DFGSpeculativeJIT32_64.cpp [plain text]
#include "config.h"
#include "DFGSpeculativeJIT.h"
#if ENABLE(DFG_JIT)
#include "ArrayPrototype.h"
#include "CallFrameShuffler.h"
#include "DFGAbstractInterpreterInlines.h"
#include "DFGCallArrayAllocatorSlowPathGenerator.h"
#include "DFGOperations.h"
#include "DFGSlowPathGenerator.h"
#include "DirectArguments.h"
#include "GetterSetter.h"
#include "HasOwnPropertyCache.h"
#include "HashMapImpl.h"
#include "JSEnvironmentRecord.h"
#include "JSPropertyNameEnumerator.h"
#include "ObjectPrototype.h"
#include "JSCInlines.h"
#include "SetupVarargsFrame.h"
#include "TypeProfilerLog.h"
#include "Watchdog.h"
namespace JSC { namespace DFG {
#if USE(JSVALUE32_64)
static_assert(SpecCellCheck == SpecCell, "This is strongly assumed in the 32-bit DFG backend.");
bool SpeculativeJIT::fillJSValue(Edge edge, GPRReg& tagGPR, GPRReg& payloadGPR, FPRReg& fpr)
{
UNUSED_PARAM(fpr);
VirtualRegister virtualRegister = edge->virtualRegister();
GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
switch (info.registerFormat()) {
case DataFormatNone: {
if (edge->hasConstant()) {
tagGPR = allocate();
payloadGPR = allocate();
JSValue value = edge->asJSValue();
m_jit.move(Imm32(value.tag()), tagGPR);
m_jit.move(Imm32(value.payload()), payloadGPR);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderConstant);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderConstant);
info.fillJSValue(*m_stream, tagGPR, payloadGPR, DataFormatJS);
} else {
DataFormat spillFormat = info.spillFormat();
ASSERT(spillFormat != DataFormatNone && spillFormat != DataFormatStorage);
tagGPR = allocate();
payloadGPR = allocate();
switch (spillFormat) {
case DataFormatInt32:
m_jit.move(TrustedImm32(JSValue::Int32Tag), tagGPR);
spillFormat = DataFormatJSInt32; break;
case DataFormatCell:
m_jit.move(TrustedImm32(JSValue::CellTag), tagGPR);
spillFormat = DataFormatJSCell; break;
case DataFormatBoolean:
m_jit.move(TrustedImm32(JSValue::BooleanTag), tagGPR);
spillFormat = DataFormatJSBoolean; break;
default:
m_jit.load32(JITCompiler::tagFor(virtualRegister), tagGPR);
break;
}
m_jit.load32(JITCompiler::payloadFor(virtualRegister), payloadGPR);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderSpilled);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderSpilled);
info.fillJSValue(*m_stream, tagGPR, payloadGPR, spillFormat == DataFormatJSDouble ? DataFormatJS : spillFormat);
}
return true;
}
case DataFormatInt32:
case DataFormatCell:
case DataFormatBoolean: {
GPRReg gpr = info.gpr();
if (m_gprs.isLocked(gpr)) {
payloadGPR = allocate();
m_jit.move(gpr, payloadGPR);
} else {
payloadGPR = gpr;
m_gprs.lock(gpr);
}
tagGPR = allocate();
int32_t tag = JSValue::EmptyValueTag;
DataFormat fillFormat = DataFormatJS;
switch (info.registerFormat()) {
case DataFormatInt32:
tag = JSValue::Int32Tag;
fillFormat = DataFormatJSInt32;
break;
case DataFormatCell:
tag = JSValue::CellTag;
fillFormat = DataFormatJSCell;
break;
case DataFormatBoolean:
tag = JSValue::BooleanTag;
fillFormat = DataFormatJSBoolean;
break;
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
m_jit.move(TrustedImm32(tag), tagGPR);
m_gprs.release(gpr);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderJS);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderJS);
info.fillJSValue(*m_stream, tagGPR, payloadGPR, fillFormat);
return true;
}
case DataFormatJSDouble:
case DataFormatJS:
case DataFormatJSInt32:
case DataFormatJSCell:
case DataFormatJSBoolean: {
tagGPR = info.tagGPR();
payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
return true;
}
case DataFormatStorage:
case DataFormatDouble:
RELEASE_ASSERT_NOT_REACHED();
default:
RELEASE_ASSERT_NOT_REACHED();
return true;
}
}
void SpeculativeJIT::cachedGetById(CodeOrigin origin, JSValueRegs base, JSValueRegs result, unsigned identifierNumber, JITCompiler::Jump slowPathTarget , SpillRegistersMode mode, AccessType type)
{
cachedGetById(origin, base.tagGPR(), base.payloadGPR(), result.tagGPR(), result.payloadGPR(), identifierNumber, slowPathTarget, mode, type);
}
void SpeculativeJIT::cachedGetById(
CodeOrigin codeOrigin, GPRReg baseTagGPROrNone, GPRReg basePayloadGPR, GPRReg resultTagGPR, GPRReg resultPayloadGPR,
unsigned identifierNumber, JITCompiler::Jump slowPathTarget, SpillRegistersMode spillMode, AccessType type)
{
if (basePayloadGPR == resultTagGPR) {
RELEASE_ASSERT(basePayloadGPR != resultPayloadGPR);
if (baseTagGPROrNone == resultPayloadGPR) {
m_jit.swap(basePayloadGPR, baseTagGPROrNone);
baseTagGPROrNone = resultTagGPR;
} else
m_jit.move(basePayloadGPR, resultPayloadGPR);
basePayloadGPR = resultPayloadGPR;
}
RegisterSet usedRegisters = this->usedRegisters();
if (spillMode == DontSpill) {
usedRegisters.set(JSValueRegs(baseTagGPROrNone, basePayloadGPR), false);
usedRegisters.set(JSValueRegs(resultTagGPR, resultPayloadGPR), false);
}
CallSiteIndex callSite = m_jit.recordCallSiteAndGenerateExceptionHandlingOSRExitIfNeeded(codeOrigin, m_stream->size());
JITGetByIdGenerator gen(
m_jit.codeBlock(), codeOrigin, callSite, usedRegisters, identifierUID(identifierNumber),
JSValueRegs(baseTagGPROrNone, basePayloadGPR), JSValueRegs(resultTagGPR, resultPayloadGPR), type);
gen.generateFastPath(m_jit);
JITCompiler::JumpList slowCases;
if (slowPathTarget.isSet())
slowCases.append(slowPathTarget);
slowCases.append(gen.slowPathJump());
J_JITOperation_ESsiJI getByIdFunction;
if (type == AccessType::Get)
getByIdFunction = operationGetByIdOptimize;
else
getByIdFunction = operationTryGetByIdOptimize;
std::unique_ptr<SlowPathGenerator> slowPath;
if (baseTagGPROrNone == InvalidGPRReg) {
slowPath = slowPathCall(
slowCases, this, getByIdFunction,
JSValueRegs(resultTagGPR, resultPayloadGPR), gen.stubInfo(),
static_cast<int32_t>(JSValue::CellTag), basePayloadGPR,
identifierUID(identifierNumber));
} else {
slowPath = slowPathCall(
slowCases, this, getByIdFunction,
JSValueRegs(resultTagGPR, resultPayloadGPR), gen.stubInfo(), JSValueRegs(baseTagGPROrNone, basePayloadGPR), identifierUID(identifierNumber));
}
m_jit.addGetById(gen, slowPath.get());
addSlowPathGenerator(WTFMove(slowPath));
}
void SpeculativeJIT::cachedGetByIdWithThis(
CodeOrigin codeOrigin, GPRReg baseTagGPROrNone, GPRReg basePayloadGPR, GPRReg thisTagGPR, GPRReg thisPayloadGPR, GPRReg resultTagGPR, GPRReg resultPayloadGPR,
unsigned identifierNumber, JITCompiler::JumpList slowPathTarget)
{
RegisterSet usedRegisters = this->usedRegisters();
CallSiteIndex callSite = m_jit.recordCallSiteAndGenerateExceptionHandlingOSRExitIfNeeded(codeOrigin, m_stream->size());
JITGetByIdWithThisGenerator gen(
m_jit.codeBlock(), codeOrigin, callSite, usedRegisters, identifierUID(identifierNumber),
JSValueRegs(resultTagGPR, resultPayloadGPR), JSValueRegs(baseTagGPROrNone, basePayloadGPR), JSValueRegs(thisTagGPR, thisPayloadGPR), AccessType::GetWithThis);
gen.generateFastPath(m_jit);
JITCompiler::JumpList slowCases;
if (!slowPathTarget.empty())
slowCases.append(slowPathTarget);
slowCases.append(gen.slowPathJump());
std::unique_ptr<SlowPathGenerator> slowPath;
if (baseTagGPROrNone == InvalidGPRReg && thisTagGPR == InvalidGPRReg) {
slowPath = slowPathCall(
slowCases, this, operationGetByIdWithThisOptimize,
JSValueRegs(resultTagGPR, resultPayloadGPR), gen.stubInfo(),
static_cast<int32_t>(JSValue::CellTag), basePayloadGPR,
static_cast<int32_t>(JSValue::CellTag), thisPayloadGPR,
identifierUID(identifierNumber));
} else {
ASSERT(baseTagGPROrNone != InvalidGPRReg);
ASSERT(thisTagGPR != InvalidGPRReg);
slowPath = slowPathCall(
slowCases, this, operationGetByIdWithThisOptimize,
JSValueRegs(resultTagGPR, resultPayloadGPR), gen.stubInfo(), JSValueRegs(baseTagGPROrNone, basePayloadGPR), JSValueRegs(thisTagGPR, thisPayloadGPR), identifierUID(identifierNumber));
}
m_jit.addGetByIdWithThis(gen, slowPath.get());
addSlowPathGenerator(WTFMove(slowPath));
}
void SpeculativeJIT::cachedPutById(CodeOrigin codeOrigin, GPRReg basePayloadGPR, GPRReg valueTagGPR, GPRReg valuePayloadGPR, GPRReg scratchGPR, unsigned identifierNumber, PutKind putKind, JITCompiler::Jump slowPathTarget, SpillRegistersMode spillMode)
{
RegisterSet usedRegisters = this->usedRegisters();
if (spillMode == DontSpill) {
usedRegisters.set(basePayloadGPR, false);
usedRegisters.set(JSValueRegs(valueTagGPR, valuePayloadGPR), false);
}
CallSiteIndex callSite = m_jit.recordCallSiteAndGenerateExceptionHandlingOSRExitIfNeeded(codeOrigin, m_stream->size());
JITPutByIdGenerator gen(
m_jit.codeBlock(), codeOrigin, callSite, usedRegisters,
JSValueRegs::payloadOnly(basePayloadGPR), JSValueRegs(valueTagGPR, valuePayloadGPR),
scratchGPR, m_jit.ecmaModeFor(codeOrigin), putKind);
gen.generateFastPath(m_jit);
JITCompiler::JumpList slowCases;
if (slowPathTarget.isSet())
slowCases.append(slowPathTarget);
slowCases.append(gen.slowPathJump());
auto slowPath = slowPathCall(
slowCases, this, gen.slowPathFunction(), NoResult, gen.stubInfo(), JSValueRegs(valueTagGPR, valuePayloadGPR),
basePayloadGPR, identifierUID(identifierNumber));
m_jit.addPutById(gen, slowPath.get());
addSlowPathGenerator(WTFMove(slowPath));
}
void SpeculativeJIT::nonSpeculativeNonPeepholeCompareNullOrUndefined(Edge operand)
{
JSValueOperand arg(this, operand, ManualOperandSpeculation);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
GPRTemporary resultPayload(this, Reuse, arg, PayloadWord);
GPRReg resultPayloadGPR = resultPayload.gpr();
JITCompiler::Jump notCell;
JITCompiler::Jump notMasqueradesAsUndefined;
if (masqueradesAsUndefinedWatchpointIsStillValid()) {
if (!isKnownCell(operand.node()))
notCell = m_jit.branchIfNotCell(arg.jsValueRegs());
m_jit.move(TrustedImm32(0), resultPayloadGPR);
notMasqueradesAsUndefined = m_jit.jump();
} else {
GPRTemporary localGlobalObject(this);
GPRTemporary remoteGlobalObject(this);
if (!isKnownCell(operand.node()))
notCell = m_jit.branchIfNotCell(arg.jsValueRegs());
JITCompiler::Jump isMasqueradesAsUndefined = m_jit.branchTest8(
JITCompiler::NonZero,
JITCompiler::Address(argPayloadGPR, JSCell::typeInfoFlagsOffset()),
JITCompiler::TrustedImm32(MasqueradesAsUndefined));
m_jit.move(TrustedImm32(0), resultPayloadGPR);
notMasqueradesAsUndefined = m_jit.jump();
isMasqueradesAsUndefined.link(&m_jit);
GPRReg localGlobalObjectGPR = localGlobalObject.gpr();
GPRReg remoteGlobalObjectGPR = remoteGlobalObject.gpr();
m_jit.move(TrustedImmPtr::weakPointer(m_jit.graph(), m_jit.graph().globalObjectFor(m_currentNode->origin.semantic)), localGlobalObjectGPR);
m_jit.loadPtr(JITCompiler::Address(argPayloadGPR, JSCell::structureIDOffset()), resultPayloadGPR);
m_jit.loadPtr(JITCompiler::Address(resultPayloadGPR, Structure::globalObjectOffset()), remoteGlobalObjectGPR);
m_jit.compare32(JITCompiler::Equal, localGlobalObjectGPR, remoteGlobalObjectGPR, resultPayloadGPR);
}
if (!isKnownCell(operand.node())) {
JITCompiler::Jump done = m_jit.jump();
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
m_jit.or32(TrustedImm32(1), argTagGPR, resultPayloadGPR);
m_jit.compare32(JITCompiler::Equal, resultPayloadGPR, TrustedImm32(JSValue::NullTag), resultPayloadGPR);
done.link(&m_jit);
}
notMasqueradesAsUndefined.link(&m_jit);
booleanResult(resultPayloadGPR, m_currentNode);
}
void SpeculativeJIT::nonSpeculativePeepholeBranchNullOrUndefined(Edge operand, Node* branchNode)
{
BasicBlock* taken = branchNode->branchData()->taken.block;
BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
bool invert = false;
if (taken == nextBlock()) {
invert = !invert;
BasicBlock* tmp = taken;
taken = notTaken;
notTaken = tmp;
}
JSValueOperand arg(this, operand, ManualOperandSpeculation);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
GPRTemporary result(this, Reuse, arg, TagWord);
GPRReg resultGPR = result.gpr();
JITCompiler::Jump notCell;
if (masqueradesAsUndefinedWatchpointIsStillValid()) {
if (!isKnownCell(operand.node()))
notCell = m_jit.branchIfNotCell(arg.jsValueRegs());
jump(invert ? taken : notTaken, ForceJump);
} else {
GPRTemporary localGlobalObject(this);
GPRTemporary remoteGlobalObject(this);
if (!isKnownCell(operand.node()))
notCell = m_jit.branchIfNotCell(arg.jsValueRegs());
branchTest8(JITCompiler::Zero,
JITCompiler::Address(argPayloadGPR, JSCell::typeInfoFlagsOffset()),
JITCompiler::TrustedImm32(MasqueradesAsUndefined),
invert ? taken : notTaken);
GPRReg localGlobalObjectGPR = localGlobalObject.gpr();
GPRReg remoteGlobalObjectGPR = remoteGlobalObject.gpr();
m_jit.move(TrustedImmPtr::weakPointer(m_jit.graph(), m_jit.graph().globalObjectFor(m_currentNode->origin.semantic)), localGlobalObjectGPR);
m_jit.loadPtr(JITCompiler::Address(argPayloadGPR, JSCell::structureIDOffset()), resultGPR);
m_jit.loadPtr(JITCompiler::Address(resultGPR, Structure::globalObjectOffset()), remoteGlobalObjectGPR);
branchPtr(JITCompiler::Equal, localGlobalObjectGPR, remoteGlobalObjectGPR, invert ? notTaken : taken);
}
if (!isKnownCell(operand.node())) {
jump(notTaken, ForceJump);
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
m_jit.or32(TrustedImm32(1), argTagGPR, resultGPR);
branch32(invert ? JITCompiler::NotEqual : JITCompiler::Equal, resultGPR, JITCompiler::TrustedImm32(JSValue::NullTag), taken);
}
jump(notTaken);
}
void SpeculativeJIT::nonSpeculativePeepholeBranch(Node* node, Node* branchNode, MacroAssembler::RelationalCondition cond, S_JITOperation_EJJ helperFunction)
{
BasicBlock* taken = branchNode->branchData()->taken.block;
BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
JITCompiler::ResultCondition callResultCondition = JITCompiler::NonZero;
if (taken == nextBlock()) {
cond = JITCompiler::invert(cond);
callResultCondition = JITCompiler::Zero;
BasicBlock* tmp = taken;
taken = notTaken;
notTaken = tmp;
}
JSValueOperand arg1(this, node->child1());
JSValueOperand arg2(this, node->child2());
JSValueRegs arg1Regs = arg1.jsValueRegs();
JSValueRegs arg2Regs = arg2.jsValueRegs();
GPRReg arg1TagGPR = arg1.tagGPR();
GPRReg arg1PayloadGPR = arg1.payloadGPR();
GPRReg arg2TagGPR = arg2.tagGPR();
GPRReg arg2PayloadGPR = arg2.payloadGPR();
JITCompiler::JumpList slowPath;
if (isKnownNotInteger(node->child1().node()) || isKnownNotInteger(node->child2().node())) {
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
arg1.use();
arg2.use();
flushRegisters();
callOperation(helperFunction, resultGPR, arg1Regs, arg2Regs);
m_jit.exceptionCheck();
branchTest32(callResultCondition, resultGPR, taken);
} else {
GPRTemporary result(this);
GPRReg resultGPR = result.gpr();
arg1.use();
arg2.use();
if (!isKnownInteger(node->child1().node()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg1TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
if (!isKnownInteger(node->child2().node()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
branch32(cond, arg1PayloadGPR, arg2PayloadGPR, taken);
if (!isKnownInteger(node->child1().node()) || !isKnownInteger(node->child2().node())) {
jump(notTaken, ForceJump);
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
callOperation(helperFunction, resultGPR, arg1Regs, arg2Regs);
m_jit.exceptionCheck();
silentFillAllRegisters();
branchTest32(callResultCondition, resultGPR, taken);
}
}
jump(notTaken);
m_indexInBlock = m_block->size() - 1;
m_currentNode = branchNode;
}
template<typename JumpType>
class CompareAndBoxBooleanSlowPathGenerator
: public CallSlowPathGenerator<JumpType, S_JITOperation_EJJ, GPRReg> {
public:
CompareAndBoxBooleanSlowPathGenerator(
JumpType from, SpeculativeJIT* jit,
S_JITOperation_EJJ function, GPRReg result, GPRReg arg1Tag, GPRReg arg1Payload,
GPRReg arg2Tag, GPRReg arg2Payload)
: CallSlowPathGenerator<JumpType, S_JITOperation_EJJ, GPRReg>(
from, jit, function, NeedToSpill, ExceptionCheckRequirement::CheckNeeded, result)
, m_arg1Tag(arg1Tag)
, m_arg1Payload(arg1Payload)
, m_arg2Tag(arg2Tag)
, m_arg2Payload(arg2Payload)
{
}
protected:
virtual void generateInternal(SpeculativeJIT* jit)
{
this->setUp(jit);
this->recordCall(
jit->callOperation(
this->m_function, this->m_result, JSValueRegs(m_arg1Tag, m_arg1Payload), JSValueRegs(m_arg2Tag, m_arg2Payload)));
jit->m_jit.and32(JITCompiler::TrustedImm32(1), this->m_result);
this->tearDown(jit);
}
private:
GPRReg m_arg1Tag;
GPRReg m_arg1Payload;
GPRReg m_arg2Tag;
GPRReg m_arg2Payload;
};
void SpeculativeJIT::nonSpeculativeNonPeepholeCompare(Node* node, MacroAssembler::RelationalCondition cond, S_JITOperation_EJJ helperFunction)
{
JSValueOperand arg1(this, node->child1());
JSValueOperand arg2(this, node->child2());
GPRReg arg1TagGPR = arg1.tagGPR();
GPRReg arg1PayloadGPR = arg1.payloadGPR();
GPRReg arg2TagGPR = arg2.tagGPR();
GPRReg arg2PayloadGPR = arg2.payloadGPR();
JITCompiler::JumpList slowPath;
if (isKnownNotInteger(node->child1().node()) || isKnownNotInteger(node->child2().node())) {
GPRFlushedCallResult result(this);
GPRReg resultPayloadGPR = result.gpr();
arg1.use();
arg2.use();
flushRegisters();
callOperation(helperFunction, resultPayloadGPR, arg1.jsValueRegs(), arg2.jsValueRegs());
m_jit.exceptionCheck();
booleanResult(resultPayloadGPR, node, UseChildrenCalledExplicitly);
} else {
GPRTemporary resultPayload(this, Reuse, arg1, PayloadWord);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (!isKnownInteger(node->child1().node()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg1TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
if (!isKnownInteger(node->child2().node()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
m_jit.compare32(cond, arg1PayloadGPR, arg2PayloadGPR, resultPayloadGPR);
if (!isKnownInteger(node->child1().node()) || !isKnownInteger(node->child2().node())) {
addSlowPathGenerator(std::make_unique<CompareAndBoxBooleanSlowPathGenerator<JITCompiler::JumpList>>(
slowPath, this, helperFunction, resultPayloadGPR, arg1TagGPR,
arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR));
}
booleanResult(resultPayloadGPR, node, UseChildrenCalledExplicitly);
}
}
void SpeculativeJIT::nonSpeculativePeepholeStrictEq(Node* node, Node* branchNode, bool invert)
{
BasicBlock* taken = branchNode->branchData()->taken.block;
BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
if (taken == nextBlock()) {
invert = !invert;
BasicBlock* tmp = taken;
taken = notTaken;
notTaken = tmp;
}
JSValueOperand arg1(this, node->child1());
JSValueOperand arg2(this, node->child2());
GPRReg arg1PayloadGPR = arg1.payloadGPR();
GPRReg arg2PayloadGPR = arg2.payloadGPR();
JSValueRegs arg1Regs = arg1.jsValueRegs();
JSValueRegs arg2Regs = arg2.jsValueRegs();
GPRTemporary resultPayload(this, Reuse, arg1, PayloadWord);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (isKnownCell(node->child1().node()) && isKnownCell(node->child2().node())) {
branchPtr(JITCompiler::Equal, arg1PayloadGPR, arg2PayloadGPR, invert ? notTaken : taken);
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEqCell, resultPayloadGPR, arg1Regs, arg2Regs);
m_jit.exceptionCheck();
silentFillAllRegisters();
branchTest32(invert ? JITCompiler::Zero : JITCompiler::NonZero, resultPayloadGPR, taken);
} else {
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEq, resultPayloadGPR, arg1Regs, arg2Regs);
m_jit.exceptionCheck();
silentFillAllRegisters();
branchTest32(invert ? JITCompiler::Zero : JITCompiler::NonZero, resultPayloadGPR, taken);
}
jump(notTaken);
}
void SpeculativeJIT::nonSpeculativeNonPeepholeStrictEq(Node* node, bool invert)
{
JSValueOperand arg1(this, node->child1());
JSValueOperand arg2(this, node->child2());
GPRReg arg1PayloadGPR = arg1.payloadGPR();
GPRReg arg2PayloadGPR = arg2.payloadGPR();
JSValueRegs arg1Regs = arg1.jsValueRegs();
JSValueRegs arg2Regs = arg2.jsValueRegs();
GPRTemporary resultPayload(this, Reuse, arg1, PayloadWord);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (isKnownCell(node->child1().node()) && isKnownCell(node->child2().node())) {
JITCompiler::Jump notEqualCase = m_jit.branchPtr(JITCompiler::NotEqual, arg1PayloadGPR, arg2PayloadGPR);
m_jit.move(JITCompiler::TrustedImm32(!invert), resultPayloadGPR);
JITCompiler::Jump done = m_jit.jump();
notEqualCase.link(&m_jit);
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEqCell, resultPayloadGPR, arg1Regs, arg2Regs);
m_jit.exceptionCheck();
silentFillAllRegisters();
m_jit.andPtr(JITCompiler::TrustedImm32(1), resultPayloadGPR);
done.link(&m_jit);
} else {
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEq, resultPayloadGPR, arg1Regs, arg2Regs);
silentFillAllRegisters();
m_jit.exceptionCheck();
m_jit.andPtr(JITCompiler::TrustedImm32(1), resultPayloadGPR);
}
booleanResult(resultPayloadGPR, node, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::compileMiscStrictEq(Node* node)
{
JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
JSValueOperand op2(this, node->child2(), ManualOperandSpeculation);
GPRTemporary result(this);
if (node->child1().useKind() == MiscUse)
speculateMisc(node->child1(), op1.jsValueRegs());
if (node->child2().useKind() == MiscUse)
speculateMisc(node->child2(), op2.jsValueRegs());
m_jit.move(TrustedImm32(0), result.gpr());
JITCompiler::Jump notEqual = m_jit.branch32(JITCompiler::NotEqual, op1.tagGPR(), op2.tagGPR());
m_jit.compare32(JITCompiler::Equal, op1.payloadGPR(), op2.payloadGPR(), result.gpr());
notEqual.link(&m_jit);
booleanResult(result.gpr(), node);
}
void SpeculativeJIT::emitCall(Node* node)
{
CallLinkInfo::CallType callType;
bool isVarargs = false;
bool isForwardVarargs = false;
bool isTail = false;
bool isDirect = false;
bool isEmulatedTail = false;
switch (node->op()) {
case Call:
case CallEval:
callType = CallLinkInfo::Call;
break;
case TailCall:
callType = CallLinkInfo::TailCall;
isTail = true;
break;
case TailCallInlinedCaller:
callType = CallLinkInfo::Call;
isEmulatedTail = true;
break;
case Construct:
callType = CallLinkInfo::Construct;
break;
case CallVarargs:
callType = CallLinkInfo::CallVarargs;
isVarargs = true;
break;
case TailCallVarargs:
callType = CallLinkInfo::TailCallVarargs;
isVarargs = true;
isTail = true;
break;
case TailCallVarargsInlinedCaller:
callType = CallLinkInfo::CallVarargs;
isVarargs = true;
isEmulatedTail = true;
break;
case ConstructVarargs:
callType = CallLinkInfo::ConstructVarargs;
isVarargs = true;
break;
case CallForwardVarargs:
callType = CallLinkInfo::CallVarargs;
isForwardVarargs = true;
break;
case TailCallForwardVarargs:
callType = CallLinkInfo::TailCallVarargs;
isTail = true;
isForwardVarargs = true;
break;
case TailCallForwardVarargsInlinedCaller:
callType = CallLinkInfo::CallVarargs;
isEmulatedTail = true;
isForwardVarargs = true;
break;
case ConstructForwardVarargs:
callType = CallLinkInfo::ConstructVarargs;
isForwardVarargs = true;
break;
case DirectCall:
callType = CallLinkInfo::DirectCall;
isDirect = true;
break;
case DirectConstruct:
callType = CallLinkInfo::DirectConstruct;
isDirect = true;
break;
case DirectTailCall:
callType = CallLinkInfo::DirectTailCall;
isTail = true;
isDirect = true;
break;
case DirectTailCallInlinedCaller:
callType = CallLinkInfo::DirectCall;
isEmulatedTail = true;
isDirect = true;
break;
default:
DFG_CRASH(m_jit.graph(), node, "bad node type");
break;
}
Edge calleeEdge = m_jit.graph().child(node, 0);
GPRReg calleeTagGPR = InvalidGPRReg;
GPRReg calleePayloadGPR = InvalidGPRReg;
CallFrameShuffleData shuffleData;
ExecutableBase* executable = nullptr;
FunctionExecutable* functionExecutable = nullptr;
if (isDirect) {
executable = node->castOperand<ExecutableBase*>();
functionExecutable = jsDynamicCast<FunctionExecutable*>(*m_jit.vm(), executable);
}
unsigned numPassedArgs = 0;
unsigned numAllocatedArgs = 0;
if (isVarargs || isForwardVarargs) {
RELEASE_ASSERT(!isDirect);
CallVarargsData* data = node->callVarargsData();
unsigned numUsedStackSlots = m_jit.graph().m_nextMachineLocal;
if (isForwardVarargs) {
flushRegisters();
if (node->child3())
use(node->child3());
GPRReg scratchGPR1;
GPRReg scratchGPR2;
GPRReg scratchGPR3;
scratchGPR1 = JITCompiler::selectScratchGPR();
scratchGPR2 = JITCompiler::selectScratchGPR(scratchGPR1);
scratchGPR3 = JITCompiler::selectScratchGPR(scratchGPR1, scratchGPR2);
m_jit.move(TrustedImm32(numUsedStackSlots), scratchGPR2);
JITCompiler::JumpList slowCase;
InlineCallFrame* inlineCallFrame;
if (node->child3())
inlineCallFrame = node->child3()->origin.semantic.inlineCallFrame;
else
inlineCallFrame = node->origin.semantic.inlineCallFrame;
emitSetupVarargsFrameFastCase(*m_jit.vm(), m_jit, scratchGPR2, scratchGPR1, scratchGPR2, scratchGPR3, inlineCallFrame, data->firstVarArgOffset, slowCase);
JITCompiler::Jump done = m_jit.jump();
slowCase.link(&m_jit);
callOperation(operationThrowStackOverflowForVarargs);
m_jit.exceptionCheck();
m_jit.abortWithReason(DFGVarargsThrowingPathDidNotThrow);
done.link(&m_jit);
} else {
GPRReg argumentsPayloadGPR;
GPRReg argumentsTagGPR;
GPRReg scratchGPR1;
GPRReg scratchGPR2;
GPRReg scratchGPR3;
auto loadArgumentsGPR = [&] (GPRReg reservedGPR) {
if (reservedGPR != InvalidGPRReg)
lock(reservedGPR);
JSValueOperand arguments(this, node->child3());
argumentsTagGPR = arguments.tagGPR();
argumentsPayloadGPR = arguments.payloadGPR();
if (reservedGPR != InvalidGPRReg)
unlock(reservedGPR);
flushRegisters();
scratchGPR1 = JITCompiler::selectScratchGPR(argumentsPayloadGPR, argumentsTagGPR, reservedGPR);
scratchGPR2 = JITCompiler::selectScratchGPR(argumentsPayloadGPR, argumentsTagGPR, scratchGPR1, reservedGPR);
scratchGPR3 = JITCompiler::selectScratchGPR(argumentsPayloadGPR, argumentsTagGPR, scratchGPR1, scratchGPR2, reservedGPR);
};
loadArgumentsGPR(InvalidGPRReg);
DFG_ASSERT(m_jit.graph(), node, isFlushed());
callOperation(operationSizeFrameForVarargs, GPRInfo::returnValueGPR, JSValueRegs(argumentsTagGPR, argumentsPayloadGPR), numUsedStackSlots, data->firstVarArgOffset);
m_jit.exceptionCheck();
loadArgumentsGPR(GPRInfo::returnValueGPR);
m_jit.move(TrustedImm32(numUsedStackSlots), scratchGPR1);
emitSetVarargsFrame(m_jit, GPRInfo::returnValueGPR, false, scratchGPR1, scratchGPR1);
m_jit.addPtr(TrustedImm32(-(sizeof(CallerFrameAndPC) + WTF::roundUpToMultipleOf(stackAlignmentBytes(), 6 * sizeof(void*)))), scratchGPR1, JITCompiler::stackPointerRegister);
callOperation(operationSetupVarargsFrame, GPRInfo::returnValueGPR, scratchGPR1, JSValueRegs(argumentsTagGPR, argumentsPayloadGPR), data->firstVarArgOffset, GPRInfo::returnValueGPR);
m_jit.exceptionCheck();
m_jit.addPtr(TrustedImm32(sizeof(CallerFrameAndPC)), GPRInfo::returnValueGPR, JITCompiler::stackPointerRegister);
}
DFG_ASSERT(m_jit.graph(), node, isFlushed());
if (isVarargs)
use(node->child3());
JSValueOperand thisArgument(this, node->child2());
GPRReg thisArgumentTagGPR = thisArgument.tagGPR();
GPRReg thisArgumentPayloadGPR = thisArgument.payloadGPR();
thisArgument.use();
m_jit.store32(thisArgumentTagGPR, JITCompiler::calleeArgumentTagSlot(0));
m_jit.store32(thisArgumentPayloadGPR, JITCompiler::calleeArgumentPayloadSlot(0));
} else {
numPassedArgs = node->numChildren() - 1;
numAllocatedArgs = numPassedArgs;
if (functionExecutable) {
unsigned desiredNumAllocatedArgs = static_cast<unsigned>(functionExecutable->parameterCount()) + 1;
if (desiredNumAllocatedArgs <= Options::maximumDirectCallStackSize()) {
numAllocatedArgs = std::max(numAllocatedArgs, desiredNumAllocatedArgs);
DFG_ASSERT(
m_jit.graph(), node,
Graph::parameterSlotsForArgCount(numAllocatedArgs)
<= m_jit.graph().m_parameterSlots);
}
}
if (isTail) {
JSValueOperand callee(this, calleeEdge);
calleeTagGPR = callee.tagGPR();
calleePayloadGPR = callee.payloadGPR();
if (!isDirect)
use(calleeEdge);
shuffleData.numLocals = m_jit.graph().frameRegisterCount();
shuffleData.callee = ValueRecovery::inPair(calleeTagGPR, calleePayloadGPR);
shuffleData.args.resize(numAllocatedArgs);
shuffleData.numPassedArgs = numPassedArgs;
for (unsigned i = 0; i < numPassedArgs; ++i) {
Edge argEdge = m_jit.graph().varArgChild(node, i + 1);
GenerationInfo& info = generationInfo(argEdge.node());
if (!isDirect)
use(argEdge);
shuffleData.args[i] = info.recovery(argEdge->virtualRegister());
}
for (unsigned i = numPassedArgs; i < numAllocatedArgs; ++i)
shuffleData.args[i] = ValueRecovery::constant(jsUndefined());
} else {
m_jit.store32(MacroAssembler::TrustedImm32(numPassedArgs), m_jit.calleeFramePayloadSlot(CallFrameSlot::argumentCount));
for (unsigned i = 0; i < numPassedArgs; i++) {
Edge argEdge = m_jit.graph().m_varArgChildren[node->firstChild() + 1 + i];
JSValueOperand arg(this, argEdge);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
use(argEdge);
m_jit.store32(argTagGPR, m_jit.calleeArgumentTagSlot(i));
m_jit.store32(argPayloadGPR, m_jit.calleeArgumentPayloadSlot(i));
}
for (unsigned i = numPassedArgs; i < numAllocatedArgs; ++i)
m_jit.storeTrustedValue(jsUndefined(), JITCompiler::calleeArgumentSlot(i));
}
}
if (!isTail || isVarargs || isForwardVarargs) {
JSValueOperand callee(this, calleeEdge);
calleeTagGPR = callee.tagGPR();
calleePayloadGPR = callee.payloadGPR();
use(calleeEdge);
m_jit.store32(calleePayloadGPR, m_jit.calleeFramePayloadSlot(CallFrameSlot::callee));
m_jit.store32(calleeTagGPR, m_jit.calleeFrameTagSlot(CallFrameSlot::callee));
if (!isTail)
flushRegisters();
}
JITCompiler::DataLabelPtr targetToCheck;
JITCompiler::JumpList slowPath;
CodeOrigin staticOrigin = node->origin.semantic;
ASSERT(!isTail || !staticOrigin.inlineCallFrame || !staticOrigin.inlineCallFrame->getCallerSkippingTailCalls());
ASSERT(!isEmulatedTail || (staticOrigin.inlineCallFrame && staticOrigin.inlineCallFrame->getCallerSkippingTailCalls()));
CodeOrigin dynamicOrigin =
isEmulatedTail ? *staticOrigin.inlineCallFrame->getCallerSkippingTailCalls() : staticOrigin;
CallSiteIndex callSite = m_jit.recordCallSiteAndGenerateExceptionHandlingOSRExitIfNeeded(dynamicOrigin, m_stream->size());
CallLinkInfo* info = m_jit.codeBlock()->addCallLinkInfo();
info->setUpCall(callType, node->origin.semantic, calleePayloadGPR);
auto setResultAndResetStack = [&] () {
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
m_jit.setupResults(resultPayloadGPR, resultTagGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, node, DataFormatJS, UseChildrenCalledExplicitly);
m_jit.addPtr(TrustedImm32(m_jit.graph().stackPointerOffset() * sizeof(Register)), GPRInfo::callFrameRegister, JITCompiler::stackPointerRegister);
};
if (node->op() == CallEval) {
m_jit.emitStoreCallSiteIndex(callSite);
m_jit.addPtr(TrustedImm32(-static_cast<ptrdiff_t>(sizeof(CallerFrameAndPC))), JITCompiler::stackPointerRegister, GPRInfo::regT0);
m_jit.storePtr(GPRInfo::callFrameRegister, JITCompiler::Address(GPRInfo::regT0, CallFrame::callerFrameOffset()));
unsigned requiredBytes = sizeof(CallerFrameAndPC) + sizeof(ExecState*) * 2;
requiredBytes = WTF::roundUpToMultipleOf(stackAlignmentBytes(), requiredBytes);
m_jit.subPtr(TrustedImm32(requiredBytes), JITCompiler::stackPointerRegister);
m_jit.setupArgumentsWithExecState(GPRInfo::regT0);
prepareForExternalCall();
m_jit.appendCall(operationCallEval);
m_jit.exceptionCheck();
JITCompiler::Jump done = m_jit.branch32(JITCompiler::NotEqual, GPRInfo::returnValueGPR2, TrustedImm32(JSValue::EmptyValueTag));
m_jit.addPtr(TrustedImm32(requiredBytes), JITCompiler::stackPointerRegister);
m_jit.load32(JITCompiler::calleeFrameSlot(CallFrameSlot::callee).withOffset(PayloadOffset), GPRInfo::regT0);
m_jit.load32(JITCompiler::calleeFrameSlot(CallFrameSlot::callee).withOffset(TagOffset), GPRInfo::regT1);
m_jit.emitDumbVirtualCall(*m_jit.vm(), info);
done.link(&m_jit);
setResultAndResetStack();
return;
}
if (isDirect) {
info->setExecutableDuringCompilation(executable);
info->setMaxNumArguments(numAllocatedArgs);
if (isTail) {
RELEASE_ASSERT(node->op() == DirectTailCall);
JITCompiler::PatchableJump patchableJump = m_jit.patchableJump();
JITCompiler::Label mainPath = m_jit.label();
m_jit.emitStoreCallSiteIndex(callSite);
info->setFrameShuffleData(shuffleData);
CallFrameShuffler(m_jit, shuffleData).prepareForTailCall();
JITCompiler::Call call = m_jit.nearTailCall();
JITCompiler::Label slowPath = m_jit.label();
patchableJump.m_jump.linkTo(slowPath, &m_jit);
silentSpillAllRegisters(InvalidGPRReg);
callOperation(operationLinkDirectCall, info, calleePayloadGPR);
silentFillAllRegisters();
m_jit.exceptionCheck();
m_jit.jump().linkTo(mainPath, &m_jit);
useChildren(node);
m_jit.addJSDirectTailCall(patchableJump, call, slowPath, info);
return;
}
JITCompiler::Label mainPath = m_jit.label();
m_jit.emitStoreCallSiteIndex(callSite);
JITCompiler::Call call = m_jit.nearCall();
JITCompiler::Jump done = m_jit.jump();
JITCompiler::Label slowPath = m_jit.label();
if (isX86())
m_jit.pop(JITCompiler::selectScratchGPR(calleePayloadGPR));
callOperation(operationLinkDirectCall, info, calleePayloadGPR);
m_jit.exceptionCheck();
m_jit.jump().linkTo(mainPath, &m_jit);
done.link(&m_jit);
setResultAndResetStack();
m_jit.addJSDirectCall(call, slowPath, info);
return;
}
m_jit.emitStoreCallSiteIndex(callSite);
slowPath.append(m_jit.branchIfNotCell(JSValueRegs(calleeTagGPR, calleePayloadGPR)));
slowPath.append(m_jit.branchPtrWithPatch(MacroAssembler::NotEqual, calleePayloadGPR, targetToCheck));
if (isTail) {
if (node->op() == TailCall) {
info->setFrameShuffleData(shuffleData);
CallFrameShuffler(m_jit, shuffleData).prepareForTailCall();
} else {
m_jit.emitRestoreCalleeSaves();
m_jit.prepareForTailCallSlow();
}
}
JITCompiler::Call fastCall = isTail ? m_jit.nearTailCall() : m_jit.nearCall();
JITCompiler::Jump done = m_jit.jump();
slowPath.link(&m_jit);
if (node->op() == TailCall) {
CallFrameShuffler callFrameShuffler(m_jit, shuffleData);
callFrameShuffler.setCalleeJSValueRegs(JSValueRegs(
GPRInfo::regT1, GPRInfo::regT0));
callFrameShuffler.prepareForSlowPath();
} else {
if (calleeTagGPR == GPRInfo::regT0) {
if (calleePayloadGPR == GPRInfo::regT1)
m_jit.swap(GPRInfo::regT1, GPRInfo::regT0);
else {
m_jit.move(calleeTagGPR, GPRInfo::regT1);
m_jit.move(calleePayloadGPR, GPRInfo::regT0);
}
} else {
m_jit.move(calleePayloadGPR, GPRInfo::regT0);
m_jit.move(calleeTagGPR, GPRInfo::regT1);
}
if (isTail)
m_jit.emitRestoreCalleeSaves();
}
m_jit.move(TrustedImmPtr(info), GPRInfo::regT2);
JITCompiler::Call slowCall = m_jit.nearCall();
done.link(&m_jit);
if (isTail)
m_jit.abortWithReason(JITDidReturnFromTailCall);
else
setResultAndResetStack();
m_jit.addJSCall(fastCall, slowCall, targetToCheck, info);
}
template<bool strict>
GPRReg SpeculativeJIT::fillSpeculateInt32Internal(Edge edge, DataFormat& returnFormat)
{
AbstractValue& value = m_state.forNode(edge);
SpeculatedType type = value.m_type;
ASSERT(edge.useKind() != KnownInt32Use || !(value.m_type & ~SpecInt32Only));
m_interpreter.filter(value, SpecInt32Only);
if (value.isClear()) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
returnFormat = DataFormatInt32;
return allocate();
}
VirtualRegister virtualRegister = edge->virtualRegister();
GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
switch (info.registerFormat()) {
case DataFormatNone: {
if (edge->hasConstant()) {
ASSERT(edge->isInt32Constant());
GPRReg gpr = allocate();
m_jit.move(MacroAssembler::Imm32(edge->asInt32()), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
info.fillInt32(*m_stream, gpr);
returnFormat = DataFormatInt32;
return gpr;
}
DataFormat spillFormat = info.spillFormat();
ASSERT_UNUSED(spillFormat, (spillFormat & DataFormatJS) || spillFormat == DataFormatInt32);
if (type & ~SpecInt32Only)
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), edge, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::Int32Tag)));
GPRReg gpr = allocate();
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
info.fillInt32(*m_stream, gpr);
returnFormat = DataFormatInt32;
return gpr;
}
case DataFormatJSInt32:
case DataFormatJS: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
if (type & ~SpecInt32Only)
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), edge, m_jit.branch32(MacroAssembler::NotEqual, tagGPR, TrustedImm32(JSValue::Int32Tag)));
m_gprs.unlock(tagGPR);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderInteger);
info.fillInt32(*m_stream, payloadGPR);
returnFormat = DataFormatInt32;
return payloadGPR;
}
case DataFormatInt32: {
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
returnFormat = DataFormatInt32;
return gpr;
}
case DataFormatCell:
case DataFormatBoolean:
case DataFormatJSDouble:
case DataFormatJSCell:
case DataFormatJSBoolean:
case DataFormatDouble:
case DataFormatStorage:
default:
RELEASE_ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
}
GPRReg SpeculativeJIT::fillSpeculateInt32(Edge edge, DataFormat& returnFormat)
{
return fillSpeculateInt32Internal<false>(edge, returnFormat);
}
GPRReg SpeculativeJIT::fillSpeculateInt32Strict(Edge edge)
{
DataFormat mustBeDataFormatInt32;
GPRReg result = fillSpeculateInt32Internal<true>(edge, mustBeDataFormatInt32);
ASSERT(mustBeDataFormatInt32 == DataFormatInt32);
return result;
}
FPRReg SpeculativeJIT::fillSpeculateDouble(Edge edge)
{
ASSERT(isDouble(edge.useKind()));
ASSERT(edge->hasDoubleResult());
VirtualRegister virtualRegister = edge->virtualRegister();
GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
if (info.registerFormat() == DataFormatNone) {
if (edge->hasConstant()) {
RELEASE_ASSERT(edge->isNumberConstant());
FPRReg fpr = fprAllocate();
m_jit.loadDouble(TrustedImmPtr(m_jit.addressOfDoubleConstant(edge.node())), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderConstant);
info.fillDouble(*m_stream, fpr);
return fpr;
}
RELEASE_ASSERT(info.spillFormat() == DataFormatDouble);
FPRReg fpr = fprAllocate();
m_jit.loadDouble(JITCompiler::addressFor(virtualRegister), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderSpilled);
info.fillDouble(*m_stream, fpr);
return fpr;
}
RELEASE_ASSERT(info.registerFormat() == DataFormatDouble);
FPRReg fpr = info.fpr();
m_fprs.lock(fpr);
return fpr;
}
GPRReg SpeculativeJIT::fillSpeculateCell(Edge edge)
{
AbstractValue& value = m_state.forNode(edge);
SpeculatedType type = value.m_type;
ASSERT((edge.useKind() != KnownCellUse && edge.useKind() != KnownStringUse) || !(value.m_type & ~SpecCell));
m_interpreter.filter(value, SpecCell);
if (value.isClear()) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
return allocate();
}
VirtualRegister virtualRegister = edge->virtualRegister();
GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
switch (info.registerFormat()) {
case DataFormatNone: {
if (edge->hasConstant()) {
GPRReg gpr = allocate();
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
m_jit.move(TrustedImmPtr(edge->constant()), gpr);
info.fillCell(*m_stream, gpr);
return gpr;
}
ASSERT((info.spillFormat() & DataFormatJS) || info.spillFormat() == DataFormatCell);
if (type & ~SpecCell) {
speculationCheck(
BadType,
JSValueSource(JITCompiler::addressFor(virtualRegister)),
edge,
m_jit.branch32(
MacroAssembler::NotEqual,
JITCompiler::tagFor(virtualRegister),
TrustedImm32(JSValue::CellTag)));
}
GPRReg gpr = allocate();
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
info.fillCell(*m_stream, gpr);
return gpr;
}
case DataFormatCell: {
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
return gpr;
}
case DataFormatJSCell:
case DataFormatJS: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
if (type & ~SpecCell) {
speculationCheck(
BadType, JSValueRegs(tagGPR, payloadGPR), edge,
m_jit.branchIfNotCell(info.jsValueRegs()));
}
m_gprs.unlock(tagGPR);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderCell);
info.fillCell(*m_stream, payloadGPR);
return payloadGPR;
}
case DataFormatJSInt32:
case DataFormatInt32:
case DataFormatJSDouble:
case DataFormatJSBoolean:
case DataFormatBoolean:
case DataFormatDouble:
case DataFormatStorage:
RELEASE_ASSERT_NOT_REACHED();
default:
RELEASE_ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
}
GPRReg SpeculativeJIT::fillSpeculateBoolean(Edge edge)
{
AbstractValue& value = m_state.forNode(edge);
SpeculatedType type = value.m_type;
ASSERT(edge.useKind() != KnownBooleanUse || !(value.m_type & ~SpecBoolean));
m_interpreter.filter(value, SpecBoolean);
if (value.isClear()) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
return allocate();
}
VirtualRegister virtualRegister = edge->virtualRegister();
GenerationInfo& info = generationInfoFromVirtualRegister(virtualRegister);
switch (info.registerFormat()) {
case DataFormatNone: {
if (edge->hasConstant()) {
JSValue jsValue = edge->asJSValue();
GPRReg gpr = allocate();
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
m_jit.move(MacroAssembler::TrustedImm32(jsValue.asBoolean()), gpr);
info.fillBoolean(*m_stream, gpr);
return gpr;
}
ASSERT((info.spillFormat() & DataFormatJS) || info.spillFormat() == DataFormatBoolean);
if (type & ~SpecBoolean)
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), edge, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::BooleanTag)));
GPRReg gpr = allocate();
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
info.fillBoolean(*m_stream, gpr);
return gpr;
}
case DataFormatBoolean: {
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
return gpr;
}
case DataFormatJSBoolean:
case DataFormatJS: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
if (type & ~SpecBoolean)
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), edge, m_jit.branch32(MacroAssembler::NotEqual, tagGPR, TrustedImm32(JSValue::BooleanTag)));
m_gprs.unlock(tagGPR);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderBoolean);
info.fillBoolean(*m_stream, payloadGPR);
return payloadGPR;
}
case DataFormatJSInt32:
case DataFormatInt32:
case DataFormatJSDouble:
case DataFormatJSCell:
case DataFormatCell:
case DataFormatDouble:
case DataFormatStorage:
RELEASE_ASSERT_NOT_REACHED();
default:
RELEASE_ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
}
void SpeculativeJIT::compileObjectEquality(Node* node)
{
SpeculateCellOperand op1(this, node->child1());
SpeculateCellOperand op2(this, node->child2());
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.gpr();
if (masqueradesAsUndefinedWatchpointIsStillValid()) {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), node->child1(), SpecObject, m_jit.branchIfNotObject(op1GPR));
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op2GPR), node->child2(), SpecObject, m_jit.branchIfNotObject(op2GPR));
} else {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), node->child1(), SpecObject, m_jit.branchIfNotObject(op1GPR));
speculationCheck(BadType, JSValueSource::unboxedCell(op1GPR), node->child1(),
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op1GPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op2GPR), node->child2(), SpecObject, m_jit.branchIfNotObject(op2GPR));
speculationCheck(BadType, JSValueSource::unboxedCell(op2GPR), node->child2(),
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op2GPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
}
GPRTemporary resultPayload(this, Reuse, op2);
GPRReg resultPayloadGPR = resultPayload.gpr();
MacroAssembler::Jump falseCase = m_jit.branchPtr(MacroAssembler::NotEqual, op1GPR, op2GPR);
m_jit.move(TrustedImm32(1), resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
falseCase.link(&m_jit);
m_jit.move(TrustedImm32(0), resultPayloadGPR);
done.link(&m_jit);
booleanResult(resultPayloadGPR, node);
}
void SpeculativeJIT::compileObjectStrictEquality(Edge objectChild, Edge otherChild)
{
SpeculateCellOperand op1(this, objectChild);
JSValueOperand op2(this, otherChild);
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.payloadGPR();
DFG_TYPE_CHECK(JSValueSource::unboxedCell(op1GPR), objectChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
GPRTemporary resultPayload(this, Reuse, op1);
GPRReg resultPayloadGPR = resultPayload.gpr();
MacroAssembler::Jump op2CellJump = m_jit.branchIfCell(op2.jsValueRegs());
m_jit.move(TrustedImm32(0), resultPayloadGPR);
MacroAssembler::Jump op2NotCellJump = m_jit.jump();
op2CellJump.link(&m_jit);
m_jit.compare32(MacroAssembler::Equal, op1GPR, op2GPR, resultPayloadGPR);
op2NotCellJump.link(&m_jit);
booleanResult(resultPayloadGPR, m_currentNode);
}
void SpeculativeJIT::compilePeepHoleObjectStrictEquality(Edge objectChild, Edge otherChild, Node* branchNode)
{
BasicBlock* taken = branchNode->branchData()->taken.block;
BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
SpeculateCellOperand op1(this, objectChild);
JSValueOperand op2(this, otherChild);
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.payloadGPR();
DFG_TYPE_CHECK(JSValueSource::unboxedCell(op1GPR), objectChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
branch32(MacroAssembler::NotEqual, op2.tagGPR(), TrustedImm32(JSValue::CellTag), notTaken);
if (taken == nextBlock()) {
branch32(MacroAssembler::NotEqual, op1GPR, op2GPR, notTaken);
jump(taken);
} else {
branch32(MacroAssembler::Equal, op1GPR, op2GPR, taken);
jump(notTaken);
}
}
void SpeculativeJIT::compileObjectToObjectOrOtherEquality(Edge leftChild, Edge rightChild)
{
SpeculateCellOperand op1(this, leftChild);
JSValueOperand op2(this, rightChild, ManualOperandSpeculation);
GPRTemporary result(this);
GPRReg op1GPR = op1.gpr();
GPRReg op2TagGPR = op2.tagGPR();
GPRReg op2PayloadGPR = op2.payloadGPR();
GPRReg resultGPR = result.gpr();
bool masqueradesAsUndefinedWatchpointValid =
masqueradesAsUndefinedWatchpointIsStillValid();
if (masqueradesAsUndefinedWatchpointValid) {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), leftChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
} else {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), leftChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
speculationCheck(BadType, JSValueSource::unboxedCell(op1GPR), leftChild,
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op1GPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
}
MacroAssembler::Jump rightNotCell = m_jit.branchIfNotCell(op2.jsValueRegs());
if (masqueradesAsUndefinedWatchpointValid) {
DFG_TYPE_CHECK(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, (~SpecCell) | SpecObject, m_jit.branchIfNotObject(op2PayloadGPR));
} else {
DFG_TYPE_CHECK(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, (~SpecCell) | SpecObject, m_jit.branchIfNotObject(op2PayloadGPR));
speculationCheck(BadType, JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild,
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op2PayloadGPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
}
MacroAssembler::Jump falseCase = m_jit.branchPtr(MacroAssembler::NotEqual, op1GPR, op2PayloadGPR);
MacroAssembler::Jump trueCase = m_jit.jump();
rightNotCell.link(&m_jit);
if (needsTypeCheck(rightChild, SpecCell | SpecOther)) {
m_jit.or32(TrustedImm32(1), op2TagGPR, resultGPR);
typeCheck(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, SpecCell | SpecOther,
m_jit.branch32(
MacroAssembler::NotEqual, resultGPR,
MacroAssembler::TrustedImm32(JSValue::NullTag)));
}
falseCase.link(&m_jit);
m_jit.move(TrustedImm32(0), resultGPR);
MacroAssembler::Jump done = m_jit.jump();
trueCase.link(&m_jit);
m_jit.move(TrustedImm32(1), resultGPR);
done.link(&m_jit);
booleanResult(resultGPR, m_currentNode);
}
void SpeculativeJIT::compilePeepHoleObjectToObjectOrOtherEquality(Edge leftChild, Edge rightChild, Node* branchNode)
{
BasicBlock* taken = branchNode->branchData()->taken.block;
BasicBlock* notTaken = branchNode->branchData()->notTaken.block;
SpeculateCellOperand op1(this, leftChild);
JSValueOperand op2(this, rightChild, ManualOperandSpeculation);
GPRTemporary result(this);
GPRReg op1GPR = op1.gpr();
GPRReg op2TagGPR = op2.tagGPR();
GPRReg op2PayloadGPR = op2.payloadGPR();
GPRReg resultGPR = result.gpr();
bool masqueradesAsUndefinedWatchpointValid =
masqueradesAsUndefinedWatchpointIsStillValid();
if (masqueradesAsUndefinedWatchpointValid) {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), leftChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
} else {
DFG_TYPE_CHECK(
JSValueSource::unboxedCell(op1GPR), leftChild, SpecObject, m_jit.branchIfNotObject(op1GPR));
speculationCheck(BadType, JSValueSource::unboxedCell(op1GPR), leftChild,
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op1GPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
}
MacroAssembler::Jump rightNotCell = m_jit.branchIfNotCell(op2.jsValueRegs());
if (masqueradesAsUndefinedWatchpointValid) {
DFG_TYPE_CHECK(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(op2PayloadGPR));
} else {
DFG_TYPE_CHECK(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(op2PayloadGPR));
speculationCheck(BadType, JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild,
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(op2PayloadGPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined)));
}
branch32(MacroAssembler::Equal, op1GPR, op2PayloadGPR, taken);
if (!needsTypeCheck(rightChild, SpecCell | SpecOther))
rightNotCell.link(&m_jit);
else {
jump(notTaken, ForceJump);
rightNotCell.link(&m_jit);
m_jit.or32(TrustedImm32(1), op2TagGPR, resultGPR);
typeCheck(
JSValueRegs(op2TagGPR, op2PayloadGPR), rightChild, SpecCell | SpecOther,
m_jit.branch32(
MacroAssembler::NotEqual, resultGPR,
MacroAssembler::TrustedImm32(JSValue::NullTag)));
}
jump(notTaken);
}
void SpeculativeJIT::compileSymbolUntypedEquality(Node* node, Edge symbolEdge, Edge untypedEdge)
{
SpeculateCellOperand symbol(this, symbolEdge);
JSValueOperand untyped(this, untypedEdge);
GPRReg symbolGPR = symbol.gpr();
GPRReg untypedGPR = untyped.payloadGPR();
speculateSymbol(symbolEdge, symbolGPR);
GPRTemporary resultPayload(this, Reuse, symbol);
GPRReg resultPayloadGPR = resultPayload.gpr();
MacroAssembler::Jump untypedCellJump = m_jit.branchIfCell(untyped.jsValueRegs());
m_jit.move(TrustedImm32(0), resultPayloadGPR);
MacroAssembler::Jump untypedNotCellJump = m_jit.jump();
untypedCellJump.link(&m_jit);
m_jit.compare32(MacroAssembler::Equal, symbolGPR, untypedGPR, resultPayloadGPR);
untypedNotCellJump.link(&m_jit);
booleanResult(resultPayloadGPR, node);
}
void SpeculativeJIT::compileInt32Compare(Node* node, MacroAssembler::RelationalCondition condition)
{
SpeculateInt32Operand op1(this, node->child1());
SpeculateInt32Operand op2(this, node->child2());
GPRTemporary resultPayload(this);
m_jit.compare32(condition, op1.gpr(), op2.gpr(), resultPayload.gpr());
booleanResult(resultPayload.gpr(), node);
}
void SpeculativeJIT::compileDoubleCompare(Node* node, MacroAssembler::DoubleCondition condition)
{
SpeculateDoubleOperand op1(this, node->child1());
SpeculateDoubleOperand op2(this, node->child2());
GPRTemporary resultPayload(this);
m_jit.move(TrustedImm32(1), resultPayload.gpr());
MacroAssembler::Jump trueCase = m_jit.branchDouble(condition, op1.fpr(), op2.fpr());
m_jit.move(TrustedImm32(0), resultPayload.gpr());
trueCase.link(&m_jit);
booleanResult(resultPayload.gpr(), node);
}
void SpeculativeJIT::compileObjectOrOtherLogicalNot(Edge nodeUse)
{
JSValueOperand value(this, nodeUse, ManualOperandSpeculation);
GPRTemporary resultPayload(this);
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRTemporary structure;
GPRReg structureGPR = InvalidGPRReg;
bool masqueradesAsUndefinedWatchpointValid =
masqueradesAsUndefinedWatchpointIsStillValid();
if (!masqueradesAsUndefinedWatchpointValid) {
GPRTemporary realStructure(this);
structure.adopt(realStructure);
structureGPR = structure.gpr();
}
MacroAssembler::Jump notCell = m_jit.branchIfNotCell(value.jsValueRegs());
if (masqueradesAsUndefinedWatchpointValid) {
DFG_TYPE_CHECK(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(valuePayloadGPR));
} else {
DFG_TYPE_CHECK(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(valuePayloadGPR));
MacroAssembler::Jump isNotMasqueradesAsUndefined =
m_jit.branchTest8(
MacroAssembler::Zero,
MacroAssembler::Address(valuePayloadGPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(MasqueradesAsUndefined));
m_jit.loadPtr(MacroAssembler::Address(valuePayloadGPR, JSCell::structureIDOffset()), structureGPR);
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse,
m_jit.branchPtr(
MacroAssembler::Equal,
MacroAssembler::Address(structureGPR, Structure::globalObjectOffset()),
TrustedImmPtr::weakPointer(m_jit.graph(), m_jit.graph().globalObjectFor(m_currentNode->origin.semantic))));
isNotMasqueradesAsUndefined.link(&m_jit);
}
m_jit.move(TrustedImm32(0), resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
if (needsTypeCheck(nodeUse, SpecCell | SpecOther)) {
m_jit.or32(TrustedImm32(1), valueTagGPR, resultPayloadGPR);
typeCheck(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, SpecCell | SpecOther,
m_jit.branch32(
MacroAssembler::NotEqual,
resultPayloadGPR,
TrustedImm32(JSValue::NullTag)));
}
m_jit.move(TrustedImm32(1), resultPayloadGPR);
done.link(&m_jit);
booleanResult(resultPayloadGPR, m_currentNode);
}
void SpeculativeJIT::compileLogicalNot(Node* node)
{
switch (node->child1().useKind()) {
case BooleanUse:
case KnownBooleanUse: {
SpeculateBooleanOperand value(this, node->child1());
GPRTemporary result(this, Reuse, value);
m_jit.xor32(TrustedImm32(1), value.gpr(), result.gpr());
booleanResult(result.gpr(), node);
return;
}
case ObjectOrOtherUse: {
compileObjectOrOtherLogicalNot(node->child1());
return;
}
case Int32Use: {
SpeculateInt32Operand value(this, node->child1());
GPRTemporary resultPayload(this, Reuse, value);
m_jit.compare32(MacroAssembler::Equal, value.gpr(), MacroAssembler::TrustedImm32(0), resultPayload.gpr());
booleanResult(resultPayload.gpr(), node);
return;
}
case DoubleRepUse: {
SpeculateDoubleOperand value(this, node->child1());
FPRTemporary scratch(this);
GPRTemporary resultPayload(this);
m_jit.move(TrustedImm32(0), resultPayload.gpr());
MacroAssembler::Jump nonZero = m_jit.branchDoubleNonZero(value.fpr(), scratch.fpr());
m_jit.move(TrustedImm32(1), resultPayload.gpr());
nonZero.link(&m_jit);
booleanResult(resultPayload.gpr(), node);
return;
}
case UntypedUse: {
JSValueOperand arg1(this, node->child1());
GPRTemporary result(this);
GPRTemporary temp(this);
FPRTemporary valueFPR(this);
FPRTemporary tempFPR(this);
GPRReg resultGPR = result.gpr();
bool shouldCheckMasqueradesAsUndefined = !masqueradesAsUndefinedWatchpointIsStillValid();
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
bool negateResult = true;
m_jit.emitConvertValueToBoolean(*m_jit.vm(), arg1.jsValueRegs(), resultGPR, temp.gpr(), valueFPR.fpr(), tempFPR.fpr(), shouldCheckMasqueradesAsUndefined, globalObject, negateResult);
booleanResult(resultGPR, node);
return;
}
case StringUse:
return compileStringZeroLength(node);
case StringOrOtherUse:
return compileLogicalNotStringOrOther(node);
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
}
void SpeculativeJIT::emitObjectOrOtherBranch(Edge nodeUse, BasicBlock* taken, BasicBlock* notTaken)
{
JSValueOperand value(this, nodeUse, ManualOperandSpeculation);
GPRTemporary scratch(this);
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg scratchGPR = scratch.gpr();
MacroAssembler::Jump notCell = m_jit.branchIfNotCell(value.jsValueRegs());
if (masqueradesAsUndefinedWatchpointIsStillValid()) {
DFG_TYPE_CHECK(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(valuePayloadGPR));
} else {
DFG_TYPE_CHECK(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, (~SpecCell) | SpecObject,
m_jit.branchIfNotObject(valuePayloadGPR));
JITCompiler::Jump isNotMasqueradesAsUndefined = m_jit.branchTest8(
JITCompiler::Zero,
MacroAssembler::Address(valuePayloadGPR, JSCell::typeInfoFlagsOffset()),
TrustedImm32(MasqueradesAsUndefined));
m_jit.loadPtr(MacroAssembler::Address(valuePayloadGPR, JSCell::structureIDOffset()), scratchGPR);
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse,
m_jit.branchPtr(
MacroAssembler::Equal,
MacroAssembler::Address(scratchGPR, Structure::globalObjectOffset()),
TrustedImmPtr::weakPointer(m_jit.graph(), m_jit.graph().globalObjectFor(m_currentNode->origin.semantic))));
isNotMasqueradesAsUndefined.link(&m_jit);
}
jump(taken, ForceJump);
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
if (needsTypeCheck(nodeUse, SpecCell | SpecOther)) {
m_jit.or32(TrustedImm32(1), valueTagGPR, scratchGPR);
typeCheck(
JSValueRegs(valueTagGPR, valuePayloadGPR), nodeUse, SpecCell | SpecOther,
m_jit.branch32(MacroAssembler::NotEqual, scratchGPR, TrustedImm32(JSValue::NullTag)));
}
jump(notTaken);
noResult(m_currentNode);
}
void SpeculativeJIT::emitBranch(Node* node)
{
BasicBlock* taken = node->branchData()->taken.block;
BasicBlock* notTaken = node->branchData()->notTaken.block;
switch (node->child1().useKind()) {
case BooleanUse:
case KnownBooleanUse: {
SpeculateBooleanOperand value(this, node->child1());
MacroAssembler::ResultCondition condition = MacroAssembler::NonZero;
if (taken == nextBlock()) {
condition = MacroAssembler::Zero;
BasicBlock* tmp = taken;
taken = notTaken;
notTaken = tmp;
}
branchTest32(condition, value.gpr(), TrustedImm32(1), taken);
jump(notTaken);
noResult(node);
return;
}
case ObjectOrOtherUse: {
emitObjectOrOtherBranch(node->child1(), taken, notTaken);
return;
}
case StringUse: {
emitStringBranch(node->child1(), taken, notTaken);
return;
}
case StringOrOtherUse: {
emitStringOrOtherBranch(node->child1(), taken, notTaken);
return;
}
case DoubleRepUse:
case Int32Use: {
if (node->child1().useKind() == Int32Use) {
bool invert = false;
if (taken == nextBlock()) {
invert = true;
BasicBlock* tmp = taken;
taken = notTaken;
notTaken = tmp;
}
SpeculateInt32Operand value(this, node->child1());
branchTest32(invert ? MacroAssembler::Zero : MacroAssembler::NonZero, value.gpr(), taken);
} else {
SpeculateDoubleOperand value(this, node->child1());
FPRTemporary scratch(this);
branchDoubleNonZero(value.fpr(), scratch.fpr(), taken);
}
jump(notTaken);
noResult(node);
return;
}
case UntypedUse: {
JSValueOperand value(this, node->child1());
FPRTemporary valueFPR(this);
FPRTemporary tempFPR(this);
GPRTemporary result(this);
GPRTemporary temp(this);
JSValueRegs valueRegs = value.jsValueRegs();
GPRReg resultGPR = result.gpr();
use(node->child1());
bool shouldCheckMasqueradesAsUndefined = !masqueradesAsUndefinedWatchpointIsStillValid();
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
m_jit.emitConvertValueToBoolean(*m_jit.vm(), valueRegs, resultGPR, temp.gpr(), valueFPR.fpr(), tempFPR.fpr(), shouldCheckMasqueradesAsUndefined, globalObject);
branchTest32(JITCompiler::Zero, resultGPR, notTaken);
jump(taken, ForceJump);
noResult(node, UseChildrenCalledExplicitly);
return;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
}
template<typename BaseOperandType, typename PropertyOperandType, typename ValueOperandType, typename TagType>
void SpeculativeJIT::compileContiguousPutByVal(Node* node, BaseOperandType& base, PropertyOperandType& property, ValueOperandType& value, GPRReg valuePayloadReg, TagType valueTag)
{
Edge child4 = m_jit.graph().varArgChild(node, 3);
ArrayMode arrayMode = node->arrayMode();
GPRReg baseReg = base.gpr();
GPRReg propertyReg = property.gpr();
StorageOperand storage(this, child4);
GPRReg storageReg = storage.gpr();
if (node->op() == PutByValAlias) {
GPRReg propertyReg = property.gpr();
m_jit.store32(valueTag, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
noResult(node);
return;
}
MacroAssembler::Jump slowCase;
if (arrayMode.isInBounds()) {
speculationCheck(
OutOfBounds, JSValueRegs(), 0,
m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
} else {
MacroAssembler::Jump inBounds = m_jit.branch32(MacroAssembler::Below, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength()));
slowCase = m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfVectorLength()));
if (!arrayMode.isOutOfBounds())
speculationCheck(OutOfBounds, JSValueRegs(), 0, slowCase);
m_jit.add32(TrustedImm32(1), propertyReg);
m_jit.store32(propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength()));
m_jit.sub32(TrustedImm32(1), propertyReg);
inBounds.link(&m_jit);
}
m_jit.store32(valueTag, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
base.use();
property.use();
value.use();
storage.use();
if (arrayMode.isOutOfBounds()) {
if (node->op() == PutByValDirect) {
addSlowPathGenerator(slowPathCall(
slowCase, this,
m_jit.codeBlock()->isStrictMode() ? operationPutByValDirectBeyondArrayBoundsStrict : operationPutByValDirectBeyondArrayBoundsNonStrict,
NoResult, baseReg, propertyReg, valueTag, valuePayloadReg));
} else {
addSlowPathGenerator(slowPathCall(
slowCase, this,
m_jit.codeBlock()->isStrictMode() ? operationPutByValBeyondArrayBoundsStrict : operationPutByValBeyondArrayBoundsNonStrict,
NoResult, baseReg, propertyReg, valueTag, valuePayloadReg));
}
}
noResult(node, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::compile(Node* node)
{
NodeType op = node->op();
#if ENABLE(DFG_REGISTER_ALLOCATION_VALIDATION)
m_jit.clearRegisterAllocationOffsets();
#endif
switch (op) {
case JSConstant:
case DoubleConstant:
case PhantomDirectArguments:
case PhantomClonedArguments:
initConstantInfo(node);
break;
case LazyJSConstant:
compileLazyJSConstant(node);
break;
case Identity: {
speculate(node, node->child1());
switch (node->child1().useKind()) {
case DoubleRepUse:
case DoubleRepRealUse: {
SpeculateDoubleOperand op(this, node->child1());
doubleResult(op.fpr(), node);
break;
}
case Int52RepUse:
case AnyIntUse:
case DoubleRepAnyIntUse: {
RELEASE_ASSERT_NOT_REACHED();
break;
}
default: {
JSValueOperand op(this, node->child1(), ManualOperandSpeculation);
GPRTemporary resultTag(this, Reuse, op, TagWord);
GPRTemporary resultPayload(this, Reuse, op, PayloadWord);
GPRReg sourceTag = op.tagGPR();
GPRReg sourcePayload = op.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
m_jit.move(sourceTag, resultTagGPR);
m_jit.move(sourcePayload, resultPayloadGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
} break;
}
case GetLocal: {
AbstractValue& value = m_state.variables().operand(node->local());
if (value.isClear()) {
m_compileOkay = false;
break;
}
switch (node->variableAccessData()->flushFormat()) {
case FlushedDouble: {
FPRTemporary result(this);
m_jit.loadDouble(JITCompiler::addressFor(node->machineLocal()), result.fpr());
VirtualRegister virtualRegister = node->virtualRegister();
m_fprs.retain(result.fpr(), virtualRegister, SpillOrderDouble);
generationInfoFromVirtualRegister(virtualRegister).initDouble(node, node->refCount(), result.fpr());
break;
}
case FlushedInt32: {
GPRTemporary result(this);
m_jit.load32(JITCompiler::payloadFor(node->machineLocal()), result.gpr());
VirtualRegister virtualRegister = node->virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderInteger);
generationInfoFromVirtualRegister(virtualRegister).initInt32(node, node->refCount(), result.gpr());
break;
}
case FlushedCell: {
GPRTemporary result(this);
m_jit.load32(JITCompiler::payloadFor(node->machineLocal()), result.gpr());
VirtualRegister virtualRegister = node->virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderCell);
generationInfoFromVirtualRegister(virtualRegister).initCell(node, node->refCount(), result.gpr());
break;
}
case FlushedBoolean: {
GPRTemporary result(this);
m_jit.load32(JITCompiler::payloadFor(node->machineLocal()), result.gpr());
VirtualRegister virtualRegister = node->virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderBoolean);
generationInfoFromVirtualRegister(virtualRegister).initBoolean(node, node->refCount(), result.gpr());
break;
}
case FlushedJSValue: {
GPRTemporary result(this);
GPRTemporary tag(this);
m_jit.load32(JITCompiler::payloadFor(node->machineLocal()), result.gpr());
m_jit.load32(JITCompiler::tagFor(node->machineLocal()), tag.gpr());
VirtualRegister virtualRegister = node->virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderJS);
m_gprs.retain(tag.gpr(), virtualRegister, SpillOrderJS);
generationInfoFromVirtualRegister(virtualRegister).initJSValue(node, node->refCount(), tag.gpr(), result.gpr(), DataFormatJS);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
}
break;
}
case GetLocalUnlinked: {
GPRTemporary payload(this);
GPRTemporary tag(this);
m_jit.load32(JITCompiler::payloadFor(node->unlinkedMachineLocal()), payload.gpr());
m_jit.load32(JITCompiler::tagFor(node->unlinkedMachineLocal()), tag.gpr());
jsValueResult(tag.gpr(), payload.gpr(), node);
break;
}
case MovHint: {
compileMovHint(m_currentNode);
noResult(node);
break;
}
case ZombieHint: {
recordSetLocal(m_currentNode->unlinkedLocal(), VirtualRegister(), DataFormatDead);
noResult(node);
break;
}
case ExitOK: {
noResult(node);
break;
}
case SetLocal: {
switch (node->variableAccessData()->flushFormat()) {
case FlushedDouble: {
SpeculateDoubleOperand value(this, node->child1());
m_jit.storeDouble(value.fpr(), JITCompiler::addressFor(node->machineLocal()));
noResult(node);
recordSetLocal(DataFormatDouble);
break;
}
case FlushedInt32: {
SpeculateInt32Operand value(this, node->child1());
m_jit.store32(value.gpr(), JITCompiler::payloadFor(node->machineLocal()));
noResult(node);
recordSetLocal(DataFormatInt32);
break;
}
case FlushedCell: {
SpeculateCellOperand cell(this, node->child1());
GPRReg cellGPR = cell.gpr();
m_jit.storePtr(cellGPR, JITCompiler::payloadFor(node->machineLocal()));
noResult(node);
recordSetLocal(DataFormatCell);
break;
}
case FlushedBoolean: {
SpeculateBooleanOperand value(this, node->child1());
m_jit.store32(value.gpr(), JITCompiler::payloadFor(node->machineLocal()));
noResult(node);
recordSetLocal(DataFormatBoolean);
break;
}
case FlushedJSValue: {
JSValueOperand value(this, node->child1());
m_jit.store32(value.payloadGPR(), JITCompiler::payloadFor(node->machineLocal()));
m_jit.store32(value.tagGPR(), JITCompiler::tagFor(node->machineLocal()));
noResult(node);
recordSetLocal(dataFormatFor(node->variableAccessData()->flushFormat()));
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case SetArgument:
recordSetLocal(dataFormatFor(node->variableAccessData()->flushFormat()));
break;
case BitAnd:
case BitOr:
case BitXor:
compileBitwiseOp(node);
break;
case BitRShift:
case BitLShift:
case BitURShift:
compileShiftOp(node);
break;
case UInt32ToNumber: {
compileUInt32ToNumber(node);
break;
}
case DoubleAsInt32: {
compileDoubleAsInt32(node);
break;
}
case ValueToInt32: {
compileValueToInt32(node);
break;
}
case DoubleRep: {
compileDoubleRep(node);
break;
}
case ValueRep: {
compileValueRep(node);
break;
}
case ValueAdd:
compileValueAdd(node);
break;
case StrCat: {
JSValueOperand op1(this, node->child1(), ManualOperandSpeculation);
JSValueOperand op2(this, node->child2(), ManualOperandSpeculation);
JSValueOperand op3(this, node->child3(), ManualOperandSpeculation);
JSValueRegs op1Regs = op1.jsValueRegs();
JSValueRegs op2Regs = op2.jsValueRegs();
JSValueRegs op3Regs;
if (node->child3())
op3Regs = op3.jsValueRegs();
flushRegisters();
GPRFlushedCallResult result(this);
if (node->child3())
callOperation(operationStrCat3, result.gpr(), op1Regs, op2Regs, op3Regs);
else
callOperation(operationStrCat2, result.gpr(), op1Regs, op2Regs);
m_jit.exceptionCheck();
cellResult(result.gpr(), node);
break;
}
case ArithAdd:
compileArithAdd(node);
break;
case ArithClz32:
compileArithClz32(node);
break;
case MakeRope:
compileMakeRope(node);
break;
case ArithSub:
compileArithSub(node);
break;
case ArithNegate:
compileArithNegate(node);
break;
case ArithMul:
compileArithMul(node);
break;
case ArithDiv: {
compileArithDiv(node);
break;
}
case ArithMod: {
compileArithMod(node);
break;
}
case ArithPow: {
compileArithPow(node);
break;
}
case ArithAbs:
compileArithAbs(node);
break;
case ArithMin:
case ArithMax: {
switch (node->binaryUseKind()) {
case Int32Use: {
SpeculateStrictInt32Operand op1(this, node->child1());
SpeculateStrictInt32Operand op2(this, node->child2());
GPRTemporary result(this, Reuse, op1);
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.gpr();
GPRReg resultGPR = result.gpr();
MacroAssembler::Jump op1Less = m_jit.branch32(op == ArithMin ? MacroAssembler::LessThan : MacroAssembler::GreaterThan, op1GPR, op2GPR);
m_jit.move(op2GPR, resultGPR);
if (op1GPR != resultGPR) {
MacroAssembler::Jump done = m_jit.jump();
op1Less.link(&m_jit);
m_jit.move(op1GPR, resultGPR);
done.link(&m_jit);
} else
op1Less.link(&m_jit);
int32Result(resultGPR, node);
break;
}
case DoubleRepUse: {
SpeculateDoubleOperand op1(this, node->child1());
SpeculateDoubleOperand op2(this, node->child2());
FPRTemporary result(this, op1);
FPRReg op1FPR = op1.fpr();
FPRReg op2FPR = op2.fpr();
FPRReg resultFPR = result.fpr();
MacroAssembler::JumpList done;
MacroAssembler::Jump op1Less = m_jit.branchDouble(op == ArithMin ? MacroAssembler::DoubleLessThan : MacroAssembler::DoubleGreaterThan, op1FPR, op2FPR);
MacroAssembler::Jump op2Less = m_jit.branchDouble(op == ArithMin ? MacroAssembler::DoubleGreaterThanOrEqual : MacroAssembler::DoubleLessThanOrEqual, op1FPR, op2FPR);
m_jit.addDouble(op1FPR, op2FPR, resultFPR);
done.append(m_jit.jump());
op2Less.link(&m_jit);
m_jit.moveDouble(op2FPR, resultFPR);
if (op1FPR != resultFPR) {
done.append(m_jit.jump());
op1Less.link(&m_jit);
m_jit.moveDouble(op1FPR, resultFPR);
} else
op1Less.link(&m_jit);
done.link(&m_jit);
doubleResult(resultFPR, node);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case ArithSqrt:
compileArithSqrt(node);
break;
case ArithFRound:
compileArithFRound(node);
break;
case ArithRandom:
compileArithRandom(node);
break;
case ArithRound:
case ArithFloor:
case ArithCeil:
case ArithTrunc:
compileArithRounding(node);
break;
case ArithUnary:
compileArithUnary(node);
break;
case LogicalNot:
compileLogicalNot(node);
break;
case CompareLess:
if (compare(node, JITCompiler::LessThan, JITCompiler::DoubleLessThan, operationCompareLess))
return;
break;
case CompareLessEq:
if (compare(node, JITCompiler::LessThanOrEqual, JITCompiler::DoubleLessThanOrEqual, operationCompareLessEq))
return;
break;
case CompareGreater:
if (compare(node, JITCompiler::GreaterThan, JITCompiler::DoubleGreaterThan, operationCompareGreater))
return;
break;
case CompareGreaterEq:
if (compare(node, JITCompiler::GreaterThanOrEqual, JITCompiler::DoubleGreaterThanOrEqual, operationCompareGreaterEq))
return;
break;
case CompareEq:
if (compare(node, JITCompiler::Equal, JITCompiler::DoubleEqual, operationCompareEq))
return;
break;
case CompareStrictEq:
if (compileStrictEq(node))
return;
break;
case CompareEqPtr:
compileCompareEqPtr(node);
break;
case StringCharCodeAt: {
compileGetCharCodeAt(node);
break;
}
case StringCharAt: {
compileGetByValOnString(node);
break;
}
case StringFromCharCode: {
compileFromCharCode(node);
break;
}
case CheckArray: {
checkArray(node);
break;
}
case Arrayify:
case ArrayifyToStructure: {
arrayify(node);
break;
}
case GetByVal: {
switch (node->arrayMode().type()) {
case Array::SelectUsingPredictions:
case Array::ForceExit:
RELEASE_ASSERT_NOT_REACHED();
#if COMPILER_QUIRK(CONSIDERS_UNREACHABLE_CODE)
terminateSpeculativeExecution(InadequateCoverage, JSValueRegs(), 0);
#endif
break;
case Array::Undecided: {
SpeculateStrictInt32Operand index(this, node->child2());
GPRTemporary resultTag(this, Reuse, index);
GPRTemporary resultPayload(this);
GPRReg indexGPR = index.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
speculationCheck(OutOfBounds, JSValueRegs(), node,
m_jit.branch32(MacroAssembler::LessThan, indexGPR, MacroAssembler::TrustedImm32(0)));
use(node->child1());
index.use();
m_jit.move(MacroAssembler::TrustedImm32(JSValue::UndefinedTag), resultTagGPR);
m_jit.move(MacroAssembler::TrustedImm32(0), resultPayloadGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
case Array::Generic: {
SpeculateCellOperand base(this, node->child1()); JSValueOperand property(this, node->child2());
GPRReg baseGPR = base.gpr();
JSValueRegs propertyRegs = property.jsValueRegs();
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(operationGetByValCell, JSValueRegs(resultTag.gpr(), resultPayload.gpr()), baseGPR, propertyRegs);
m_jit.exceptionCheck();
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
case Array::Int32:
case Array::Contiguous: {
if (node->arrayMode().isInBounds()) {
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
speculationCheck(OutOfBounds, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
GPRTemporary resultPayload(this);
if (node->arrayMode().type() == Array::Int32) {
ASSERT(!node->arrayMode().isSaneChain());
speculationCheck(
OutOfBounds, JSValueRegs(), 0,
m_jit.branch32(
MacroAssembler::Equal,
MacroAssembler::BaseIndex(
storageReg, propertyReg, MacroAssembler::TimesEight, TagOffset),
TrustedImm32(JSValue::EmptyValueTag)));
m_jit.load32(
MacroAssembler::BaseIndex(
storageReg, propertyReg, MacroAssembler::TimesEight, PayloadOffset),
resultPayload.gpr());
int32Result(resultPayload.gpr(), node);
break;
}
GPRTemporary resultTag(this);
m_jit.load32(
MacroAssembler::BaseIndex(
storageReg, propertyReg, MacroAssembler::TimesEight, TagOffset),
resultTag.gpr());
m_jit.load32(
MacroAssembler::BaseIndex(
storageReg, propertyReg, MacroAssembler::TimesEight, PayloadOffset),
resultPayload.gpr());
if (node->arrayMode().isSaneChain()) {
JITCompiler::Jump notHole = m_jit.branch32(
MacroAssembler::NotEqual, resultTag.gpr(),
TrustedImm32(JSValue::EmptyValueTag));
m_jit.move(TrustedImm32(JSValue::UndefinedTag), resultTag.gpr());
m_jit.move(TrustedImm32(0), resultPayload.gpr());
notHole.link(&m_jit);
} else {
speculationCheck(
LoadFromHole, JSValueRegs(), 0,
m_jit.branch32(
MacroAssembler::Equal, resultTag.gpr(),
TrustedImm32(JSValue::EmptyValueTag)));
}
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
SpeculateCellOperand base(this, node->child1());
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg baseReg = base.gpr();
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg resultTagReg = resultTag.gpr();
GPRReg resultPayloadReg = resultPayload.gpr();
MacroAssembler::JumpList slowCases;
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTagReg);
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayloadReg);
slowCases.append(m_jit.branch32(MacroAssembler::Equal, resultTagReg, TrustedImm32(JSValue::EmptyValueTag)));
addSlowPathGenerator(
slowPathCall(
slowCases, this, operationGetByValObjectInt,
JSValueRegs(resultTagReg, resultPayloadReg), baseReg, propertyReg));
jsValueResult(resultTagReg, resultPayloadReg, node);
break;
}
case Array::Double: {
if (node->arrayMode().isInBounds()) {
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
speculationCheck(OutOfBounds, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
FPRTemporary result(this);
m_jit.loadDouble(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight), result.fpr());
if (!node->arrayMode().isSaneChain())
speculationCheck(LoadFromHole, JSValueRegs(), 0, m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, result.fpr(), result.fpr()));
doubleResult(result.fpr(), node);
break;
}
SpeculateCellOperand base(this, node->child1());
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg baseReg = base.gpr();
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
FPRTemporary temp(this);
GPRReg resultTagReg = resultTag.gpr();
GPRReg resultPayloadReg = resultPayload.gpr();
FPRReg tempReg = temp.fpr();
MacroAssembler::JumpList slowCases;
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, Butterfly::offsetOfPublicLength())));
m_jit.loadDouble(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight), tempReg);
slowCases.append(m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, tempReg, tempReg));
boxDouble(tempReg, resultTagReg, resultPayloadReg);
addSlowPathGenerator(
slowPathCall(
slowCases, this, operationGetByValObjectInt,
JSValueRegs(resultTagReg, resultPayloadReg), baseReg, propertyReg));
jsValueResult(resultTagReg, resultPayloadReg, node);
break;
}
case Array::ArrayStorage:
case Array::SlowPutArrayStorage: {
if (node->arrayMode().isInBounds()) {
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
speculationCheck(OutOfBounds, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, ArrayStorage::vectorLengthOffset())));
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTag.gpr());
speculationCheck(LoadFromHole, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::Equal, resultTag.gpr(), TrustedImm32(JSValue::EmptyValueTag)));
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayload.gpr());
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
SpeculateCellOperand base(this, node->child1());
SpeculateStrictInt32Operand property(this, node->child2());
StorageOperand storage(this, node->child3());
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
GPRReg baseReg = base.gpr();
if (!m_compileOkay)
return;
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg resultTagReg = resultTag.gpr();
GPRReg resultPayloadReg = resultPayload.gpr();
JITCompiler::Jump outOfBounds = m_jit.branch32(
MacroAssembler::AboveOrEqual, propertyReg,
MacroAssembler::Address(storageReg, ArrayStorage::vectorLengthOffset()));
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTagReg);
JITCompiler::Jump hole = m_jit.branch32(
MacroAssembler::Equal, resultTag.gpr(), TrustedImm32(JSValue::EmptyValueTag));
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayloadReg);
JITCompiler::JumpList slowCases;
slowCases.append(outOfBounds);
slowCases.append(hole);
addSlowPathGenerator(
slowPathCall(
slowCases, this, operationGetByValObjectInt,
JSValueRegs(resultTagReg, resultPayloadReg),
baseReg, propertyReg));
jsValueResult(resultTagReg, resultPayloadReg, node);
break;
}
case Array::String:
compileGetByValOnString(node);
break;
case Array::DirectArguments:
compileGetByValOnDirectArguments(node);
break;
case Array::ScopedArguments:
compileGetByValOnScopedArguments(node);
break;
default: {
TypedArrayType type = node->arrayMode().typedArrayType();
if (isInt(type))
compileGetByValOnIntTypedArray(node, type);
else
compileGetByValOnFloatTypedArray(node, type);
} }
break;
}
case ToLowerCase: {
compileToLowerCase(node);
break;
}
case NumberToStringWithRadix: {
compileNumberToStringWithRadix(node);
break;
}
case GetByValWithThis: {
JSValueOperand base(this, node->child1());
JSValueRegs baseRegs = base.jsValueRegs();
JSValueOperand thisValue(this, node->child2());
JSValueRegs thisValueRegs = thisValue.jsValueRegs();
JSValueOperand subscript(this, node->child3());
JSValueRegs subscriptRegs = subscript.jsValueRegs();
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
flushRegisters();
callOperation(operationGetByValWithThis, JSValueRegs(resultTagGPR, resultPayloadGPR), baseRegs, thisValueRegs, subscriptRegs);
m_jit.exceptionCheck();
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case PutByValDirect:
case PutByVal:
case PutByValAlias: {
Edge child1 = m_jit.graph().varArgChild(node, 0);
Edge child2 = m_jit.graph().varArgChild(node, 1);
Edge child3 = m_jit.graph().varArgChild(node, 2);
Edge child4 = m_jit.graph().varArgChild(node, 3);
ArrayMode arrayMode = node->arrayMode().modeForPut();
bool alreadyHandled = false;
switch (arrayMode.type()) {
case Array::SelectUsingPredictions:
case Array::ForceExit:
RELEASE_ASSERT_NOT_REACHED();
#if COMPILER_QUIRK(CONSIDERS_UNREACHABLE_CODE)
terminateSpeculativeExecution(InadequateCoverage, JSValueRegs(), 0);
alreadyHandled = true;
#endif
break;
case Array::Generic: {
ASSERT(node->op() == PutByVal || node->op() == PutByValDirect);
SpeculateCellOperand base(this, child1); JSValueOperand property(this, child2);
JSValueOperand value(this, child3);
GPRReg baseGPR = base.gpr();
JSValueRegs propertyRegs = property.jsValueRegs();
JSValueRegs valueRegs = value.jsValueRegs();
flushRegisters();
if (node->op() == PutByValDirect)
callOperation(m_jit.codeBlock()->isStrictMode() ? operationPutByValDirectCellStrict : operationPutByValDirectCellNonStrict, baseGPR, propertyRegs, valueRegs);
else
callOperation(m_jit.codeBlock()->isStrictMode() ? operationPutByValCellStrict : operationPutByValCellNonStrict, baseGPR, propertyRegs, valueRegs);
m_jit.exceptionCheck();
noResult(node);
alreadyHandled = true;
break;
}
default:
break;
}
if (alreadyHandled)
break;
SpeculateCellOperand base(this, child1);
SpeculateStrictInt32Operand property(this, child2);
GPRReg baseReg = base.gpr();
GPRReg propertyReg = property.gpr();
switch (arrayMode.type()) {
case Array::Int32: {
SpeculateInt32Operand value(this, child3);
GPRReg valuePayloadReg = value.gpr();
if (!m_compileOkay)
return;
compileContiguousPutByVal(node, base, property, value, valuePayloadReg, TrustedImm32(JSValue::Int32Tag));
break;
}
case Array::Contiguous: {
JSValueOperand value(this, child3);
GPRReg valueTagReg = value.tagGPR();
GPRReg valuePayloadReg = value.payloadGPR();
if (!m_compileOkay)
return;
compileContiguousPutByVal(node, base, property, value, valuePayloadReg, valueTagReg);
break;
}
case Array::Double: {
compileDoublePutByVal(node, base, property);
break;
}
case Array::ArrayStorage:
case Array::SlowPutArrayStorage: {
JSValueOperand value(this, child3);
GPRReg valueTagReg = value.tagGPR();
GPRReg valuePayloadReg = value.payloadGPR();
if (!m_compileOkay)
return;
StorageOperand storage(this, child4);
GPRReg storageReg = storage.gpr();
if (node->op() == PutByValAlias) {
GPRReg propertyReg = property.gpr();
m_jit.store32(value.tagGPR(), MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(value.payloadGPR(), MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
noResult(node);
break;
}
MacroAssembler::JumpList slowCases;
MacroAssembler::Jump beyondArrayBounds = m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(storageReg, ArrayStorage::vectorLengthOffset()));
if (!arrayMode.isOutOfBounds())
speculationCheck(OutOfBounds, JSValueRegs(), 0, beyondArrayBounds);
else
slowCases.append(beyondArrayBounds);
if (arrayMode.isInBounds()) {
speculationCheck(
StoreToHole, JSValueRegs(), 0,
m_jit.branch32(MacroAssembler::Equal, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), TrustedImm32(JSValue::EmptyValueTag)));
} else {
MacroAssembler::Jump notHoleValue = m_jit.branch32(MacroAssembler::NotEqual, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), TrustedImm32(JSValue::EmptyValueTag));
if (arrayMode.isSlowPut()) {
slowCases.append(m_jit.jump());
} else {
m_jit.add32(TrustedImm32(1), MacroAssembler::Address(storageReg, ArrayStorage::numValuesInVectorOffset()));
MacroAssembler::Jump lengthDoesNotNeedUpdate = m_jit.branch32(MacroAssembler::Below, propertyReg, MacroAssembler::Address(storageReg, ArrayStorage::lengthOffset()));
m_jit.add32(TrustedImm32(1), propertyReg);
m_jit.store32(propertyReg, MacroAssembler::Address(storageReg, ArrayStorage::lengthOffset()));
m_jit.sub32(TrustedImm32(1), propertyReg);
lengthDoesNotNeedUpdate.link(&m_jit);
}
notHoleValue.link(&m_jit);
}
m_jit.store32(valueTagReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
base.use();
property.use();
value.use();
storage.use();
if (!slowCases.empty()) {
if (node->op() == PutByValDirect) {
addSlowPathGenerator(slowPathCall(
slowCases, this,
m_jit.codeBlock()->isStrictMode() ? operationPutByValDirectBeyondArrayBoundsStrict : operationPutByValDirectBeyondArrayBoundsNonStrict,
NoResult, baseReg, propertyReg, JSValueRegs(valueTagReg, valuePayloadReg)));
} else {
addSlowPathGenerator(slowPathCall(
slowCases, this,
m_jit.codeBlock()->isStrictMode() ? operationPutByValBeyondArrayBoundsStrict : operationPutByValBeyondArrayBoundsNonStrict,
NoResult, baseReg, propertyReg, JSValueRegs(valueTagReg, valuePayloadReg)));
}
}
noResult(node, UseChildrenCalledExplicitly);
break;
}
default: {
TypedArrayType type = arrayMode.typedArrayType();
if (isInt(type))
compilePutByValForIntTypedArray(base.gpr(), property.gpr(), node, type);
else
compilePutByValForFloatTypedArray(base.gpr(), property.gpr(), node, type);
} }
break;
}
case PutByValWithThis: {
#if CPU(X86)
unsigned index = 0;
m_jit.poke(GPRInfo::callFrameRegister, index++);
{
JSValueOperand base(this, m_jit.graph().varArgChild(node, 0));
GPRReg baseTag = base.tagGPR();
GPRReg basePayload = base.payloadGPR();
JSValueOperand thisValue(this, m_jit.graph().varArgChild(node, 1));
GPRReg thisValueTag = thisValue.tagGPR();
GPRReg thisValuePayload = thisValue.payloadGPR();
JSValueOperand property(this, m_jit.graph().varArgChild(node, 2));
GPRReg propertyTag = property.tagGPR();
GPRReg propertyPayload = property.payloadGPR();
m_jit.poke(basePayload, index++);
m_jit.poke(baseTag, index++);
m_jit.poke(thisValuePayload, index++);
m_jit.poke(thisValueTag, index++);
m_jit.poke(propertyPayload, index++);
m_jit.poke(propertyTag, index++);
flushRegisters();
}
JSValueOperand value(this, m_jit.graph().varArgChild(node, 3));
GPRReg valueTag = value.tagGPR();
GPRReg valuePayload = value.payloadGPR();
m_jit.poke(valuePayload, index++);
m_jit.poke(valueTag, index++);
flushRegisters();
appendCall(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValWithThisStrict : operationPutByValWithThis);
m_jit.exceptionCheck();
#elif CPU(MIPS)
unsigned index = 4;
m_jit.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR0);
{
JSValueOperand base(this, m_jit.graph().varArgChild(node, 0));
GPRReg baseTag = base.tagGPR();
GPRReg basePayload = base.payloadGPR();
JSValueOperand thisValue(this, m_jit.graph().varArgChild(node, 1));
GPRReg thisValueTag = thisValue.tagGPR();
GPRReg thisValuePayload = thisValue.payloadGPR();
JSValueOperand property(this, m_jit.graph().varArgChild(node, 2));
GPRReg propertyTag = property.tagGPR();
GPRReg propertyPayload = property.payloadGPR();
m_jit.move(basePayload, GPRInfo::argumentGPR2);
m_jit.move(baseTag, GPRInfo::argumentGPR3);
m_jit.poke(thisValuePayload, index++);
m_jit.poke(thisValueTag, index++);
m_jit.poke(propertyPayload, index++);
m_jit.poke(propertyTag, index++);
flushRegisters();
}
JSValueOperand value(this, m_jit.graph().varArgChild(node, 3));
GPRReg valueTag = value.tagGPR();
GPRReg valuePayload = value.payloadGPR();
m_jit.poke(valuePayload, index++);
m_jit.poke(valueTag, index++);
flushRegisters();
appendCall(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValWithThisStrict : operationPutByValWithThis);
m_jit.exceptionCheck();
#else
static_assert(GPRInfo::numberOfRegisters >= 8, "We are assuming we have enough registers to make this call without incrementally setting up the arguments.");
JSValueOperand base(this, m_jit.graph().varArgChild(node, 0));
JSValueRegs baseRegs = base.jsValueRegs();
JSValueOperand thisValue(this, m_jit.graph().varArgChild(node, 1));
JSValueRegs thisRegs = thisValue.jsValueRegs();
JSValueOperand property(this, m_jit.graph().varArgChild(node, 2));
JSValueRegs propertyRegs = property.jsValueRegs();
JSValueOperand value(this, m_jit.graph().varArgChild(node, 3));
JSValueRegs valueRegs = value.jsValueRegs();
flushRegisters();
callOperation(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByValWithThisStrict : operationPutByValWithThis,
NoResult, baseRegs, thisRegs, propertyRegs, valueRegs);
m_jit.exceptionCheck();
#endif // CPU(X86)
noResult(node);
break;
}
case RegExpExec: {
SpeculateCellOperand globalObject(this, node->child1());
GPRReg globalObjectGPR = globalObject.gpr();
if (node->child2().useKind() == RegExpObjectUse) {
if (node->child3().useKind() == StringUse) {
SpeculateCellOperand base(this, node->child2());
SpeculateCellOperand argument(this, node->child3());
GPRReg baseGPR = base.gpr();
GPRReg argumentGPR = argument.gpr();
speculateRegExpObject(node->child2(), baseGPR);
speculateString(node->child3(), argumentGPR);
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationRegExpExecString, JSValueRegs(resultTag.gpr(), resultPayload.gpr()),
globalObjectGPR, baseGPR, argumentGPR);
m_jit.exceptionCheck();
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
SpeculateCellOperand base(this, node->child2());
JSValueOperand argument(this, node->child3());
GPRReg baseGPR = base.gpr();
JSValueRegs argumentRegs = argument.jsValueRegs();
speculateRegExpObject(node->child2(), baseGPR);
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationRegExpExec, JSValueRegs(resultTag.gpr(), resultPayload.gpr()), globalObjectGPR, baseGPR, argumentRegs);
m_jit.exceptionCheck();
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
JSValueOperand base(this, node->child2());
JSValueOperand argument(this, node->child3());
JSValueRegs baseRegs = base.jsValueRegs();
JSValueRegs argumentRegs = argument.jsValueRegs();
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationRegExpExecGeneric, JSValueRegs(resultTag.gpr(), resultPayload.gpr()), globalObjectGPR, baseRegs, argumentRegs);
m_jit.exceptionCheck();
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
case RegExpTest: {
SpeculateCellOperand globalObject(this, node->child1());
GPRReg globalObjectGPR = globalObject.gpr();
if (node->child2().useKind() == RegExpObjectUse) {
if (node->child3().useKind() == StringUse) {
SpeculateCellOperand base(this, node->child2());
SpeculateCellOperand argument(this, node->child3());
GPRReg baseGPR = base.gpr();
GPRReg argumentGPR = argument.gpr();
speculateRegExpObject(node->child2(), baseGPR);
speculateString(node->child3(), argumentGPR);
flushRegisters();
GPRFlushedCallResult result(this);
callOperation(
operationRegExpTestString, result.gpr(), globalObjectGPR, baseGPR, argumentGPR);
m_jit.exceptionCheck();
booleanResult(result.gpr(), node);
break;
}
SpeculateCellOperand base(this, node->child2());
JSValueOperand argument(this, node->child3());
GPRReg baseGPR = base.gpr();
JSValueRegs argumentRegs = argument.jsValueRegs();
speculateRegExpObject(node->child2(), baseGPR);
flushRegisters();
GPRFlushedCallResult result(this);
callOperation(
operationRegExpTest, result.gpr(), globalObjectGPR, baseGPR, argumentRegs);
m_jit.exceptionCheck();
booleanResult(result.gpr(), node);
break;
}
JSValueOperand base(this, node->child2());
JSValueOperand argument(this, node->child3());
JSValueRegs baseRegs = base.jsValueRegs();
JSValueRegs argumentRegs = argument.jsValueRegs();
flushRegisters();
GPRFlushedCallResult result(this);
callOperation(
operationRegExpTestGeneric, result.gpr(), globalObjectGPR, baseRegs, argumentRegs);
m_jit.exceptionCheck();
booleanResult(result.gpr(), node);
break;
}
case StringReplace:
case StringReplaceRegExp: {
if (node->child1().useKind() == StringUse
&& node->child2().useKind() == RegExpObjectUse
&& node->child3().useKind() == StringUse) {
if (JSString* replace = node->child3()->dynamicCastConstant<JSString*>(*m_jit.vm())) {
if (!replace->length()) {
SpeculateCellOperand string(this, node->child1());
SpeculateCellOperand regExp(this, node->child2());
GPRReg stringGPR = string.gpr();
GPRReg regExpGPR = regExp.gpr();
speculateString(node->child1(), stringGPR);
speculateRegExpObject(node->child2(), regExpGPR);
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationStringProtoFuncReplaceRegExpEmptyStr, JSValueRegs(resultTag.gpr(), resultPayload.gpr()), stringGPR, regExpGPR);
m_jit.exceptionCheck();
cellResult(resultPayload.gpr(), node);
break;
}
}
SpeculateCellOperand string(this, node->child1());
SpeculateCellOperand regExp(this, node->child2());
SpeculateCellOperand replace(this, node->child3());
GPRReg stringGPR = string.gpr();
GPRReg regExpGPR = regExp.gpr();
GPRReg replaceGPR = replace.gpr();
speculateString(node->child1(), stringGPR);
speculateRegExpObject(node->child2(), regExpGPR);
speculateString(node->child3(), replaceGPR);
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationStringProtoFuncReplaceRegExpString, JSValueRegs(resultTag.gpr(), resultPayload.gpr()),
stringGPR, regExpGPR, replaceGPR);
m_jit.exceptionCheck();
cellResult(resultPayload.gpr(), node);
break;
}
OperandSpeculationMode child2SpeculationMode = AutomaticOperandSpeculation;
if (node->child2().useKind() == StringUse)
child2SpeculationMode = ManualOperandSpeculation;
JSValueOperand string(this, node->child1());
JSValueOperand search(this, node->child2(), child2SpeculationMode);
JSValueOperand replace(this, node->child3());
JSValueRegs stringRegs = string.jsValueRegs();
JSValueRegs searchRegs = search.jsValueRegs();
JSValueRegs replaceRegs = replace.jsValueRegs();
flushRegisters();
GPRFlushedCallResult2 resultTag(this);
GPRFlushedCallResult resultPayload(this);
callOperation(
operationStringProtoFuncReplaceGeneric, JSValueRegs(resultTag.gpr(), resultPayload.gpr()),
stringRegs, searchRegs, replaceRegs);
m_jit.exceptionCheck();
cellResult(resultPayload.gpr(), node);
break;
}
case GetRegExpObjectLastIndex: {
compileGetRegExpObjectLastIndex(node);
break;
}
case SetRegExpObjectLastIndex: {
compileSetRegExpObjectLastIndex(node);
break;
}
case RecordRegExpCachedResult: {
compileRecordRegExpCachedResult(node);
break;
}
case ArrayPush: {
ASSERT(node->arrayMode().isJSArray());
SpeculateCellOperand base(this, node->child1());
GPRTemporary storageLength(this);
GPRReg baseGPR = base.gpr();
GPRReg storageLengthGPR = storageLength.gpr();
StorageOperand storage(this, node->child3());
GPRReg storageGPR = storage.gpr();
switch (node->arrayMode().type()) {
case Array::Int32: {
SpeculateInt32Operand value(this, node->child2());
GPRReg valuePayloadGPR = value.gpr();
m_jit.load32(MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()), storageLengthGPR);
MacroAssembler::Jump slowPath = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfVectorLength()));
m_jit.store32(TrustedImm32(JSValue::Int32Tag), MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
m_jit.add32(TrustedImm32(1), storageLengthGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
m_jit.move(TrustedImm32(JSValue::Int32Tag), storageGPR);
addSlowPathGenerator(
slowPathCall(
slowPath, this, operationArrayPush,
JSValueRegs(storageGPR, storageLengthGPR),
TrustedImm32(JSValue::Int32Tag), valuePayloadGPR, baseGPR));
jsValueResult(storageGPR, storageLengthGPR, node);
break;
}
case Array::Contiguous: {
JSValueOperand value(this, node->child2());
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
m_jit.load32(MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()), storageLengthGPR);
MacroAssembler::Jump slowPath = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfVectorLength()));
m_jit.store32(valueTagGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
m_jit.add32(TrustedImm32(1), storageLengthGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
m_jit.move(TrustedImm32(JSValue::Int32Tag), storageGPR);
addSlowPathGenerator(
slowPathCall(
slowPath, this, operationArrayPush,
JSValueRegs(storageGPR, storageLengthGPR),
JSValueRegs(valueTagGPR, valuePayloadGPR), baseGPR));
jsValueResult(storageGPR, storageLengthGPR, node);
break;
}
case Array::Double: {
SpeculateDoubleOperand value(this, node->child2());
FPRReg valueFPR = value.fpr();
DFG_TYPE_CHECK(
JSValueRegs(), node->child2(), SpecDoubleReal,
m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, valueFPR, valueFPR));
m_jit.load32(MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()), storageLengthGPR);
MacroAssembler::Jump slowPath = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfVectorLength()));
m_jit.storeDouble(valueFPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight));
m_jit.add32(TrustedImm32(1), storageLengthGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
m_jit.move(TrustedImm32(JSValue::Int32Tag), storageGPR);
addSlowPathGenerator(
slowPathCall(
slowPath, this, operationArrayPushDouble,
JSValueRegs(storageGPR, storageLengthGPR),
valueFPR, baseGPR));
jsValueResult(storageGPR, storageLengthGPR, node);
break;
}
case Array::ArrayStorage: {
JSValueOperand value(this, node->child2());
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
m_jit.load32(MacroAssembler::Address(storageGPR, ArrayStorage::lengthOffset()), storageLengthGPR);
speculationCheck(Uncountable, JSValueRegs(), 0, m_jit.branch32(MacroAssembler::Above, storageLengthGPR, TrustedImm32(0x7ffffffe)));
MacroAssembler::Jump slowPath = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(storageGPR, ArrayStorage::vectorLengthOffset()));
m_jit.store32(valueTagGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
m_jit.add32(TrustedImm32(1), storageLengthGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, ArrayStorage::lengthOffset()));
m_jit.add32(TrustedImm32(1), MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_numValuesInVector)));
m_jit.move(TrustedImm32(JSValue::Int32Tag), storageGPR);
addSlowPathGenerator(slowPathCall(slowPath, this, operationArrayPush, JSValueRegs(storageGPR, storageLengthGPR),
JSValueRegs(valueTagGPR, valuePayloadGPR), baseGPR));
jsValueResult(storageGPR, storageLengthGPR, node);
break;
}
default:
CRASH();
break;
}
break;
}
case ArrayPop: {
ASSERT(node->arrayMode().isJSArray());
SpeculateCellOperand base(this, node->child1());
StorageOperand storage(this, node->child2());
GPRTemporary valueTag(this);
GPRTemporary valuePayload(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = valueTag.gpr();
GPRReg valuePayloadGPR = valuePayload.gpr();
GPRReg storageGPR = storage.gpr();
switch (node->arrayMode().type()) {
case Array::Int32:
case Array::Contiguous: {
m_jit.load32(
MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()), valuePayloadGPR);
MacroAssembler::Jump undefinedCase =
m_jit.branchTest32(MacroAssembler::Zero, valuePayloadGPR);
m_jit.sub32(TrustedImm32(1), valuePayloadGPR);
m_jit.store32(
valuePayloadGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
m_jit.load32(
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)),
valueTagGPR);
MacroAssembler::Jump slowCase = m_jit.branch32(MacroAssembler::Equal, valueTagGPR, TrustedImm32(JSValue::EmptyValueTag));
m_jit.store32(
MacroAssembler::TrustedImm32(JSValue::EmptyValueTag),
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.load32(
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)),
valuePayloadGPR);
addSlowPathGenerator(
slowPathMove(
undefinedCase, this,
MacroAssembler::TrustedImm32(jsUndefined().tag()), valueTagGPR,
MacroAssembler::TrustedImm32(jsUndefined().payload()), valuePayloadGPR));
addSlowPathGenerator(
slowPathCall(
slowCase, this, operationArrayPopAndRecoverLength,
JSValueRegs(valueTagGPR, valuePayloadGPR), baseGPR));
jsValueResult(valueTagGPR, valuePayloadGPR, node);
break;
}
case Array::Double: {
FPRTemporary temp(this);
FPRReg tempFPR = temp.fpr();
m_jit.load32(
MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()), valuePayloadGPR);
MacroAssembler::Jump undefinedCase =
m_jit.branchTest32(MacroAssembler::Zero, valuePayloadGPR);
m_jit.sub32(TrustedImm32(1), valuePayloadGPR);
m_jit.store32(
valuePayloadGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength()));
m_jit.loadDouble(
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight),
tempFPR);
MacroAssembler::Jump slowCase = m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, tempFPR, tempFPR);
JSValue nan = JSValue(JSValue::EncodeAsDouble, PNaN);
m_jit.store32(
MacroAssembler::TrustedImm32(nan.u.asBits.tag),
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(
MacroAssembler::TrustedImm32(nan.u.asBits.payload),
MacroAssembler::BaseIndex(storageGPR, valuePayloadGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
boxDouble(tempFPR, valueTagGPR, valuePayloadGPR);
addSlowPathGenerator(
slowPathMove(
undefinedCase, this,
MacroAssembler::TrustedImm32(jsUndefined().tag()), valueTagGPR,
MacroAssembler::TrustedImm32(jsUndefined().payload()), valuePayloadGPR));
addSlowPathGenerator(
slowPathCall(
slowCase, this, operationArrayPopAndRecoverLength,
JSValueRegs(valueTagGPR, valuePayloadGPR), baseGPR));
jsValueResult(valueTagGPR, valuePayloadGPR, node);
break;
}
case Array::ArrayStorage: {
GPRTemporary storageLength(this);
GPRReg storageLengthGPR = storageLength.gpr();
m_jit.load32(MacroAssembler::Address(storageGPR, ArrayStorage::lengthOffset()), storageLengthGPR);
JITCompiler::JumpList setUndefinedCases;
setUndefinedCases.append(m_jit.branchTest32(MacroAssembler::Zero, storageLengthGPR));
m_jit.sub32(TrustedImm32(1), storageLengthGPR);
MacroAssembler::Jump slowCase = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(storageGPR, ArrayStorage::vectorLengthOffset()));
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), valueTagGPR);
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), valuePayloadGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, ArrayStorage::lengthOffset()));
setUndefinedCases.append(m_jit.branch32(MacroAssembler::Equal, TrustedImm32(JSValue::EmptyValueTag), valueTagGPR));
m_jit.store32(TrustedImm32(JSValue::EmptyValueTag), MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.sub32(TrustedImm32(1), MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_numValuesInVector)));
addSlowPathGenerator(
slowPathMove(
setUndefinedCases, this,
MacroAssembler::TrustedImm32(jsUndefined().tag()), valueTagGPR,
MacroAssembler::TrustedImm32(jsUndefined().payload()), valuePayloadGPR));
addSlowPathGenerator(
slowPathCall(
slowCase, this, operationArrayPop,
JSValueRegs(valueTagGPR, valuePayloadGPR), baseGPR));
jsValueResult(valueTagGPR, valuePayloadGPR, node);
break;
}
default:
CRASH();
break;
}
break;
}
case ArraySlice: {
compileArraySlice(node);
break;
}
case ArrayIndexOf: {
compileArrayIndexOf(node);
break;
}
case DFG::Jump: {
jump(node->targetBlock());
noResult(node);
break;
}
case Branch:
emitBranch(node);
break;
case Switch:
emitSwitch(node);
break;
case Return: {
ASSERT(GPRInfo::callFrameRegister != GPRInfo::regT2);
ASSERT(GPRInfo::regT1 != GPRInfo::returnValueGPR);
ASSERT(GPRInfo::returnValueGPR != GPRInfo::callFrameRegister);
JSValueOperand op1(this, node->child1());
op1.fill();
if (op1.isDouble())
boxDouble(op1.fpr(), GPRInfo::returnValueGPR2, GPRInfo::returnValueGPR);
else {
if (op1.payloadGPR() == GPRInfo::returnValueGPR2 && op1.tagGPR() == GPRInfo::returnValueGPR)
m_jit.swap(GPRInfo::returnValueGPR, GPRInfo::returnValueGPR2);
else if (op1.payloadGPR() == GPRInfo::returnValueGPR2) {
m_jit.move(op1.payloadGPR(), GPRInfo::returnValueGPR);
m_jit.move(op1.tagGPR(), GPRInfo::returnValueGPR2);
} else {
m_jit.move(op1.tagGPR(), GPRInfo::returnValueGPR2);
m_jit.move(op1.payloadGPR(), GPRInfo::returnValueGPR);
}
}
m_jit.emitRestoreCalleeSaves();
m_jit.emitFunctionEpilogue();
m_jit.ret();
noResult(node);
break;
}
case Throw:
case ThrowStaticError: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), 0);
break;
}
case BooleanToNumber: {
switch (node->child1().useKind()) {
case BooleanUse: {
SpeculateBooleanOperand value(this, node->child1());
GPRTemporary result(this);
m_jit.move(value.gpr(), result.gpr());
int32Result(result.gpr(), node);
break;
}
case UntypedUse: {
JSValueOperand value(this, node->child1());
if (!m_interpreter.needsTypeCheck(node->child1(), SpecBoolInt32 | SpecBoolean)) {
GPRTemporary result(this);
GPRReg valueGPR = value.payloadGPR();
GPRReg resultGPR = result.gpr();
m_jit.move(valueGPR, resultGPR);
int32Result(result.gpr(), node);
break;
}
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
m_jit.move(valuePayloadGPR, resultPayloadGPR);
JITCompiler::Jump isBoolean = m_jit.branch32(
JITCompiler::Equal, valueTagGPR, TrustedImm32(JSValue::BooleanTag));
m_jit.move(valueTagGPR, resultTagGPR);
JITCompiler::Jump done = m_jit.jump();
isBoolean.link(&m_jit);
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTagGPR);
done.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case ToPrimitive: {
RELEASE_ASSERT(node->child1().useKind() == UntypedUse);
JSValueOperand argument(this, node->child1());
GPRTemporary resultTag(this, Reuse, argument, TagWord);
GPRTemporary resultPayload(this, Reuse, argument, PayloadWord);
GPRReg argumentTagGPR = argument.tagGPR();
GPRReg argumentPayloadGPR = argument.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
argument.use();
MacroAssembler::Jump alreadyPrimitive = m_jit.branchIfNotCell(argument.jsValueRegs());
MacroAssembler::Jump notPrimitive = m_jit.branchIfObject(argumentPayloadGPR);
alreadyPrimitive.link(&m_jit);
m_jit.move(argumentTagGPR, resultTagGPR);
m_jit.move(argumentPayloadGPR, resultPayloadGPR);
addSlowPathGenerator(
slowPathCall(
notPrimitive, this, operationToPrimitive,
JSValueRegs(resultTagGPR, resultPayloadGPR), JSValueRegs(argumentTagGPR, argumentPayloadGPR)));
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
case ToNumber: {
JSValueOperand argument(this, node->child1());
GPRTemporary resultTag(this, Reuse, argument, TagWord);
GPRTemporary resultPayload(this, Reuse, argument, PayloadWord);
GPRReg argumentPayloadGPR = argument.payloadGPR();
GPRReg argumentTagGPR = argument.tagGPR();
JSValueRegs argumentRegs = argument.jsValueRegs();
JSValueRegs resultRegs(resultTag.gpr(), resultPayload.gpr());
argument.use();
if (!(m_state.forNode(node->child1()).m_type & SpecBytecodeNumber)) {
flushRegisters();
callOperation(operationToNumber, resultRegs, argumentRegs);
m_jit.exceptionCheck();
} else {
MacroAssembler::Jump notNumber;
{
GPRTemporary scratch(this);
notNumber = m_jit.branchIfNotNumber(argument.jsValueRegs(), scratch.gpr());
}
m_jit.move(argumentTagGPR, resultRegs.tagGPR());
m_jit.move(argumentPayloadGPR, resultRegs.payloadGPR());
MacroAssembler::Jump done = m_jit.jump();
notNumber.link(&m_jit);
silentSpillAllRegisters(resultRegs);
callOperation(operationToNumber, resultRegs, argumentRegs);
silentFillAllRegisters();
m_jit.exceptionCheck();
done.link(&m_jit);
}
jsValueResult(resultRegs.tagGPR(), resultRegs.payloadGPR(), node, UseChildrenCalledExplicitly);
break;
}
case ToString:
case CallStringConstructor: {
compileToStringOrCallStringConstructor(node);
break;
}
case NewStringObject: {
compileNewStringObject(node);
break;
}
case NewArray: {
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
if (!globalObject->isHavingABadTime() && !hasAnyArrayStorage(node->indexingType())) {
RegisteredStructure structure = m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(node->indexingType()));
ASSERT(structure->indexingType() == node->indexingType());
ASSERT(
hasUndecided(structure->indexingType())
|| hasInt32(structure->indexingType())
|| hasDouble(structure->indexingType())
|| hasContiguous(structure->indexingType()));
unsigned numElements = node->numChildren();
GPRTemporary result(this);
GPRTemporary storage(this);
GPRReg resultGPR = result.gpr();
GPRReg storageGPR = storage.gpr();
emitAllocateRawObject(resultGPR, structure, storageGPR, numElements, numElements);
ASSERT(!hasUndecided(structure->indexingType()) || !node->numChildren());
for (unsigned operandIdx = 0; operandIdx < node->numChildren(); ++operandIdx) {
Edge use = m_jit.graph().m_varArgChildren[node->firstChild() + operandIdx];
switch (node->indexingType()) {
case ALL_BLANK_INDEXING_TYPES:
case ALL_UNDECIDED_INDEXING_TYPES:
CRASH();
break;
case ALL_DOUBLE_INDEXING_TYPES: {
SpeculateDoubleOperand operand(this, use);
FPRReg opFPR = operand.fpr();
DFG_TYPE_CHECK(
JSValueRegs(), use, SpecDoubleReal,
m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, opFPR, opFPR));
m_jit.storeDouble(opFPR, MacroAssembler::Address(storageGPR, sizeof(double) * operandIdx));
break;
}
case ALL_INT32_INDEXING_TYPES: {
SpeculateInt32Operand operand(this, use);
m_jit.store32(TrustedImm32(JSValue::Int32Tag), MacroAssembler::Address(storageGPR, sizeof(JSValue) * operandIdx + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(operand.gpr(), MacroAssembler::Address(storageGPR, sizeof(JSValue) * operandIdx + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
break;
}
case ALL_CONTIGUOUS_INDEXING_TYPES: {
JSValueOperand operand(this, m_jit.graph().m_varArgChildren[node->firstChild() + operandIdx]);
GPRReg opTagGPR = operand.tagGPR();
GPRReg opPayloadGPR = operand.payloadGPR();
m_jit.store32(opTagGPR, MacroAssembler::Address(storageGPR, sizeof(JSValue) * operandIdx + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(opPayloadGPR, MacroAssembler::Address(storageGPR, sizeof(JSValue) * operandIdx + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
break;
}
default:
CRASH();
break;
}
}
cellResult(resultGPR, node);
break;
}
if (!node->numChildren()) {
flushRegisters();
GPRFlushedCallResult result(this);
callOperation(
operationNewEmptyArray, result.gpr(), m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(node->indexingType())));
m_jit.exceptionCheck();
cellResult(result.gpr(), node);
break;
}
size_t scratchSize = sizeof(EncodedJSValue) * node->numChildren();
ScratchBuffer* scratchBuffer = m_jit.vm()->scratchBufferForSize(scratchSize);
EncodedJSValue* buffer = scratchBuffer ? static_cast<EncodedJSValue*>(scratchBuffer->dataBuffer()) : 0;
for (unsigned operandIdx = 0; operandIdx < node->numChildren(); ++operandIdx) {
Edge use = m_jit.graph().m_varArgChildren[node->firstChild() + operandIdx];
switch (node->indexingType()) {
case ALL_BLANK_INDEXING_TYPES:
case ALL_UNDECIDED_INDEXING_TYPES:
CRASH();
break;
case ALL_DOUBLE_INDEXING_TYPES: {
SpeculateDoubleOperand operand(this, use);
FPRReg opFPR = operand.fpr();
DFG_TYPE_CHECK(
JSValueRegs(), use, SpecFullRealNumber,
m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, opFPR, opFPR));
m_jit.storeDouble(opFPR, TrustedImmPtr(reinterpret_cast<char*>(buffer + operandIdx)));
break;
}
case ALL_INT32_INDEXING_TYPES: {
SpeculateInt32Operand operand(this, use);
GPRReg opGPR = operand.gpr();
m_jit.store32(TrustedImm32(JSValue::Int32Tag), reinterpret_cast<char*>(buffer + operandIdx) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag));
m_jit.store32(opGPR, reinterpret_cast<char*>(buffer + operandIdx) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload));
break;
}
case ALL_CONTIGUOUS_INDEXING_TYPES:
case ALL_ARRAY_STORAGE_INDEXING_TYPES: {
JSValueOperand operand(this, m_jit.graph().m_varArgChildren[node->firstChild() + operandIdx]);
GPRReg opTagGPR = operand.tagGPR();
GPRReg opPayloadGPR = operand.payloadGPR();
m_jit.store32(opTagGPR, reinterpret_cast<char*>(buffer + operandIdx) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag));
m_jit.store32(opPayloadGPR, reinterpret_cast<char*>(buffer + operandIdx) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload));
operand.use();
break;
}
default:
CRASH();
break;
}
}
switch (node->indexingType()) {
case ALL_DOUBLE_INDEXING_TYPES:
case ALL_INT32_INDEXING_TYPES:
useChildren(node);
break;
default:
break;
}
flushRegisters();
if (scratchSize) {
GPRTemporary scratch(this);
m_jit.move(TrustedImmPtr(scratchBuffer->activeLengthPtr()), scratch.gpr());
m_jit.storePtr(TrustedImmPtr(scratchSize), scratch.gpr());
}
GPRFlushedCallResult result(this);
callOperation(
operationNewArray, result.gpr(), m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(node->indexingType())),
static_cast<void*>(buffer), node->numChildren());
m_jit.exceptionCheck();
if (scratchSize) {
GPRTemporary scratch(this);
m_jit.move(TrustedImmPtr(scratchBuffer->activeLengthPtr()), scratch.gpr());
m_jit.storePtr(TrustedImmPtr(0), scratch.gpr());
}
cellResult(result.gpr(), node, UseChildrenCalledExplicitly);
break;
}
case NewArrayWithSpread: {
compileNewArrayWithSpread(node);
break;
}
case Spread: {
compileSpread(node);
break;
}
case NewArrayWithSize: {
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
if (!globalObject->isHavingABadTime() && !hasAnyArrayStorage(node->indexingType())) {
SpeculateStrictInt32Operand size(this, node->child1());
GPRTemporary result(this);
GPRReg sizeGPR = size.gpr();
GPRReg resultGPR = result.gpr();
compileAllocateNewArrayWithSize(globalObject, resultGPR, sizeGPR, node->indexingType());
cellResult(resultGPR, node);
break;
}
SpeculateStrictInt32Operand size(this, node->child1());
GPRReg sizeGPR = size.gpr();
flushRegisters();
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
GPRReg structureGPR = selectScratchGPR(sizeGPR);
MacroAssembler::Jump bigLength = m_jit.branch32(MacroAssembler::AboveOrEqual, sizeGPR, TrustedImm32(MIN_ARRAY_STORAGE_CONSTRUCTION_LENGTH));
m_jit.move(TrustedImmPtr(m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(node->indexingType()))), structureGPR);
MacroAssembler::Jump done = m_jit.jump();
bigLength.link(&m_jit);
m_jit.move(TrustedImmPtr(m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(ArrayWithArrayStorage))), structureGPR);
done.link(&m_jit);
callOperation(operationNewArrayWithSize, resultGPR, structureGPR, sizeGPR, nullptr);
m_jit.exceptionCheck();
cellResult(resultGPR, node);
break;
}
case NewArrayBuffer: {
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
IndexingType indexingType = node->indexingType();
if (!globalObject->isHavingABadTime() && !hasAnyArrayStorage(indexingType)) {
unsigned numElements = node->numConstants();
GPRTemporary result(this);
GPRTemporary storage(this);
GPRReg resultGPR = result.gpr();
GPRReg storageGPR = storage.gpr();
emitAllocateRawObject(resultGPR, m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(indexingType)), storageGPR, numElements, numElements);
if (node->indexingType() == ArrayWithDouble) {
JSValue* data = m_jit.codeBlock()->constantBuffer(node->startConstant());
for (unsigned index = 0; index < node->numConstants(); ++index) {
union {
int32_t halves[2];
double value;
} u;
u.value = data[index].asNumber();
m_jit.store32(Imm32(u.halves[0]), MacroAssembler::Address(storageGPR, sizeof(double) * index));
m_jit.store32(Imm32(u.halves[1]), MacroAssembler::Address(storageGPR, sizeof(double) * index + sizeof(int32_t)));
}
} else {
int32_t* data = bitwise_cast<int32_t*>(m_jit.codeBlock()->constantBuffer(node->startConstant()));
for (unsigned index = 0; index < node->numConstants() * 2; ++index) {
m_jit.store32(
Imm32(data[index]), MacroAssembler::Address(storageGPR, sizeof(int32_t) * index));
}
}
cellResult(resultGPR, node);
break;
}
flushRegisters();
GPRFlushedCallResult result(this);
callOperation(operationNewArrayBuffer, result.gpr(), m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(node->indexingType())), node->startConstant(), node->numConstants());
m_jit.exceptionCheck();
cellResult(result.gpr(), node);
break;
}
case NewTypedArray: {
switch (node->child1().useKind()) {
case Int32Use:
compileNewTypedArray(node);
break;
case UntypedUse: {
JSValueOperand argument(this, node->child1());
JSValueRegs argumentRegs = argument.jsValueRegs();
flushRegisters();
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
callOperation(
operationNewTypedArrayWithOneArgumentForType(node->typedArrayType()),
resultGPR, m_jit.graph().registerStructure(globalObject->typedArrayStructureConcurrently(node->typedArrayType())), argumentRegs);
m_jit.exceptionCheck();
cellResult(resultGPR, node);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case NewRegexp: {
flushRegisters();
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
RegExp* regexp = node->castOperand<RegExp*>();
callOperation(operationNewRegexp, JSValueRegs(resultTag.gpr(), resultPayload.gpr()), regexp);
m_jit.exceptionCheck();
cellResult(resultPayload.gpr(), node);
break;
}
case CallObjectConstructor: {
compileCallObjectConstructor(node);
break;
}
case ToThis: {
ASSERT(node->child1().useKind() == UntypedUse);
JSValueOperand thisValue(this, node->child1());
GPRTemporary temp(this);
GPRTemporary tempTag(this);
GPRReg thisValuePayloadGPR = thisValue.payloadGPR();
GPRReg thisValueTagGPR = thisValue.tagGPR();
GPRReg tempGPR = temp.gpr();
GPRReg tempTagGPR = tempTag.gpr();
MacroAssembler::JumpList slowCases;
slowCases.append(m_jit.branchIfNotCell(thisValue.jsValueRegs()));
slowCases.append(
m_jit.branchTest8(
MacroAssembler::NonZero,
MacroAssembler::Address(thisValuePayloadGPR, JSCell::typeInfoFlagsOffset()),
MacroAssembler::TrustedImm32(OverridesToThis)));
m_jit.move(thisValuePayloadGPR, tempGPR);
m_jit.move(thisValueTagGPR, tempTagGPR);
J_JITOperation_EJ function;
if (m_jit.graph().executableFor(node->origin.semantic)->isStrictMode())
function = operationToThisStrict;
else
function = operationToThis;
addSlowPathGenerator(
slowPathCall(
slowCases, this, function,
JSValueRegs(tempTagGPR, tempGPR), JSValueRegs(thisValueTagGPR, thisValuePayloadGPR)));
jsValueResult(tempTagGPR, tempGPR, node);
break;
}
case CreateThis: {
SpeculateCellOperand callee(this, node->child1());
GPRTemporary result(this);
GPRTemporary allocator(this);
GPRTemporary structure(this);
GPRTemporary scratch(this);
GPRReg calleeGPR = callee.gpr();
GPRReg resultGPR = result.gpr();
GPRReg allocatorGPR = allocator.gpr();
GPRReg structureGPR = structure.gpr();
GPRReg scratchGPR = scratch.gpr();
GPRReg rareDataGPR = structureGPR;
GPRReg inlineCapacityGPR = rareDataGPR;
MacroAssembler::JumpList slowPath;
slowPath.append(m_jit.branch8(JITCompiler::NotEqual,
JITCompiler::Address(calleeGPR, JSCell::typeInfoTypeOffset()), TrustedImm32(JSFunctionType)));
m_jit.loadPtr(JITCompiler::Address(calleeGPR, JSFunction::offsetOfRareData()), rareDataGPR);
slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, rareDataGPR));
m_jit.loadPtr(JITCompiler::Address(rareDataGPR, FunctionRareData::offsetOfObjectAllocationProfile() + ObjectAllocationProfile::offsetOfAllocator()), allocatorGPR);
m_jit.loadPtr(JITCompiler::Address(rareDataGPR, FunctionRareData::offsetOfObjectAllocationProfile() + ObjectAllocationProfile::offsetOfStructure()), structureGPR);
slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, allocatorGPR));
emitAllocateJSObject(resultGPR, nullptr, allocatorGPR, structureGPR, TrustedImmPtr(0), scratchGPR, slowPath);
m_jit.loadPtr(JITCompiler::Address(calleeGPR, JSFunction::offsetOfRareData()), rareDataGPR);
m_jit.load32(JITCompiler::Address(rareDataGPR, FunctionRareData::offsetOfObjectAllocationProfile() + ObjectAllocationProfile::offsetOfInlineCapacity()), inlineCapacityGPR);
m_jit.emitInitializeInlineStorage(resultGPR, inlineCapacityGPR);
addSlowPathGenerator(slowPathCall(slowPath, this, operationCreateThis, resultGPR, calleeGPR, node->inlineCapacity()));
cellResult(resultGPR, node);
break;
}
case NewObject: {
GPRTemporary result(this);
GPRTemporary allocator(this);
GPRTemporary scratch(this);
GPRReg resultGPR = result.gpr();
GPRReg allocatorGPR = allocator.gpr();
GPRReg scratchGPR = scratch.gpr();
MacroAssembler::JumpList slowPath;
RegisteredStructure structure = node->structure();
size_t allocationSize = JSFinalObject::allocationSize(structure->inlineCapacity());
MarkedAllocator* allocatorPtr = subspaceFor<JSFinalObject>(*m_jit.vm())->allocatorFor(allocationSize);
m_jit.move(TrustedImmPtr(allocatorPtr), allocatorGPR);
emitAllocateJSObject(resultGPR, allocatorPtr, allocatorGPR, TrustedImmPtr(structure), TrustedImmPtr(0), scratchGPR, slowPath);
m_jit.emitInitializeInlineStorage(resultGPR, structure->inlineCapacity());
addSlowPathGenerator(slowPathCall(slowPath, this, operationNewObject, resultGPR, structure));
cellResult(resultGPR, node);
break;
}
case GetCallee: {
GPRTemporary result(this);
m_jit.loadPtr(JITCompiler::payloadFor(CallFrameSlot::callee), result.gpr());
cellResult(result.gpr(), node);
break;
}
case GetArgumentCountIncludingThis: {
GPRTemporary result(this);
m_jit.load32(JITCompiler::payloadFor(CallFrameSlot::argumentCount), result.gpr());
int32Result(result.gpr(), node);
break;
}
case GetScope:
compileGetScope(node);
break;
case SkipScope:
compileSkipScope(node);
break;
case GetGlobalObject:
compileGetGlobalObject(node);
break;
case GetClosureVar: {
SpeculateCellOperand base(this, node->child1());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg baseGPR = base.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
m_jit.load32(JITCompiler::Address(baseGPR, JSEnvironmentRecord::offsetOfVariable(node->scopeOffset()) + TagOffset), resultTagGPR);
m_jit.load32(JITCompiler::Address(baseGPR, JSEnvironmentRecord::offsetOfVariable(node->scopeOffset()) + PayloadOffset), resultPayloadGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case PutClosureVar: {
SpeculateCellOperand base(this, node->child1());
JSValueOperand value(this, node->child2());
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
m_jit.store32(valueTagGPR, JITCompiler::Address(baseGPR, JSEnvironmentRecord::offsetOfVariable(node->scopeOffset()) + TagOffset));
m_jit.store32(valuePayloadGPR, JITCompiler::Address(baseGPR, JSEnvironmentRecord::offsetOfVariable(node->scopeOffset()) + PayloadOffset));
noResult(node);
break;
}
case TryGetById: {
compileTryGetById(node);
break;
}
case GetById: {
switch (node->child1().useKind()) {
case CellUse: {
SpeculateCellOperand base(this, node->child1());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this, Reuse, base);
GPRReg baseGPR = base.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
base.use();
cachedGetById(node->origin.semantic, InvalidGPRReg, baseGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber());
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
case UntypedUse: {
JSValueOperand base(this, node->child1());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this, Reuse, base, TagWord);
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
base.use();
JITCompiler::Jump notCell = m_jit.branchIfNotCell(base.jsValueRegs());
cachedGetById(node->origin.semantic, baseTagGPR, basePayloadGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber(), notCell);
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case GetByIdWithThis: {
if (node->child1().useKind() == CellUse && node->child2().useKind() == CellUse) {
SpeculateCellOperand base(this, node->child1());
SpeculateCellOperand thisValue(this, node->child2());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg baseGPR = base.gpr();
GPRReg thisGPR = thisValue.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
cachedGetByIdWithThis(node->origin.semantic, InvalidGPRReg, baseGPR, InvalidGPRReg, thisGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber());
jsValueResult(resultTagGPR, resultPayloadGPR, node);
} else {
JSValueOperand base(this, node->child1());
JSValueOperand thisValue(this, node->child2());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRReg thisTagGPR = thisValue.tagGPR();
GPRReg thisPayloadGPR = thisValue.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
JITCompiler::JumpList notCellList;
notCellList.append(m_jit.branchIfNotCell(base.jsValueRegs()));
notCellList.append(m_jit.branchIfNotCell(thisValue.jsValueRegs()));
cachedGetByIdWithThis(node->origin.semantic, baseTagGPR, basePayloadGPR, thisTagGPR, thisPayloadGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber(), notCellList);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
}
break;
}
case GetByIdFlush: {
if (!node->prediction()) {
terminateSpeculativeExecution(InadequateCoverage, JSValueRegs(), 0);
break;
}
switch (node->child1().useKind()) {
case CellUse: {
SpeculateCellOperand base(this, node->child1());
GPRReg baseGPR = base.gpr();
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
base.use();
flushRegisters();
cachedGetById(node->origin.semantic, InvalidGPRReg, baseGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber(), JITCompiler::Jump(), DontSpill);
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
case UntypedUse: {
JSValueOperand base(this, node->child1());
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
base.use();
flushRegisters();
JITCompiler::Jump notCell = m_jit.branchIfNotCell(base.jsValueRegs());
cachedGetById(node->origin.semantic, baseTagGPR, basePayloadGPR, resultTagGPR, resultPayloadGPR, node->identifierNumber(), notCell, DontSpill);
jsValueResult(resultTagGPR, resultPayloadGPR, node, UseChildrenCalledExplicitly);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
break;
}
case GetArrayLength:
compileGetArrayLength(node);
break;
case DeleteById: {
compileDeleteById(node);
break;
}
case DeleteByVal: {
compileDeleteByVal(node);
break;
}
case CheckCell: {
SpeculateCellOperand cell(this, node->child1());
speculationCheck(BadCell, JSValueSource::unboxedCell(cell.gpr()), node->child1(), m_jit.branchWeakPtr(JITCompiler::NotEqual, cell.gpr(), node->cellOperand()->cell()));
noResult(node);
break;
}
case CheckNotEmpty: {
JSValueOperand operand(this, node->child1());
GPRReg tagGPR = operand.tagGPR();
speculationCheck(TDZFailure, JSValueSource(), nullptr, m_jit.branch32(JITCompiler::Equal, tagGPR, TrustedImm32(JSValue::EmptyValueTag)));
noResult(node);
break;
}
case CheckStringIdent:
compileCheckStringIdent(node);
break;
case GetExecutable: {
SpeculateCellOperand function(this, node->child1());
GPRTemporary result(this, Reuse, function);
GPRReg functionGPR = function.gpr();
GPRReg resultGPR = result.gpr();
speculateCellType(node->child1(), functionGPR, SpecFunction, JSFunctionType);
m_jit.loadPtr(JITCompiler::Address(functionGPR, JSFunction::offsetOfExecutable()), resultGPR);
cellResult(resultGPR, node);
break;
}
case CheckStructure: {
compileCheckStructure(node);
break;
}
case PutStructure: {
RegisteredStructure oldStructure = node->transition()->previous;
RegisteredStructure newStructure = node->transition()->next;
m_jit.jitCode()->common.notifyCompilingStructureTransition(m_jit.graph().m_plan, m_jit.codeBlock(), node);
SpeculateCellOperand base(this, node->child1());
GPRReg baseGPR = base.gpr();
ASSERT_UNUSED(oldStructure, oldStructure->indexingType() == newStructure->indexingType());
ASSERT(oldStructure->typeInfo().type() == newStructure->typeInfo().type());
ASSERT(oldStructure->typeInfo().inlineTypeFlags() == newStructure->typeInfo().inlineTypeFlags());
m_jit.storePtr(TrustedImmPtr(newStructure), MacroAssembler::Address(baseGPR, JSCell::structureIDOffset()));
noResult(node);
break;
}
case AllocatePropertyStorage:
compileAllocatePropertyStorage(node);
break;
case ReallocatePropertyStorage:
compileReallocatePropertyStorage(node);
break;
case NukeStructureAndSetButterfly:
compileNukeStructureAndSetButterfly(node);
break;
case GetButterfly:
compileGetButterfly(node);
break;
case GetIndexedPropertyStorage: {
compileGetIndexedPropertyStorage(node);
break;
}
case ConstantStoragePointer: {
compileConstantStoragePointer(node);
break;
}
case GetTypedArrayByteOffset: {
compileGetTypedArrayByteOffset(node);
break;
}
case GetByOffset: {
StorageOperand storage(this, node->child1());
GPRTemporary resultTag(this, Reuse, storage);
GPRTemporary resultPayload(this);
GPRReg storageGPR = storage.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
StorageAccessData& storageAccessData = node->storageAccessData();
m_jit.load32(JITCompiler::Address(storageGPR, offsetRelativeToBase(storageAccessData.offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
m_jit.load32(JITCompiler::Address(storageGPR, offsetRelativeToBase(storageAccessData.offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case GetGetterSetterByOffset: {
StorageOperand storage(this, node->child1());
GPRTemporary resultPayload(this);
GPRReg storageGPR = storage.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
StorageAccessData& storageAccessData = node->storageAccessData();
m_jit.load32(JITCompiler::Address(storageGPR, offsetRelativeToBase(storageAccessData.offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
cellResult(resultPayloadGPR, node);
break;
}
case GetGetter: {
SpeculateCellOperand op1(this, node->child1());
GPRTemporary result(this, Reuse, op1);
GPRReg op1GPR = op1.gpr();
GPRReg resultGPR = result.gpr();
m_jit.loadPtr(JITCompiler::Address(op1GPR, GetterSetter::offsetOfGetter()), resultGPR);
cellResult(resultGPR, node);
break;
}
case GetSetter: {
SpeculateCellOperand op1(this, node->child1());
GPRTemporary result(this, Reuse, op1);
GPRReg op1GPR = op1.gpr();
GPRReg resultGPR = result.gpr();
m_jit.loadPtr(JITCompiler::Address(op1GPR, GetterSetter::offsetOfSetter()), resultGPR);
cellResult(resultGPR, node);
break;
}
case PutByOffset: {
StorageOperand storage(this, node->child1());
JSValueOperand value(this, node->child3());
GPRReg storageGPR = storage.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
speculate(node, node->child2());
StorageAccessData& storageAccessData = node->storageAccessData();
m_jit.storePtr(valueTagGPR, JITCompiler::Address(storageGPR, offsetRelativeToBase(storageAccessData.offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
m_jit.storePtr(valuePayloadGPR, JITCompiler::Address(storageGPR, offsetRelativeToBase(storageAccessData.offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
noResult(node);
break;
}
case PutByIdFlush: {
SpeculateCellOperand base(this, node->child1());
JSValueOperand value(this, node->child2());
GPRTemporary scratch(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg scratchGPR = scratch.gpr();
flushRegisters();
cachedPutById(node->origin.semantic, baseGPR, valueTagGPR, valuePayloadGPR, scratchGPR, node->identifierNumber(), NotDirect, MacroAssembler::Jump(), DontSpill);
noResult(node);
break;
}
case PutById: {
SpeculateCellOperand base(this, node->child1());
JSValueOperand value(this, node->child2());
GPRTemporary scratch(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg scratchGPR = scratch.gpr();
cachedPutById(node->origin.semantic, baseGPR, valueTagGPR, valuePayloadGPR, scratchGPR, node->identifierNumber(), NotDirect);
noResult(node);
break;
}
case PutByIdDirect: {
SpeculateCellOperand base(this, node->child1());
JSValueOperand value(this, node->child2());
GPRTemporary scratch(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg scratchGPR = scratch.gpr();
cachedPutById(node->origin.semantic, baseGPR, valueTagGPR, valuePayloadGPR, scratchGPR, node->identifierNumber(), Direct);
noResult(node);
break;
}
case PutByIdWithThis: {
JSValueOperand base(this, node->child1());
JSValueRegs baseRegs = base.jsValueRegs();
JSValueOperand thisValue(this, node->child2());
JSValueRegs thisRegs = thisValue.jsValueRegs();
JSValueOperand value(this, node->child3());
JSValueRegs valueRegs = value.jsValueRegs();
flushRegisters();
callOperation(m_jit.isStrictModeFor(node->origin.semantic) ? operationPutByIdWithThisStrict : operationPutByIdWithThis,
NoResult, baseRegs, thisRegs, valueRegs, identifierUID(node->identifierNumber()));
m_jit.exceptionCheck();
noResult(node);
break;
}
case PutGetterById:
case PutSetterById: {
compilePutAccessorById(node);
break;
}
case PutGetterSetterById: {
compilePutGetterSetterById(node);
break;
}
case PutGetterByVal:
case PutSetterByVal: {
compilePutAccessorByVal(node);
break;
}
case DefineDataProperty: {
compileDefineDataProperty(node);
break;
}
case DefineAccessorProperty: {
compileDefineAccessorProperty(node);
break;
}
case GetGlobalLexicalVariable:
case GetGlobalVar: {
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
m_jit.move(TrustedImmPtr(node->variablePointer()), resultPayload.gpr());
m_jit.load32(JITCompiler::Address(resultPayload.gpr(), OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTag.gpr());
m_jit.load32(JITCompiler::Address(resultPayload.gpr(), OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayload.gpr());
jsValueResult(resultTag.gpr(), resultPayload.gpr(), node);
break;
}
case PutGlobalVariable: {
JSValueOperand value(this, node->child2());
m_jit.store32(value.tagGPR(), node->variablePointer()->tagPointer());
m_jit.store32(value.payloadGPR(), node->variablePointer()->payloadPointer());
noResult(node);
break;
}
case NotifyWrite: {
compileNotifyWrite(node);
break;
}
case ParseInt: {
compileParseInt(node);
break;
}
case CheckTypeInfoFlags: {
compileCheckTypeInfoFlags(node);
break;
}
case OverridesHasInstance: {
Node* hasInstanceValueNode = node->child2().node();
JSFunction* defaultHasInstanceFunction = jsCast<JSFunction*>(node->cellOperand()->value());
MacroAssembler::JumpList notDefaultHasInstanceValue;
SpeculateCellOperand base(this, node->child1());
JSValueOperand hasInstanceValue(this, node->child2());
GPRTemporary result(this);
GPRReg baseGPR = base.gpr();
GPRReg resultGPR = result.gpr();
if (!hasInstanceValueNode->isCellConstant() || defaultHasInstanceFunction != hasInstanceValueNode->asCell()) {
JSValueRegs hasInstanceValueRegs = hasInstanceValue.jsValueRegs();
notDefaultHasInstanceValue.append(m_jit.branchIfNotCell(hasInstanceValueRegs));
notDefaultHasInstanceValue.append(m_jit.branchPtr(MacroAssembler::NotEqual, hasInstanceValueRegs.payloadGPR(), TrustedImmPtr(node->cellOperand())));
}
m_jit.test8(MacroAssembler::Zero, MacroAssembler::Address(baseGPR, JSCell::typeInfoFlagsOffset()), MacroAssembler::TrustedImm32(ImplementsDefaultHasInstance), resultGPR);
MacroAssembler::Jump done = m_jit.jump();
if (!notDefaultHasInstanceValue.empty()) {
notDefaultHasInstanceValue.link(&m_jit);
moveTrueTo(resultGPR);
}
done.link(&m_jit);
booleanResult(resultGPR, node);
break;
}
case InstanceOf: {
compileInstanceOf(node);
break;
}
case InstanceOfCustom: {
compileInstanceOfCustom(node);
break;
}
case IsEmpty: {
JSValueOperand value(this, node->child1());
GPRTemporary result(this, Reuse, value, TagWord);
m_jit.comparePtr(JITCompiler::Equal, value.tagGPR(), TrustedImm32(JSValue::EmptyValueTag), result.gpr());
booleanResult(result.gpr(), node);
break;
}
case IsUndefined: {
JSValueOperand value(this, node->child1());
GPRTemporary result(this);
GPRTemporary localGlobalObject(this);
GPRTemporary remoteGlobalObject(this);
JITCompiler::Jump isCell = m_jit.branchIfCell(value.jsValueRegs());
m_jit.compare32(JITCompiler::Equal, value.tagGPR(), TrustedImm32(JSValue::UndefinedTag), result.gpr());
JITCompiler::Jump done = m_jit.jump();
isCell.link(&m_jit);
JITCompiler::Jump notMasqueradesAsUndefined;
if (masqueradesAsUndefinedWatchpointIsStillValid()) {
m_jit.move(TrustedImm32(0), result.gpr());
notMasqueradesAsUndefined = m_jit.jump();
} else {
JITCompiler::Jump isMasqueradesAsUndefined = m_jit.branchTest8(
JITCompiler::NonZero,
JITCompiler::Address(value.payloadGPR(), JSCell::typeInfoFlagsOffset()),
TrustedImm32(MasqueradesAsUndefined));
m_jit.move(TrustedImm32(0), result.gpr());
notMasqueradesAsUndefined = m_jit.jump();
isMasqueradesAsUndefined.link(&m_jit);
GPRReg localGlobalObjectGPR = localGlobalObject.gpr();
GPRReg remoteGlobalObjectGPR = remoteGlobalObject.gpr();
m_jit.move(TrustedImmPtr::weakPointer(m_jit.graph(), m_jit.globalObjectFor(node->origin.semantic)), localGlobalObjectGPR);
m_jit.loadPtr(JITCompiler::Address(value.payloadGPR(), JSCell::structureIDOffset()), result.gpr());
m_jit.loadPtr(JITCompiler::Address(result.gpr(), Structure::globalObjectOffset()), remoteGlobalObjectGPR);
m_jit.compare32(JITCompiler::Equal, localGlobalObjectGPR, remoteGlobalObjectGPR, result.gpr());
}
notMasqueradesAsUndefined.link(&m_jit);
done.link(&m_jit);
booleanResult(result.gpr(), node);
break;
}
case IsBoolean: {
JSValueOperand value(this, node->child1());
GPRTemporary result(this, Reuse, value, TagWord);
m_jit.compare32(JITCompiler::Equal, value.tagGPR(), JITCompiler::TrustedImm32(JSValue::BooleanTag), result.gpr());
booleanResult(result.gpr(), node);
break;
}
case IsNumber: {
JSValueOperand value(this, node->child1());
GPRTemporary result(this, Reuse, value, TagWord);
m_jit.add32(TrustedImm32(1), value.tagGPR(), result.gpr());
m_jit.compare32(JITCompiler::Below, result.gpr(), JITCompiler::TrustedImm32(JSValue::LowestTag + 1), result.gpr());
booleanResult(result.gpr(), node);
break;
}
case IsObject: {
JSValueOperand value(this, node->child1());
GPRTemporary result(this, Reuse, value, TagWord);
JITCompiler::Jump isNotCell = m_jit.branchIfNotCell(value.jsValueRegs());
m_jit.compare8(JITCompiler::AboveOrEqual,
JITCompiler::Address(value.payloadGPR(), JSCell::typeInfoTypeOffset()),
TrustedImm32(ObjectType),
result.gpr());
JITCompiler::Jump done = m_jit.jump();
isNotCell.link(&m_jit);
m_jit.move(TrustedImm32(0), result.gpr());
done.link(&m_jit);
booleanResult(result.gpr(), node);
break;
}
case IsObjectOrNull: {
compileIsObjectOrNull(node);
break;
}
case IsFunction: {
compileIsFunction(node);
break;
}
case IsCellWithType: {
compileIsCellWithType(node);
break;
}
case IsTypedArrayView: {
compileIsTypedArrayView(node);
break;
}
case TypeOf: {
compileTypeOf(node);
break;
}
case MapHash: {
JSValueOperand input(this, node->child1());
JSValueRegs inputRegs = input.jsValueRegs();
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
flushRegisters();
callOperation(operationMapHash, resultGPR, inputRegs);
m_jit.exceptionCheck();
int32Result(resultGPR, node);
break;
}
case GetMapBucket: {
SpeculateCellOperand map(this, node->child1());
JSValueOperand key(this, node->child2());
SpeculateInt32Operand hash(this, node->child3());
GPRFlushedCallResult result(this);
GPRReg mapGPR = map.gpr();
JSValueRegs keyRegs = key.jsValueRegs();
GPRReg hashGPR = hash.gpr();
GPRReg resultGPR = result.gpr();
if (node->child1().useKind() == MapObjectUse)
speculateMapObject(node->child1(), mapGPR);
else if (node->child1().useKind() == SetObjectUse)
speculateSetObject(node->child1(), mapGPR);
else
RELEASE_ASSERT_NOT_REACHED();
flushRegisters();
if (node->child1().useKind() == MapObjectUse)
callOperation(operationJSMapFindBucket, resultGPR, mapGPR, keyRegs, hashGPR);
else
callOperation(operationJSSetFindBucket, resultGPR, mapGPR, keyRegs, hashGPR);
m_jit.exceptionCheck();
cellResult(resultGPR, node);
break;
}
case LoadFromJSMapBucket: {
SpeculateCellOperand bucket(this, node->child1());
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
GPRReg bucketGPR = bucket.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
auto notBucket = m_jit.branchTestPtr(MacroAssembler::Zero, bucketGPR);
m_jit.loadValue(MacroAssembler::Address(bucketGPR, HashMapBucket<HashMapBucketDataKeyValue>::offsetOfValue()), JSValueRegs(resultTagGPR, resultPayloadGPR));
auto done = m_jit.jump();
notBucket.link(&m_jit);
m_jit.move(TrustedImm32(JSValue::UndefinedTag), resultTagGPR);
m_jit.move(TrustedImm32(0), resultPayloadGPR);
done.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case IsNonEmptyMapBucket: {
SpeculateCellOperand bucket(this, node->child1());
GPRTemporary result(this);
GPRReg bucketGPR = bucket.gpr();
GPRReg resultGPR = result.gpr();
m_jit.comparePtr(MacroAssembler::NotEqual, bucketGPR, TrustedImm32(0), resultGPR);
booleanResult(resultGPR, node);
break;
}
case Flush:
break;
case Call:
case TailCall:
case TailCallInlinedCaller:
case Construct:
case CallVarargs:
case TailCallVarargs:
case TailCallVarargsInlinedCaller:
case ConstructVarargs:
case CallForwardVarargs:
case TailCallForwardVarargs:
case TailCallForwardVarargsInlinedCaller:
case ConstructForwardVarargs:
case CallEval:
case DirectCall:
case DirectConstruct:
case DirectTailCall:
case DirectTailCallInlinedCaller:
emitCall(node);
break;
case LoadVarargs: {
LoadVarargsData* data = node->loadVarargsData();
GPRReg argumentsTagGPR;
GPRReg argumentsPayloadGPR;
JSValueRegs argumentsRegs;
{
JSValueOperand arguments(this, node->child1());
argumentsRegs = arguments.jsValueRegs();
flushRegisters();
}
callOperation(operationSizeOfVarargs, GPRInfo::returnValueGPR, argumentsRegs, data->offset);
m_jit.exceptionCheck();
lock(GPRInfo::returnValueGPR);
{
JSValueOperand arguments(this, node->child1());
argumentsTagGPR = arguments.tagGPR();
argumentsPayloadGPR = arguments.payloadGPR();
argumentsRegs = arguments.jsValueRegs();
flushRegisters();
}
unlock(GPRInfo::returnValueGPR);
GPRReg argCountIncludingThisGPR =
JITCompiler::selectScratchGPR(GPRInfo::returnValueGPR, argumentsTagGPR, argumentsPayloadGPR);
m_jit.add32(TrustedImm32(1), GPRInfo::returnValueGPR, argCountIncludingThisGPR);
speculationCheck(
VarargsOverflow, JSValueSource(), Edge(), m_jit.branch32(
MacroAssembler::Above,
GPRInfo::returnValueGPR,
argCountIncludingThisGPR));
speculationCheck(
VarargsOverflow, JSValueSource(), Edge(), m_jit.branch32(
MacroAssembler::Above,
argCountIncludingThisGPR,
TrustedImm32(data->limit)));
m_jit.store32(argCountIncludingThisGPR, JITCompiler::payloadFor(data->machineCount));
callOperation(operationLoadVarargs, data->machineStart.offset(), argumentsRegs, data->offset, GPRInfo::returnValueGPR, data->mandatoryMinimum);
m_jit.exceptionCheck();
noResult(node);
break;
}
case ForwardVarargs: {
compileForwardVarargs(node);
break;
}
case CreateActivation: {
compileCreateActivation(node);
break;
}
case CreateDirectArguments: {
compileCreateDirectArguments(node);
break;
}
case GetFromArguments: {
compileGetFromArguments(node);
break;
}
case PutToArguments: {
compilePutToArguments(node);
break;
}
case GetArgument: {
compileGetArgument(node);
break;
}
case CreateScopedArguments: {
compileCreateScopedArguments(node);
break;
}
case CreateClonedArguments: {
compileCreateClonedArguments(node);
break;
}
case CreateRest: {
compileCreateRest(node);
break;
}
case GetRestLength: {
compileGetRestLength(node);
break;
}
case NewFunction:
case NewGeneratorFunction:
case NewAsyncFunction:
compileNewFunction(node);
break;
case SetFunctionName:
compileSetFunctionName(node);
break;
case In:
compileIn(node);
break;
case HasOwnProperty: {
#if CPU(X86) || CPU(MIPS)
ASSERT(node->child2().useKind() == UntypedUse);
SpeculateCellOperand object(this, node->child1());
JSValueOperand key(this, node->child2());
GPRTemporary result(this, Reuse, object);
JSValueRegs keyRegs = key.jsValueRegs();
GPRReg objectGPR = object.gpr();
GPRReg resultGPR = result.gpr();
speculateObject(node->child1());
flushRegisters();
callOperation(operationHasOwnProperty, resultGPR, objectGPR, keyRegs);
booleanResult(resultGPR, node);
#else
SpeculateCellOperand object(this, node->child1());
GPRTemporary uniquedStringImpl(this);
GPRTemporary temp(this);
GPRTemporary hash(this);
GPRTemporary structureID(this);
GPRTemporary result(this);
std::optional<SpeculateCellOperand> keyAsCell;
std::optional<JSValueOperand> keyAsValue;
JSValueRegs keyRegs;
if (node->child2().useKind() == UntypedUse) {
keyAsValue.emplace(this, node->child2());
keyRegs = keyAsValue->jsValueRegs();
} else {
ASSERT(node->child2().useKind() == StringUse || node->child2().useKind() == SymbolUse);
keyAsCell.emplace(this, node->child2());
keyRegs = JSValueRegs::payloadOnly(keyAsCell->gpr());
}
GPRReg objectGPR = object.gpr();
GPRReg implGPR = uniquedStringImpl.gpr();
GPRReg tempGPR = temp.gpr();
GPRReg hashGPR = hash.gpr();
GPRReg structureIDGPR = structureID.gpr();
GPRReg resultGPR = result.gpr();
speculateObject(node->child1());
MacroAssembler::JumpList slowPath;
switch (node->child2().useKind()) {
case SymbolUse: {
speculateSymbol(node->child2(), keyRegs.payloadGPR());
m_jit.loadPtr(MacroAssembler::Address(keyRegs.payloadGPR(), Symbol::offsetOfSymbolImpl()), implGPR);
break;
}
case StringUse: {
speculateString(node->child2(), keyRegs.payloadGPR());
m_jit.loadPtr(MacroAssembler::Address(keyRegs.payloadGPR(), JSString::offsetOfValue()), implGPR);
slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, implGPR));
slowPath.append(m_jit.branchTest32(
MacroAssembler::Zero, MacroAssembler::Address(implGPR, StringImpl::flagsOffset()),
MacroAssembler::TrustedImm32(StringImpl::flagIsAtomic())));
break;
}
case UntypedUse: {
slowPath.append(m_jit.branchIfNotCell(keyRegs));
auto isNotString = m_jit.branchIfNotString(keyRegs.payloadGPR());
m_jit.loadPtr(MacroAssembler::Address(keyRegs.payloadGPR(), JSString::offsetOfValue()), implGPR);
slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, implGPR));
slowPath.append(m_jit.branchTest32(
MacroAssembler::Zero, MacroAssembler::Address(implGPR, StringImpl::flagsOffset()),
MacroAssembler::TrustedImm32(StringImpl::flagIsAtomic())));
auto hasUniquedImpl = m_jit.jump();
isNotString.link(&m_jit);
slowPath.append(m_jit.branchIfNotSymbol(keyRegs.payloadGPR()));
m_jit.loadPtr(MacroAssembler::Address(keyRegs.payloadGPR(), Symbol::offsetOfSymbolImpl()), implGPR);
hasUniquedImpl.link(&m_jit);
break;
}
default:
RELEASE_ASSERT_NOT_REACHED();
}
m_jit.load32(MacroAssembler::Address(implGPR, UniquedStringImpl::flagsOffset()), hashGPR);
m_jit.urshift32(MacroAssembler::TrustedImm32(StringImpl::s_flagCount), hashGPR);
m_jit.load32(MacroAssembler::Address(objectGPR, JSCell::structureIDOffset()), structureIDGPR);
m_jit.add32(structureIDGPR, hashGPR);
m_jit.and32(TrustedImm32(HasOwnPropertyCache::mask), hashGPR);
m_jit.mul32(TrustedImm32(sizeof(HasOwnPropertyCache::Entry)), hashGPR, hashGPR);
ASSERT(m_jit.vm()->hasOwnPropertyCache());
m_jit.move(TrustedImmPtr(m_jit.vm()->hasOwnPropertyCache()), tempGPR);
slowPath.append(m_jit.branchPtr(MacroAssembler::NotEqual,
MacroAssembler::BaseIndex(tempGPR, hashGPR, MacroAssembler::TimesOne, HasOwnPropertyCache::Entry::offsetOfImpl()), implGPR));
m_jit.load8(MacroAssembler::BaseIndex(tempGPR, hashGPR, MacroAssembler::TimesOne, HasOwnPropertyCache::Entry::offsetOfResult()), resultGPR);
m_jit.load32(MacroAssembler::BaseIndex(tempGPR, hashGPR, MacroAssembler::TimesOne, HasOwnPropertyCache::Entry::offsetOfStructureID()), tempGPR);
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, tempGPR, structureIDGPR));
auto done = m_jit.jump();
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
if (node->child2().useKind() != UntypedUse) {
m_jit.move(MacroAssembler::TrustedImm32(JSValue::CellTag), tempGPR);
keyRegs = JSValueRegs(tempGPR, keyRegs.payloadGPR());
}
callOperation(operationHasOwnProperty, resultGPR, objectGPR, keyRegs);
silentFillAllRegisters();
m_jit.exceptionCheck();
done.link(&m_jit);
booleanResult(resultGPR, node);
#endif // CPU(X86)
break;
}
case StoreBarrier:
case FencedStoreBarrier: {
compileStoreBarrier(node);
break;
}
case GetEnumerableLength: {
SpeculateCellOperand enumerator(this, node->child1());
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
m_jit.load32(MacroAssembler::Address(enumerator.gpr(), JSPropertyNameEnumerator::indexedLengthOffset()), resultGPR);
int32Result(resultGPR, node);
break;
}
case HasGenericProperty: {
JSValueOperand base(this, node->child1());
SpeculateCellOperand property(this, node->child2());
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
JSValueRegs baseRegs = base.jsValueRegs();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
flushRegisters();
callOperation(operationHasGenericProperty, JSValueRegs(resultTagGPR, resultPayloadGPR), baseRegs, property.gpr());
m_jit.exceptionCheck();
booleanResult(resultPayloadGPR, node);
break;
}
case HasStructureProperty: {
JSValueOperand base(this, node->child1());
SpeculateCellOperand property(this, node->child2());
SpeculateCellOperand enumerator(this, node->child3());
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRReg propertyGPR = property.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
m_jit.load32(MacroAssembler::Address(basePayloadGPR, JSCell::structureIDOffset()), resultTagGPR);
MacroAssembler::Jump wrongStructure = m_jit.branch32(MacroAssembler::NotEqual,
resultTagGPR,
MacroAssembler::Address(enumerator.gpr(), JSPropertyNameEnumerator::cachedStructureIDOffset()));
moveTrueTo(resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
done.link(&m_jit);
addSlowPathGenerator(slowPathCall(wrongStructure, this, operationHasGenericProperty,
JSValueRegs(resultTagGPR, resultPayloadGPR), JSValueRegs(baseTagGPR, basePayloadGPR), propertyGPR));
booleanResult(resultPayloadGPR, node);
break;
}
case HasIndexedProperty: {
SpeculateCellOperand base(this, node->child1());
SpeculateInt32Operand index(this, node->child2());
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
GPRReg baseGPR = base.gpr();
GPRReg indexGPR = index.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
MacroAssembler::JumpList slowCases;
ArrayMode mode = node->arrayMode();
switch (mode.type()) {
case Array::Int32:
case Array::Contiguous: {
ASSERT(!!node->child3());
StorageOperand storage(this, node->child3());
GPRTemporary scratch(this);
GPRReg storageGPR = storage.gpr();
GPRReg scratchGPR = scratch.gpr();
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, indexGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength())));
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, indexGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)), scratchGPR);
slowCases.append(m_jit.branch32(MacroAssembler::Equal, scratchGPR, TrustedImm32(JSValue::EmptyValueTag)));
break;
}
case Array::Double: {
ASSERT(!!node->child3());
StorageOperand storage(this, node->child3());
FPRTemporary scratch(this);
FPRReg scratchFPR = scratch.fpr();
GPRReg storageGPR = storage.gpr();
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, indexGPR, MacroAssembler::Address(storageGPR, Butterfly::offsetOfPublicLength())));
m_jit.loadDouble(MacroAssembler::BaseIndex(storageGPR, indexGPR, MacroAssembler::TimesEight), scratchFPR);
slowCases.append(m_jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, scratchFPR, scratchFPR));
break;
}
case Array::ArrayStorage: {
ASSERT(!!node->child3());
StorageOperand storage(this, node->child3());
GPRTemporary scratch(this);
GPRReg storageGPR = storage.gpr();
GPRReg scratchGPR = scratch.gpr();
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, indexGPR, MacroAssembler::Address(storageGPR, ArrayStorage::vectorLengthOffset())));
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, indexGPR, MacroAssembler::TimesEight, ArrayStorage::vectorOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), scratchGPR);
slowCases.append(m_jit.branch32(MacroAssembler::Equal, scratchGPR, TrustedImm32(JSValue::EmptyValueTag)));
break;
}
default: {
slowCases.append(m_jit.jump());
break;
}
}
moveTrueTo(resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
addSlowPathGenerator(slowPathCall(slowCases, this, operationHasIndexedProperty, JSValueRegs(resultTagGPR, resultPayloadGPR), baseGPR, indexGPR, static_cast<int32_t>(node->internalMethodType())));
done.link(&m_jit);
booleanResult(resultPayloadGPR, node);
break;
}
case GetDirectPname: {
Edge& baseEdge = m_jit.graph().varArgChild(node, 0);
Edge& propertyEdge = m_jit.graph().varArgChild(node, 1);
SpeculateCellOperand base(this, baseEdge);
SpeculateCellOperand property(this, propertyEdge);
GPRReg baseGPR = base.gpr();
GPRReg propertyGPR = property.gpr();
#if CPU(X86)
GPRFlushedCallResult resultPayload(this);
GPRFlushedCallResult2 resultTag(this);
GPRTemporary scratch(this);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR = scratch.gpr();
flushRegisters();
m_jit.move(MacroAssembler::TrustedImm32(JSValue::CellTag), scratchGPR);
callOperation(operationGetByValCell, JSValueRegs(resultTagGPR, resultPayloadGPR), baseGPR, JSValueRegs(scratchGPR, propertyGPR));
m_jit.exceptionCheck();
#else
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
GPRTemporary scratch(this);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR = scratch.gpr();
Edge& indexEdge = m_jit.graph().varArgChild(node, 2);
Edge& enumeratorEdge = m_jit.graph().varArgChild(node, 3);
SpeculateInt32Operand index(this, indexEdge);
SpeculateCellOperand enumerator(this, enumeratorEdge);
GPRReg indexGPR = index.gpr();
GPRReg enumeratorGPR = enumerator.gpr();
MacroAssembler::JumpList slowPath;
m_jit.load32(MacroAssembler::Address(baseGPR, JSCell::structureIDOffset()), scratchGPR);
slowPath.append(
m_jit.branch32(
MacroAssembler::NotEqual,
scratchGPR,
MacroAssembler::Address(
enumeratorGPR, JSPropertyNameEnumerator::cachedStructureIDOffset())));
MacroAssembler::Jump outOfLineAccess = m_jit.branch32(MacroAssembler::AboveOrEqual,
indexGPR, MacroAssembler::Address(enumeratorGPR, JSPropertyNameEnumerator::cachedInlineCapacityOffset()));
m_jit.move(indexGPR, scratchGPR);
m_jit.signExtend32ToPtr(scratchGPR, scratchGPR);
m_jit.load32(MacroAssembler::BaseIndex(baseGPR, scratchGPR, MacroAssembler::TimesEight, JSObject::offsetOfInlineStorage() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTagGPR);
m_jit.load32(MacroAssembler::BaseIndex(baseGPR, scratchGPR, MacroAssembler::TimesEight, JSObject::offsetOfInlineStorage() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
outOfLineAccess.link(&m_jit);
m_jit.move(indexGPR, scratchGPR);
m_jit.sub32(MacroAssembler::Address(enumeratorGPR, JSPropertyNameEnumerator::cachedInlineCapacityOffset()), scratchGPR);
m_jit.neg32(scratchGPR);
m_jit.signExtend32ToPtr(scratchGPR, scratchGPR);
m_jit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), resultPayloadGPR);
int32_t offsetOfFirstProperty = static_cast<int32_t>(offsetInButterfly(firstOutOfLineOffset)) * sizeof(EncodedJSValue);
m_jit.load32(MacroAssembler::BaseIndex(resultPayloadGPR, scratchGPR, MacroAssembler::TimesEight, offsetOfFirstProperty + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTagGPR);
m_jit.load32(MacroAssembler::BaseIndex(resultPayloadGPR, scratchGPR, MacroAssembler::TimesEight, offsetOfFirstProperty + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayloadGPR);
done.link(&m_jit);
addSlowPathGenerator(slowPathCall(slowPath, this, operationGetByValCell, JSValueRegs(resultTagGPR, resultPayloadGPR), baseGPR, propertyGPR));
#endif
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case GetPropertyEnumerator: {
SpeculateCellOperand base(this, node->child1());
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
flushRegisters();
callOperation(operationGetPropertyEnumerator, resultGPR, base.gpr());
m_jit.exceptionCheck();
cellResult(resultGPR, node);
break;
}
case GetEnumeratorStructurePname:
case GetEnumeratorGenericPname: {
SpeculateCellOperand enumerator(this, node->child1());
SpeculateInt32Operand index(this, node->child2());
GPRTemporary scratch(this);
GPRTemporary resultPayload(this);
GPRTemporary resultTag(this);
GPRReg enumeratorGPR = enumerator.gpr();
GPRReg indexGPR = index.gpr();
GPRReg scratchGPR = scratch.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
MacroAssembler::Jump inBounds = m_jit.branch32(MacroAssembler::Below, indexGPR,
MacroAssembler::Address(enumeratorGPR, (op == GetEnumeratorStructurePname)
? JSPropertyNameEnumerator::endStructurePropertyIndexOffset()
: JSPropertyNameEnumerator::endGenericPropertyIndexOffset()));
m_jit.move(MacroAssembler::TrustedImm32(JSValue::NullTag), resultTagGPR);
m_jit.move(MacroAssembler::TrustedImm32(0), resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
inBounds.link(&m_jit);
m_jit.loadPtr(MacroAssembler::Address(enumeratorGPR, JSPropertyNameEnumerator::cachedPropertyNamesVectorOffset()), scratchGPR);
m_jit.loadPtr(MacroAssembler::BaseIndex(scratchGPR, indexGPR, MacroAssembler::ScalePtr), resultPayloadGPR);
m_jit.move(MacroAssembler::TrustedImm32(JSValue::CellTag), resultTagGPR);
done.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, node);
break;
}
case ToIndexString: {
SpeculateInt32Operand index(this, node->child1());
GPRFlushedCallResult result(this);
GPRReg resultGPR = result.gpr();
flushRegisters();
callOperation(operationToIndexString, resultGPR, index.gpr());
m_jit.exceptionCheck();
cellResult(resultGPR, node);
break;
}
case ProfileType: {
JSValueOperand value(this, node->child1());
GPRTemporary scratch1(this);
GPRTemporary scratch2(this);
GPRTemporary scratch3(this);
GPRReg scratch1GPR = scratch1.gpr();
GPRReg scratch2GPR = scratch2.gpr();
GPRReg scratch3GPR = scratch3.gpr();
JITCompiler::Jump isTDZValue = m_jit.branch32(JITCompiler::Equal, value.tagGPR(), TrustedImm32(JSValue::EmptyValueTag));
TypeProfilerLog* cachedTypeProfilerLog = m_jit.vm()->typeProfilerLog();
m_jit.move(TrustedImmPtr(cachedTypeProfilerLog), scratch2GPR);
m_jit.loadPtr(MacroAssembler::Address(scratch2GPR, TypeProfilerLog::currentLogEntryOffset()), scratch1GPR);
m_jit.store32(value.tagGPR(), MacroAssembler::Address(scratch1GPR, TypeProfilerLog::LogEntry::valueOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(value.payloadGPR(), MacroAssembler::Address(scratch1GPR, TypeProfilerLog::LogEntry::valueOffset() + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
MacroAssembler::Jump isNotCell = m_jit.branchIfNotCell(value.jsValueRegs());
m_jit.load32(MacroAssembler::Address(value.payloadGPR(), JSCell::structureIDOffset()), scratch3GPR);
m_jit.store32(scratch3GPR, MacroAssembler::Address(scratch1GPR, TypeProfilerLog::LogEntry::structureIDOffset()));
MacroAssembler::Jump skipIsCell = m_jit.jump();
isNotCell.link(&m_jit);
m_jit.store32(TrustedImm32(0), MacroAssembler::Address(scratch1GPR, TypeProfilerLog::LogEntry::structureIDOffset()));
skipIsCell.link(&m_jit);
TypeLocation* cachedTypeLocation = node->typeLocation();
m_jit.move(TrustedImmPtr(cachedTypeLocation), scratch3GPR);
m_jit.storePtr(scratch3GPR, MacroAssembler::Address(scratch1GPR, TypeProfilerLog::LogEntry::locationOffset()));
m_jit.addPtr(TrustedImm32(sizeof(TypeProfilerLog::LogEntry)), scratch1GPR);
m_jit.storePtr(scratch1GPR, MacroAssembler::Address(scratch2GPR, TypeProfilerLog::currentLogEntryOffset()));
MacroAssembler::Jump clearLog = m_jit.branchPtr(MacroAssembler::Equal, scratch1GPR, TrustedImmPtr(cachedTypeProfilerLog->logEndPtr()));
addSlowPathGenerator(
slowPathCall(clearLog, this, operationProcessTypeProfilerLogDFG, NoResult));
isTDZValue.link(&m_jit);
noResult(node);
break;
}
case ProfileControlFlow: {
GPRTemporary scratch1(this);
BasicBlockLocation* basicBlockLocation = node->basicBlockLocation();
basicBlockLocation->emitExecuteCode(m_jit, scratch1.gpr());
noResult(node);
break;
}
case LogShadowChickenPrologue: {
flushRegisters();
prepareForExternalCall();
m_jit.emitStoreCodeOrigin(node->origin.semantic);
GPRTemporary scratch1(this, GPRInfo::nonArgGPR0); GPRReg scratch1Reg = scratch1.gpr();
GPRTemporary shadowPacket(this);
GPRReg shadowPacketReg = shadowPacket.gpr();
GPRTemporary scratch2(this);
GPRReg scratch2Reg = scratch2.gpr();
m_jit.ensureShadowChickenPacket(*m_jit.vm(), shadowPacketReg, scratch1Reg, scratch2Reg);
SpeculateCellOperand scope(this, node->child1());
GPRReg scopeReg = scope.gpr();
m_jit.logShadowChickenProloguePacket(shadowPacketReg, scratch1Reg, scopeReg);
noResult(node);
break;
}
case LogShadowChickenTail: {
flushRegisters();
prepareForExternalCall();
CallSiteIndex callSiteIndex = m_jit.emitStoreCodeOrigin(node->origin.semantic);
GPRTemporary scratch1(this, GPRInfo::nonArgGPR0); GPRReg scratch1Reg = scratch1.gpr();
GPRTemporary shadowPacket(this);
GPRReg shadowPacketReg = shadowPacket.gpr();
GPRTemporary scratch2(this);
GPRReg scratch2Reg = scratch2.gpr();
m_jit.ensureShadowChickenPacket(*m_jit.vm(), shadowPacketReg, scratch1Reg, scratch2Reg);
JSValueOperand thisValue(this, node->child1());
JSValueRegs thisRegs = thisValue.jsValueRegs();
SpeculateCellOperand scope(this, node->child2());
GPRReg scopeReg = scope.gpr();
m_jit.logShadowChickenTailPacket(shadowPacketReg, thisRegs, scopeReg, m_jit.codeBlock(), callSiteIndex);
noResult(node);
break;
}
case ForceOSRExit: {
terminateSpeculativeExecution(InadequateCoverage, JSValueRegs(), 0);
break;
}
case InvalidationPoint:
emitInvalidationPoint(node);
break;
case CheckTraps:
if (Options::usePollingTraps())
compileCheckTraps(node);
else
noResult(node); break;
case CountExecution:
m_jit.add64(TrustedImm32(1), MacroAssembler::AbsoluteAddress(node->executionCounter()->address()));
break;
case Phantom:
case Check:
DFG_NODE_DO_TO_CHILDREN(m_jit.graph(), node, speculate);
noResult(node);
break;
case PhantomLocal:
case LoopHint:
noResult(node);
break;
case MaterializeNewObject:
compileMaterializeNewObject(node);
break;
case PutDynamicVar: {
compilePutDynamicVar(node);
break;
}
case GetDynamicVar: {
compileGetDynamicVar(node);
break;
}
case ResolveScopeForHoistingFuncDeclInEval: {
compileResolveScopeForHoistingFuncDeclInEval(node);
break;
}
case ResolveScope: {
compileResolveScope(node);
break;
}
case CallDOM:
compileCallDOM(node);
break;
case CallDOMGetter:
compileCallDOMGetter(node);
break;
case CheckSubClass:
compileCheckSubClass(node);
break;
case Unreachable:
unreachable(node);
break;
case CheckStructureOrEmpty:
DFG_CRASH(m_jit.graph(), node, "CheckStructureOrEmpty only used in 64-bit DFG");
break;
case LastNodeType:
case Phi:
case Upsilon:
case ExtractOSREntryLocal:
case CheckTierUpInLoop:
case CheckTierUpAtReturn:
case CheckTierUpAndOSREnter:
case Int52Rep:
case FiatInt52:
case Int52Constant:
case CheckInBounds:
case ArithIMul:
case MultiGetByOffset:
case MultiPutByOffset:
case CheckBadCell:
case BottomValue:
case PhantomNewObject:
case PhantomNewFunction:
case PhantomNewGeneratorFunction:
case PhantomNewAsyncFunction:
case PhantomCreateActivation:
case PutHint:
case CheckStructureImmediate:
case MaterializeCreateActivation:
case PutStack:
case KillStack:
case GetStack:
case GetMyArgumentByVal:
case GetMyArgumentByValOutOfBounds:
case GetVectorLength:
case PhantomCreateRest:
case PhantomSpread:
case PhantomNewArrayWithSpread:
case AtomicsIsLockFree:
case AtomicsAdd:
case AtomicsAnd:
case AtomicsCompareExchange:
case AtomicsExchange:
case AtomicsLoad:
case AtomicsOr:
case AtomicsStore:
case AtomicsSub:
case AtomicsXor:
DFG_CRASH(m_jit.graph(), node, "unexpected node in DFG backend");
break;
}
if (!m_compileOkay)
return;
if (node->hasResult() && node->mustGenerate())
use(node);
}
void SpeculativeJIT::moveTrueTo(GPRReg gpr)
{
m_jit.move(TrustedImm32(1), gpr);
}
void SpeculativeJIT::moveFalseTo(GPRReg gpr)
{
m_jit.move(TrustedImm32(0), gpr);
}
void SpeculativeJIT::blessBoolean(GPRReg)
{
}
void SpeculativeJIT::compileArithRandom(Node* node)
{
JSGlobalObject* globalObject = m_jit.graph().globalObjectFor(node->origin.semantic);
flushRegisters();
FPRResult result(this);
callOperation(operationRandom, result.fpr(), globalObject);
doubleResult(result.fpr(), node);
}
void SpeculativeJIT::emitInitializeButterfly(GPRReg storageGPR, GPRReg sizeGPR, JSValueRegs emptyValueRegs, GPRReg scratchGPR)
{
m_jit.move(sizeGPR, scratchGPR);
MacroAssembler::Jump done = m_jit.branchTest32(MacroAssembler::Zero, scratchGPR);
MacroAssembler::Label loop = m_jit.label();
m_jit.sub32(TrustedImm32(1), scratchGPR);
m_jit.store32(emptyValueRegs.tagGPR(), MacroAssembler::BaseIndex(storageGPR, scratchGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(emptyValueRegs.payloadGPR(), MacroAssembler::BaseIndex(storageGPR, scratchGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
m_jit.branchTest32(MacroAssembler::NonZero, scratchGPR).linkTo(loop, &m_jit);
done.link(&m_jit);
}
void SpeculativeJIT::compileAllocateNewArrayWithSize(JSGlobalObject* globalObject, GPRReg resultGPR, GPRReg sizeGPR, IndexingType indexingType, bool shouldConvertLargeSizeToArrayStorage)
{
GPRTemporary storage(this);
GPRTemporary scratch(this);
GPRTemporary scratch2(this);
GPRReg storageGPR = storage.gpr();
GPRReg scratchGPR = scratch.gpr();
GPRReg scratch2GPR = scratch2.gpr();
m_jit.move(TrustedImmPtr(0), storageGPR);
MacroAssembler::JumpList slowCases;
if (shouldConvertLargeSizeToArrayStorage)
slowCases.append(m_jit.branch32(MacroAssembler::AboveOrEqual, sizeGPR, TrustedImm32(MIN_ARRAY_STORAGE_CONSTRUCTION_LENGTH)));
emitAllocateButterfly(storageGPR, sizeGPR, scratchGPR, scratch2GPR, resultGPR, slowCases);
JSValue hole;
if (hasDouble(indexingType))
hole = JSValue(JSValue::EncodeAsDouble, PNaN);
else
hole = JSValue();
JSValueRegs emptyValueRegs(scratchGPR, scratch2GPR);
m_jit.move(TrustedImm32(hole.tag()), emptyValueRegs.tagGPR());
m_jit.move(TrustedImm32(hole.payload()), emptyValueRegs.payloadGPR());
emitInitializeButterfly(storageGPR, sizeGPR, emptyValueRegs, resultGPR);
RegisteredStructure structure = m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(indexingType));
emitAllocateJSObject<JSArray>(resultGPR, TrustedImmPtr(structure), storageGPR, scratchGPR, scratch2GPR, slowCases);
addSlowPathGenerator(std::make_unique<CallArrayAllocatorWithVariableSizeSlowPathGenerator>(
slowCases, this, operationNewArrayWithSize, resultGPR,
structure,
shouldConvertLargeSizeToArrayStorage ? m_jit.graph().registerStructure(globalObject->arrayStructureForIndexingTypeDuringAllocation(ArrayWithArrayStorage)) : structure,
sizeGPR, storageGPR));
}
#endif
} }
#endif