test/tint/extensions/subgroup_matrix/let.wgsl.expected.msl - dawn - Git at Google

 #include <metal_stdlib>
 using namespace metal;

 template<typename T, size_t N>
 struct tint_array {
   const constant T& operator[](size_t i) const constant { return elements[i]; }
   device T& operator[](size_t i) device { return elements[i]; }
   const device T& operator[](size_t i) const device { return elements[i]; }
   thread T& operator[](size_t i) thread { return elements[i]; }
   const thread T& operator[](size_t i) const thread { return elements[i]; }
   threadgroup T& operator[](size_t i) threadgroup { return elements[i]; }
   const threadgroup T& operator[](size_t i) const threadgroup { return elements[i]; }
   T elements[N];
 };

 struct tint_module_vars_struct {
   device tint_array<float, 1>* tint_member;
   const constant tint_array<uint4, 1>* tint_storage_buffer_sizes;
 };

 struct S {
   simdgroup_float8x8 l;
   simdgroup_float8x8 r;
 };

 struct S_Nested {
   S s;
 };

 kernel void v(device tint_array<float, 1>* v_1 [[buffer(0)]], const constant tint_array<uint4, 1>* tint_storage_buffer_sizes [[buffer(30)]]) {
   tint_module_vars_struct const tint_module_vars = tint_module_vars_struct{.tint_member=v_1, .tint_storage_buffer_sizes=tint_storage_buffer_sizes};
   simdgroup_float8x8 m = make_filled_simdgroup_matrix<float, 8, 8>(0.0f);
   tint_array<simdgroup_float8x8, 4> m_array = {};
   tint_array<tint_array<simdgroup_float8x8, 4>, 4> m_nested_array = {};
   S m_struct = {};
   S_Nested m_nested_struct = {};
   simdgroup_float8x8 const m_let = m;
   tint_array<simdgroup_float8x8, 4> const m_array_let = m_array;
   tint_array<tint_array<simdgroup_float8x8, 4>, 4> const m_nested_array_let = m_nested_array;
   S const m_struct_let = m_struct;
   S_Nested const m_nested_struct_let = m_nested_struct;
   if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
     simdgroup_store(m_let, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
   }
   if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
     simdgroup_store(m_array_let[0u], (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
   }
   if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
     simdgroup_store(m_nested_array_let[1u][2u], (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
   }
   if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
     simdgroup_store(m_struct_let.l, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
   }
   if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
     simdgroup_store(m_nested_struct_let.s.r, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
   }
 }
	#include <metal_stdlib>
	using namespace metal;

	template<typename T, size_t N>
	struct tint_array {
	const constant T& operator[](size_t i) const constant { return elements[i]; }
	device T& operator[](size_t i) device { return elements[i]; }
	const device T& operator[](size_t i) const device { return elements[i]; }
	thread T& operator[](size_t i) thread { return elements[i]; }
	const thread T& operator[](size_t i) const thread { return elements[i]; }
	threadgroup T& operator[](size_t i) threadgroup { return elements[i]; }
	const threadgroup T& operator[](size_t i) const threadgroup { return elements[i]; }
	T elements[N];
	};

	struct tint_module_vars_struct {
	device tint_array<float, 1>* tint_member;
	const constant tint_array<uint4, 1>* tint_storage_buffer_sizes;
	};

	struct S {
	simdgroup_float8x8 l;
	simdgroup_float8x8 r;
	};

	struct S_Nested {
	S s;
	};

	kernel void v(device tint_array<float, 1>* v_1 [[buffer(0)]], const constant tint_array<uint4, 1>* tint_storage_buffer_sizes [[buffer(30)]]) {
	tint_module_vars_struct const tint_module_vars = tint_module_vars_struct{.tint_member=v_1, .tint_storage_buffer_sizes=tint_storage_buffer_sizes};
	simdgroup_float8x8 m = make_filled_simdgroup_matrix<float, 8, 8>(0.0f);
	tint_array<simdgroup_float8x8, 4> m_array = {};
	tint_array<tint_array<simdgroup_float8x8, 4>, 4> m_nested_array = {};
	S m_struct = {};
	S_Nested m_nested_struct = {};
	simdgroup_float8x8 const m_let = m;
	tint_array<simdgroup_float8x8, 4> const m_array_let = m_array;
	tint_array<tint_array<simdgroup_float8x8, 4>, 4> const m_nested_array_let = m_nested_array;
	S const m_struct_let = m_struct;
	S_Nested const m_nested_struct_let = m_nested_struct;
	if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
	simdgroup_store(m_let, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
	}
	if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
	simdgroup_store(m_array_let[0u], (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
	}
	if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
	simdgroup_store(m_nested_array_let[1u][2u], (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
	}
	if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
	simdgroup_store(m_struct_let.l, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
	}
	if ((((0u + (64u * 7u)) + 8u) <= ((*tint_module_vars.tint_storage_buffer_sizes)[0u].x / 4u))) {
	simdgroup_store(m_nested_struct_let.s.r, (&(*tint_module_vars.tint_member)[0u]), ulong(64u), ulong2(0ul), false);
	}
	}