// // Copyright (C) 2002-2005 3Dlabs Inc. Ltd. // Copyright (C) 2012-2013 LunarG, Inc. // Copyright (C) 2017 ARM Limited. // Copyright (C) 2018-2020 Google, Inc. // // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // // Neither the name of 3Dlabs Inc. Ltd. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS // FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE // COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, // INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, // BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; // LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT // LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN // ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE // POSSIBILITY OF SUCH DAMAGE. // #include "localintermediate.h" #include #include #include #include namespace { using namespace glslang; const double pi = 3.1415926535897932384626433832795; } // end anonymous namespace namespace glslang { // // The fold functions see if an operation on a constant can be done in place, // without generating run-time code. // // Returns the node to keep using, which may or may not be the node passed in. // // Note: As of version 1.2, all constant operations must be folded. It is // not opportunistic, but rather a semantic requirement. // // // Do folding between a pair of nodes. // 'this' is the left-hand operand and 'rightConstantNode' is the right-hand operand. // // Returns a new node representing the result. // TIntermTyped* TIntermConstantUnion::fold(TOperator op, const TIntermTyped* rightConstantNode) const { // For most cases, the return type matches the argument type, so set that // up and just code to exceptions below. TType returnType; returnType.shallowCopy(getType()); // // A pair of nodes is to be folded together // const TIntermConstantUnion *rightNode = rightConstantNode->getAsConstantUnion(); TConstUnionArray leftUnionArray = getConstArray(); TConstUnionArray rightUnionArray = rightNode->getConstArray(); // Figure out the size of the result int newComps; int constComps; switch(op) { case EOpMatrixTimesMatrix: newComps = rightNode->getMatrixCols() * getMatrixRows(); break; case EOpMatrixTimesVector: newComps = getMatrixRows(); break; case EOpVectorTimesMatrix: newComps = rightNode->getMatrixCols(); break; default: newComps = getType().computeNumComponents(); constComps = rightConstantNode->getType().computeNumComponents(); if (constComps == 1 && newComps > 1) { // for a case like vec4 f = vec4(2,3,4,5) + 1.2; TConstUnionArray smearedArray(newComps, rightNode->getConstArray()[0]); rightUnionArray = smearedArray; } else if (constComps > 1 && newComps == 1) { // for a case like vec4 f = 1.2 + vec4(2,3,4,5); newComps = constComps; rightUnionArray = rightNode->getConstArray(); TConstUnionArray smearedArray(newComps, getConstArray()[0]); leftUnionArray = smearedArray; returnType.shallowCopy(rightNode->getType()); } break; } TConstUnionArray newConstArray(newComps); TType constBool(EbtBool, EvqConst); switch(op) { case EOpAdd: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] + rightUnionArray[i]; break; case EOpSub: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] - rightUnionArray[i]; break; case EOpMul: case EOpVectorTimesScalar: case EOpMatrixTimesScalar: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] * rightUnionArray[i]; break; case EOpMatrixTimesMatrix: for (int row = 0; row < getMatrixRows(); row++) { for (int column = 0; column < rightNode->getMatrixCols(); column++) { double sum = 0.0f; for (int i = 0; i < rightNode->getMatrixRows(); i++) sum += leftUnionArray[i * getMatrixRows() + row].getDConst() * rightUnionArray[column * rightNode->getMatrixRows() + i].getDConst(); newConstArray[column * getMatrixRows() + row].setDConst(sum); } } returnType.shallowCopy(TType(getType().getBasicType(), EvqConst, 0, rightNode->getMatrixCols(), getMatrixRows())); break; case EOpDiv: for (int i = 0; i < newComps; i++) { switch (getType().getBasicType()) { case EbtDouble: case EbtFloat: case EbtFloat16: if (rightUnionArray[i].getDConst() != 0.0) newConstArray[i].setDConst(leftUnionArray[i].getDConst() / rightUnionArray[i].getDConst()); else if (leftUnionArray[i].getDConst() > 0.0) newConstArray[i].setDConst((double)INFINITY); else if (leftUnionArray[i].getDConst() < 0.0) newConstArray[i].setDConst(-(double)INFINITY); else newConstArray[i].setDConst((double)NAN); break; case EbtInt: if (rightUnionArray[i] == 0) newConstArray[i].setIConst(0x7FFFFFFF); else if (rightUnionArray[i].getIConst() == -1 && leftUnionArray[i].getIConst() == (int)-0x80000000ll) newConstArray[i].setIConst((int)-0x80000000ll); else newConstArray[i].setIConst(leftUnionArray[i].getIConst() / rightUnionArray[i].getIConst()); break; case EbtUint: if (rightUnionArray[i] == 0u) newConstArray[i].setUConst(0xFFFFFFFFu); else newConstArray[i].setUConst(leftUnionArray[i].getUConst() / rightUnionArray[i].getUConst()); break; #ifndef GLSLANG_WEB case EbtInt8: if (rightUnionArray[i] == (signed char)0) newConstArray[i].setI8Const((signed char)0x7F); else if (rightUnionArray[i].getI8Const() == (signed char)-1 && leftUnionArray[i].getI8Const() == (signed char)-0x80) newConstArray[i].setI8Const((signed char)-0x80); else newConstArray[i].setI8Const(leftUnionArray[i].getI8Const() / rightUnionArray[i].getI8Const()); break; case EbtUint8: if (rightUnionArray[i] == (unsigned char)0u) newConstArray[i].setU8Const((unsigned char)0xFFu); else newConstArray[i].setU8Const(leftUnionArray[i].getU8Const() / rightUnionArray[i].getU8Const()); break; case EbtInt16: if (rightUnionArray[i] == (signed short)0) newConstArray[i].setI16Const((signed short)0x7FFF); else if (rightUnionArray[i].getI16Const() == (signed short)-1 && leftUnionArray[i].getI16Const() == (signed short)-0x8000) newConstArray[i].setI16Const((signed short)-0x8000); else newConstArray[i].setI16Const(leftUnionArray[i].getI16Const() / rightUnionArray[i].getI16Const()); break; case EbtUint16: if (rightUnionArray[i] == (unsigned short)0u) newConstArray[i].setU16Const((unsigned short)0xFFFFu); else newConstArray[i].setU16Const(leftUnionArray[i].getU16Const() / rightUnionArray[i].getU16Const()); break; case EbtInt64: if (rightUnionArray[i] == 0ll) newConstArray[i].setI64Const(LLONG_MAX); else if (rightUnionArray[i].getI64Const() == -1 && leftUnionArray[i].getI64Const() == LLONG_MIN) newConstArray[i].setI64Const(LLONG_MIN); else newConstArray[i].setI64Const(leftUnionArray[i].getI64Const() / rightUnionArray[i].getI64Const()); break; case EbtUint64: if (rightUnionArray[i] == 0ull) newConstArray[i].setU64Const(0xFFFFFFFFFFFFFFFFull); else newConstArray[i].setU64Const(leftUnionArray[i].getU64Const() / rightUnionArray[i].getU64Const()); break; default: return nullptr; #endif } } break; case EOpMatrixTimesVector: for (int i = 0; i < getMatrixRows(); i++) { double sum = 0.0f; for (int j = 0; j < rightNode->getVectorSize(); j++) { sum += leftUnionArray[j*getMatrixRows() + i].getDConst() * rightUnionArray[j].getDConst(); } newConstArray[i].setDConst(sum); } returnType.shallowCopy(TType(getBasicType(), EvqConst, getMatrixRows())); break; case EOpVectorTimesMatrix: for (int i = 0; i < rightNode->getMatrixCols(); i++) { double sum = 0.0f; for (int j = 0; j < getVectorSize(); j++) sum += leftUnionArray[j].getDConst() * rightUnionArray[i*rightNode->getMatrixRows() + j].getDConst(); newConstArray[i].setDConst(sum); } returnType.shallowCopy(TType(getBasicType(), EvqConst, rightNode->getMatrixCols())); break; case EOpMod: for (int i = 0; i < newComps; i++) { if (rightUnionArray[i] == 0) newConstArray[i] = leftUnionArray[i]; else { switch (getType().getBasicType()) { case EbtInt: if (rightUnionArray[i].getIConst() == -1 && leftUnionArray[i].getIConst() == INT_MIN) { newConstArray[i].setIConst(0); break; } else goto modulo_default; #ifndef GLSLANG_WEB case EbtInt64: if (rightUnionArray[i].getI64Const() == -1 && leftUnionArray[i].getI64Const() == LLONG_MIN) { newConstArray[i].setI64Const(0); break; } else goto modulo_default; case EbtInt16: if (rightUnionArray[i].getIConst() == -1 && leftUnionArray[i].getIConst() == SHRT_MIN) { newConstArray[i].setIConst(0); break; } else goto modulo_default; #endif default: modulo_default: newConstArray[i] = leftUnionArray[i] % rightUnionArray[i]; } } } break; case EOpRightShift: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] >> rightUnionArray[i]; break; case EOpLeftShift: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] << rightUnionArray[i]; break; case EOpAnd: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] & rightUnionArray[i]; break; case EOpInclusiveOr: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] | rightUnionArray[i]; break; case EOpExclusiveOr: for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] ^ rightUnionArray[i]; break; case EOpLogicalAnd: // this code is written for possible future use, will not get executed currently for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] && rightUnionArray[i]; break; case EOpLogicalOr: // this code is written for possible future use, will not get executed currently for (int i = 0; i < newComps; i++) newConstArray[i] = leftUnionArray[i] || rightUnionArray[i]; break; case EOpLogicalXor: for (int i = 0; i < newComps; i++) { switch (getType().getBasicType()) { case EbtBool: newConstArray[i].setBConst((leftUnionArray[i] == rightUnionArray[i]) ? false : true); break; default: assert(false && "Default missing"); } } break; case EOpLessThan: newConstArray[0].setBConst(leftUnionArray[0] < rightUnionArray[0]); returnType.shallowCopy(constBool); break; case EOpGreaterThan: newConstArray[0].setBConst(leftUnionArray[0] > rightUnionArray[0]); returnType.shallowCopy(constBool); break; case EOpLessThanEqual: newConstArray[0].setBConst(! (leftUnionArray[0] > rightUnionArray[0])); returnType.shallowCopy(constBool); break; case EOpGreaterThanEqual: newConstArray[0].setBConst(! (leftUnionArray[0] < rightUnionArray[0])); returnType.shallowCopy(constBool); break; case EOpEqual: newConstArray[0].setBConst(rightNode->getConstArray() == leftUnionArray); returnType.shallowCopy(constBool); break; case EOpNotEqual: newConstArray[0].setBConst(rightNode->getConstArray() != leftUnionArray); returnType.shallowCopy(constBool); break; default: return nullptr; } TIntermConstantUnion *newNode = new TIntermConstantUnion(newConstArray, returnType); newNode->setLoc(getLoc()); return newNode; } // // Do single unary node folding // // Returns a new node representing the result. // TIntermTyped* TIntermConstantUnion::fold(TOperator op, const TType& returnType) const { // First, size the result, which is mostly the same as the argument's size, // but not always, and classify what is componentwise. // Also, eliminate cases that can't be compile-time constant. int resultSize; bool componentWise = true; int objectSize = getType().computeNumComponents(); switch (op) { case EOpDeterminant: case EOpAny: case EOpAll: case EOpLength: componentWise = false; resultSize = 1; break; case EOpEmitStreamVertex: case EOpEndStreamPrimitive: // These don't fold return nullptr; case EOpPackSnorm2x16: case EOpPackUnorm2x16: case EOpPackHalf2x16: componentWise = false; resultSize = 1; break; case EOpUnpackSnorm2x16: case EOpUnpackUnorm2x16: case EOpUnpackHalf2x16: componentWise = false; resultSize = 2; break; case EOpPack16: case EOpPack32: case EOpPack64: case EOpUnpack32: case EOpUnpack16: case EOpUnpack8: case EOpNormalize: componentWise = false; resultSize = objectSize; break; default: resultSize = objectSize; break; } // Set up for processing TConstUnionArray newConstArray(resultSize); const TConstUnionArray& unionArray = getConstArray(); // Process non-component-wise operations switch (op) { case EOpLength: case EOpNormalize: { double sum = 0; for (int i = 0; i < objectSize; i++) sum += unionArray[i].getDConst() * unionArray[i].getDConst(); double length = sqrt(sum); if (op == EOpLength) newConstArray[0].setDConst(length); else { for (int i = 0; i < objectSize; i++) newConstArray[i].setDConst(unionArray[i].getDConst() / length); } break; } case EOpAny: { bool result = false; for (int i = 0; i < objectSize; i++) { if (unionArray[i].getBConst()) result = true; } newConstArray[0].setBConst(result); break; } case EOpAll: { bool result = true; for (int i = 0; i < objectSize; i++) { if (! unionArray[i].getBConst()) result = false; } newConstArray[0].setBConst(result); break; } case EOpPackSnorm2x16: case EOpPackUnorm2x16: case EOpPackHalf2x16: case EOpPack16: case EOpPack32: case EOpPack64: case EOpUnpack32: case EOpUnpack16: case EOpUnpack8: case EOpUnpackSnorm2x16: case EOpUnpackUnorm2x16: case EOpUnpackHalf2x16: case EOpDeterminant: case EOpMatrixInverse: case EOpTranspose: return nullptr; default: assert(componentWise); break; } // Turn off the componentwise loop if (! componentWise) objectSize = 0; // Process component-wise operations for (int i = 0; i < objectSize; i++) { switch (op) { case EOpNegative: switch (getType().getBasicType()) { case EbtDouble: case EbtFloat16: case EbtFloat: newConstArray[i].setDConst(-unionArray[i].getDConst()); break; // Note: avoid UBSAN error regarding negating 0x80000000 case EbtInt: newConstArray[i].setIConst( static_cast(unionArray[i].getIConst()) == 0x80000000 ? -0x7FFFFFFF - 1 : -unionArray[i].getIConst()); break; case EbtUint: newConstArray[i].setUConst(static_cast(-static_cast(unionArray[i].getUConst()))); break; #ifndef GLSLANG_WEB case EbtInt8: newConstArray[i].setI8Const(-unionArray[i].getI8Const()); break; case EbtUint8: newConstArray[i].setU8Const(static_cast(-static_cast(unionArray[i].getU8Const()))); break; case EbtInt16: newConstArray[i].setI16Const(-unionArray[i].getI16Const()); break; case EbtUint16:newConstArray[i].setU16Const(static_cast(-static_cast(unionArray[i].getU16Const()))); break; case EbtInt64: newConstArray[i].setI64Const(-unionArray[i].getI64Const()); break; case EbtUint64: newConstArray[i].setU64Const(static_cast(-static_cast(unionArray[i].getU64Const()))); break; #endif default: return nullptr; } break; case EOpLogicalNot: case EOpVectorLogicalNot: switch (getType().getBasicType()) { case EbtBool: newConstArray[i].setBConst(!unionArray[i].getBConst()); break; default: return nullptr; } break; case EOpBitwiseNot: newConstArray[i] = ~unionArray[i]; break; case EOpRadians: newConstArray[i].setDConst(unionArray[i].getDConst() * pi / 180.0); break; case EOpDegrees: newConstArray[i].setDConst(unionArray[i].getDConst() * 180.0 / pi); break; case EOpSin: newConstArray[i].setDConst(sin(unionArray[i].getDConst())); break; case EOpCos: newConstArray[i].setDConst(cos(unionArray[i].getDConst())); break; case EOpTan: newConstArray[i].setDConst(tan(unionArray[i].getDConst())); break; case EOpAsin: newConstArray[i].setDConst(asin(unionArray[i].getDConst())); break; case EOpAcos: newConstArray[i].setDConst(acos(unionArray[i].getDConst())); break; case EOpAtan: newConstArray[i].setDConst(atan(unionArray[i].getDConst())); break; case EOpDPdx: case EOpDPdy: case EOpFwidth: case EOpDPdxFine: case EOpDPdyFine: case EOpFwidthFine: case EOpDPdxCoarse: case EOpDPdyCoarse: case EOpFwidthCoarse: // The derivatives are all mandated to create a constant 0. newConstArray[i].setDConst(0.0); break; case EOpExp: newConstArray[i].setDConst(exp(unionArray[i].getDConst())); break; case EOpLog: newConstArray[i].setDConst(log(unionArray[i].getDConst())); break; case EOpExp2: newConstArray[i].setDConst(exp2(unionArray[i].getDConst())); break; case EOpLog2: newConstArray[i].setDConst(log2(unionArray[i].getDConst())); break; case EOpSqrt: newConstArray[i].setDConst(sqrt(unionArray[i].getDConst())); break; case EOpInverseSqrt: newConstArray[i].setDConst(1.0 / sqrt(unionArray[i].getDConst())); break; case EOpAbs: if (unionArray[i].getType() == EbtDouble) newConstArray[i].setDConst(fabs(unionArray[i].getDConst())); else if (unionArray[i].getType() == EbtInt) newConstArray[i].setIConst(abs(unionArray[i].getIConst())); else newConstArray[i] = unionArray[i]; break; case EOpSign: #define SIGN(X) (X == 0 ? 0 : (X < 0 ? -1 : 1)) if (unionArray[i].getType() == EbtDouble) newConstArray[i].setDConst(SIGN(unionArray[i].getDConst())); else newConstArray[i].setIConst(SIGN(unionArray[i].getIConst())); break; case EOpFloor: newConstArray[i].setDConst(floor(unionArray[i].getDConst())); break; case EOpTrunc: if (unionArray[i].getDConst() > 0) newConstArray[i].setDConst(floor(unionArray[i].getDConst())); else newConstArray[i].setDConst(ceil(unionArray[i].getDConst())); break; case EOpRound: newConstArray[i].setDConst(floor(0.5 + unionArray[i].getDConst())); break; case EOpRoundEven: { double flr = floor(unionArray[i].getDConst()); bool even = flr / 2.0 == floor(flr / 2.0); double rounded = even ? ceil(unionArray[i].getDConst() - 0.5) : floor(unionArray[i].getDConst() + 0.5); newConstArray[i].setDConst(rounded); break; } case EOpCeil: newConstArray[i].setDConst(ceil(unionArray[i].getDConst())); break; case EOpFract: { double x = unionArray[i].getDConst(); newConstArray[i].setDConst(x - floor(x)); break; } case EOpIsNan: { newConstArray[i].setBConst(IsNan(unionArray[i].getDConst())); break; } case EOpIsInf: { newConstArray[i].setBConst(IsInfinity(unionArray[i].getDConst())); break; } case EOpConvIntToBool: newConstArray[i].setBConst(unionArray[i].getIConst() != 0); break; case EOpConvUintToBool: newConstArray[i].setBConst(unionArray[i].getUConst() != 0); break; case EOpConvBoolToInt: newConstArray[i].setIConst(unionArray[i].getBConst()); break; case EOpConvBoolToUint: newConstArray[i].setUConst(unionArray[i].getBConst()); break; case EOpConvIntToUint: newConstArray[i].setUConst(unionArray[i].getIConst()); break; case EOpConvUintToInt: newConstArray[i].setIConst(unionArray[i].getUConst()); break; case EOpConvFloatToBool: case EOpConvDoubleToBool: newConstArray[i].setBConst(unionArray[i].getDConst() != 0); break; case EOpConvBoolToFloat: case EOpConvBoolToDouble: newConstArray[i].setDConst(unionArray[i].getBConst()); break; case EOpConvIntToFloat: case EOpConvIntToDouble: newConstArray[i].setDConst(unionArray[i].getIConst()); break; case EOpConvUintToFloat: case EOpConvUintToDouble: newConstArray[i].setDConst(unionArray[i].getUConst()); break; case EOpConvDoubleToFloat: case EOpConvFloatToDouble: newConstArray[i].setDConst(unionArray[i].getDConst()); break; case EOpConvFloatToUint: case EOpConvDoubleToUint: newConstArray[i].setUConst(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToInt: case EOpConvDoubleToInt: newConstArray[i].setIConst(static_cast(unionArray[i].getDConst())); break; #ifndef GLSLANG_WEB case EOpConvInt8ToBool: newConstArray[i].setBConst(unionArray[i].getI8Const() != 0); break; case EOpConvUint8ToBool: newConstArray[i].setBConst(unionArray[i].getU8Const() != 0); break; case EOpConvInt16ToBool: newConstArray[i].setBConst(unionArray[i].getI16Const() != 0); break; case EOpConvUint16ToBool: newConstArray[i].setBConst(unionArray[i].getU16Const() != 0); break; case EOpConvInt64ToBool: newConstArray[i].setBConst(unionArray[i].getI64Const() != 0); break; case EOpConvUint64ToBool: newConstArray[i].setBConst(unionArray[i].getI64Const() != 0); break; case EOpConvFloat16ToBool: newConstArray[i].setBConst(unionArray[i].getDConst() != 0); break; case EOpConvBoolToInt8: newConstArray[i].setI8Const(unionArray[i].getBConst()); break; case EOpConvBoolToUint8: newConstArray[i].setU8Const(unionArray[i].getBConst()); break; case EOpConvBoolToInt16: newConstArray[i].setI16Const(unionArray[i].getBConst()); break; case EOpConvBoolToUint16: newConstArray[i].setU16Const(unionArray[i].getBConst()); break; case EOpConvBoolToInt64: newConstArray[i].setI64Const(unionArray[i].getBConst()); break; case EOpConvBoolToUint64: newConstArray[i].setU64Const(unionArray[i].getBConst()); break; case EOpConvBoolToFloat16: newConstArray[i].setDConst(unionArray[i].getBConst()); break; case EOpConvInt8ToInt16: newConstArray[i].setI16Const(unionArray[i].getI8Const()); break; case EOpConvInt8ToInt: newConstArray[i].setIConst(unionArray[i].getI8Const()); break; case EOpConvInt8ToInt64: newConstArray[i].setI64Const(unionArray[i].getI8Const()); break; case EOpConvInt8ToUint8: newConstArray[i].setU8Const(unionArray[i].getI8Const()); break; case EOpConvInt8ToUint16: newConstArray[i].setU16Const(unionArray[i].getI8Const()); break; case EOpConvInt8ToUint: newConstArray[i].setUConst(unionArray[i].getI8Const()); break; case EOpConvInt8ToUint64: newConstArray[i].setU64Const(unionArray[i].getI8Const()); break; case EOpConvUint8ToInt8: newConstArray[i].setI8Const(unionArray[i].getU8Const()); break; case EOpConvUint8ToInt16: newConstArray[i].setI16Const(unionArray[i].getU8Const()); break; case EOpConvUint8ToInt: newConstArray[i].setIConst(unionArray[i].getU8Const()); break; case EOpConvUint8ToInt64: newConstArray[i].setI64Const(unionArray[i].getU8Const()); break; case EOpConvUint8ToUint16: newConstArray[i].setU16Const(unionArray[i].getU8Const()); break; case EOpConvUint8ToUint: newConstArray[i].setUConst(unionArray[i].getU8Const()); break; case EOpConvUint8ToUint64: newConstArray[i].setU64Const(unionArray[i].getU8Const()); break; case EOpConvInt8ToFloat16: newConstArray[i].setDConst(unionArray[i].getI8Const()); break; case EOpConvInt8ToFloat: newConstArray[i].setDConst(unionArray[i].getI8Const()); break; case EOpConvInt8ToDouble: newConstArray[i].setDConst(unionArray[i].getI8Const()); break; case EOpConvUint8ToFloat16: newConstArray[i].setDConst(unionArray[i].getU8Const()); break; case EOpConvUint8ToFloat: newConstArray[i].setDConst(unionArray[i].getU8Const()); break; case EOpConvUint8ToDouble: newConstArray[i].setDConst(unionArray[i].getU8Const()); break; case EOpConvInt16ToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getI16Const())); break; case EOpConvInt16ToInt: newConstArray[i].setIConst(unionArray[i].getI16Const()); break; case EOpConvInt16ToInt64: newConstArray[i].setI64Const(unionArray[i].getI16Const()); break; case EOpConvInt16ToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getI16Const())); break; case EOpConvInt16ToUint16: newConstArray[i].setU16Const(unionArray[i].getI16Const()); break; case EOpConvInt16ToUint: newConstArray[i].setUConst(unionArray[i].getI16Const()); break; case EOpConvInt16ToUint64: newConstArray[i].setU64Const(unionArray[i].getI16Const()); break; case EOpConvUint16ToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getU16Const())); break; case EOpConvUint16ToInt16: newConstArray[i].setI16Const(unionArray[i].getU16Const()); break; case EOpConvUint16ToInt: newConstArray[i].setIConst(unionArray[i].getU16Const()); break; case EOpConvUint16ToInt64: newConstArray[i].setI64Const(unionArray[i].getU16Const()); break; case EOpConvUint16ToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getU16Const())); break; case EOpConvUint16ToUint: newConstArray[i].setUConst(unionArray[i].getU16Const()); break; case EOpConvUint16ToUint64: newConstArray[i].setU64Const(unionArray[i].getU16Const()); break; case EOpConvInt16ToFloat16: newConstArray[i].setDConst(unionArray[i].getI16Const()); break; case EOpConvInt16ToFloat: newConstArray[i].setDConst(unionArray[i].getI16Const()); break; case EOpConvInt16ToDouble: newConstArray[i].setDConst(unionArray[i].getI16Const()); break; case EOpConvUint16ToFloat16: newConstArray[i].setDConst(unionArray[i].getU16Const()); break; case EOpConvUint16ToFloat: newConstArray[i].setDConst(unionArray[i].getU16Const()); break; case EOpConvUint16ToDouble: newConstArray[i].setDConst(unionArray[i].getU16Const()); break; case EOpConvIntToInt8: newConstArray[i].setI8Const((signed char)unionArray[i].getIConst()); break; case EOpConvIntToInt16: newConstArray[i].setI16Const((signed short)unionArray[i].getIConst()); break; case EOpConvIntToInt64: newConstArray[i].setI64Const(unionArray[i].getIConst()); break; case EOpConvIntToUint8: newConstArray[i].setU8Const((unsigned char)unionArray[i].getIConst()); break; case EOpConvIntToUint16: newConstArray[i].setU16Const((unsigned char)unionArray[i].getIConst()); break; case EOpConvIntToUint64: newConstArray[i].setU64Const(unionArray[i].getIConst()); break; case EOpConvUintToInt8: newConstArray[i].setI8Const((signed char)unionArray[i].getUConst()); break; case EOpConvUintToInt16: newConstArray[i].setI16Const((signed short)unionArray[i].getUConst()); break; case EOpConvUintToInt64: newConstArray[i].setI64Const(unionArray[i].getUConst()); break; case EOpConvUintToUint8: newConstArray[i].setU8Const((unsigned char)unionArray[i].getUConst()); break; case EOpConvUintToUint16: newConstArray[i].setU16Const((unsigned short)unionArray[i].getUConst()); break; case EOpConvUintToUint64: newConstArray[i].setU64Const(unionArray[i].getUConst()); break; case EOpConvIntToFloat16: newConstArray[i].setDConst(unionArray[i].getIConst()); break; case EOpConvUintToFloat16: newConstArray[i].setDConst(unionArray[i].getUConst()); break; case EOpConvInt64ToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToInt16: newConstArray[i].setI16Const(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToInt: newConstArray[i].setIConst(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToUint16: newConstArray[i].setU16Const(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToUint: newConstArray[i].setUConst(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToUint64: newConstArray[i].setU64Const(unionArray[i].getI64Const()); break; case EOpConvUint64ToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToInt16: newConstArray[i].setI16Const(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToInt: newConstArray[i].setIConst(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToInt64: newConstArray[i].setI64Const(unionArray[i].getU64Const()); break; case EOpConvUint64ToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToUint16: newConstArray[i].setU16Const(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToUint: newConstArray[i].setUConst(static_cast(unionArray[i].getU64Const())); break; case EOpConvInt64ToFloat16: newConstArray[i].setDConst(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToFloat: newConstArray[i].setDConst(static_cast(unionArray[i].getI64Const())); break; case EOpConvInt64ToDouble: newConstArray[i].setDConst(static_cast(unionArray[i].getI64Const())); break; case EOpConvUint64ToFloat16: newConstArray[i].setDConst(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToFloat: newConstArray[i].setDConst(static_cast(unionArray[i].getU64Const())); break; case EOpConvUint64ToDouble: newConstArray[i].setDConst(static_cast(unionArray[i].getU64Const())); break; case EOpConvFloat16ToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToInt16: newConstArray[i].setI16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToInt: newConstArray[i].setIConst(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToInt64: newConstArray[i].setI64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToUint16: newConstArray[i].setU16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToUint: newConstArray[i].setUConst(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToUint64: newConstArray[i].setU64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloat16ToFloat: newConstArray[i].setDConst(unionArray[i].getDConst()); break; case EOpConvFloat16ToDouble: newConstArray[i].setDConst(unionArray[i].getDConst()); break; case EOpConvFloatToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToInt16: newConstArray[i].setI16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToInt64: newConstArray[i].setI64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToUint16: newConstArray[i].setU16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToUint64: newConstArray[i].setU64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvFloatToFloat16: newConstArray[i].setDConst(unionArray[i].getDConst()); break; case EOpConvDoubleToInt8: newConstArray[i].setI8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToInt16: newConstArray[i].setI16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToInt64: newConstArray[i].setI64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToUint8: newConstArray[i].setU8Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToUint16: newConstArray[i].setU16Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToUint64: newConstArray[i].setU64Const(static_cast(unionArray[i].getDConst())); break; case EOpConvDoubleToFloat16: newConstArray[i].setDConst(unionArray[i].getDConst()); break; case EOpConvPtrToUint64: case EOpConvUint64ToPtr: case EOpConstructReference: newConstArray[i].setU64Const(unionArray[i].getU64Const()); break; #endif // TODO: 3.0 Functionality: unary constant folding: the rest of the ops have to be fleshed out case EOpSinh: case EOpCosh: case EOpTanh: case EOpAsinh: case EOpAcosh: case EOpAtanh: case EOpFloatBitsToInt: case EOpFloatBitsToUint: case EOpIntBitsToFloat: case EOpUintBitsToFloat: case EOpDoubleBitsToInt64: case EOpDoubleBitsToUint64: case EOpInt64BitsToDouble: case EOpUint64BitsToDouble: case EOpFloat16BitsToInt16: case EOpFloat16BitsToUint16: case EOpInt16BitsToFloat16: case EOpUint16BitsToFloat16: default: return nullptr; } } TIntermConstantUnion *newNode = new TIntermConstantUnion(newConstArray, returnType); newNode->getWritableType().getQualifier().storage = EvqConst; newNode->setLoc(getLoc()); return newNode; } // // Do constant folding for an aggregate node that has all its children // as constants and an operator that requires constant folding. // TIntermTyped* TIntermediate::fold(TIntermAggregate* aggrNode) { if (aggrNode == nullptr) return aggrNode; if (! areAllChildConst(aggrNode)) return aggrNode; if (aggrNode->isConstructor()) return foldConstructor(aggrNode); TIntermSequence& children = aggrNode->getSequence(); // First, see if this is an operation to constant fold, kick out if not, // see what size the result is if so. bool componentwise = false; // will also say componentwise if a scalar argument gets repeated to make per-component results int objectSize; switch (aggrNode->getOp()) { case EOpAtan: case EOpPow: case EOpMin: case EOpMax: case EOpMix: case EOpMod: case EOpClamp: case EOpLessThan: case EOpGreaterThan: case EOpLessThanEqual: case EOpGreaterThanEqual: case EOpVectorEqual: case EOpVectorNotEqual: componentwise = true; objectSize = children[0]->getAsConstantUnion()->getType().computeNumComponents(); break; case EOpCross: case EOpReflect: case EOpRefract: case EOpFaceForward: objectSize = children[0]->getAsConstantUnion()->getType().computeNumComponents(); break; case EOpDistance: case EOpDot: objectSize = 1; break; case EOpOuterProduct: objectSize = children[0]->getAsTyped()->getType().getVectorSize() * children[1]->getAsTyped()->getType().getVectorSize(); break; case EOpStep: componentwise = true; objectSize = std::max(children[0]->getAsTyped()->getType().getVectorSize(), children[1]->getAsTyped()->getType().getVectorSize()); break; case EOpSmoothStep: componentwise = true; objectSize = std::max(children[0]->getAsTyped()->getType().getVectorSize(), children[2]->getAsTyped()->getType().getVectorSize()); break; default: return aggrNode; } TConstUnionArray newConstArray(objectSize); TVector childConstUnions; for (unsigned int arg = 0; arg < children.size(); ++arg) childConstUnions.push_back(children[arg]->getAsConstantUnion()->getConstArray()); if (componentwise) { for (int comp = 0; comp < objectSize; comp++) { // some arguments are scalars instead of matching vectors; simulate a smear int arg0comp = std::min(comp, children[0]->getAsTyped()->getType().getVectorSize() - 1); int arg1comp = 0; if (children.size() > 1) arg1comp = std::min(comp, children[1]->getAsTyped()->getType().getVectorSize() - 1); int arg2comp = 0; if (children.size() > 2) arg2comp = std::min(comp, children[2]->getAsTyped()->getType().getVectorSize() - 1); switch (aggrNode->getOp()) { case EOpAtan: newConstArray[comp].setDConst(atan2(childConstUnions[0][arg0comp].getDConst(), childConstUnions[1][arg1comp].getDConst())); break; case EOpPow: newConstArray[comp].setDConst(pow(childConstUnions[0][arg0comp].getDConst(), childConstUnions[1][arg1comp].getDConst())); break; case EOpMod: { double arg0 = childConstUnions[0][arg0comp].getDConst(); double arg1 = childConstUnions[1][arg1comp].getDConst(); double result = arg0 - arg1 * floor(arg0 / arg1); newConstArray[comp].setDConst(result); break; } case EOpMin: switch(children[0]->getAsTyped()->getBasicType()) { case EbtFloat16: case EbtFloat: case EbtDouble: newConstArray[comp].setDConst(std::min(childConstUnions[0][arg0comp].getDConst(), childConstUnions[1][arg1comp].getDConst())); break; case EbtInt: newConstArray[comp].setIConst(std::min(childConstUnions[0][arg0comp].getIConst(), childConstUnions[1][arg1comp].getIConst())); break; case EbtUint: newConstArray[comp].setUConst(std::min(childConstUnions[0][arg0comp].getUConst(), childConstUnions[1][arg1comp].getUConst())); break; #ifndef GLSLANG_WEB case EbtInt8: newConstArray[comp].setI8Const(std::min(childConstUnions[0][arg0comp].getI8Const(), childConstUnions[1][arg1comp].getI8Const())); break; case EbtUint8: newConstArray[comp].setU8Const(std::min(childConstUnions[0][arg0comp].getU8Const(), childConstUnions[1][arg1comp].getU8Const())); break; case EbtInt16: newConstArray[comp].setI16Const(std::min(childConstUnions[0][arg0comp].getI16Const(), childConstUnions[1][arg1comp].getI16Const())); break; case EbtUint16: newConstArray[comp].setU16Const(std::min(childConstUnions[0][arg0comp].getU16Const(), childConstUnions[1][arg1comp].getU16Const())); break; case EbtInt64: newConstArray[comp].setI64Const(std::min(childConstUnions[0][arg0comp].getI64Const(), childConstUnions[1][arg1comp].getI64Const())); break; case EbtUint64: newConstArray[comp].setU64Const(std::min(childConstUnions[0][arg0comp].getU64Const(), childConstUnions[1][arg1comp].getU64Const())); break; #endif default: assert(false && "Default missing"); } break; case EOpMax: switch(children[0]->getAsTyped()->getBasicType()) { case EbtFloat16: case EbtFloat: case EbtDouble: newConstArray[comp].setDConst(std::max(childConstUnions[0][arg0comp].getDConst(), childConstUnions[1][arg1comp].getDConst())); break; case EbtInt: newConstArray[comp].setIConst(std::max(childConstUnions[0][arg0comp].getIConst(), childConstUnions[1][arg1comp].getIConst())); break; case EbtUint: newConstArray[comp].setUConst(std::max(childConstUnions[0][arg0comp].getUConst(), childConstUnions[1][arg1comp].getUConst())); break; #ifndef GLSLANG_WEB case EbtInt8: newConstArray[comp].setI8Const(std::max(childConstUnions[0][arg0comp].getI8Const(), childConstUnions[1][arg1comp].getI8Const())); break; case EbtUint8: newConstArray[comp].setU8Const(std::max(childConstUnions[0][arg0comp].getU8Const(), childConstUnions[1][arg1comp].getU8Const())); break; case EbtInt16: newConstArray[comp].setI16Const(std::max(childConstUnions[0][arg0comp].getI16Const(), childConstUnions[1][arg1comp].getI16Const())); break; case EbtUint16: newConstArray[comp].setU16Const(std::max(childConstUnions[0][arg0comp].getU16Const(), childConstUnions[1][arg1comp].getU16Const())); break; case EbtInt64: newConstArray[comp].setI64Const(std::max(childConstUnions[0][arg0comp].getI64Const(), childConstUnions[1][arg1comp].getI64Const())); break; case EbtUint64: newConstArray[comp].setU64Const(std::max(childConstUnions[0][arg0comp].getU64Const(), childConstUnions[1][arg1comp].getU64Const())); break; #endif default: assert(false && "Default missing"); } break; case EOpClamp: switch(children[0]->getAsTyped()->getBasicType()) { case EbtFloat16: case EbtFloat: case EbtDouble: newConstArray[comp].setDConst(std::min(std::max(childConstUnions[0][arg0comp].getDConst(), childConstUnions[1][arg1comp].getDConst()), childConstUnions[2][arg2comp].getDConst())); break; case EbtUint: newConstArray[comp].setUConst(std::min(std::max(childConstUnions[0][arg0comp].getUConst(), childConstUnions[1][arg1comp].getUConst()), childConstUnions[2][arg2comp].getUConst())); break; #ifndef GLSLANG_WEB case EbtInt8: newConstArray[comp].setI8Const(std::min(std::max(childConstUnions[0][arg0comp].getI8Const(), childConstUnions[1][arg1comp].getI8Const()), childConstUnions[2][arg2comp].getI8Const())); break; case EbtUint8: newConstArray[comp].setU8Const(std::min(std::max(childConstUnions[0][arg0comp].getU8Const(), childConstUnions[1][arg1comp].getU8Const()), childConstUnions[2][arg2comp].getU8Const())); break; case EbtInt16: newConstArray[comp].setI16Const(std::min(std::max(childConstUnions[0][arg0comp].getI16Const(), childConstUnions[1][arg1comp].getI16Const()), childConstUnions[2][arg2comp].getI16Const())); break; case EbtUint16: newConstArray[comp].setU16Const(std::min(std::max(childConstUnions[0][arg0comp].getU16Const(), childConstUnions[1][arg1comp].getU16Const()), childConstUnions[2][arg2comp].getU16Const())); break; case EbtInt: newConstArray[comp].setIConst(std::min(std::max(childConstUnions[0][arg0comp].getIConst(), childConstUnions[1][arg1comp].getIConst()), childConstUnions[2][arg2comp].getIConst())); break; case EbtInt64: newConstArray[comp].setI64Const(std::min(std::max(childConstUnions[0][arg0comp].getI64Const(), childConstUnions[1][arg1comp].getI64Const()), childConstUnions[2][arg2comp].getI64Const())); break; case EbtUint64: newConstArray[comp].setU64Const(std::min(std::max(childConstUnions[0][arg0comp].getU64Const(), childConstUnions[1][arg1comp].getU64Const()), childConstUnions[2][arg2comp].getU64Const())); break; #endif default: assert(false && "Default missing"); } break; case EOpLessThan: newConstArray[comp].setBConst(childConstUnions[0][arg0comp] < childConstUnions[1][arg1comp]); break; case EOpGreaterThan: newConstArray[comp].setBConst(childConstUnions[0][arg0comp] > childConstUnions[1][arg1comp]); break; case EOpLessThanEqual: newConstArray[comp].setBConst(! (childConstUnions[0][arg0comp] > childConstUnions[1][arg1comp])); break; case EOpGreaterThanEqual: newConstArray[comp].setBConst(! (childConstUnions[0][arg0comp] < childConstUnions[1][arg1comp])); break; case EOpVectorEqual: newConstArray[comp].setBConst(childConstUnions[0][arg0comp] == childConstUnions[1][arg1comp]); break; case EOpVectorNotEqual: newConstArray[comp].setBConst(childConstUnions[0][arg0comp] != childConstUnions[1][arg1comp]); break; case EOpMix: if (!children[0]->getAsTyped()->isFloatingDomain()) return aggrNode; if (children[2]->getAsTyped()->getBasicType() == EbtBool) { newConstArray[comp].setDConst(childConstUnions[2][arg2comp].getBConst() ? childConstUnions[1][arg1comp].getDConst() : childConstUnions[0][arg0comp].getDConst()); } else { newConstArray[comp].setDConst( childConstUnions[0][arg0comp].getDConst() * (1.0 - childConstUnions[2][arg2comp].getDConst()) + childConstUnions[1][arg1comp].getDConst() * childConstUnions[2][arg2comp].getDConst()); } break; case EOpStep: newConstArray[comp].setDConst(childConstUnions[1][arg1comp].getDConst() < childConstUnions[0][arg0comp].getDConst() ? 0.0 : 1.0); break; case EOpSmoothStep: { double t = (childConstUnions[2][arg2comp].getDConst() - childConstUnions[0][arg0comp].getDConst()) / (childConstUnions[1][arg1comp].getDConst() - childConstUnions[0][arg0comp].getDConst()); if (t < 0.0) t = 0.0; if (t > 1.0) t = 1.0; newConstArray[comp].setDConst(t * t * (3.0 - 2.0 * t)); break; } default: return aggrNode; } } } else { // Non-componentwise... int numComps = children[0]->getAsConstantUnion()->getType().computeNumComponents(); double dot; switch (aggrNode->getOp()) { case EOpDistance: { double sum = 0.0; for (int comp = 0; comp < numComps; ++comp) { double diff = childConstUnions[1][comp].getDConst() - childConstUnions[0][comp].getDConst(); sum += diff * diff; } newConstArray[0].setDConst(sqrt(sum)); break; } case EOpDot: newConstArray[0].setDConst(childConstUnions[0].dot(childConstUnions[1])); break; case EOpCross: newConstArray[0] = childConstUnions[0][1] * childConstUnions[1][2] - childConstUnions[0][2] * childConstUnions[1][1]; newConstArray[1] = childConstUnions[0][2] * childConstUnions[1][0] - childConstUnions[0][0] * childConstUnions[1][2]; newConstArray[2] = childConstUnions[0][0] * childConstUnions[1][1] - childConstUnions[0][1] * childConstUnions[1][0]; break; case EOpFaceForward: // If dot(Nref, I) < 0 return N, otherwise return -N: Arguments are (N, I, Nref). dot = childConstUnions[1].dot(childConstUnions[2]); for (int comp = 0; comp < numComps; ++comp) { if (dot < 0.0) newConstArray[comp] = childConstUnions[0][comp]; else newConstArray[comp].setDConst(-childConstUnions[0][comp].getDConst()); } break; case EOpReflect: // I - 2 * dot(N, I) * N: Arguments are (I, N). dot = childConstUnions[0].dot(childConstUnions[1]); dot *= 2.0; for (int comp = 0; comp < numComps; ++comp) newConstArray[comp].setDConst(childConstUnions[0][comp].getDConst() - dot * childConstUnions[1][comp].getDConst()); break; case EOpRefract: { // Arguments are (I, N, eta). // k = 1.0 - eta * eta * (1.0 - dot(N, I) * dot(N, I)) // if (k < 0.0) // return dvec(0.0) // else // return eta * I - (eta * dot(N, I) + sqrt(k)) * N dot = childConstUnions[0].dot(childConstUnions[1]); double eta = childConstUnions[2][0].getDConst(); double k = 1.0 - eta * eta * (1.0 - dot * dot); if (k < 0.0) { for (int comp = 0; comp < numComps; ++comp) newConstArray[comp].setDConst(0.0); } else { for (int comp = 0; comp < numComps; ++comp) newConstArray[comp].setDConst(eta * childConstUnions[0][comp].getDConst() - (eta * dot + sqrt(k)) * childConstUnions[1][comp].getDConst()); } break; } case EOpOuterProduct: { int numRows = numComps; int numCols = children[1]->getAsConstantUnion()->getType().computeNumComponents(); for (int row = 0; row < numRows; ++row) for (int col = 0; col < numCols; ++col) newConstArray[col * numRows + row] = childConstUnions[0][row] * childConstUnions[1][col]; break; } default: return aggrNode; } } TIntermConstantUnion *newNode = new TIntermConstantUnion(newConstArray, aggrNode->getType()); newNode->getWritableType().getQualifier().storage = EvqConst; newNode->setLoc(aggrNode->getLoc()); return newNode; } bool TIntermediate::areAllChildConst(TIntermAggregate* aggrNode) { bool allConstant = true; // check if all the child nodes are constants so that they can be inserted into // the parent node if (aggrNode) { TIntermSequence& childSequenceVector = aggrNode->getSequence(); for (TIntermSequence::iterator p = childSequenceVector.begin(); p != childSequenceVector.end(); p++) { if (!(*p)->getAsTyped()->getAsConstantUnion()) return false; } } return allConstant; } TIntermTyped* TIntermediate::foldConstructor(TIntermAggregate* aggrNode) { bool error = false; TConstUnionArray unionArray(aggrNode->getType().computeNumComponents()); if (aggrNode->getSequence().size() == 1) error = parseConstTree(aggrNode, unionArray, aggrNode->getOp(), aggrNode->getType(), true); else error = parseConstTree(aggrNode, unionArray, aggrNode->getOp(), aggrNode->getType()); if (error) return aggrNode; return addConstantUnion(unionArray, aggrNode->getType(), aggrNode->getLoc()); } // // Constant folding of a bracket (array-style) dereference or struct-like dot // dereference. Can handle anything except a multi-character swizzle, though // all swizzles may go to foldSwizzle(). // TIntermTyped* TIntermediate::foldDereference(TIntermTyped* node, int index, const TSourceLoc& loc) { TType dereferencedType(node->getType(), index); dereferencedType.getQualifier().storage = EvqConst; TIntermTyped* result = nullptr; int size = dereferencedType.computeNumComponents(); // arrays, vectors, matrices, all use simple multiplicative math // while structures need to add up heterogeneous members int start; if (node->getType().isCoopMat()) start = 0; else if (node->isArray() || ! node->isStruct()) start = size * index; else { // it is a structure assert(node->isStruct()); start = 0; for (int i = 0; i < index; ++i) start += (*node->getType().getStruct())[i].type->computeNumComponents(); } result = addConstantUnion(TConstUnionArray(node->getAsConstantUnion()->getConstArray(), start, size), node->getType(), loc); if (result == nullptr) result = node; else result->setType(dereferencedType); return result; } // // Make a constant vector node or constant scalar node, representing a given // constant vector and constant swizzle into it. // TIntermTyped* TIntermediate::foldSwizzle(TIntermTyped* node, TSwizzleSelectors& selectors, const TSourceLoc& loc) { const TConstUnionArray& unionArray = node->getAsConstantUnion()->getConstArray(); TConstUnionArray constArray(selectors.size()); for (int i = 0; i < selectors.size(); i++) constArray[i] = unionArray[selectors[i]]; TIntermTyped* result = addConstantUnion(constArray, node->getType(), loc); if (result == nullptr) result = node; else result->setType(TType(node->getBasicType(), EvqConst, selectors.size())); return result; } } // end namespace glslang