint_symbol_4 = tint_mod(x_35, 1u);
     uint atomic_result = 0u;
     InterlockedExchange(wg[tint_symbol_2][tint_symbol_3][tint_symbol_4], 0u, atomic_result);
     {
       const uint x_42 = idx;
       idx = (x_42 + 1u);
     }
   }
   GroupMemoryBarrierWithGroupSync();
   uint atomic_result_1 = 0u;
   InterlockedExchange(wg[2][1][0], 1u, atomic_result_1);
   return;
 }

 void compute_main_1() {
   const uint x_57 = local_invocation_index_1;
   compute_main_inner(x_57);
   return;
 }

 struct tint_symbol_1 {
   uint local_invocation_index_1_param : SV_GroupIndex;
 };

 void compute_main_inner_1(uint local_invocation_index_1_param) {
   {
     for(uint idx_1 = local_invocation_index_1_param; (idx_1 < 6u); idx_1 = (idx_1 + 1u)) {
       const uint i = (idx_1 / 2u);
       const uint i_1 = (idx_1 % 2u);
       const uint i_2 = (idx_1 % 1u);
       uint atomic_result_2 = 0u;
       InterlockedExchange(wg[i][i_1][i_2], 0u, atomic_result_2);
     }
   }
   GroupMemoryBarrierWithGroupSync();
   local_invocation_index_1 = local_invocation_index_1_param;
   compute_main_1();
 }

 [numthreads(1, 1, 1)]
 void compute_main(tint_symbol_1 tint_symbol) {
   compute_main_inner_1(tint_symbol.local_invocation_index_1_param);
   return;
 }
	static uint local_invocation_index_1 = 0u;
	groupshared uint wg[3][2][1];

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

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

	void compute_main_inner(uint local_invocation_index) {
	uint idx = 0u;
	idx = local_invocation_index;
	while (true) {
	const uint x_25 = idx;
	if (!((x_25 < 6u))) {
	break;
	}
	const uint x_31 = idx;
	const uint x_33 = idx;
	const uint x_35 = idx;
	const uint tint_symbol_2 = tint_div(x_31, 2u);
	const uint tint_symbol_3 = tint_mod(x_33, 2u);
	const uint tint_symbol_4 = tint_mod(x_35, 1u);
	uint atomic_result = 0u;
	InterlockedExchange(wg[tint_symbol_2][tint_symbol_3][tint_symbol_4], 0u, atomic_result);
	{
	const uint x_42 = idx;
	idx = (x_42 + 1u);
	}
	}
	GroupMemoryBarrierWithGroupSync();
	uint atomic_result_1 = 0u;
	InterlockedExchange(wg[2][1][0], 1u, atomic_result_1);
	return;
	}

	void compute_main_1() {
	const uint x_57 = local_invocation_index_1;
	compute_main_inner(x_57);
	return;
	}

	struct tint_symbol_1 {
	uint local_invocation_index_1_param : SV_GroupIndex;
	};

	void compute_main_inner_1(uint local_invocation_index_1_param) {
	{
	for(uint idx_1 = local_invocation_index_1_param; (idx_1 < 6u); idx_1 = (idx_1 + 1u)) {
	const uint i = (idx_1 / 2u);
	const uint i_1 = (idx_1 % 2u);
	const uint i_2 = (idx_1 % 1u);
	uint atomic_result_2 = 0u;
	InterlockedExchange(wg[i][i_1][i_2], 0u, atomic_result_2);
	}
	}
	GroupMemoryBarrierWithGroupSync();
	local_invocation_index_1 = local_invocation_index_1_param;
	compute_main_1();
	}

	[numthreads(1, 1, 1)]
	void compute_main(tint_symbol_1 tint_symbol) {
	compute_main_inner_1(tint_symbol.local_invocation_index_1_param);
	return;
	}