test/tint/array/strides.spvasm.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];
 };

 #define TINT_ISOLATE_UB(VOLATILE_NAME) \
   volatile bool VOLATILE_NAME = true; \
   if (VOLATILE_NAME)

 struct strided_arr {
   /* 0x0000 */ float el;
   /* 0x0004 */ tint_array<int8_t, 4> tint_pad;
 };

 struct strided_arr_1 {
   /* 0x0000 */ tint_array<tint_array<strided_arr, 2>, 3> el;
   /* 0x0030 */ tint_array<int8_t, 80> tint_pad_1;
 };

 struct S {
   /* 0x0000 */ tint_array<strided_arr_1, 4> a;
 };

 void assign_and_preserve_padding_4(device strided_arr* const dest, strided_arr value) {
   (*(dest)).el = value.el;
 }

 void assign_and_preserve_padding_3(device tint_array<strided_arr, 2>* const dest, tint_array<strided_arr, 2> value) {
   TINT_ISOLATE_UB(tint_volatile_true) for(uint i = 0u; (i < 2u); i = (i + 1u)) {
     assign_and_preserve_padding_4(&((*(dest))[i]), value[i]);
   }
 }

 void assign_and_preserve_padding_2(device tint_array<tint_array<strided_arr, 2>, 3>* const dest, tint_array<tint_array<strided_arr, 2>, 3> value) {
   TINT_ISOLATE_UB(tint_volatile_true_1) for(uint i = 0u; (i < 3u); i = (i + 1u)) {
     assign_and_preserve_padding_3(&((*(dest))[i]), value[i]);
   }
 }

 void assign_and_preserve_padding_1(device strided_arr_1* const dest, strided_arr_1 value) {
   assign_and_preserve_padding_2(&((*(dest)).el), value.el);
 }

 void assign_and_preserve_padding(device tint_array<strided_arr_1, 4>* const dest, tint_array<strided_arr_1, 4> value) {
   TINT_ISOLATE_UB(tint_volatile_true_2) for(uint i = 0u; (i < 4u); i = (i + 1u)) {
     assign_and_preserve_padding_1(&((*(dest))[i]), value[i]);
   }
 }

 void f_1(device S* const tint_symbol_1) {
   tint_array<strided_arr_1, 4> const x_19 = (*(tint_symbol_1)).a;
   tint_array<tint_array<strided_arr, 2>, 3> const x_24 = (*(tint_symbol_1)).a[3].el;
   tint_array<strided_arr, 2> const x_28 = (*(tint_symbol_1)).a[3].el[2];
   float const x_32 = (*(tint_symbol_1)).a[3].el[2][1].el;
   tint_array<strided_arr_1, 4> const tint_symbol = tint_array<strided_arr_1, 4>{};
   assign_and_preserve_padding(&((*(tint_symbol_1)).a), tint_symbol);
   (*(tint_symbol_1)).a[3].el[2][1].el = 5.0f;
   return;
 }

 kernel void f(device S* tint_symbol_2 [[buffer(0)]]) {
   f_1(tint_symbol_2);
   return;
 }
	#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];
	};

	#define TINT_ISOLATE_UB(VOLATILE_NAME) \
	volatile bool VOLATILE_NAME = true; \
	if (VOLATILE_NAME)

	struct strided_arr {
	/* 0x0000 */ float el;
	/* 0x0004 */ tint_array<int8_t, 4> tint_pad;
	};

	struct strided_arr_1 {
	/* 0x0000 */ tint_array<tint_array<strided_arr, 2>, 3> el;
	/* 0x0030 */ tint_array<int8_t, 80> tint_pad_1;
	};

	struct S {
	/* 0x0000 */ tint_array<strided_arr_1, 4> a;
	};

	void assign_and_preserve_padding_4(device strided_arr* const dest, strided_arr value) {
	(*(dest)).el = value.el;
	}

	void assign_and_preserve_padding_3(device tint_array<strided_arr, 2>* const dest, tint_array<strided_arr, 2> value) {
	TINT_ISOLATE_UB(tint_volatile_true) for(uint i = 0u; (i < 2u); i = (i + 1u)) {
	assign_and_preserve_padding_4(&((*(dest))[i]), value[i]);
	}
	}

	void assign_and_preserve_padding_2(device tint_array<tint_array<strided_arr, 2>, 3>* const dest, tint_array<tint_array<strided_arr, 2>, 3> value) {
	TINT_ISOLATE_UB(tint_volatile_true_1) for(uint i = 0u; (i < 3u); i = (i + 1u)) {
	assign_and_preserve_padding_3(&((*(dest))[i]), value[i]);
	}
	}

	void assign_and_preserve_padding_1(device strided_arr_1* const dest, strided_arr_1 value) {
	assign_and_preserve_padding_2(&((*(dest)).el), value.el);
	}

	void assign_and_preserve_padding(device tint_array<strided_arr_1, 4>* const dest, tint_array<strided_arr_1, 4> value) {
	TINT_ISOLATE_UB(tint_volatile_true_2) for(uint i = 0u; (i < 4u); i = (i + 1u)) {
	assign_and_preserve_padding_1(&((*(dest))[i]), value[i]);
	}
	}

	void f_1(device S* const tint_symbol_1) {
	tint_array<strided_arr_1, 4> const x_19 = (*(tint_symbol_1)).a;
	tint_array<tint_array<strided_arr, 2>, 3> const x_24 = (*(tint_symbol_1)).a[3].el;
	tint_array<strided_arr, 2> const x_28 = (*(tint_symbol_1)).a[3].el[2];
	float const x_32 = (*(tint_symbol_1)).a[3].el[2][1].el;
	tint_array<strided_arr_1, 4> const tint_symbol = tint_array<strided_arr_1, 4>{};
	assign_and_preserve_padding(&((*(tint_symbol_1)).a), tint_symbol);
	(*(tint_symbol_1)).a[3].el[2][1].el = 5.0f;
	return;
	}

	kernel void f(device S* tint_symbol_2 [[buffer(0)]]) {
	f_1(tint_symbol_2);
	return;
	}