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kc3-lang/angle/src/compiler/translator/RecordConstantPrecision.cpp
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Author :
Jamie Madill
Date : 2016-12-12 14:42:19
Hash : d7b1ab58
Message : Fix up translator style. Using git cl format. BUG=angleproject:650 Change-Id: I7d3f98d2b0dcfb0a8de6c35327db74e55c28d761 Reviewed-on: https://chromium-review.googlesource.com/419059 Reviewed-by: Jamie Madill <jmadill@chromium.org> Commit-Queue: Jamie Madill <jmadill@chromium.org>
- src/compiler/translator/RecordConstantPrecision.cpp
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// // Copyright (c) 2002-2015 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // During parsing, all constant expressions are folded to constant union nodes. The expressions that // have been folded may have had precision qualifiers, which should affect the precision of the // consuming operation. If the folded constant union nodes are written to output as such they won't // have any precision qualifiers, and their effect on the precision of the consuming operation is // lost. // // RecordConstantPrecision is an AST traverser that inspects the precision qualifiers of constants // and hoists the constants outside the containing expression as precision qualified named variables // in case that is required for correct precision propagation. // #include "compiler/translator/RecordConstantPrecision.h" #include "compiler/translator/InfoSink.h" #include "compiler/translator/IntermNode.h" namespace sh { namespace { class RecordConstantPrecisionTraverser : public TIntermTraverser { public: RecordConstantPrecisionTraverser(); void visitConstantUnion(TIntermConstantUnion *node) override; void nextIteration(); bool foundHigherPrecisionConstant() const { return mFoundHigherPrecisionConstant; } protected: bool operandAffectsParentOperationPrecision(TIntermTyped *operand); bool mFoundHigherPrecisionConstant; }; RecordConstantPrecisionTraverser::RecordConstantPrecisionTraverser() : TIntermTraverser(true, false, true), mFoundHigherPrecisionConstant(false) { } bool RecordConstantPrecisionTraverser::operandAffectsParentOperationPrecision(TIntermTyped *operand) { if (getParentNode()->getAsCaseNode() || getParentNode()->getAsBlock()) { return false; } const TIntermBinary *parentAsBinary = getParentNode()->getAsBinaryNode(); if (parentAsBinary != nullptr) { // If the constant is assigned or is used to initialize a variable, or if it's an index, // its precision has no effect. switch (parentAsBinary->getOp()) { case EOpInitialize: case EOpAssign: case EOpIndexDirect: case EOpIndexDirectStruct: case EOpIndexDirectInterfaceBlock: case EOpIndexIndirect: return false; default: break; } TIntermTyped *otherOperand = parentAsBinary->getRight(); if (otherOperand == operand) { otherOperand = parentAsBinary->getLeft(); } // If the precision of the other child is at least as high as the precision of the constant, // the precision of the constant has no effect. if (otherOperand->getAsConstantUnion() == nullptr && otherOperand->getPrecision() >= operand->getPrecision()) { return false; } } TIntermAggregate *parentAsAggregate = getParentNode()->getAsAggregate(); if (parentAsAggregate != nullptr) { if (!parentAsAggregate->gotPrecisionFromChildren()) { // This can be either: // * a call to an user-defined function // * a call to a texture function // * some other kind of aggregate // In any of these cases the constant precision has no effect. return false; } if (parentAsAggregate->isConstructor() && parentAsAggregate->getBasicType() == EbtBool) { return false; } // If the precision of operands does affect the result, but the precision of any of the // other children has a precision that's at least as high as the precision of the constant, // the precision of the constant has no effect. TIntermSequence *parameters = parentAsAggregate->getSequence(); for (TIntermNode *parameter : *parameters) { const TIntermTyped *typedParameter = parameter->getAsTyped(); if (parameter != operand && typedParameter != nullptr && parameter->getAsConstantUnion() == nullptr && typedParameter->getPrecision() >= operand->getPrecision()) { return false; } } } return true; } void RecordConstantPrecisionTraverser::visitConstantUnion(TIntermConstantUnion *node) { if (mFoundHigherPrecisionConstant) return; // If the constant has lowp or undefined precision, it can't increase the precision of consuming // operations. if (node->getPrecision() < EbpMedium) return; // It's possible the node has no effect on the precision of the consuming expression, depending // on the consuming expression, and the precision of the other parameters of the expression. if (!operandAffectsParentOperationPrecision(node)) return; // Make the constant a precision-qualified named variable to make sure it affects the precision // of the consuming expression. TIntermSequence insertions; insertions.push_back(createTempInitDeclaration(node, EvqConst)); insertStatementsInParentBlock(insertions); queueReplacement(node, createTempSymbol(node->getType()), OriginalNode::IS_DROPPED); mFoundHigherPrecisionConstant = true; } void RecordConstantPrecisionTraverser::nextIteration() { nextTemporaryIndex(); mFoundHigherPrecisionConstant = false; } } // namespace void RecordConstantPrecision(TIntermNode *root, unsigned int *temporaryIndex) { RecordConstantPrecisionTraverser traverser; ASSERT(temporaryIndex != nullptr); traverser.useTemporaryIndex(temporaryIndex); // Iterate as necessary, and reset the traverser between iterations. do { traverser.nextIteration(); root->traverse(&traverser); if (traverser.foundHigherPrecisionConstant()) traverser.updateTree(); } while (traverser.foundHigherPrecisionConstant()); } } // namespace sh