//
// Add one node as the parent of another that it operates on.
//
// Returns the added node.
//
TIntermTyped *TIntermediate::addUnaryMath(
TOperator op, TIntermTyped *child, const TSourceLoc &line, const TType *funcReturnType)
{
TIntermConstantUnion *childTempConstant = 0;
if (child->getAsConstantUnion())
childTempConstant = child->getAsConstantUnion();
//
// Make a new node for the operator.
//
TIntermUnary *node = new TIntermUnary(op);
node->setLine(line);
node->setOperand(child);
node->promote(funcReturnType);
if (childTempConstant)
{
TIntermTyped *newChild = childTempConstant->fold(op, nullptr, mInfoSink);
if (newChild)
return newChild;
}
return node;
}
//
// Add one node as the parent of another that it operates on.
//
// Returns the added node.
//
TIntermTyped *TIntermediate::addUnaryMath(
TOperator op, TIntermTyped *child, const TSourceLoc &line)
{
TIntermConstantUnion *childTempConstant = 0;
if (child->getAsConstantUnion())
childTempConstant = child->getAsConstantUnion();
//
// Make a new node for the operator.
//
TIntermUnary *node = new TIntermUnary(op);
node->setLine(line);
node->setOperand(child);
if (!node->promote(mInfoSink))
return 0;
switch (op)
{
case EOpFloatBitsToInt:
case EOpFloatBitsToUint:
case EOpIntBitsToFloat:
case EOpUintBitsToFloat:
case EOpPackSnorm2x16:
case EOpPackUnorm2x16:
case EOpPackHalf2x16:
case EOpUnpackSnorm2x16:
case EOpUnpackUnorm2x16:
node->getTypePointer()->setPrecision(EbpHigh);
break;
case EOpUnpackHalf2x16:
node->getTypePointer()->setPrecision(EbpMedium);
break;
default:
break;
}
if (childTempConstant)
{
TIntermTyped *newChild = childTempConstant->fold(op, 0, mInfoSink);
if (newChild)
return newChild;
}
return node;
}
//
// Add one node as the parent of another that it operates on.
//
// Returns the added node.
//
TIntermTyped *TIntermediate::addUnaryMath(
TOperator op, TIntermTyped *child, const TSourceLoc &line, const TType *funcReturnType)
{
//
// Make a new node for the operator.
//
TIntermUnary *node = new TIntermUnary(op);
node->setLine(line);
node->setOperand(child);
node->promote(funcReturnType);
TIntermTyped *foldedNode = node->fold(mInfoSink);
if (foldedNode)
return foldedNode;
return node;
}
//
// Add one node as the parent of another that it operates on.
//
// Returns the added node.
//
TIntermTyped *TIntermediate::addUnaryMath(
TOperator op, TIntermNode *childNode, const TSourceLoc &line)
{
TIntermUnary *node;
TIntermTyped *child = childNode->getAsTyped();
if (child == NULL)
{
mInfoSink.info.message(EPrefixInternalError, line,
"Bad type in AddUnaryMath");
return NULL;
}
switch (op)
{
case EOpLogicalNot:
if (child->getType().getBasicType() != EbtBool ||
child->getType().isMatrix() ||
child->getType().isArray() ||
child->getType().isVector())
{
return NULL;
}
break;
case EOpPostIncrement:
case EOpPreIncrement:
case EOpPostDecrement:
case EOpPreDecrement:
case EOpNegative:
case EOpPositive:
if (child->getType().getBasicType() == EbtStruct ||
child->getType().isArray())
{
return NULL;
}
default:
break;
}
TIntermConstantUnion *childTempConstant = 0;
if (child->getAsConstantUnion())
childTempConstant = child->getAsConstantUnion();
//
// Make a new node for the operator.
//
node = new TIntermUnary(op);
node->setLine(line);
node->setOperand(child);
if (!node->promote(mInfoSink))
return 0;
if (childTempConstant)
{
TIntermTyped *newChild = childTempConstant->fold(op, 0, mInfoSink);
if (newChild)
return newChild;
}
return node;
}
// Add one node as the parent of another that it operates on.
TIntermTyped* ir_add_unary_math(TOperator op, TIntermNode* childNode, TSourceLoc line, TParseContext& ctx)
{
TIntermUnary* node;
TIntermTyped* child = childNode->getAsTyped();
if (child == 0)
{
ctx.infoSink.info.message(EPrefixInternalError, "Bad type in AddUnaryMath", line);
return 0;
}
switch (op)
{
case EOpLogicalNot:
if (!child->isScalar())
return 0;
break;
case EOpPostIncrement:
case EOpPreIncrement:
case EOpPostDecrement:
case EOpPreDecrement:
case EOpNegative:
if (child->getType().getBasicType() == EbtStruct || child->getType().isArray())
return 0;
default: break;
}
//
// Do we need to promote the operand?
//
// Note: Implicit promotions were removed from the language.
//
TBasicType newType = EbtVoid;
switch (op)
{
case EOpConstructInt: newType = EbtInt; break;
case EOpConstructBool: newType = EbtBool; break;
case EOpConstructFloat: newType = EbtFloat; break;
case EOpLogicalNot: newType = EbtBool; break;
default: break;
}
if (newType != EbtVoid)
{
child = ir_add_conversion(op, TType(newType, child->getPrecision(), EvqTemporary, child->getColsCount(), child->getRowsCount(),
child->isMatrix(),
child->isArray()),
child, ctx.infoSink);
if (child == 0)
return 0;
}
//
// For constructors, we are now done, it's all in the conversion.
//
switch (op)
{
case EOpConstructInt:
case EOpConstructBool:
case EOpConstructFloat:
return child;
default: break;
}
TIntermConstant* childConst = child->getAsConstant();
//
// Make a new node for the operator.
//
node = new TIntermUnary(op);
if (line.line == 0)
line = child->getLine();
node->setLine(line);
node->setOperand(child);
if (! node->promote(ctx))
return 0;
//
// See if we can fold constants
if (childConst)
{
TIntermConstant* FoldUnaryConstantExpression(TOperator op, TIntermConstant* node);
TIntermConstant* res = FoldUnaryConstantExpression(node->getOp(), childConst);
if (res)
{
delete node;
return res;
}
}
return node;
}
//
// Add one node as the parent of another that it operates on.
//
// Returns the added node.
//
TIntermTyped* TIntermediate::addUnaryMath(TOperator op, TIntermNode* childNode, TSourceLoc line, TSymbolTable& symbolTable)
{
TIntermUnary* node;
TIntermTyped* child = childNode->getAsTyped();
if (child == 0) {
infoSink.info.message(EPrefixInternalError, "Bad type in AddUnaryMath", line);
return 0;
}
switch (op) {
case EOpLogicalNot:
if (child->getType().getBasicType() != EbtBool || child->getType().isMatrix() || child->getType().isArray() || child->getType().isVector()) {
return 0;
}
break;
case EOpPostIncrement:
case EOpPreIncrement:
case EOpPostDecrement:
case EOpPreDecrement:
case EOpNegative:
if (child->getType().getBasicType() == EbtStruct || child->getType().isArray())
return 0;
default: break;
}
//
// Do we need to promote the operand?
//
// Note: Implicit promotions were removed from the language.
//
TBasicType newType = EbtVoid;
switch (op) {
case EOpConstructInt: newType = EbtInt; break;
case EOpConstructBool: newType = EbtBool; break;
case EOpConstructFloat: newType = EbtFloat; break;
default: break;
}
if (newType != EbtVoid) {
child = addConversion(op, TType(newType, child->getPrecision(), EvqTemporary,
child->getNominalSize(),
child->isMatrix(),
child->isArray()),
child);
if (child == 0)
return 0;
}
//
// For constructors, we are now done, it's all in the conversion.
//
switch (op) {
case EOpConstructInt:
case EOpConstructBool:
case EOpConstructFloat:
return child;
default: break;
}
TIntermConstantUnion *childTempConstant = 0;
if (child->getAsConstantUnion())
childTempConstant = child->getAsConstantUnion();
//
// Make a new node for the operator.
//
node = new TIntermUnary(op);
if (line == 0)
line = child->getLine();
node->setLine(line);
node->setOperand(child);
if (! node->promote(infoSink))
return 0;
if (childTempConstant) {
TIntermTyped* newChild = childTempConstant->fold(op, 0, infoSink);
if (newChild)
return newChild;
}
return node;
}
