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webkit / WebKit / 1342e7a81964b09b92b058db78319486a1b7b9a0 / . / Source / JavaScriptCore / dfg / DFGConstantFoldingPhase.cpp
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/*
* Copyright (C) 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.
*/
#include "config.h"
#include "DFGConstantFoldingPhase.h"
#if ENABLE(DFG_JIT)
#include "DFGAbstractInterpreterInlines.h"
#include "DFGBasicBlock.h"
#include "DFGGraph.h"
#include "DFGInPlaceAbstractState.h"
#include "DFGInsertionSet.h"
#include "DFGPhase.h"
#include "GetByIdStatus.h"
#include "Operations.h"
#include "PutByIdStatus.h"
namespace JSC { namespace DFG {
class ConstantFoldingPhase : public Phase {
public:
ConstantFoldingPhase(Graph& graph)
: Phase(graph, "constant folding")
, m_state(graph)
, m_interpreter(graph, m_state)
, m_insertionSet(graph)
{
}
bool run()
{
bool changed = false;
for (BlockIndex blockIndex = 0; blockIndex < m_graph.numBlocks(); ++blockIndex) {
BasicBlock* block = m_graph.block(blockIndex);
if (!block)
continue;
if (block->cfaFoundConstants)
changed |= foldConstants(block);
}
return changed;
}
private:
bool foldConstants(BasicBlock* block)
{
#if DFG_ENABLE(DEBUG_PROPAGATION_VERBOSE)
dataLog("Constant folding considering Block ", *block, ".\n");
#endif
bool changed = false;
m_state.beginBasicBlock(block);
for (unsigned indexInBlock = 0; indexInBlock < block->size(); ++indexInBlock) {
if (!m_state.isValid())
break;
Node* node = block->at(indexInBlock);
bool eliminated = false;
switch (node->op()) {
case CheckArgumentsNotCreated: {
if (!isEmptySpeculation(
m_state.variables().operand(
m_graph.argumentsRegisterFor(node->codeOrigin)).m_type))
break;
node->convertToPhantom();
eliminated = true;
break;
}
case CheckStructure:
case ArrayifyToStructure: {
AbstractValue& value = m_state.forNode(node->child1());
StructureSet set;
if (node->op() == ArrayifyToStructure)
set = node->structure();
else
set = node->structureSet();
if (value.m_currentKnownStructure.isSubsetOf(set)) {
m_interpreter.execute(indexInBlock); // Catch the fact that we may filter on cell.
node->convertToPhantom();
eliminated = true;
break;
}
StructureAbstractValue& structureValue = value.m_futurePossibleStructure;
if (structureValue.isSubsetOf(set)
&& structureValue.hasSingleton()) {
Structure* structure = structureValue.singleton();
m_interpreter.execute(indexInBlock); // Catch the fact that we may filter on cell.
AdjacencyList children = node->children;
children.removeEdge(0);
if (!!children.child1()) {
Node phantom(Phantom, node->codeOrigin, children);
if (node->flags() & NodeExitsForward)
phantom.mergeFlags(NodeExitsForward);
m_insertionSet.insertNode(indexInBlock, SpecNone, phantom);
}
node->children.setChild2(Edge());
node->children.setChild3(Edge());
node->convertToStructureTransitionWatchpoint(structure);
eliminated = true;
break;
}
break;
}
case CheckArray:
case Arrayify: {
if (!node->arrayMode().alreadyChecked(m_graph, node, m_state.forNode(node->child1())))
break;
node->convertToPhantom();
eliminated = true;
break;
}
case CheckFunction: {
if (m_state.forNode(node->child1()).value() != node->function())
break;
node->convertToPhantom();
eliminated = true;
break;
}
case GetById:
case GetByIdFlush: {
CodeOrigin codeOrigin = node->codeOrigin;
Edge childEdge = node->child1();
Node* child = childEdge.node();
unsigned identifierNumber = node->identifierNumber();
if (childEdge.useKind() != CellUse)
break;
Structure* structure = m_state.forNode(child).bestProvenStructure();
if (!structure)
break;
bool needsWatchpoint = !m_state.forNode(child).m_currentKnownStructure.hasSingleton();
bool needsCellCheck = m_state.forNode(child).m_type & ~SpecCell;
GetByIdStatus status = GetByIdStatus::computeFor(
vm(), structure, m_graph.identifiers()[identifierNumber]);
if (!status.isSimple()) {
// FIXME: We could handle prototype cases.
// https://bugs.webkit.org/show_bug.cgi?id=110386
break;
}
ASSERT(status.structureSet().size() == 1);
ASSERT(!status.chain());
ASSERT(status.structureSet().singletonStructure() == structure);
// Now before we do anything else, push the CFA forward over the GetById
// and make sure we signal to the loop that it should continue and not
// do any eliminations.
m_interpreter.execute(indexInBlock);
eliminated = true;
if (needsWatchpoint) {
ASSERT(m_state.forNode(child).m_futurePossibleStructure.isSubsetOf(StructureSet(structure)));
m_insertionSet.insertNode(
indexInBlock, SpecNone, StructureTransitionWatchpoint, codeOrigin,
OpInfo(structure), childEdge);
} else if (needsCellCheck) {
m_insertionSet.insertNode(
indexInBlock, SpecNone, Phantom, codeOrigin, childEdge);
}
childEdge.setUseKind(KnownCellUse);
Edge propertyStorage;
if (isInlineOffset(status.offset()))
propertyStorage = childEdge;
else {
propertyStorage = Edge(m_insertionSet.insertNode(
indexInBlock, SpecNone, GetButterfly, codeOrigin, childEdge));
}
node->convertToGetByOffset(m_graph.m_storageAccessData.size(), propertyStorage);
StorageAccessData storageAccessData;
storageAccessData.offset = status.offset();
storageAccessData.identifierNumber = identifierNumber;
m_graph.m_storageAccessData.append(storageAccessData);
break;
}
case PutById:
case PutByIdDirect: {
CodeOrigin codeOrigin = node->codeOrigin;
Edge childEdge = node->child1();
Node* child = childEdge.node();
unsigned identifierNumber = node->identifierNumber();
ASSERT(childEdge.useKind() == CellUse);
Structure* structure = m_state.forNode(child).bestProvenStructure();
if (!structure)
break;
bool needsWatchpoint = !m_state.forNode(child).m_currentKnownStructure.hasSingleton();
bool needsCellCheck = m_state.forNode(child).m_type & ~SpecCell;
PutByIdStatus status = PutByIdStatus::computeFor(
vm(),
m_graph.globalObjectFor(codeOrigin),
structure,
m_graph.identifiers()[identifierNumber],
node->op() == PutByIdDirect);
if (!status.isSimpleReplace() && !status.isSimpleTransition())
break;
ASSERT(status.oldStructure() == structure);
// Now before we do anything else, push the CFA forward over the PutById
// and make sure we signal to the loop that it should continue and not
// do any eliminations.
m_interpreter.execute(indexInBlock);
eliminated = true;
if (needsWatchpoint) {
ASSERT(m_state.forNode(child).m_futurePossibleStructure.isSubsetOf(StructureSet(structure)));
m_insertionSet.insertNode(
indexInBlock, SpecNone, StructureTransitionWatchpoint, codeOrigin,
OpInfo(structure), childEdge);
} else if (needsCellCheck) {
m_insertionSet.insertNode(
indexInBlock, SpecNone, Phantom, codeOrigin, childEdge);
}
childEdge.setUseKind(KnownCellUse);
StructureTransitionData* transitionData = 0;
if (status.isSimpleTransition()) {
transitionData = m_graph.addStructureTransitionData(
StructureTransitionData(structure, status.newStructure()));
if (node->op() == PutById) {
if (!structure->storedPrototype().isNull()) {
addStructureTransitionCheck(
codeOrigin, indexInBlock,
structure->storedPrototype().asCell());
}
m_graph.chains().addLazily(status.structureChain());
for (unsigned i = 0; i < status.structureChain()->size(); ++i) {
JSValue prototype = status.structureChain()->at(i)->storedPrototype();
if (prototype.isNull())
continue;
ASSERT(prototype.isCell());
addStructureTransitionCheck(
codeOrigin, indexInBlock, prototype.asCell());
}
}
}
Edge propertyStorage;
if (isInlineOffset(status.offset()))
propertyStorage = childEdge;
else if (status.isSimpleReplace() || structure->outOfLineCapacity() == status.newStructure()->outOfLineCapacity()) {
propertyStorage = Edge(m_insertionSet.insertNode(
indexInBlock, SpecNone, GetButterfly, codeOrigin, childEdge));
} else if (!structure->outOfLineCapacity()) {
ASSERT(status.newStructure()->outOfLineCapacity());
ASSERT(!isInlineOffset(status.offset()));
propertyStorage = Edge(m_insertionSet.insertNode(
indexInBlock, SpecNone, AllocatePropertyStorage,
codeOrigin, OpInfo(transitionData), childEdge));
} else {
ASSERT(structure->outOfLineCapacity());
ASSERT(status.newStructure()->outOfLineCapacity() > structure->outOfLineCapacity());
ASSERT(!isInlineOffset(status.offset()));
propertyStorage = Edge(m_insertionSet.insertNode(
indexInBlock, SpecNone, ReallocatePropertyStorage, codeOrigin,
OpInfo(transitionData), childEdge,
Edge(m_insertionSet.insertNode(
indexInBlock, SpecNone, GetButterfly, codeOrigin, childEdge))));
}
if (status.isSimpleTransition()) {
m_insertionSet.insertNode(
indexInBlock, SpecNone, PutStructure, codeOrigin,
OpInfo(transitionData), childEdge);
}
node->convertToPutByOffset(m_graph.m_storageAccessData.size(), propertyStorage);
StorageAccessData storageAccessData;
storageAccessData.offset = status.offset();
storageAccessData.identifierNumber = identifierNumber;
m_graph.m_storageAccessData.append(storageAccessData);
break;
}
default:
break;
}
if (eliminated) {
changed = true;
continue;
}
m_interpreter.execute(indexInBlock);
if (!node->shouldGenerate() || m_state.didClobber() || node->hasConstant())
continue;
JSValue value = m_state.forNode(node).value();
if (!value)
continue;
CodeOrigin codeOrigin = node->codeOrigin;
AdjacencyList children = node->children;
if (node->op() == GetLocal) {
// GetLocals without a Phi child are guaranteed dead. We don't have to
// do anything about them.
if (!node->child1())
continue;
if (m_graph.m_form != LoadStore) {
VariableAccessData* variable = node->variableAccessData();
Node* phi = node->child1().node();
if (phi->op() == Phi
&& block->variablesAtHead.operand(variable->local()) == phi
&& block->variablesAtTail.operand(variable->local()) == node) {
// Keep the graph threaded for easy cases. This is improves compile
// times. It would be correct to just dethread here.
m_graph.convertToConstant(node, value);
Node* phantom = m_insertionSet.insertNode(
indexInBlock, SpecNone, PhantomLocal, codeOrigin,
OpInfo(variable), Edge(phi));
block->variablesAtHead.operand(variable->local()) = phantom;
block->variablesAtTail.operand(variable->local()) = phantom;
changed = true;
continue;
}
m_graph.dethread();
}
} else
ASSERT(!node->hasVariableAccessData(m_graph));
m_graph.convertToConstant(node, value);
m_insertionSet.insertNode(
indexInBlock, SpecNone, Phantom, codeOrigin, children);
changed = true;
}
m_state.reset();
m_insertionSet.execute(block);
return changed;
}
#if !ASSERT_DISABLED
bool isCapturedAtOrAfter(BasicBlock* block, unsigned indexInBlock, int operand)
{
for (; indexInBlock < block->size(); ++indexInBlock) {
Node* node = block->at(indexInBlock);
if (!node->hasLocal(m_graph))
continue;
if (node->local() != operand)
continue;
if (node->variableAccessData()->isCaptured())
return true;
}
return false;
}
#endif // !ASSERT_DISABLED
void addStructureTransitionCheck(CodeOrigin codeOrigin, unsigned indexInBlock, JSCell* cell)
{
Node* weakConstant = m_insertionSet.insertNode(
indexInBlock, speculationFromValue(cell), WeakJSConstant, codeOrigin, OpInfo(cell));
if (m_graph.watchpoints().isStillValid(cell->structure()->transitionWatchpointSet())) {
m_insertionSet.insertNode(
indexInBlock, SpecNone, StructureTransitionWatchpoint, codeOrigin,
OpInfo(cell->structure()), Edge(weakConstant, CellUse));
return;
}
m_insertionSet.insertNode(
indexInBlock, SpecNone, CheckStructure, codeOrigin,
OpInfo(m_graph.addStructureSet(cell->structure())), Edge(weakConstant, CellUse));
}
InPlaceAbstractState m_state;
AbstractInterpreter<InPlaceAbstractState> m_interpreter;
InsertionSet m_insertionSet;
};
bool performConstantFolding(Graph& graph)
{
SamplingRegion samplingRegion("DFG Constant Folding Phase");
return runPhase<ConstantFoldingPhase>(graph);
}
} } // namespace JSC::DFG
#endif // ENABLE(DFG_JIT)