Test/hlsl.matrixindex.frag - platform/external/deqp-deps/glslang - Gitiles

 uniform int      idx;
 uniform float3x2 um;

 struct PS_OUTPUT
 {
     float4 Color : SV_Target0;
 };

 PS_OUTPUT main()
 {
     // matrices of 3 rows, 2 columns (regardless of row vs col major storage)
     const float3x2 m1 = { { 10, 11 },  // row-wise initialization
                           { 12, 13 },
                           { 14, 15 } };

     const float3x2 m2 = { 20, 21, 22, 23, 24, 25 };  // component-wise matrix initialization is allowed
     const float3x2 m3 = { 30, 31, 33, 33, 34, 35 };  // component-wise matrix initialization is allowed

     // These can be observed in the AST post-const folding to ensure we obtain the right value,
     // as given in comments to the right of each line.  Note that the first indirection into a
     // matrix returns a row vector.
     float e1_00 = m1[0][0]; // 10
     float e1_01 = m1[0][1]; // 11
     float e1_10 = m1[1][0]; // 12
     float e1_11 = m1[1][1]; // 13
     float e1_20 = m1[2][0]; // 14
     float e1_21 = m1[2][1]; // 15

     float e2_00 = m2[0][0]; // 20
     float e2_01 = m2[0][1]; // 21
     float e2_10 = m2[1][0]; // 22
     float e2_11 = m2[1][1]; // 23
     float e2_20 = m2[2][0]; // 24
     float e2_21 = m2[2][1]; // 25

     // float e3a_00 = m3._m00; // TODO... also as an lvalue for a non-const matrix
     // float e3b_00 = m3._11;  // TODO... also as an lvalue for a non-const matrix

     float2 r0a = m1[0];  // row0: 10,11: types must match: constant index into constant
     float2 r1a = m1[1];  // row1: 12,13: ...
     float2 r2a = m1[2];  // row2: 14,15: ...

     float2 r0b = m2[idx]; // types should match: variable index into constant
     float2 r0c = um[idx]; // types should match: variable index into variable

     PS_OUTPUT psout;
     psout.Color = e2_11; // 23
     return psout;
 }
	uniform int idx;
	uniform float3x2 um;

	struct PS_OUTPUT
	{
	float4 Color : SV_Target0;
	};

	PS_OUTPUT main()
	{
	// matrices of 3 rows, 2 columns (regardless of row vs col major storage)
	const float3x2 m1 = { { 10, 11 }, // row-wise initialization
	{ 12, 13 },
	{ 14, 15 } };

	const float3x2 m2 = { 20, 21, 22, 23, 24, 25 }; // component-wise matrix initialization is allowed
	const float3x2 m3 = { 30, 31, 33, 33, 34, 35 }; // component-wise matrix initialization is allowed

	// These can be observed in the AST post-const folding to ensure we obtain the right value,
	// as given in comments to the right of each line. Note that the first indirection into a
	// matrix returns a row vector.
	float e1_00 = m1[0][0]; // 10
	float e1_01 = m1[0][1]; // 11
	float e1_10 = m1[1][0]; // 12
	float e1_11 = m1[1][1]; // 13
	float e1_20 = m1[2][0]; // 14
	float e1_21 = m1[2][1]; // 15

	float e2_00 = m2[0][0]; // 20
	float e2_01 = m2[0][1]; // 21
	float e2_10 = m2[1][0]; // 22
	float e2_11 = m2[1][1]; // 23
	float e2_20 = m2[2][0]; // 24
	float e2_21 = m2[2][1]; // 25

	// float e3a_00 = m3._m00; // TODO... also as an lvalue for a non-const matrix
	// float e3b_00 = m3._11; // TODO... also as an lvalue for a non-const matrix

	float2 r0a = m1[0]; // row0: 10,11: types must match: constant index into constant
	float2 r1a = m1[1]; // row1: 12,13: ...
	float2 r2a = m1[2]; // row2: 14,15: ...

	float2 r0b = m2[idx]; // types should match: variable index into constant
	float2 r0c = um[idx]; // types should match: variable index into variable

	PS_OUTPUT psout;
	psout.Color = e2_11; // 23
	return psout;
	}