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/*
* Copyright (C) 2013, 2014 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 "DFGStrengthReductionPhase.h"
#if ENABLE(DFG_JIT)
#include "DFGAbstractHeap.h"
#include "DFGClobberize.h"
#include "DFGGraph.h"
#include "DFGInsertionSet.h"
#include "DFGPhase.h"
#include "DFGPredictionPropagationPhase.h"
#include "DFGVariableAccessDataDump.h"
#include "JSCInlines.h"
namespace JSC { namespace DFG {
class StrengthReductionPhase : public Phase {
public:
StrengthReductionPhase(Graph& graph)
: Phase(graph, "strength reduction")
, m_insertionSet(graph)
{
}
bool run()
{
ASSERT(m_graph.m_fixpointState == FixpointNotConverged);
m_changed = false;
for (BlockIndex blockIndex = m_graph.numBlocks(); blockIndex--;) {
m_block = m_graph.block(blockIndex);
if (!m_block)
continue;
for (m_nodeIndex = 0; m_nodeIndex < m_block->size(); ++m_nodeIndex) {
m_node = m_block->at(m_nodeIndex);
handleNode();
}
m_insertionSet.execute(m_block);
}
return m_changed;
}
private:
void handleNode()
{
switch (m_node->op()) {
case BitOr:
handleCommutativity();
if (m_node->child2()->isInt32Constant() && !m_node->child2()->asInt32()) {
convertToIdentityOverChild1();
break;
}
break;
case BitXor:
case BitAnd:
handleCommutativity();
break;
case BitLShift:
case BitRShift:
case BitURShift:
if (m_node->child2()->isInt32Constant() && !(m_node->child2()->asInt32() & 0x1f)) {
convertToIdentityOverChild1();
break;
}
break;
case UInt32ToNumber:
if (m_node->child1()->op() == BitURShift
&& m_node->child1()->child2()->isInt32Constant()
&& (m_node->child1()->child2()->asInt32() & 0x1f)
&& m_node->arithMode() != Arith::DoOverflow) {
m_node->convertToIdentity();
m_changed = true;
break;
}
break;
case ArithAdd:
handleCommutativity();
if (m_node->child2()->isInt32Constant() && !m_node->child2()->asInt32()) {
convertToIdentityOverChild1();
break;
}
break;
case ArithMul:
handleCommutativity();
break;
case ArithSub:
if (m_node->child2()->isInt32Constant()
&& m_node->isBinaryUseKind(Int32Use)) {
int32_t value = m_node->child2()->asInt32();
if (-value != value) {
m_node->setOp(ArithAdd);
m_node->child2().setNode(
m_insertionSet.insertConstant(
m_nodeIndex, m_node->origin, jsNumber(-value)));
m_changed = true;
break;
}
}
break;
case GetArrayLength:
if (JSArrayBufferView* view = m_graph.tryGetFoldableViewForChild1(m_node))
foldTypedArrayPropertyToConstant(view, jsNumber(view->length()));
break;
case GetTypedArrayByteOffset:
if (JSArrayBufferView* view = m_graph.tryGetFoldableView(m_node->child1().node()))
foldTypedArrayPropertyToConstant(view, jsNumber(view->byteOffset()));
break;
case GetIndexedPropertyStorage:
if (JSArrayBufferView* view = m_graph.tryGetFoldableViewForChild1(m_node)) {
if (view->mode() != FastTypedArray) {
prepareToFoldTypedArray(view);
m_node->convertToConstantStoragePointer(view->vector());
m_changed = true;
break;
} else {
// FIXME: It would be awesome to be able to fold the property storage for
// these GC-allocated typed arrays. For now it doesn't matter because the
// most common use-cases for constant typed arrays involve large arrays with
// aliased buffer views.
// https://bugs.webkit.org/show_bug.cgi?id=125425
}
}
break;
case ValueRep:
case Int52Rep:
case DoubleRep: {
// This short-circuits circuitous conversions, like ValueRep(DoubleRep(value)) or
// even more complicated things. Like, it can handle a beast like
// ValueRep(DoubleRep(Int52Rep(value))).
// The only speculation that we would do beyond validating that we have a type that
// can be represented a certain way is an Int32 check that would appear on Int52Rep
// nodes. For now, if we see this and the final type we want is an Int52, we use it
// as an excuse not to fold. The only thing we would need is a Int52RepInt32Use kind.
bool hadInt32Check = false;
if (m_node->op() == Int52Rep) {
if (m_node->child1().useKind() != Int32Use)
break;
hadInt32Check = true;
}
for (Node* node = m_node->child1().node(); ; node = node->child1().node()) {
if (canonicalResultRepresentation(node->result()) ==
canonicalResultRepresentation(m_node->result())) {
m_insertionSet.insertNode(
m_nodeIndex, SpecNone, Phantom, m_node->origin, m_node->child1());
if (hadInt32Check) {
// FIXME: Consider adding Int52RepInt32Use or even DoubleRepInt32Use,
// which would be super weird. The latter would only arise in some
// seriously circuitous conversions.
if (canonicalResultRepresentation(node->result()) != NodeResultJS)
break;
m_insertionSet.insertNode(
m_nodeIndex, SpecNone, Phantom, m_node->origin,
Edge(node, Int32Use));
}
m_node->child1() = node->defaultEdge();
m_node->convertToIdentity();
m_changed = true;
break;
}
switch (node->op()) {
case Int52Rep:
if (node->child1().useKind() != Int32Use)
break;
hadInt32Check = true;
continue;
case DoubleRep:
case ValueRep:
continue;
default:
break;
}
break;
}
break;
}
case Flush: {
ASSERT(m_graph.m_form != SSA);
Node* setLocal = nullptr;
VirtualRegister local = m_node->local();
if (m_node->variableAccessData()->isCaptured()) {
for (unsigned i = m_nodeIndex; i--;) {
Node* node = m_block->at(i);
bool done = false;
switch (node->op()) {
case GetLocal:
case Flush:
if (node->local() == local)
done = true;
break;
case GetLocalUnlinked:
if (node->unlinkedLocal() == local)
done = true;
break;
case SetLocal: {
if (node->local() != local)
break;
setLocal = node;
done = true;
break;
}
case Phantom:
case Check:
case HardPhantom:
case MovHint:
case JSConstant:
case DoubleConstant:
case Int52Constant:
break;
default:
done = true;
break;
}
if (done)
break;
}
} else {
for (unsigned i = m_nodeIndex; i--;) {
Node* node = m_block->at(i);
if (node->op() == SetLocal && node->local() == local) {
setLocal = node;
break;
}
if (accessesOverlap(m_graph, node, AbstractHeap(Variables, local)))
break;
}
}
if (!setLocal)
break;
m_node->convertToPhantom();
Node* dataNode = setLocal->child1().node();
DFG_ASSERT(m_graph, m_node, dataNode->hasResult());
m_node->child1() = dataNode->defaultEdge();
m_graph.dethread();
m_changed = true;
break;
}
default:
break;
}
}
void convertToIdentityOverChild(unsigned childIndex)
{
m_insertionSet.insertNode(
m_nodeIndex, SpecNone, Phantom, m_node->origin, m_node->children);
m_node->children.removeEdge(childIndex ^ 1);
m_node->convertToIdentity();
m_changed = true;
}
void convertToIdentityOverChild1()
{
convertToIdentityOverChild(0);
}
void convertToIdentityOverChild2()
{
convertToIdentityOverChild(1);
}
void foldTypedArrayPropertyToConstant(JSArrayBufferView* view, JSValue constant)
{
prepareToFoldTypedArray(view);
m_graph.convertToConstant(m_node, constant);
m_changed = true;
}
void prepareToFoldTypedArray(JSArrayBufferView* view)
{
m_insertionSet.insertNode(
m_nodeIndex, SpecNone, TypedArrayWatchpoint, m_node->origin,
OpInfo(view));
m_insertionSet.insertNode(
m_nodeIndex, SpecNone, Phantom, m_node->origin, m_node->children);
}
void handleCommutativity()
{
// If the right side is a constant then there is nothing left to do.
if (m_node->child2()->hasConstant())
return;
// This case ensures that optimizations that look for x + const don't also have
// to look for const + x.
if (m_node->child1()->hasConstant()) {
std::swap(m_node->child1(), m_node->child2());
m_changed = true;
return;
}
// This case ensures that CSE is commutativity-aware.
if (m_node->child1().node() > m_node->child2().node()) {
std::swap(m_node->child1(), m_node->child2());
m_changed = true;
return;
}
}
InsertionSet m_insertionSet;
BasicBlock* m_block;
unsigned m_nodeIndex;
Node* m_node;
bool m_changed;
};
bool performStrengthReduction(Graph& graph)
{
SamplingRegion samplingRegion("DFG Strength Reduction Phase");
return runPhase<StrengthReductionPhase>(graph);
}
} } // namespace JSC::DFG
#endif // ENABLE(DFG_JIT)
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