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

 SKIP: FAILED

 struct Inner {
   matrix<float16_t, 4, 3> m;
 };
 struct Outer {
   Inner a[4];
 };

 cbuffer cbuffer_a : register(b0, space0) {
   uint4 a[64];
 };
 static int counter = 0;

 int i() {
   counter = (counter + 1);
   return counter;
 }

 matrix<float16_t, 4, 3> tint_symbol_8(uint4 buffer[64], 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]));
 }

 Inner tint_symbol_7(uint4 buffer[64], uint offset) {
   const Inner tint_symbol_11 = {tint_symbol_8(buffer, (offset + 0u))};
   return tint_symbol_11;
 }

 typedef Inner tint_symbol_6_ret[4];
 tint_symbol_6_ret tint_symbol_6(uint4 buffer[64], uint offset) {
   Inner arr[4] = (Inner[4])0;
   {
     for(uint i_1 = 0u; (i_1 < 4u); i_1 = (i_1 + 1u)) {
       arr[i_1] = tint_symbol_7(buffer, (offset + (i_1 * 64u)));
     }
   }
   return arr;
 }

 Outer tint_symbol_5(uint4 buffer[64], uint offset) {
   const Outer tint_symbol_12 = {tint_symbol_6(buffer, (offset + 0u))};
   return tint_symbol_12;
 }

 typedef Outer tint_symbol_4_ret[4];
 tint_symbol_4_ret tint_symbol_4(uint4 buffer[64], uint offset) {
   Outer arr_1[4] = (Outer[4])0;
   {
     for(uint i_2 = 0u; (i_2 < 4u); i_2 = (i_2 + 1u)) {
       arr_1[i_2] = tint_symbol_5(buffer, (offset + (i_2 * 256u)));
     }
   }
   return arr_1;
 }

 [numthreads(1, 1, 1)]
 void f() {
   const int p_a_i_save = i();
   const int p_a_i_a_i_save = i();
   const int p_a_i_a_i_m_i_save = i();
   const Outer l_a[4] = tint_symbol_4(a, 0u);
   const Outer l_a_i = tint_symbol_5(a, (256u * uint(p_a_i_save)));
   const Inner l_a_i_a[4] = tint_symbol_6(a, (256u * uint(p_a_i_save)));
   const Inner l_a_i_a_i = tint_symbol_7(a, ((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))));
   const matrix<float16_t, 4, 3> l_a_i_a_i_m = tint_symbol_8(a, ((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))));
   const uint scalar_offset_4 = ((((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))) + (8u * uint(p_a_i_a_i_m_i_save)))) / 4;
   uint4 ubo_load_9 = a[scalar_offset_4 / 4];
   uint2 ubo_load_8 = ((scalar_offset_4 & 2) ? ubo_load_9.zw : ubo_load_9.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);
   const vector<float16_t, 3> l_a_i_a_i_m_i = vector<float16_t, 3>(ubo_load_8_xz[0], ubo_load_8_y, ubo_load_8_xz[1]);
   const int tint_symbol = p_a_i_save;
   const int tint_symbol_1 = p_a_i_a_i_save;
   const int tint_symbol_2 = p_a_i_a_i_m_i_save;
   const int tint_symbol_3 = i();
   const uint scalar_offset_bytes = (((((256u * uint(tint_symbol)) + (64u * uint(tint_symbol_1))) + (8u * uint(tint_symbol_2))) + (2u * uint(tint_symbol_3))));
   const uint scalar_offset_index = scalar_offset_bytes / 4;
   const float16_t l_a_i_a_i_m_i_i = float16_t(f16tof32(((a[scalar_offset_index / 4][scalar_offset_index % 4] >> (scalar_offset_bytes % 4 == 0 ? 0 : 16)) & 0xFFFF)));
   return;
 }
 FXC validation failure:
 D:\Projects\RampUp\dawn\test\tint\buffer\Shader@0x00000236CB5C19B0(2,10-18): error X3000: syntax error: unexpected token 'float16_t'
	SKIP: FAILED

	struct Inner {
	matrix<float16_t, 4, 3> m;
	};
	struct Outer {
	Inner a[4];
	};

	cbuffer cbuffer_a : register(b0, space0) {
	uint4 a[64];
	};
	static int counter = 0;

	int i() {
	counter = (counter + 1);
	return counter;
	}

	matrix<float16_t, 4, 3> tint_symbol_8(uint4 buffer[64], 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]));
	}

	Inner tint_symbol_7(uint4 buffer[64], uint offset) {
	const Inner tint_symbol_11 = {tint_symbol_8(buffer, (offset + 0u))};
	return tint_symbol_11;
	}

	typedef Inner tint_symbol_6_ret[4];
	tint_symbol_6_ret tint_symbol_6(uint4 buffer[64], uint offset) {
	Inner arr[4] = (Inner[4])0;
	{
	for(uint i_1 = 0u; (i_1 < 4u); i_1 = (i_1 + 1u)) {
	arr[i_1] = tint_symbol_7(buffer, (offset + (i_1 * 64u)));
	}
	}
	return arr;
	}

	Outer tint_symbol_5(uint4 buffer[64], uint offset) {
	const Outer tint_symbol_12 = {tint_symbol_6(buffer, (offset + 0u))};
	return tint_symbol_12;
	}

	typedef Outer tint_symbol_4_ret[4];
	tint_symbol_4_ret tint_symbol_4(uint4 buffer[64], uint offset) {
	Outer arr_1[4] = (Outer[4])0;
	{
	for(uint i_2 = 0u; (i_2 < 4u); i_2 = (i_2 + 1u)) {
	arr_1[i_2] = tint_symbol_5(buffer, (offset + (i_2 * 256u)));
	}
	}
	return arr_1;
	}

	[numthreads(1, 1, 1)]
	void f() {
	const int p_a_i_save = i();
	const int p_a_i_a_i_save = i();
	const int p_a_i_a_i_m_i_save = i();
	const Outer l_a[4] = tint_symbol_4(a, 0u);
	const Outer l_a_i = tint_symbol_5(a, (256u * uint(p_a_i_save)));
	const Inner l_a_i_a[4] = tint_symbol_6(a, (256u * uint(p_a_i_save)));
	const Inner l_a_i_a_i = tint_symbol_7(a, ((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))));
	const matrix<float16_t, 4, 3> l_a_i_a_i_m = tint_symbol_8(a, ((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))));
	const uint scalar_offset_4 = ((((256u * uint(p_a_i_save)) + (64u * uint(p_a_i_a_i_save))) + (8u * uint(p_a_i_a_i_m_i_save)))) / 4;
	uint4 ubo_load_9 = a[scalar_offset_4 / 4];
	uint2 ubo_load_8 = ((scalar_offset_4 & 2) ? ubo_load_9.zw : ubo_load_9.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);
	const vector<float16_t, 3> l_a_i_a_i_m_i = vector<float16_t, 3>(ubo_load_8_xz[0], ubo_load_8_y, ubo_load_8_xz[1]);
	const int tint_symbol = p_a_i_save;
	const int tint_symbol_1 = p_a_i_a_i_save;
	const int tint_symbol_2 = p_a_i_a_i_m_i_save;
	const int tint_symbol_3 = i();
	const uint scalar_offset_bytes = (((((256u * uint(tint_symbol)) + (64u * uint(tint_symbol_1))) + (8u * uint(tint_symbol_2))) + (2u * uint(tint_symbol_3))));
	const uint scalar_offset_index = scalar_offset_bytes / 4;
	const float16_t l_a_i_a_i_m_i_i = float16_t(f16tof32(((a[scalar_offset_index / 4][scalar_offset_index % 4] >> (scalar_offset_bytes % 4 == 0 ? 0 : 16)) & 0xFFFF)));
	return;
	}
	FXC validation failure:
	D:\Projects\RampUp\dawn\test\tint\buffer\Shader@0x00000236CB5C19B0(2,10-18): error X3000: syntax error: unexpected token 'float16_t'