test/tint/buffer/uniform/std140/struct/mat4x3_f16/to_storage.wgsl.expected.fxc.hlsl - dawn - Git at Google

 SKIP: FAILED

 struct S {
   int before;
   matrix<float16_t, 4, 3> m;
   int after;
 };

 cbuffer cbuffer_u : register(b0, space0) {
   uint4 u[32];
 };
 RWByteAddressBuffer s : register(u1, space0);

 void tint_symbol_3(RWByteAddressBuffer buffer, uint offset, matrix<float16_t, 4, 3> value) {
   buffer.Store<vector<float16_t, 3> >((offset + 0u), value[0u]);
   buffer.Store<vector<float16_t, 3> >((offset + 8u), value[1u]);
   buffer.Store<vector<float16_t, 3> >((offset + 16u), value[2u]);
   buffer.Store<vector<float16_t, 3> >((offset + 24u), value[3u]);
 }

 void tint_symbol_1(RWByteAddressBuffer buffer, uint offset, S value) {
   buffer.Store((offset + 0u), asuint(value.before));
   tint_symbol_3(buffer, (offset + 8u), value.m);
   buffer.Store((offset + 64u), asuint(value.after));
 }

 void tint_symbol(RWByteAddressBuffer buffer, uint offset, S value[4]) {
   S array[4] = value;
   {
     for(uint i = 0u; (i < 4u); i = (i + 1u)) {
       tint_symbol_1(buffer, (offset + (i * 128u)), array[i]);
     }
   }
 }

 matrix<float16_t, 4, 3> tint_symbol_8(uint4 buffer[32], uint offset) {
   const uint scalar_offset = ((offset + 0u)) / 4;
   uint4 ubo_load_1 = buffer[scalar_offset / 4];
   uint2 ubo_load = ((scalar_offset & 2) ? ubo_load_1.zw : ubo_load_1.xy);
   vector<float16_t, 2> ubo_load_xz = vector<float16_t, 2>(f16tof32(ubo_load & 0xFFFF));
   float16_t ubo_load_y = f16tof32(ubo_load[0] >> 16);
   const uint scalar_offset_1 = ((offset + 8u)) / 4;
   uint4 ubo_load_3 = buffer[scalar_offset_1 / 4];
   uint2 ubo_load_2 = ((scalar_offset_1 & 2) ? ubo_load_3.zw : ubo_load_3.xy);
   vector<float16_t, 2> ubo_load_2_xz = vector<float16_t, 2>(f16tof32(ubo_load_2 & 0xFFFF));
   float16_t ubo_load_2_y = f16tof32(ubo_load_2[0] >> 16);
   const uint scalar_offset_2 = ((offset + 16u)) / 4;
   uint4 ubo_load_5 = buffer[scalar_offset_2 / 4];
   uint2 ubo_load_4 = ((scalar_offset_2 & 2) ? ubo_load_5.zw : ubo_load_5.xy);
   vector<float16_t, 2> ubo_load_4_xz = vector<float16_t, 2>(f16tof32(ubo_load_4 & 0xFFFF));
   float16_t ubo_load_4_y = f16tof32(ubo_load_4[0] >> 16);
   const uint scalar_offset_3 = ((offset + 24u)) / 4;
   uint4 ubo_load_7 = buffer[scalar_offset_3 / 4];
   uint2 ubo_load_6 = ((scalar_offset_3 & 2) ? ubo_load_7.zw : ubo_load_7.xy);
   vector<float16_t, 2> ubo_load_6_xz = vector<float16_t, 2>(f16tof32(ubo_load_6 & 0xFFFF));
   float16_t ubo_load_6_y = f16tof32(ubo_load_6[0] >> 16);
   return matrix<float16_t, 4, 3>(vector<float16_t, 3>(ubo_load_xz[0], ubo_load_y, ubo_load_xz[1]), vector<float16_t, 3>(ubo_load_2_xz[0], ubo_load_2_y, ubo_load_2_xz[1]), vector<float16_t, 3>(ubo_load_4_xz[0], ubo_load_4_y, ubo_load_4_xz[1]), vector<float16_t, 3>(ubo_load_6_xz[0], ubo_load_6_y, ubo_load_6_xz[1]));
 }

 S tint_symbol_6(uint4 buffer[32], uint offset) {
   const uint scalar_offset_4 = ((offset + 0u)) / 4;
   const uint scalar_offset_5 = ((offset + 64u)) / 4;
   const S tint_symbol_10 = {asint(buffer[scalar_offset_4 / 4][scalar_offset_4 % 4]), tint_symbol_8(buffer, (offset + 8u)), asint(buffer[scalar_offset_5 / 4][scalar_offset_5 % 4])};
   return tint_symbol_10;
 }

 typedef S tint_symbol_5_ret[4];
 tint_symbol_5_ret tint_symbol_5(uint4 buffer[32], uint offset) {
   S arr[4] = (S[4])0;
   {
     for(uint i_1 = 0u; (i_1 < 4u); i_1 = (i_1 + 1u)) {
       arr[i_1] = tint_symbol_6(buffer, (offset + (i_1 * 128u)));
     }
   }
   return arr;
 }

 [numthreads(1, 1, 1)]
 void f() {
   tint_symbol(s, 0u, tint_symbol_5(u, 0u));
   tint_symbol_1(s, 128u, tint_symbol_6(u, 256u));
   tint_symbol_3(s, 392u, tint_symbol_8(u, 264u));
   uint2 ubo_load_8 = u[1].xy;
   vector<float16_t, 2> ubo_load_8_xz = vector<float16_t, 2>(f16tof32(ubo_load_8 & 0xFFFF));
   float16_t ubo_load_8_y = f16tof32(ubo_load_8[0] >> 16);
   s.Store<vector<float16_t, 3> >(136u, vector<float16_t, 3>(ubo_load_8_xz[0], ubo_load_8_y, ubo_load_8_xz[1]).zxy);
   return;
 }
 FXC validation failure:
 D:\Projects\RampUp\dawn\test\tint\buffer\Shader@0x00000168827ABEC0(3,10-18): error X3000: syntax error: unexpected token 'float16_t'
	SKIP: FAILED

	struct S {
	int before;
	matrix<float16_t, 4, 3> m;
	int after;
	};

	cbuffer cbuffer_u : register(b0, space0) {
	uint4 u[32];
	};
	RWByteAddressBuffer s : register(u1, space0);

	void tint_symbol_3(RWByteAddressBuffer buffer, uint offset, matrix<float16_t, 4, 3> value) {
	buffer.Store<vector<float16_t, 3> >((offset + 0u), value[0u]);
	buffer.Store<vector<float16_t, 3> >((offset + 8u), value[1u]);
	buffer.Store<vector<float16_t, 3> >((offset + 16u), value[2u]);
	buffer.Store<vector<float16_t, 3> >((offset + 24u), value[3u]);
	}

	void tint_symbol_1(RWByteAddressBuffer buffer, uint offset, S value) {
	buffer.Store((offset + 0u), asuint(value.before));
	tint_symbol_3(buffer, (offset + 8u), value.m);
	buffer.Store((offset + 64u), asuint(value.after));
	}

	void tint_symbol(RWByteAddressBuffer buffer, uint offset, S value[4]) {
	S array[4] = value;
	{
	for(uint i = 0u; (i < 4u); i = (i + 1u)) {
	tint_symbol_1(buffer, (offset + (i * 128u)), array[i]);
	}
	}
	}

	matrix<float16_t, 4, 3> tint_symbol_8(uint4 buffer[32], uint offset) {
	const uint scalar_offset = ((offset + 0u)) / 4;
	uint4 ubo_load_1 = buffer[scalar_offset / 4];
	uint2 ubo_load = ((scalar_offset & 2) ? ubo_load_1.zw : ubo_load_1.xy);
	vector<float16_t, 2> ubo_load_xz = vector<float16_t, 2>(f16tof32(ubo_load & 0xFFFF));
	float16_t ubo_load_y = f16tof32(ubo_load[0] >> 16);
	const uint scalar_offset_1 = ((offset + 8u)) / 4;
	uint4 ubo_load_3 = buffer[scalar_offset_1 / 4];
	uint2 ubo_load_2 = ((scalar_offset_1 & 2) ? ubo_load_3.zw : ubo_load_3.xy);
	vector<float16_t, 2> ubo_load_2_xz = vector<float16_t, 2>(f16tof32(ubo_load_2 & 0xFFFF));
	float16_t ubo_load_2_y = f16tof32(ubo_load_2[0] >> 16);
	const uint scalar_offset_2 = ((offset + 16u)) / 4;
	uint4 ubo_load_5 = buffer[scalar_offset_2 / 4];
	uint2 ubo_load_4 = ((scalar_offset_2 & 2) ? ubo_load_5.zw : ubo_load_5.xy);
	vector<float16_t, 2> ubo_load_4_xz = vector<float16_t, 2>(f16tof32(ubo_load_4 & 0xFFFF));
	float16_t ubo_load_4_y = f16tof32(ubo_load_4[0] >> 16);
	const uint scalar_offset_3 = ((offset + 24u)) / 4;
	uint4 ubo_load_7 = buffer[scalar_offset_3 / 4];
	uint2 ubo_load_6 = ((scalar_offset_3 & 2) ? ubo_load_7.zw : ubo_load_7.xy);
	vector<float16_t, 2> ubo_load_6_xz = vector<float16_t, 2>(f16tof32(ubo_load_6 & 0xFFFF));
	float16_t ubo_load_6_y = f16tof32(ubo_load_6[0] >> 16);
	return matrix<float16_t, 4, 3>(vector<float16_t, 3>(ubo_load_xz[0], ubo_load_y, ubo_load_xz[1]), vector<float16_t, 3>(ubo_load_2_xz[0], ubo_load_2_y, ubo_load_2_xz[1]), vector<float16_t, 3>(ubo_load_4_xz[0], ubo_load_4_y, ubo_load_4_xz[1]), vector<float16_t, 3>(ubo_load_6_xz[0], ubo_load_6_y, ubo_load_6_xz[1]));
	}

	S tint_symbol_6(uint4 buffer[32], uint offset) {
	const uint scalar_offset_4 = ((offset + 0u)) / 4;
	const uint scalar_offset_5 = ((offset + 64u)) / 4;
	const S tint_symbol_10 = {asint(buffer[scalar_offset_4 / 4][scalar_offset_4 % 4]), tint_symbol_8(buffer, (offset + 8u)), asint(buffer[scalar_offset_5 / 4][scalar_offset_5 % 4])};
	return tint_symbol_10;
	}

	typedef S tint_symbol_5_ret[4];
	tint_symbol_5_ret tint_symbol_5(uint4 buffer[32], uint offset) {
	S arr[4] = (S[4])0;
	{
	for(uint i_1 = 0u; (i_1 < 4u); i_1 = (i_1 + 1u)) {
	arr[i_1] = tint_symbol_6(buffer, (offset + (i_1 * 128u)));
	}
	}
	return arr;
	}

	[numthreads(1, 1, 1)]
	void f() {
	tint_symbol(s, 0u, tint_symbol_5(u, 0u));
	tint_symbol_1(s, 128u, tint_symbol_6(u, 256u));
	tint_symbol_3(s, 392u, tint_symbol_8(u, 264u));
	uint2 ubo_load_8 = u[1].xy;
	vector<float16_t, 2> ubo_load_8_xz = vector<float16_t, 2>(f16tof32(ubo_load_8 & 0xFFFF));
	float16_t ubo_load_8_y = f16tof32(ubo_load_8[0] >> 16);
	s.Store<vector<float16_t, 3> >(136u, vector<float16_t, 3>(ubo_load_8_xz[0], ubo_load_8_y, ubo_load_8_xz[1]).zxy);
	return;
	}
	FXC validation failure:
	D:\Projects\RampUp\dawn\test\tint\buffer\Shader@0x00000168827ABEC0(3,10-18): error X3000: syntax error: unexpected token 'float16_t'