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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "jit/shared/Lowering-shared-inl.h"
#include "jit/LIR.h"
#include "jit/MIR.h"
#include "vm/Symbol.h"
using namespace js;
using namespace jit;
bool
LIRGeneratorShared::ShouldReorderCommutative(MDefinition* lhs, MDefinition* rhs, MInstruction* ins)
{
// lhs and rhs are used by the commutative operator.
MOZ_ASSERT(lhs->hasDefUses());
MOZ_ASSERT(rhs->hasDefUses());
// Ensure that if there is a constant, then it is in rhs.
if (rhs->isConstant())
return false;
if (lhs->isConstant())
return true;
// Since clobbering binary operations clobber the left operand, prefer a
// non-constant lhs operand with no further uses. To be fully precise, we
// should check whether this is the *last* use, but checking hasOneDefUse()
// is a decent approximation which doesn't require any extra analysis.
bool rhsSingleUse = rhs->hasOneDefUse();
bool lhsSingleUse = lhs->hasOneDefUse();
if (rhsSingleUse) {
if (!lhsSingleUse)
return true;
} else {
if (lhsSingleUse)
return false;
}
// If this is a reduction-style computation, such as
//
// sum = 0;
// for (...)
// sum += ...;
//
// put the phi on the left to promote coalescing. This is fairly specific.
if (rhsSingleUse &&
rhs->isPhi() &&
rhs->block()->isLoopHeader() &&
ins == rhs->toPhi()->getLoopBackedgeOperand())
{
return true;
}
return false;
}
void
LIRGeneratorShared::ReorderCommutative(MDefinition** lhsp, MDefinition** rhsp, MInstruction* ins)
{
MDefinition* lhs = *lhsp;
MDefinition* rhs = *rhsp;
if (ShouldReorderCommutative(lhs, rhs, ins)) {
*rhsp = lhs;
*lhsp = rhs;
}
}
void
LIRGeneratorShared::visitConstant(MConstant* ins)
{
if (!IsFloatingPointType(ins->type()) && ins->canEmitAtUses()) {
emitAtUses(ins);
return;
}
switch (ins->type()) {
case MIRType::Double:
define(new(alloc()) LDouble(ins->toRawF64()), ins);
break;
case MIRType::Float32:
define(new(alloc()) LFloat32(ins->toRawF32()), ins);
break;
case MIRType::Boolean:
define(new(alloc()) LInteger(ins->toBoolean()), ins);
break;
case MIRType::Int32:
define(new(alloc()) LInteger(ins->toInt32()), ins);
break;
case MIRType::Int64:
defineInt64(new(alloc()) LInteger64(ins->toInt64()), ins);
break;
case MIRType::String:
define(new(alloc()) LPointer(ins->toString()), ins);
break;
case MIRType::Symbol:
define(new(alloc()) LPointer(ins->toSymbol()), ins);
break;
case MIRType::Object:
define(new(alloc()) LPointer(&ins->toObject()), ins);
break;
default:
// Constants of special types (undefined, null) should never flow into
// here directly. Operations blindly consuming them require a Box.
MOZ_CRASH("unexpected constant type");
}
}
void
LIRGeneratorShared::defineTypedPhi(MPhi* phi, size_t lirIndex)
{
LPhi* lir = current->getPhi(lirIndex);
uint32_t vreg = getVirtualRegister();
phi->setVirtualRegister(vreg);
lir->setDef(0, LDefinition(vreg, LDefinition::TypeFrom(phi->type())));
annotate(lir);
}
void
LIRGeneratorShared::lowerTypedPhiInput(MPhi* phi, uint32_t inputPosition, LBlock* block, size_t lirIndex)
{
MDefinition* operand = phi->getOperand(inputPosition);
LPhi* lir = block->getPhi(lirIndex);
lir->setOperand(inputPosition, LUse(operand->virtualRegister(), LUse::ANY));
}
LRecoverInfo*
LIRGeneratorShared::getRecoverInfo(MResumePoint* rp)
{
if (cachedRecoverInfo_ && cachedRecoverInfo_->mir() == rp)
return cachedRecoverInfo_;
LRecoverInfo* recoverInfo = LRecoverInfo::New(gen, rp);
if (!recoverInfo)
return nullptr;
cachedRecoverInfo_ = recoverInfo;
return recoverInfo;
}
#ifdef DEBUG
bool
LRecoverInfo::OperandIter::canOptimizeOutIfUnused()
{
MDefinition* ins = **this;
// We check ins->type() in addition to ins->isUnused() because
// EliminateDeadResumePointOperands may replace nodes with the constant
// MagicValue(JS_OPTIMIZED_OUT).
if ((ins->isUnused() || ins->type() == MIRType::MagicOptimizedOut) &&
(*it_)->isResumePoint())
{
return !(*it_)->toResumePoint()->isObservableOperand(op_);
}
return true;
}
#endif
#ifdef JS_NUNBOX32
LSnapshot*
LIRGeneratorShared::buildSnapshot(LInstruction* ins, MResumePoint* rp, BailoutKind kind)
{
LRecoverInfo* recoverInfo = getRecoverInfo(rp);
if (!recoverInfo)
return nullptr;
LSnapshot* snapshot = LSnapshot::New(gen, recoverInfo, kind);
if (!snapshot)
return nullptr;
size_t index = 0;
for (LRecoverInfo::OperandIter it(recoverInfo); !it; ++it) {
// Check that optimized out operands are in eliminable slots.
MOZ_ASSERT(it.canOptimizeOutIfUnused());
MDefinition* ins = *it;
if (ins->isRecoveredOnBailout())
continue;
LAllocation* type = snapshot->typeOfSlot(index);
LAllocation* payload = snapshot->payloadOfSlot(index);
++index;
if (ins->isBox())
ins = ins->toBox()->getOperand(0);
// Guards should never be eliminated.
MOZ_ASSERT_IF(ins->isUnused(), !ins->isGuard());
// Snapshot operands other than constants should never be
// emitted-at-uses. Try-catch support depends on there being no
// code between an instruction and the LOsiPoint that follows it.
MOZ_ASSERT_IF(!ins->isConstant(), !ins->isEmittedAtUses());
// The register allocation will fill these fields in with actual
// register/stack assignments. During code generation, we can restore
// interpreter state with the given information. Note that for
// constants, including known types, we record a dummy placeholder,
// since we can recover the same information, much cleaner, from MIR.
if (ins->isConstant() || ins->isUnused()) {
*type = LAllocation();
*payload = LAllocation();
} else if (ins->type() != MIRType::Value) {
*type = LAllocation();
*payload = use(ins, LUse(LUse::KEEPALIVE));
} else {
*type = useType(ins, LUse::KEEPALIVE);
*payload = usePayload(ins, LUse::KEEPALIVE);
}
}
return snapshot;
}
#elif JS_PUNBOX64
LSnapshot*
LIRGeneratorShared::buildSnapshot(LInstruction* ins, MResumePoint* rp, BailoutKind kind)
{
LRecoverInfo* recoverInfo = getRecoverInfo(rp);
if (!recoverInfo)
return nullptr;
LSnapshot* snapshot = LSnapshot::New(gen, recoverInfo, kind);
if (!snapshot)
return nullptr;
size_t index = 0;
for (LRecoverInfo::OperandIter it(recoverInfo); !it; ++it) {
// Check that optimized out operands are in eliminable slots.
MOZ_ASSERT(it.canOptimizeOutIfUnused());
MDefinition* def = *it;
if (def->isRecoveredOnBailout())
continue;
if (def->isBox())
def = def->toBox()->getOperand(0);
// Guards should never be eliminated.
MOZ_ASSERT_IF(def->isUnused(), !def->isGuard());
// Snapshot operands other than constants should never be
// emitted-at-uses. Try-catch support depends on there being no
// code between an instruction and the LOsiPoint that follows it.
MOZ_ASSERT_IF(!def->isConstant(), !def->isEmittedAtUses());
LAllocation* a = snapshot->getEntry(index++);
if (def->isUnused()) {
*a = LAllocation();
continue;
}
*a = useKeepaliveOrConstant(def);
}
return snapshot;
}
#endif
void
LIRGeneratorShared::assignSnapshot(LInstruction* ins, BailoutKind kind)
{
// assignSnapshot must be called before define/add, since
// it may add new instructions for emitted-at-use operands.
MOZ_ASSERT(ins->id() == 0);
LSnapshot* snapshot = buildSnapshot(ins, lastResumePoint_, kind);
if (snapshot)
ins->assignSnapshot(snapshot);
else
gen->abort("buildSnapshot failed");
}
void
LIRGeneratorShared::assignSafepoint(LInstruction* ins, MInstruction* mir, BailoutKind kind)
{
MOZ_ASSERT(!osiPoint_);
MOZ_ASSERT(!ins->safepoint());
ins->initSafepoint(alloc());
MResumePoint* mrp = mir->resumePoint() ? mir->resumePoint() : lastResumePoint_;
LSnapshot* postSnapshot = buildSnapshot(ins, mrp, kind);
if (!postSnapshot) {
gen->abort("buildSnapshot failed");
return;
}
osiPoint_ = new(alloc()) LOsiPoint(ins->safepoint(), postSnapshot);
if (!lirGraph_.noteNeedsSafepoint(ins))
gen->abort("noteNeedsSafepoint failed");
}
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