HLSL: add implicit mat*mat truncations

Goes with PR #1161, and completes the space for mul() implicit truncations.

Note that the v*v and scalar cases are already handled by existing code.
This commit is contained in:
LoopDawg 2017-11-27 09:42:53 -07:00
parent 792a94809b
commit cee29b04d6
3 changed files with 619 additions and 345 deletions

File diff suppressed because it is too large Load Diff

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@ -6,6 +6,7 @@ cbuffer Matrix
float4x4 m44;
float4x3 m43;
float3x4 m34;
float3x3 m33;
float2x4 m24;
float4x2 m42;
float4 v4;
@ -27,11 +28,11 @@ float4 main() : SV_Target0
float4 r20 = mul(m44, v3); // float4 = float4x4 * float3; // clamp mat to float4x3;
float4 r21 = mul(m43, v4); // truncate vector to vec3
// // m*m
// float2x3 r30 = mul(m24, m33); // float2x3 = float2x4 * float3x3;
// float3x4 r31 = mul(m33, m24); // float3x4 = float3x3 * float2x4;
// float3x2 r32 = mul(m33, m42); // float3x2 = float3x3 * float4x2;
// float4x3 r33 = mul(m42, m33); // float4x3 = float4x2 * float3x3;
// m*m
float2x3 r30 = mul(m24, m33); // float2x3 = float2x4 * float3x3;
float3x4 r31 = mul(m33, m24); // float3x4 = float3x3 * float2x4;
float3x2 r32 = mul(m33, m42); // float3x2 = float3x3 * float4x2;
float4x3 r33 = mul(m42, m33); // float4x3 = float4x2 * float3x3;
return r10 + r11 + r20 + r21 + r00 + r01; // + r30[0].x + r31[0] + r32[0].x + transpose(r33)[0];
return r10 + r11 + r20 + r21 + r00 + r01 + r30[0].x + r31[0] + r32[0].x + transpose(r33)[0];
}

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@ -5178,7 +5178,7 @@ void HlslParseContext::pushFrontArguments(TIntermTyped* front, TIntermTyped*& ar
//
// HLSL allows mismatched dimensions on vec*mat, mat*vec, vec*vec, and mat*mat. This is a
// situation not well suited to resolution in intrinsic selection, but we can do so here, since we
// can look at both arguments insert explicit shape changes here, if required.
// can look at both arguments insert explicit shape changes if required.
//
void HlslParseContext::addGenMulArgumentConversion(const TSourceLoc& loc, TFunction& call, TIntermTyped*& args)
{
@ -5224,12 +5224,23 @@ void HlslParseContext::addGenMulArgumentConversion(const TSourceLoc& loc, TFunct
arg1 = addConstructor(loc, arg1, truncType);
}
} else if (arg0->isMatrix() && arg1->isMatrix()) {
// mat * mat
// mat * mat: we clamp the smaller inner dimension to match the other matrix size.
// Remember, HLSL Mrc = GLSL/SPIRV Mcr.
if (arg0->getMatrixRows() > arg1->getMatrixCols()) {
const TType truncType(arg0->getBasicType(), arg0->getQualifier().storage, arg0->getQualifier().precision,
0, arg0->getMatrixCols(), arg1->getMatrixCols());
arg0 = addConstructor(loc, arg0, truncType);
} else if (arg0->getMatrixRows() < arg1->getMatrixCols()) {
const TType truncType(arg1->getBasicType(), arg1->getQualifier().storage, arg1->getQualifier().precision,
0, arg0->getMatrixRows(), arg1->getMatrixRows());
arg1 = addConstructor(loc, arg1, truncType);
}
} else {
// It's something with scalars: we'll just leave it alone.
// It's something with scalars: we'll just leave it alone. Function selection will handle it
// downstream.
}
// Put arguments back.
// Put arguments back. (They might be unchanged, in which case this is harmless).
argAggregate->getSequence()[0] = arg0;
argAggregate->getSequence()[1] = arg1;