/* * Copyright (C) 2011, 2012, 2013 Apple 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: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE INC. 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. */ #ifndef DFGVariableAccessData_h #define DFGVariableAccessData_h #include "DFGDoubleFormatState.h" #include "DFGNodeFlags.h" #include "Operands.h" #include "SpeculatedType.h" #include "VirtualRegister.h" #include #include #include namespace JSC { namespace DFG { enum DoubleBallot { VoteValue, VoteDouble }; class VariableAccessData : public UnionFind { public: VariableAccessData() : m_local(static_cast(std::numeric_limits::min())) , m_prediction(SpecNone) , m_argumentAwarePrediction(SpecNone) , m_flags(0) , m_isCaptured(false) , m_shouldNeverUnbox(false) , m_isArgumentsAlias(false) , m_structureCheckHoistingFailed(false) , m_isProfitableToUnbox(false) , m_isLoadedFrom(false) , m_doubleFormatState(EmptyDoubleFormatState) { clearVotes(); } VariableAccessData(VirtualRegister local, bool isCaptured) : m_local(local) , m_prediction(SpecNone) , m_argumentAwarePrediction(SpecNone) , m_flags(0) , m_isCaptured(isCaptured) , m_shouldNeverUnbox(isCaptured) , m_isArgumentsAlias(false) , m_structureCheckHoistingFailed(false) , m_isProfitableToUnbox(false) , m_doubleFormatState(EmptyDoubleFormatState) { clearVotes(); } VirtualRegister local() { ASSERT(m_local == find()->m_local); return m_local; } int operand() { return static_cast(local()); } bool mergeIsCaptured(bool isCaptured) { return checkAndSet(m_shouldNeverUnbox, m_shouldNeverUnbox | isCaptured) | checkAndSet(m_isCaptured, m_isCaptured | isCaptured); } bool isCaptured() { return m_isCaptured; } bool mergeIsProfitableToUnbox(bool isProfitableToUnbox) { return checkAndSet(m_isProfitableToUnbox, m_isProfitableToUnbox | isProfitableToUnbox); } bool isProfitableToUnbox() { return m_isProfitableToUnbox; } bool mergeShouldNeverUnbox(bool shouldNeverUnbox) { bool newShouldNeverUnbox = m_shouldNeverUnbox | shouldNeverUnbox; if (newShouldNeverUnbox == m_shouldNeverUnbox) return false; m_shouldNeverUnbox = newShouldNeverUnbox; return true; } // Returns true if it would be unsound to store the value in an unboxed fashion. // If this returns false, it simply means that it is sound to unbox; it doesn't // mean that we have actually done so. bool shouldNeverUnbox() { ASSERT(!(m_isCaptured && !m_shouldNeverUnbox)); return m_shouldNeverUnbox; } // Returns true if we should be unboxing the value provided that the predictions // and double format vote say so. This may return false even if shouldNeverUnbox() // returns false, since this incorporates heuristics of profitability. bool shouldUnboxIfPossible() { return !shouldNeverUnbox() && isProfitableToUnbox(); } bool mergeStructureCheckHoistingFailed(bool failed) { return checkAndSet(m_structureCheckHoistingFailed, m_structureCheckHoistingFailed | failed); } bool structureCheckHoistingFailed() { return m_structureCheckHoistingFailed; } bool mergeIsArgumentsAlias(bool isArgumentsAlias) { return checkAndSet(m_isArgumentsAlias, m_isArgumentsAlias | isArgumentsAlias); } bool isArgumentsAlias() { return m_isArgumentsAlias; } bool mergeIsLoadedFrom(bool isLoadedFrom) { return checkAndSet(m_isLoadedFrom, m_isLoadedFrom | isLoadedFrom); } void setIsLoadedFrom(bool isLoadedFrom) { m_isLoadedFrom = isLoadedFrom; } bool isLoadedFrom() { return m_isLoadedFrom; } bool predict(SpeculatedType prediction) { VariableAccessData* self = find(); bool result = mergeSpeculation(self->m_prediction, prediction); if (result) mergeSpeculation(m_argumentAwarePrediction, m_prediction); return result; } SpeculatedType nonUnifiedPrediction() { return m_prediction; } SpeculatedType prediction() { return find()->m_prediction; } SpeculatedType argumentAwarePrediction() { return find()->m_argumentAwarePrediction; } bool mergeArgumentAwarePrediction(SpeculatedType prediction) { return mergeSpeculation(find()->m_argumentAwarePrediction, prediction); } void clearVotes() { ASSERT(find() == this); m_votes[0] = 0; m_votes[1] = 0; } void vote(unsigned ballot) { ASSERT(ballot < 2); m_votes[ballot]++; } double voteRatio() { ASSERT(find() == this); return static_cast(m_votes[1]) / m_votes[0]; } bool shouldUseDoubleFormatAccordingToVote() { // We don't support this facility for arguments, yet. // FIXME: make this work for arguments. if (operandIsArgument(operand())) return false; // If the variable is not a number prediction, then this doesn't // make any sense. if (!isNumberSpeculation(prediction())) { // FIXME: we may end up forcing a local in inlined argument position to be a double even // if it is sometimes not even numeric, since this never signals the fact that it doesn't // want doubles. https://bugs.webkit.org/show_bug.cgi?id=109511 return false; } // If the variable is predicted to hold only doubles, then it's a // no-brainer: it should be formatted as a double. if (isDoubleSpeculation(prediction())) return true; // If the variable is known to be used as an integer, then be safe - // don't force it to be a double. if (flags() & NodeUsedAsInt) return false; // If the variable has been voted to become a double, then make it a // double. if (voteRatio() >= Options::doubleVoteRatioForDoubleFormat()) return true; return false; } DoubleFormatState doubleFormatState() { return find()->m_doubleFormatState; } bool shouldUseDoubleFormat() { ASSERT(isRoot()); bool doubleState = m_doubleFormatState == UsingDoubleFormat; ASSERT(!(doubleState && shouldNeverUnbox())); ASSERT(!(doubleState && isCaptured())); return doubleState && isProfitableToUnbox(); } bool tallyVotesForShouldUseDoubleFormat() { ASSERT(isRoot()); if (operandIsArgument(local()) || shouldNeverUnbox()) return DFG::mergeDoubleFormatState(m_doubleFormatState, NotUsingDoubleFormat); if (m_doubleFormatState == CantUseDoubleFormat) return false; bool newValueOfShouldUseDoubleFormat = shouldUseDoubleFormatAccordingToVote(); if (!newValueOfShouldUseDoubleFormat) { // We monotonically convert to double. Hence, if the fixpoint leads us to conclude that we should // switch back to int, we instead ignore this and stick with double. return false; } if (m_doubleFormatState == UsingDoubleFormat) return false; return DFG::mergeDoubleFormatState(m_doubleFormatState, UsingDoubleFormat); } bool mergeDoubleFormatState(DoubleFormatState doubleFormatState) { return DFG::mergeDoubleFormatState(find()->m_doubleFormatState, doubleFormatState); } bool makePredictionForDoubleFormat() { ASSERT(isRoot()); if (m_doubleFormatState != UsingDoubleFormat) return false; return mergeSpeculation(m_prediction, SpecDouble); } NodeFlags flags() const { return m_flags; } bool mergeFlags(NodeFlags newFlags) { return checkAndSet(m_flags, m_flags | newFlags); } private: // This is slightly space-inefficient, since anything we're unified with // will have the same operand and should have the same prediction. But // putting them here simplifies the code, and we don't expect DFG space // usage for variable access nodes do be significant. VirtualRegister m_local; SpeculatedType m_prediction; SpeculatedType m_argumentAwarePrediction; NodeFlags m_flags; bool m_isCaptured; bool m_shouldNeverUnbox; bool m_isArgumentsAlias; bool m_structureCheckHoistingFailed; bool m_isProfitableToUnbox; bool m_isLoadedFrom; float m_votes[2]; // Used primarily for double voting but may be reused for other purposes. DoubleFormatState m_doubleFormatState; }; } } // namespace JSC::DFG #endif // DFGVariableAccessData_h