DFGSpeculativeJIT32_64.cpp [plain text]
#include "config.h"
#include "DFGSpeculativeJIT.h"
#if ENABLE(DFG_JIT)
#include "JSByteArray.h"
namespace JSC { namespace DFG {
#if USE(JSVALUE32_64)
GPRReg SpeculativeJIT::fillInteger(NodeIndex nodeIndex, DataFormat& returnFormat)
{
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
if (info.registerFormat() == DataFormatNone) {
GPRReg gpr = allocate();
if (node.hasConstant()) {
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
if (isInt32Constant(nodeIndex))
m_jit.move(MacroAssembler::Imm32(valueOfInt32Constant(nodeIndex)), gpr);
else if (isNumberConstant(nodeIndex))
ASSERT_NOT_REACHED();
else {
ASSERT(isJSConstant(nodeIndex));
JSValue jsValue = valueOfJSConstant(nodeIndex);
m_jit.move(MacroAssembler::Imm32(jsValue.payload()), gpr);
}
} else {
ASSERT(info.spillFormat() == DataFormatJS || info.spillFormat() == DataFormatJSInteger);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
}
info.fillInteger(gpr);
returnFormat = DataFormatInteger;
return gpr;
}
switch (info.registerFormat()) {
case DataFormatNone:
case DataFormatJSDouble:
case DataFormatDouble:
case DataFormatJS:
case DataFormatCell:
case DataFormatJSCell:
case DataFormatBoolean:
case DataFormatJSBoolean:
case DataFormatStorage:
ASSERT_NOT_REACHED();
case DataFormatJSInteger: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_jit.jitAssertIsJSInt32(tagGPR);
m_gprs.unlock(tagGPR);
m_gprs.lock(payloadGPR);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderInteger);
info.fillInteger(payloadGPR);
returnFormat = DataFormatInteger;
return payloadGPR;
}
case DataFormatInteger: {
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
m_jit.jitAssertIsInt32(gpr);
returnFormat = DataFormatInteger;
return gpr;
}
}
ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
FPRReg SpeculativeJIT::fillDouble(NodeIndex nodeIndex)
{
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
if (info.registerFormat() == DataFormatNone) {
if (node.hasConstant()) {
if (isInt32Constant(nodeIndex)) {
GPRReg gpr = allocate();
m_jit.move(MacroAssembler::Imm32(valueOfInt32Constant(nodeIndex)), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
info.fillInteger(gpr);
unlock(gpr);
} else if (isNumberConstant(nodeIndex)) {
FPRReg fpr = fprAllocate();
m_jit.loadDouble(addressOfDoubleConstant(nodeIndex), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderDouble);
info.fillDouble(fpr);
return fpr;
} else {
ASSERT_NOT_REACHED();
}
} else {
DataFormat spillFormat = info.spillFormat();
ASSERT(spillFormat & DataFormatJS);
if (spillFormat == DataFormatJSDouble) {
FPRReg fpr = fprAllocate();
m_jit.loadDouble(JITCompiler::addressFor(virtualRegister), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderSpilled);
info.fillDouble(fpr);
return fpr;
}
FPRReg fpr = fprAllocate();
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::Int32Tag));
m_jit.loadDouble(JITCompiler::addressFor(virtualRegister), fpr);
JITCompiler::Jump hasUnboxedDouble = m_jit.jump();
isInteger.link(&m_jit);
m_jit.convertInt32ToDouble(JITCompiler::payloadFor(virtualRegister), fpr);
hasUnboxedDouble.link(&m_jit);
m_fprs.retain(fpr, virtualRegister, SpillOrderSpilled);
info.fillDouble(fpr);
return fpr;
}
}
switch (info.registerFormat()) {
case DataFormatNone:
case DataFormatCell:
case DataFormatJSCell:
case DataFormatBoolean:
case DataFormatJSBoolean:
case DataFormatStorage:
ASSERT_NOT_REACHED();
case DataFormatJSInteger:
case DataFormatJS: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
FPRReg fpr = fprAllocate();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
JITCompiler::Jump hasUnboxedDouble;
if (info.registerFormat() != DataFormatJSInteger) {
FPRTemporary scratch(this);
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, tagGPR, TrustedImm32(JSValue::Int32Tag));
m_jit.jitAssertIsJSDouble(tagGPR);
unboxDouble(tagGPR, payloadGPR, fpr, scratch.fpr());
hasUnboxedDouble = m_jit.jump();
isInteger.link(&m_jit);
}
m_jit.convertInt32ToDouble(payloadGPR, fpr);
if (info.registerFormat() != DataFormatJSInteger)
hasUnboxedDouble.link(&m_jit);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.unlock(tagGPR);
m_gprs.unlock(payloadGPR);
m_fprs.retain(fpr, virtualRegister, SpillOrderDouble);
info.fillDouble(fpr);
info.killSpilled();
return fpr;
}
case DataFormatInteger: {
FPRReg fpr = fprAllocate();
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
m_jit.convertInt32ToDouble(gpr, fpr);
m_gprs.unlock(gpr);
return fpr;
}
case DataFormatJSDouble:
case DataFormatDouble: {
FPRReg fpr = info.fpr();
m_fprs.lock(fpr);
return fpr;
}
}
ASSERT_NOT_REACHED();
return InvalidFPRReg;
}
bool SpeculativeJIT::fillJSValue(NodeIndex nodeIndex, GPRReg& tagGPR, GPRReg& payloadGPR, FPRReg& fpr)
{
UNUSED_PARAM(fpr);
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
switch (info.registerFormat()) {
case DataFormatNone: {
if (node.hasConstant()) {
tagGPR = allocate();
payloadGPR = allocate();
m_jit.move(Imm32(valueOfJSConstant(nodeIndex).tag()), tagGPR);
m_jit.move(Imm32(valueOfJSConstant(nodeIndex).payload()), payloadGPR);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderConstant);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderConstant);
info.fillJSValue(tagGPR, payloadGPR, isInt32Constant(nodeIndex) ? DataFormatJSInteger : DataFormatJS);
} else {
DataFormat spillFormat = info.spillFormat();
ASSERT(spillFormat & DataFormatJS);
tagGPR = allocate();
payloadGPR = allocate();
m_jit.load32(JITCompiler::tagFor(virtualRegister), tagGPR);
m_jit.load32(JITCompiler::payloadFor(virtualRegister), payloadGPR);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderSpilled);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderSpilled);
info.fillJSValue(tagGPR, payloadGPR, spillFormat == DataFormatJSDouble ? DataFormatJS : spillFormat);
}
return true;
}
case DataFormatInteger:
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();
uint32_t tag = JSValue::EmptyValueTag;
DataFormat fillFormat = DataFormatJS;
switch (info.registerFormat()) {
case DataFormatInteger:
tag = JSValue::Int32Tag;
fillFormat = DataFormatJSInteger;
break;
case DataFormatCell:
tag = JSValue::CellTag;
fillFormat = DataFormatJSCell;
break;
case DataFormatBoolean:
tag = JSValue::BooleanTag;
fillFormat = DataFormatJSBoolean;
break;
default:
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(tagGPR, payloadGPR, fillFormat);
return true;
}
case DataFormatJSDouble:
case DataFormatDouble: {
FPRReg oldFPR = info.fpr();
m_fprs.lock(oldFPR);
tagGPR = allocate();
payloadGPR = allocate();
boxDouble(oldFPR, tagGPR, payloadGPR);
m_fprs.unlock(oldFPR);
m_fprs.release(oldFPR);
m_gprs.retain(tagGPR, virtualRegister, SpillOrderJS);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderJS);
info.fillJSValue(tagGPR, payloadGPR, DataFormatJS);
return true;
}
case DataFormatJS:
case DataFormatJSInteger:
case DataFormatJSCell:
case DataFormatJSBoolean: {
tagGPR = info.tagGPR();
payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
return true;
}
case DataFormatStorage:
ASSERT_NOT_REACHED();
}
ASSERT_NOT_REACHED();
return true;
}
void SpeculativeJIT::nonSpeculativeValueToNumber(Node& node)
{
if (isKnownNumeric(node.child1())) {
JSValueOperand op1(this, node.child1());
op1.fill();
if (op1.isDouble()) {
FPRTemporary result(this, op1);
m_jit.moveDouble(op1.fpr(), result.fpr());
doubleResult(result.fpr(), m_compileIndex);
} else {
GPRTemporary resultTag(this, op1);
GPRTemporary resultPayload(this, op1, false);
m_jit.move(op1.tagGPR(), resultTag.gpr());
m_jit.move(op1.payloadGPR(), resultPayload.gpr());
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
}
return;
}
JSValueOperand op1(this, node.child1());
GPRTemporary resultTag(this, op1);
GPRTemporary resultPayload(this, op1, false);
ASSERT(!isInt32Constant(node.child1()));
ASSERT(!isNumberConstant(node.child1()));
GPRReg tagGPR = op1.tagGPR();
GPRReg payloadGPR = op1.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
op1.use();
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, tagGPR, TrustedImm32(JSValue::Int32Tag));
JITCompiler::Jump nonNumeric = m_jit.branch32(MacroAssembler::AboveOrEqual, tagGPR, TrustedImm32(JSValue::LowestTag));
JITCompiler::Jump hasUnboxedDouble = m_jit.jump();
nonNumeric.link(&m_jit);
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
callOperation(dfgConvertJSValueToNumber, FPRInfo::returnValueFPR, tagGPR, payloadGPR);
boxDouble(FPRInfo::returnValueFPR, resultTagGPR, resultPayloadGPR);
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
JITCompiler::Jump hasCalledToNumber = m_jit.jump();
isInteger.link(&m_jit);
hasUnboxedDouble.link(&m_jit);
m_jit.move(tagGPR, resultTagGPR);
m_jit.move(payloadGPR, resultPayloadGPR);
hasCalledToNumber.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::nonSpeculativeValueToInt32(Node& node)
{
ASSERT(!isInt32Constant(node.child1()));
if (isKnownInteger(node.child1())) {
IntegerOperand op1(this, node.child1());
GPRTemporary result(this, op1);
m_jit.move(op1.gpr(), result.gpr());
integerResult(result.gpr(), m_compileIndex);
return;
}
GenerationInfo& childInfo = m_generationInfo[at(node.child1()).virtualRegister()];
if (childInfo.isJSDouble()) {
DoubleOperand op1(this, node.child1());
GPRTemporary result(this);
FPRReg fpr = op1.fpr();
GPRReg gpr = result.gpr();
op1.use();
JITCompiler::Jump truncatedToInteger = m_jit.branchTruncateDoubleToInt32(fpr, gpr, JITCompiler::BranchIfTruncateSuccessful);
silentSpillAllRegisters(gpr);
callOperation(toInt32, gpr, fpr);
silentFillAllRegisters(gpr);
truncatedToInteger.link(&m_jit);
integerResult(gpr, m_compileIndex, UseChildrenCalledExplicitly);
return;
}
JSValueOperand op1(this, node.child1());
GPRTemporary result(this);
GPRReg tagGPR = op1.tagGPR();
GPRReg payloadGPR = op1.payloadGPR();
GPRReg resultGPR = result.gpr();
op1.use();
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, tagGPR, TrustedImm32(JSValue::Int32Tag));
silentSpillAllRegisters(resultGPR);
callOperation(dfgConvertJSValueToInt32, GPRInfo::returnValueGPR, tagGPR, payloadGPR);
m_jit.move(GPRInfo::returnValueGPR, resultGPR);
silentFillAllRegisters(resultGPR);
JITCompiler::Jump hasCalledToInt32 = m_jit.jump();
isInteger.link(&m_jit);
m_jit.move(payloadGPR, resultGPR);
hasCalledToInt32.link(&m_jit);
integerResult(resultGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::nonSpeculativeUInt32ToNumber(Node& node)
{
IntegerOperand op1(this, node.child1());
FPRTemporary boxer(this);
GPRTemporary resultTag(this, op1);
GPRTemporary resultPayload(this);
JITCompiler::Jump positive = m_jit.branch32(MacroAssembler::GreaterThanOrEqual, op1.gpr(), TrustedImm32(0));
m_jit.convertInt32ToDouble(op1.gpr(), boxer.fpr());
m_jit.move(JITCompiler::TrustedImmPtr(&AssemblyHelpers::twoToThe32), resultPayload.gpr()); m_jit.addDouble(JITCompiler::Address(resultPayload.gpr(), 0), boxer.fpr());
boxDouble(boxer.fpr(), resultTag.gpr(), resultPayload.gpr());
JITCompiler::Jump done = m_jit.jump();
positive.link(&m_jit);
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTag.gpr());
m_jit.move(op1.gpr(), resultPayload.gpr());
done.link(&m_jit);
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
}
void SpeculativeJIT::nonSpeculativeKnownConstantArithOp(NodeType op, NodeIndex regChild, NodeIndex immChild, bool commute)
{
JSValueOperand regArg(this, regChild);
regArg.fill();
if (regArg.isDouble()) {
FPRReg regArgFPR = regArg.fpr();
FPRTemporary imm(this);
FPRTemporary result(this, regArg);
GPRTemporary scratch(this);
FPRReg immFPR = imm.fpr();
FPRReg resultFPR = result.fpr();
GPRReg scratchGPR = scratch.gpr();
use(regChild);
use(immChild);
int32_t imm32 = valueOfInt32Constant(immChild);
m_jit.move(TrustedImm32(imm32), scratchGPR);
m_jit.convertInt32ToDouble(scratchGPR, immFPR);
switch (op) {
case ValueAdd:
case ArithAdd:
m_jit.addDouble(regArgFPR, immFPR, resultFPR);
break;
case ArithSub:
m_jit.subDouble(regArgFPR, immFPR, resultFPR);
break;
default:
ASSERT_NOT_REACHED();
}
doubleResult(resultFPR, m_compileIndex, UseChildrenCalledExplicitly);
return;
}
GPRReg regArgTagGPR = regArg.tagGPR();
GPRReg regArgPayloadGPR = regArg.payloadGPR();
GPRTemporary resultTag(this, regArg);
GPRTemporary resultPayload(this, regArg, false);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
FPRTemporary tmp1(this);
FPRTemporary tmp2(this);
FPRReg tmp1FPR = tmp1.fpr();
FPRReg tmp2FPR = tmp2.fpr();
use(regChild);
use(immChild);
JITCompiler::Jump notInt;
int32_t imm = valueOfInt32Constant(immChild);
if (!isKnownNumeric(regChild))
notInt = m_jit.branch32(MacroAssembler::NotEqual, regArgTagGPR, TrustedImm32(JSValue::Int32Tag));
JITCompiler::Jump overflow;
switch (op) {
case ValueAdd:
case ArithAdd:
overflow = m_jit.branchAdd32(MacroAssembler::Overflow, regArgPayloadGPR, Imm32(imm), resultPayloadGPR);
break;
case ArithSub:
overflow = m_jit.branchSub32(MacroAssembler::Overflow, regArgPayloadGPR, Imm32(imm), resultPayloadGPR);
break;
default:
ASSERT_NOT_REACHED();
}
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTagGPR);
JITCompiler::Jump done = m_jit.jump();
overflow.link(&m_jit);
m_jit.convertInt32ToDouble(regArgPayloadGPR, tmp2FPR);
m_jit.move(TrustedImm32(imm), resultPayloadGPR);
m_jit.convertInt32ToDouble(resultPayloadGPR, tmp1FPR);
switch (op) {
case ValueAdd:
case ArithAdd:
m_jit.addDouble(tmp1FPR, tmp2FPR);
break;
case ArithSub:
m_jit.subDouble(tmp1FPR, tmp2FPR);
break;
default:
ASSERT_NOT_REACHED();
}
JITCompiler::Jump doneCaseConvertedToInt;
if (op == ValueAdd) {
JITCompiler::JumpList failureCases;
m_jit.branchConvertDoubleToInt32(tmp2FPR, resultPayloadGPR, failureCases, tmp1FPR);
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTagGPR);
doneCaseConvertedToInt = m_jit.jump();
failureCases.link(&m_jit);
}
boxDouble(tmp2FPR, resultTagGPR, resultPayloadGPR);
if (!isKnownNumeric(regChild)) {
ASSERT(notInt.isSet());
ASSERT(op == ValueAdd);
JITCompiler::Jump doneCaseWasNumber = m_jit.jump();
notInt.link(&m_jit);
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
if (commute)
callOperation(operationValueAddNotNumber, resultTagGPR, resultPayloadGPR, MacroAssembler::Imm32(imm), regArgTagGPR, regArgPayloadGPR);
else
callOperation(operationValueAddNotNumber, resultTagGPR, resultPayloadGPR, regArgTagGPR, regArgPayloadGPR, MacroAssembler::Imm32(imm));
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
doneCaseWasNumber.link(&m_jit);
}
done.link(&m_jit);
if (doneCaseConvertedToInt.isSet())
doneCaseConvertedToInt.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::nonSpeculativeBasicArithOp(NodeType op, Node &node)
{
JSValueOperand arg1(this, node.child1());
JSValueOperand arg2(this, node.child2());
arg1.fill();
arg2.fill();
if (arg1.isDouble() && arg2.isDouble()) {
FPRReg arg1FPR = arg1.fpr();
FPRReg arg2FPR = arg2.fpr();
FPRTemporary result(this, arg1);
arg1.use();
arg2.use();
switch (op) {
case ValueAdd:
case ArithAdd:
m_jit.addDouble(arg1FPR, arg2FPR, result.fpr());
break;
case ArithSub:
m_jit.subDouble(arg1FPR, arg2FPR, result.fpr());
break;
case ArithMul:
m_jit.mulDouble(arg1FPR, arg2FPR, result.fpr());
break;
default:
ASSERT_NOT_REACHED();
}
doubleResult(result.fpr(), m_compileIndex, UseChildrenCalledExplicitly);
return;
}
FPRTemporary tmp1(this);
FPRTemporary tmp2(this);
FPRReg tmp1FPR = tmp1.fpr();
FPRReg tmp2FPR = tmp2.fpr();
GPRTemporary resultTag(this, arg1.isDouble() ? arg2 : arg1);
GPRTemporary resultPayload(this, arg1.isDouble() ? arg2 : arg1, false);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg arg1TagGPR = InvalidGPRReg;
GPRReg arg1PayloadGPR = InvalidGPRReg;
GPRReg arg2TagGPR = InvalidGPRReg;
GPRReg arg2PayloadGPR = InvalidGPRReg;
GPRTemporary tmpTag(this);
GPRTemporary tmpPayload(this);
if (arg1.isDouble()) {
arg1TagGPR = tmpTag.gpr();
arg1PayloadGPR = tmpPayload.gpr();
boxDouble(arg1.fpr(), arg1TagGPR, arg1PayloadGPR);
arg2TagGPR = arg2.tagGPR();
arg2PayloadGPR = arg2.payloadGPR();
} else if (arg2.isDouble()) {
arg1TagGPR = arg1.tagGPR();
arg1PayloadGPR = arg1.payloadGPR();
arg2TagGPR = tmpTag.gpr();
arg2PayloadGPR = tmpPayload.gpr();
boxDouble(arg2.fpr(), arg2TagGPR, arg2PayloadGPR);
} else {
arg1TagGPR = arg1.tagGPR();
arg1PayloadGPR = arg1.payloadGPR();
arg2TagGPR = arg2.tagGPR();
arg2PayloadGPR = arg2.payloadGPR();
}
arg1.use();
arg2.use();
JITCompiler::Jump child1NotInt;
JITCompiler::Jump child2NotInt;
JITCompiler::JumpList overflow;
if (!isKnownInteger(node.child1()))
child1NotInt = m_jit.branch32(MacroAssembler::NotEqual, arg1TagGPR, TrustedImm32(JSValue::Int32Tag));
if (!isKnownInteger(node.child2()))
child2NotInt = m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, TrustedImm32(JSValue::Int32Tag));
switch (op) {
case ValueAdd:
case ArithAdd: {
overflow.append(m_jit.branchAdd32(MacroAssembler::Overflow, arg1PayloadGPR, arg2PayloadGPR, resultPayloadGPR));
break;
}
case ArithSub: {
overflow.append(m_jit.branchSub32(MacroAssembler::Overflow, arg1PayloadGPR, arg2PayloadGPR, resultPayloadGPR));
break;
}
case ArithMul: {
overflow.append(m_jit.branchMul32(MacroAssembler::Overflow, arg1PayloadGPR, arg2PayloadGPR, resultPayloadGPR));
overflow.append(m_jit.branchTest32(MacroAssembler::Zero, resultPayloadGPR));
break;
}
default:
ASSERT_NOT_REACHED();
}
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTagGPR);
JITCompiler::Jump done = m_jit.jump();
JITCompiler::JumpList haveFPRArguments;
overflow.link(&m_jit);
m_jit.convertInt32ToDouble(arg1PayloadGPR, tmp1FPR);
m_jit.convertInt32ToDouble(arg2PayloadGPR, tmp2FPR);
haveFPRArguments.append(m_jit.jump());
JITCompiler::JumpList notNumbers;
JITCompiler::Jump child2NotInt2;
if (!isKnownInteger(node.child1())) {
FPRTemporary scratch(this);
child1NotInt.link(&m_jit);
if (!isKnownNumeric(node.child1())) {
ASSERT(op == ValueAdd);
notNumbers.append(m_jit.branch32(MacroAssembler::AboveOrEqual, arg1TagGPR, TrustedImm32(JSValue::LowestTag)));
}
if (arg1.isDouble())
m_jit.moveDouble(arg1.fpr(), tmp1FPR);
else
unboxDouble(arg1TagGPR, arg1PayloadGPR, tmp1FPR, scratch.fpr());
if (!isKnownInteger(node.child2())) {
if (isKnownNumeric(node.child2()))
child2NotInt2 = m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, TrustedImm32(JSValue::Int32Tag));
else {
ASSERT(op == ValueAdd);
JITCompiler::Jump child2IsInt = m_jit.branch32(MacroAssembler::Equal, arg2TagGPR, TrustedImm32(JSValue::Int32Tag));
notNumbers.append(m_jit.branch32(MacroAssembler::AboveOrEqual, arg2TagGPR, TrustedImm32(JSValue::LowestTag)));
child2NotInt2 = m_jit.jump();
child2IsInt.link(&m_jit);
}
}
m_jit.convertInt32ToDouble(arg2PayloadGPR, tmp2FPR);
haveFPRArguments.append(m_jit.jump());
}
if (!isKnownInteger(node.child2())) {
FPRTemporary scratch(this);
child2NotInt.link(&m_jit);
if (!isKnownNumeric(node.child2())) {
ASSERT(op == ValueAdd);
notNumbers.append(m_jit.branch32(MacroAssembler::AboveOrEqual, arg2TagGPR, TrustedImm32(JSValue::LowestTag)));
}
m_jit.convertInt32ToDouble(arg1PayloadGPR, tmp1FPR);
if (child2NotInt2.isSet())
child2NotInt2.link(&m_jit);
if (arg2.isDouble())
m_jit.moveDouble(arg2.fpr(), tmp2FPR);
else
unboxDouble(arg2TagGPR, arg2PayloadGPR, tmp2FPR, scratch.fpr());
}
haveFPRArguments.link(&m_jit);
switch (op) {
case ValueAdd:
case ArithAdd:
m_jit.addDouble(tmp2FPR, tmp1FPR);
break;
case ArithSub:
m_jit.subDouble(tmp2FPR, tmp1FPR);
break;
case ArithMul:
m_jit.mulDouble(tmp2FPR, tmp1FPR);
break;
default:
ASSERT_NOT_REACHED();
}
JITCompiler::Jump doneCaseConvertedToInt;
if (op == ValueAdd) {
JITCompiler::JumpList failureCases;
m_jit.branchConvertDoubleToInt32(tmp1FPR, resultPayloadGPR, failureCases, tmp2FPR);
m_jit.move(TrustedImm32(JSValue::Int32Tag), resultTagGPR);
doneCaseConvertedToInt = m_jit.jump();
failureCases.link(&m_jit);
}
boxDouble(tmp1FPR, resultTagGPR, resultPayloadGPR);
if (!notNumbers.empty()) {
ASSERT(op == ValueAdd);
JITCompiler::Jump doneCaseWasNumber = m_jit.jump();
notNumbers.link(&m_jit);
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
callOperation(operationValueAddNotNumber, resultTagGPR, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
doneCaseWasNumber.link(&m_jit);
}
done.link(&m_jit);
if (doneCaseConvertedToInt.isSet())
doneCaseConvertedToInt.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
JITCompiler::Call SpeculativeJIT::cachedGetById(CodeOrigin codeOrigin, GPRReg baseTagGPROrNone, GPRReg basePayloadGPR, GPRReg resultTagGPR, GPRReg resultPayloadGPR, GPRReg scratchGPR, unsigned identifierNumber, JITCompiler::Jump slowPathTarget, SpillRegistersMode spillMode)
{
m_jit.beginUninterruptedSequence();
JITCompiler::DataLabelPtr structureToCompare;
JITCompiler::Jump structureCheck = m_jit.branchPtrWithPatch(JITCompiler::NotEqual, JITCompiler::Address(basePayloadGPR, JSCell::structureOffset()), structureToCompare, JITCompiler::TrustedImmPtr(reinterpret_cast<void*>(-1)));
m_jit.endUninterruptedSequence();
m_jit.loadPtr(JITCompiler::Address(basePayloadGPR, JSObject::offsetOfPropertyStorage()), resultPayloadGPR);
JITCompiler::DataLabelCompact tagLoadWithPatch = m_jit.load32WithCompactAddressOffsetPatch(JITCompiler::Address(resultPayloadGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR);
JITCompiler::DataLabelCompact payloadLoadWithPatch = m_jit.load32WithCompactAddressOffsetPatch(JITCompiler::Address(resultPayloadGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
JITCompiler::Jump done = m_jit.jump();
structureCheck.link(&m_jit);
if (slowPathTarget.isSet())
slowPathTarget.link(&m_jit);
JITCompiler::Label slowCase = m_jit.label();
if (spillMode == NeedToSpill)
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
JITCompiler::Call functionCall;
if (baseTagGPROrNone == InvalidGPRReg)
functionCall = callOperation(operationGetByIdOptimize, resultTagGPR, resultPayloadGPR, JSValue::CellTag, basePayloadGPR, identifier(identifierNumber));
else
functionCall = callOperation(operationGetByIdOptimize, resultTagGPR, resultPayloadGPR, baseTagGPROrNone, basePayloadGPR, identifier(identifierNumber));
if (spillMode == NeedToSpill)
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
done.link(&m_jit);
JITCompiler::Label doneLabel = m_jit.label();
m_jit.addPropertyAccess(PropertyAccessRecord(codeOrigin, structureToCompare, functionCall, structureCheck, tagLoadWithPatch, payloadLoadWithPatch, slowCase, doneLabel, safeCast<int8_t>(basePayloadGPR), safeCast<int8_t>(resultTagGPR), safeCast<int8_t>(resultPayloadGPR), safeCast<int8_t>(scratchGPR), spillMode == NeedToSpill ? PropertyAccessRecord::RegistersInUse : PropertyAccessRecord::RegistersFlushed));
return functionCall;
}
void SpeculativeJIT::cachedPutById(CodeOrigin codeOrigin, GPRReg basePayloadGPR, GPRReg valueTagGPR, GPRReg valuePayloadGPR, NodeIndex valueIndex, GPRReg scratchGPR, unsigned identifierNumber, PutKind putKind, JITCompiler::Jump slowPathTarget)
{
m_jit.beginUninterruptedSequence();
JITCompiler::DataLabelPtr structureToCompare;
JITCompiler::Jump structureCheck = m_jit.branchPtrWithPatch(JITCompiler::NotEqual, JITCompiler::Address(basePayloadGPR, JSCell::structureOffset()), structureToCompare, JITCompiler::TrustedImmPtr(reinterpret_cast<void*>(-1)));
m_jit.endUninterruptedSequence();
writeBarrier(basePayloadGPR, valueTagGPR, valueIndex, WriteBarrierForPropertyAccess, scratchGPR);
m_jit.loadPtr(JITCompiler::Address(basePayloadGPR, JSObject::offsetOfPropertyStorage()), scratchGPR);
JITCompiler::DataLabel32 tagStoreWithPatch = m_jit.store32WithAddressOffsetPatch(valueTagGPR, JITCompiler::Address(scratchGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
JITCompiler::DataLabel32 payloadStoreWithPatch = m_jit.store32WithAddressOffsetPatch(valuePayloadGPR, JITCompiler::Address(scratchGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
JITCompiler::Jump done = m_jit.jump();
structureCheck.link(&m_jit);
if (slowPathTarget.isSet())
slowPathTarget.link(&m_jit);
JITCompiler::Label slowCase = m_jit.label();
silentSpillAllRegisters(InvalidGPRReg);
V_DFGOperation_EJCI optimizedCall;
if (m_jit.strictModeFor(at(m_compileIndex).codeOrigin)) {
if (putKind == Direct)
optimizedCall = operationPutByIdDirectStrictOptimize;
else
optimizedCall = operationPutByIdStrictOptimize;
} else {
if (putKind == Direct)
optimizedCall = operationPutByIdDirectNonStrictOptimize;
else
optimizedCall = operationPutByIdNonStrictOptimize;
}
JITCompiler::Call functionCall = callOperation(optimizedCall, valueTagGPR, valuePayloadGPR, basePayloadGPR, identifier(identifierNumber));
silentFillAllRegisters(InvalidGPRReg);
done.link(&m_jit);
JITCompiler::Label doneLabel = m_jit.label();
m_jit.addPropertyAccess(PropertyAccessRecord(codeOrigin, structureToCompare, functionCall, structureCheck, JITCompiler::DataLabelCompact(tagStoreWithPatch.label()), JITCompiler::DataLabelCompact(payloadStoreWithPatch.label()), slowCase, doneLabel, safeCast<int8_t>(basePayloadGPR), safeCast<int8_t>(valueTagGPR), safeCast<int8_t>(valuePayloadGPR), safeCast<int8_t>(scratchGPR)));
}
void SpeculativeJIT::nonSpeculativeNonPeepholeCompareNull(NodeIndex operand, bool invert)
{
JSValueOperand arg(this, operand);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
GPRTemporary resultPayload(this, arg, false);
GPRReg resultPayloadGPR = resultPayload.gpr();
JITCompiler::Jump notCell;
if (!isKnownCell(operand))
notCell = m_jit.branch32(MacroAssembler::NotEqual, argTagGPR, TrustedImm32(JSValue::CellTag));
m_jit.loadPtr(JITCompiler::Address(argPayloadGPR, JSCell::structureOffset()), resultPayloadGPR);
m_jit.test8(invert ? JITCompiler::Zero : JITCompiler::NonZero, JITCompiler::Address(resultPayloadGPR, Structure::typeInfoFlagsOffset()), JITCompiler::TrustedImm32(MasqueradesAsUndefined), resultPayloadGPR);
if (!isKnownCell(operand)) {
JITCompiler::Jump done = m_jit.jump();
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
m_jit.move(argTagGPR, resultPayloadGPR);
m_jit.or32(TrustedImm32(1), resultPayloadGPR);
m_jit.compare32(invert ? JITCompiler::NotEqual : JITCompiler::Equal, resultPayloadGPR, TrustedImm32(JSValue::NullTag), resultPayloadGPR);
done.link(&m_jit);
}
booleanResult(resultPayloadGPR, m_compileIndex);
}
void SpeculativeJIT::nonSpeculativePeepholeBranchNull(NodeIndex operand, NodeIndex branchNodeIndex, bool invert)
{
Node& branchNode = at(branchNodeIndex);
BlockIndex taken = branchNode.takenBlockIndex();
BlockIndex notTaken = branchNode.notTakenBlockIndex();
if (taken == (m_block + 1)) {
invert = !invert;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
JSValueOperand arg(this, operand);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
GPRTemporary result(this, arg);
GPRReg resultGPR = result.gpr();
JITCompiler::Jump notCell;
if (!isKnownCell(operand))
notCell = m_jit.branch32(MacroAssembler::NotEqual, argTagGPR, TrustedImm32(JSValue::CellTag));
m_jit.loadPtr(JITCompiler::Address(argPayloadGPR, JSCell::structureOffset()), resultGPR);
addBranch(m_jit.branchTest8(invert ? JITCompiler::Zero : JITCompiler::NonZero, JITCompiler::Address(resultGPR, Structure::typeInfoFlagsOffset()), JITCompiler::TrustedImm32(MasqueradesAsUndefined)), taken);
if (!isKnownCell(operand)) {
addBranch(m_jit.jump(), notTaken);
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
m_jit.move(argTagGPR, resultGPR);
m_jit.or32(TrustedImm32(1), resultGPR);
addBranch(m_jit.branch32(invert ? JITCompiler::NotEqual : JITCompiler::Equal, resultGPR, JITCompiler::TrustedImm32(JSValue::NullTag)), taken);
}
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
}
bool SpeculativeJIT::nonSpeculativeCompareNull(Node& node, NodeIndex operand, bool invert)
{
NodeIndex branchNodeIndex = detectPeepHoleBranch();
if (branchNodeIndex != NoNode) {
ASSERT(node.adjustedRefCount() == 1);
nonSpeculativePeepholeBranchNull(operand, branchNodeIndex, invert);
use(node.child1());
use(node.child2());
m_compileIndex = branchNodeIndex;
return true;
}
nonSpeculativeNonPeepholeCompareNull(operand, invert);
return false;
}
void SpeculativeJIT::nonSpeculativePeepholeBranch(Node& node, NodeIndex branchNodeIndex, MacroAssembler::RelationalCondition cond, S_DFGOperation_EJJ helperFunction)
{
Node& branchNode = at(branchNodeIndex);
BlockIndex taken = branchNode.takenBlockIndex();
BlockIndex notTaken = branchNode.notTakenBlockIndex();
JITCompiler::ResultCondition callResultCondition = JITCompiler::NonZero;
if (taken == (m_block + 1)) {
cond = JITCompiler::invert(cond);
callResultCondition = JITCompiler::Zero;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
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()) || isKnownNotInteger(node.child2())) {
GPRResult result(this);
GPRReg resultGPR = result.gpr();
arg1.use();
arg2.use();
flushRegisters();
callOperation(helperFunction, resultGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
addBranch(m_jit.branchTest32(callResultCondition, resultGPR), taken);
} else {
GPRTemporary result(this);
GPRReg resultGPR = result.gpr();
arg1.use();
arg2.use();
if (!isKnownInteger(node.child1()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg1TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
if (!isKnownInteger(node.child2()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
addBranch(m_jit.branch32(cond, arg1PayloadGPR, arg2PayloadGPR), taken);
if (!isKnownInteger(node.child1()) || !isKnownInteger(node.child2())) {
addBranch(m_jit.jump(), notTaken);
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
callOperation(helperFunction, resultGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultGPR);
addBranch(m_jit.branchTest32(callResultCondition, resultGPR), taken);
}
}
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
}
void SpeculativeJIT::nonSpeculativeNonPeepholeCompare(Node& node, MacroAssembler::RelationalCondition cond, S_DFGOperation_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()) || isKnownNotInteger(node.child2())) {
GPRResult result(this);
GPRReg resultPayloadGPR = result.gpr();
arg1.use();
arg2.use();
flushRegisters();
callOperation(helperFunction, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
booleanResult(resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
} else {
GPRTemporary resultPayload(this, arg1, false);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (!isKnownInteger(node.child1()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg1TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
if (!isKnownInteger(node.child2()))
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, arg2TagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag)));
m_jit.compare32(cond, arg1PayloadGPR, arg2PayloadGPR, resultPayloadGPR);
if (!isKnownInteger(node.child1()) || !isKnownInteger(node.child2())) {
JITCompiler::Jump haveResult = m_jit.jump();
slowPath.link(&m_jit);
silentSpillAllRegisters(resultPayloadGPR);
callOperation(helperFunction, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
m_jit.andPtr(TrustedImm32(1), resultPayloadGPR);
haveResult.link(&m_jit);
}
booleanResult(resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
}
void SpeculativeJIT::nonSpeculativePeepholeStrictEq(Node& node, NodeIndex branchNodeIndex, bool invert)
{
Node& branchNode = at(branchNodeIndex);
BlockIndex taken = branchNode.takenBlockIndex();
BlockIndex notTaken = branchNode.notTakenBlockIndex();
if (taken == (m_block + 1)) {
invert = !invert;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
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();
GPRTemporary resultPayload(this, arg1, false);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (isKnownCell(node.child1()) && isKnownCell(node.child2())) {
addBranch(m_jit.branchPtr(JITCompiler::Equal, arg1PayloadGPR, arg2PayloadGPR), invert ? notTaken : taken);
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEqCell, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
addBranch(m_jit.branchTest32(invert ? JITCompiler::Zero : JITCompiler::NonZero, resultPayloadGPR), taken);
} else {
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEq, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
addBranch(m_jit.branchTest32(invert ? JITCompiler::Zero : JITCompiler::NonZero, resultPayloadGPR), taken);
}
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
}
void SpeculativeJIT::nonSpeculativeNonPeepholeStrictEq(Node& node, bool invert)
{
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();
GPRTemporary resultPayload(this, arg1, false);
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
arg2.use();
if (isKnownCell(node.child1()) && isKnownCell(node.child2())) {
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, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
m_jit.andPtr(JITCompiler::TrustedImm32(1), resultPayloadGPR);
done.link(&m_jit);
} else {
silentSpillAllRegisters(resultPayloadGPR);
callOperation(operationCompareStrictEq, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR, arg2TagGPR, arg2PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
m_jit.andPtr(JITCompiler::TrustedImm32(1), resultPayloadGPR);
}
booleanResult(resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::emitCall(Node& node)
{
P_DFGOperation_E slowCallFunction;
if (node.op == Call)
slowCallFunction = operationLinkCall;
else {
ASSERT(node.op == Construct);
slowCallFunction = operationLinkConstruct;
}
int dummyThisArgument = node.op == Call ? 0 : 1;
CallLinkInfo::CallType callType = node.op == Call ? CallLinkInfo::Call : CallLinkInfo::Construct;
NodeIndex calleeNodeIndex = m_jit.graph().m_varArgChildren[node.firstChild()];
JSValueOperand callee(this, calleeNodeIndex);
GPRReg calleeTagGPR = callee.tagGPR();
GPRReg calleePayloadGPR = callee.payloadGPR();
use(calleeNodeIndex);
int numPassedArgs = node.numChildren() - 1;
m_jit.store32(MacroAssembler::TrustedImm32(numPassedArgs + dummyThisArgument), callFramePayloadSlot(RegisterFile::ArgumentCount));
m_jit.storePtr(GPRInfo::callFrameRegister, callFramePayloadSlot(RegisterFile::CallerFrame));
m_jit.store32(calleePayloadGPR, callFramePayloadSlot(RegisterFile::Callee));
m_jit.store32(calleeTagGPR, callFrameTagSlot(RegisterFile::Callee));
for (int i = 0; i < numPassedArgs; i++) {
NodeIndex argNodeIndex = m_jit.graph().m_varArgChildren[node.firstChild() + 1 + i];
JSValueOperand arg(this, argNodeIndex);
GPRReg argTagGPR = arg.tagGPR();
GPRReg argPayloadGPR = arg.payloadGPR();
use(argNodeIndex);
m_jit.store32(argTagGPR, argumentTagSlot(i + dummyThisArgument));
m_jit.store32(argPayloadGPR, argumentPayloadSlot(i + dummyThisArgument));
}
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg resultTagGPR = resultTag.gpr();
JITCompiler::DataLabelPtr targetToCheck;
JITCompiler::JumpList slowPath;
slowPath.append(m_jit.branchPtrWithPatch(MacroAssembler::NotEqual, calleePayloadGPR, targetToCheck));
slowPath.append(m_jit.branch32(MacroAssembler::NotEqual, calleeTagGPR, TrustedImm32(JSValue::CellTag)));
m_jit.loadPtr(MacroAssembler::Address(calleePayloadGPR, OBJECT_OFFSETOF(JSFunction, m_scopeChain)), resultPayloadGPR);
m_jit.storePtr(resultPayloadGPR, callFramePayloadSlot(RegisterFile::ScopeChain));
m_jit.store32(MacroAssembler::TrustedImm32(JSValue::CellTag), callFrameTagSlot(RegisterFile::ScopeChain));
m_jit.addPtr(Imm32(m_jit.codeBlock()->m_numCalleeRegisters * sizeof(Register)), GPRInfo::callFrameRegister);
CodeOrigin codeOrigin = at(m_compileIndex).codeOrigin;
CallBeginToken token = m_jit.nextCallBeginToken(codeOrigin);
JITCompiler::Call fastCall = m_jit.nearCall();
m_jit.notifyCall(fastCall, codeOrigin, token);
JITCompiler::Jump done = m_jit.jump();
slowPath.link(&m_jit);
m_jit.addPtr(Imm32(m_jit.codeBlock()->m_numCalleeRegisters * sizeof(Register)), GPRInfo::callFrameRegister, GPRInfo::argumentGPR0);
m_jit.poke(GPRInfo::argumentGPR0);
token = m_jit.beginCall(codeOrigin);
JITCompiler::Call slowCall = m_jit.appendCall(slowCallFunction);
m_jit.addFastExceptionCheck(slowCall, codeOrigin, token);
m_jit.addPtr(Imm32(m_jit.codeBlock()->m_numCalleeRegisters * sizeof(Register)), GPRInfo::callFrameRegister);
token = m_jit.nextCallBeginToken(codeOrigin);
JITCompiler::Call theCall = m_jit.call(GPRInfo::returnValueGPR);
m_jit.notifyCall(theCall, codeOrigin, token);
done.link(&m_jit);
m_jit.setupResults(resultPayloadGPR, resultTagGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, DataFormatJS, UseChildrenCalledExplicitly);
m_jit.addJSCall(fastCall, slowCall, targetToCheck, callType, at(m_compileIndex).codeOrigin);
}
template<bool strict>
GPRReg SpeculativeJIT::fillSpeculateIntInternal(NodeIndex nodeIndex, DataFormat& returnFormat)
{
#if DFG_ENABLE(DEBUG_VERBOSE)
fprintf(stderr, "SpecInt@%d ", nodeIndex);
#endif
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
switch (info.registerFormat()) {
case DataFormatNone: {
GPRReg gpr = allocate();
if (node.hasConstant()) {
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
if (isInt32Constant(nodeIndex)) {
m_jit.move(MacroAssembler::Imm32(valueOfInt32Constant(nodeIndex)), gpr);
info.fillInteger(gpr);
returnFormat = DataFormatInteger;
return gpr;
}
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
returnFormat = DataFormatInteger;
return allocate();
}
DataFormat spillFormat = info.spillFormat();
ASSERT(spillFormat & DataFormatJS);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
if (spillFormat != DataFormatJSInteger)
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::Int32Tag)));
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
info.fillInteger(gpr);
returnFormat = DataFormatInteger;
return gpr;
}
case DataFormatJSInteger:
case DataFormatJS: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
if (info.registerFormat() != DataFormatJSInteger)
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), nodeIndex, 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.fillInteger(payloadGPR);
returnFormat = DataFormatInteger;
return payloadGPR;
}
case DataFormatInteger: {
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
returnFormat = DataFormatInteger;
return gpr;
}
case DataFormatDouble:
case DataFormatCell:
case DataFormatBoolean:
case DataFormatJSDouble:
case DataFormatJSCell:
case DataFormatJSBoolean: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
returnFormat = DataFormatInteger;
return allocate();
}
case DataFormatStorage:
ASSERT_NOT_REACHED();
}
ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
GPRReg SpeculativeJIT::fillSpeculateInt(NodeIndex nodeIndex, DataFormat& returnFormat)
{
return fillSpeculateIntInternal<false>(nodeIndex, returnFormat);
}
GPRReg SpeculativeJIT::fillSpeculateIntStrict(NodeIndex nodeIndex)
{
DataFormat mustBeDataFormatInteger;
GPRReg result = fillSpeculateIntInternal<true>(nodeIndex, mustBeDataFormatInteger);
ASSERT(mustBeDataFormatInteger == DataFormatInteger);
return result;
}
FPRReg SpeculativeJIT::fillSpeculateDouble(NodeIndex nodeIndex)
{
#if DFG_ENABLE(DEBUG_VERBOSE)
fprintf(stderr, "SpecDouble@%d ", nodeIndex);
#endif
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
if (info.registerFormat() == DataFormatNone) {
if (node.hasConstant()) {
if (isInt32Constant(nodeIndex)) {
GPRReg gpr = allocate();
m_jit.move(MacroAssembler::Imm32(valueOfInt32Constant(nodeIndex)), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
info.fillInteger(gpr);
unlock(gpr);
} else if (isNumberConstant(nodeIndex)) {
FPRReg fpr = fprAllocate();
m_jit.loadDouble(addressOfDoubleConstant(nodeIndex), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderConstant);
info.fillDouble(fpr);
return fpr;
} else {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return fprAllocate();
}
} else {
DataFormat spillFormat = info.spillFormat();
ASSERT(spillFormat & DataFormatJS);
if (spillFormat == DataFormatJSDouble) {
FPRReg fpr = fprAllocate();
m_jit.loadDouble(JITCompiler::addressFor(virtualRegister), fpr);
m_fprs.retain(fpr, virtualRegister, SpillOrderSpilled);
info.fillDouble(fpr);
return fpr;
}
FPRReg fpr = fprAllocate();
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::Int32Tag));
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), nodeIndex, m_jit.branch32(MacroAssembler::AboveOrEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::LowestTag)));
m_jit.loadDouble(JITCompiler::addressFor(virtualRegister), fpr);
JITCompiler::Jump hasUnboxedDouble = m_jit.jump();
isInteger.link(&m_jit);
m_jit.convertInt32ToDouble(JITCompiler::payloadFor(virtualRegister), fpr);
hasUnboxedDouble.link(&m_jit);
m_fprs.retain(fpr, virtualRegister, SpillOrderSpilled);
info.fillDouble(fpr);
return fpr;
}
}
switch (info.registerFormat()) {
case DataFormatNone:
case DataFormatBoolean:
case DataFormatStorage:
ASSERT_NOT_REACHED();
case DataFormatCell:
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return fprAllocate();
case DataFormatJSCell:
case DataFormatJS:
case DataFormatJSInteger:
case DataFormatJSBoolean: {
GPRReg tagGPR = info.tagGPR();
GPRReg payloadGPR = info.payloadGPR();
FPRReg fpr = fprAllocate();
m_gprs.lock(tagGPR);
m_gprs.lock(payloadGPR);
JITCompiler::Jump hasUnboxedDouble;
if (info.registerFormat() != DataFormatJSInteger) {
FPRTemporary scratch(this);
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, tagGPR, TrustedImm32(JSValue::Int32Tag));
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), nodeIndex, m_jit.branch32(MacroAssembler::AboveOrEqual, tagGPR, TrustedImm32(JSValue::LowestTag)));
unboxDouble(tagGPR, payloadGPR, fpr, scratch.fpr());
hasUnboxedDouble = m_jit.jump();
isInteger.link(&m_jit);
}
m_jit.convertInt32ToDouble(payloadGPR, fpr);
if (info.registerFormat() != DataFormatJSInteger)
hasUnboxedDouble.link(&m_jit);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.unlock(tagGPR);
m_gprs.unlock(payloadGPR);
m_fprs.retain(fpr, virtualRegister, SpillOrderDouble);
info.fillDouble(fpr);
info.killSpilled();
return fpr;
}
case DataFormatInteger: {
FPRReg fpr = fprAllocate();
GPRReg gpr = info.gpr();
m_gprs.lock(gpr);
m_jit.convertInt32ToDouble(gpr, fpr);
m_gprs.unlock(gpr);
return fpr;
}
case DataFormatJSDouble:
case DataFormatDouble: {
FPRReg fpr = info.fpr();
m_fprs.lock(fpr);
return fpr;
}
}
ASSERT_NOT_REACHED();
return InvalidFPRReg;
}
GPRReg SpeculativeJIT::fillSpeculateCell(NodeIndex nodeIndex)
{
#if DFG_ENABLE(DEBUG_VERBOSE)
fprintf(stderr, "SpecCell@%d ", nodeIndex);
#endif
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
switch (info.registerFormat()) {
case DataFormatNone: {
GPRReg gpr = allocate();
if (node.hasConstant()) {
JSValue jsValue = valueOfJSConstant(nodeIndex);
if (jsValue.isCell()) {
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
m_jit.move(MacroAssembler::TrustedImmPtr(jsValue.asCell()), gpr);
info.fillCell(gpr);
return gpr;
}
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return gpr;
}
ASSERT(info.spillFormat() & DataFormatJS);
if (info.spillFormat() != DataFormatJSCell)
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::CellTag)));
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
info.fillCell(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 (info.spillFormat() != DataFormatJSCell)
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, tagGPR, TrustedImm32(JSValue::CellTag)));
m_gprs.unlock(tagGPR);
m_gprs.release(tagGPR);
m_gprs.release(payloadGPR);
m_gprs.retain(payloadGPR, virtualRegister, SpillOrderCell);
info.fillCell(payloadGPR);
return payloadGPR;
}
case DataFormatJSInteger:
case DataFormatInteger:
case DataFormatJSDouble:
case DataFormatDouble:
case DataFormatJSBoolean:
case DataFormatBoolean: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return allocate();
}
case DataFormatStorage:
ASSERT_NOT_REACHED();
}
ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
GPRReg SpeculativeJIT::fillSpeculateBoolean(NodeIndex nodeIndex)
{
#if DFG_ENABLE(DEBUG_VERBOSE)
fprintf(stderr, "SpecBool@%d ", nodeIndex);
#endif
Node& node = at(nodeIndex);
VirtualRegister virtualRegister = node.virtualRegister();
GenerationInfo& info = m_generationInfo[virtualRegister];
switch (info.registerFormat()) {
case DataFormatNone: {
GPRReg gpr = allocate();
if (node.hasConstant()) {
JSValue jsValue = valueOfJSConstant(nodeIndex);
if (jsValue.isBoolean()) {
m_gprs.retain(gpr, virtualRegister, SpillOrderConstant);
m_jit.move(MacroAssembler::TrustedImm32(jsValue.asBoolean()), gpr);
info.fillBoolean(gpr);
return gpr;
}
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return gpr;
}
ASSERT(info.spillFormat() & DataFormatJS);
m_gprs.retain(gpr, virtualRegister, SpillOrderSpilled);
if (info.spillFormat() != DataFormatJSBoolean)
speculationCheck(BadType, JSValueSource(JITCompiler::addressFor(virtualRegister)), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, JITCompiler::tagFor(virtualRegister), TrustedImm32(JSValue::BooleanTag)));
m_jit.load32(JITCompiler::payloadFor(virtualRegister), gpr);
info.fillBoolean(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 (info.registerFormat() != DataFormatJSBoolean)
speculationCheck(BadType, JSValueRegs(tagGPR, payloadGPR), nodeIndex, 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(payloadGPR);
return payloadGPR;
}
case DataFormatJSInteger:
case DataFormatInteger:
case DataFormatJSDouble:
case DataFormatDouble:
case DataFormatJSCell:
case DataFormatCell: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
return allocate();
}
case DataFormatStorage:
ASSERT_NOT_REACHED();
}
ASSERT_NOT_REACHED();
return InvalidGPRReg;
}
JITCompiler::Jump SpeculativeJIT::convertToDouble(JSValueOperand& op, FPRReg result)
{
FPRTemporary scratch(this);
JITCompiler::Jump isInteger = m_jit.branch32(MacroAssembler::Equal, op.tagGPR(), TrustedImm32(JSValue::Int32Tag));
JITCompiler::Jump notNumber = m_jit.branch32(MacroAssembler::AboveOrEqual, op.payloadGPR(), TrustedImm32(JSValue::LowestTag));
unboxDouble(op.tagGPR(), op.payloadGPR(), result, scratch.fpr());
JITCompiler::Jump done = m_jit.jump();
isInteger.link(&m_jit);
m_jit.convertInt32ToDouble(op.payloadGPR(), result);
done.link(&m_jit);
return notNumber;
}
void SpeculativeJIT::compileObjectEquality(Node& node, void* vptr, PredictionChecker predictionCheck)
{
SpeculateCellOperand op1(this, node.child1());
SpeculateCellOperand op2(this, node.child2());
GPRTemporary resultPayload(this, op2);
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
if (!predictionCheck(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(op1GPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(op1GPR), MacroAssembler::TrustedImmPtr(vptr)));
if (!predictionCheck(m_state.forNode(node.child2()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(op2GPR), node.child2(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(op2GPR), MacroAssembler::TrustedImmPtr(vptr)));
MacroAssembler::Jump falseCase = m_jit.branchPtr(MacroAssembler::NotEqual, op1GPR, op2GPR);
m_jit.move(Imm32(1), resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
falseCase.link(&m_jit);
m_jit.move(Imm32(0), resultPayloadGPR);
done.link(&m_jit);
booleanResult(resultPayloadGPR, m_compileIndex);
}
void SpeculativeJIT::compileIntegerCompare(Node& node, MacroAssembler::RelationalCondition condition)
{
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary resultPayload(this);
m_jit.compare32(condition, op1.gpr(), op2.gpr(), resultPayload.gpr());
booleanResult(resultPayload.gpr(), m_compileIndex);
}
void SpeculativeJIT::compileDoubleCompare(Node& node, MacroAssembler::DoubleCondition condition)
{
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
GPRTemporary resultPayload(this);
m_jit.move(Imm32(1), resultPayload.gpr());
MacroAssembler::Jump trueCase = m_jit.branchDouble(condition, op1.fpr(), op2.fpr());
m_jit.move(Imm32(0), resultPayload.gpr());
trueCase.link(&m_jit);
booleanResult(resultPayload.gpr(), m_compileIndex);
}
void SpeculativeJIT::compileValueAdd(Node& node)
{
JSValueOperand op1(this, node.child1());
JSValueOperand op2(this, node.child2());
GPRReg op1TagGPR = op1.tagGPR();
GPRReg op1PayloadGPR = op1.payloadGPR();
GPRReg op2TagGPR = op2.tagGPR();
GPRReg op2PayloadGPR = op2.payloadGPR();
flushRegisters();
GPRResult2 resultTag(this);
GPRResult resultPayload(this);
if (isKnownNotNumber(node.child1()) || isKnownNotNumber(node.child2()))
callOperation(operationValueAddNotNumber, resultTag.gpr(), resultPayload.gpr(), op1TagGPR, op1PayloadGPR, op2TagGPR, op2PayloadGPR);
else
callOperation(operationValueAdd, resultTag.gpr(), resultPayload.gpr(), op1TagGPR, op1PayloadGPR, op2TagGPR, op2PayloadGPR);
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
}
void SpeculativeJIT::compileObjectOrOtherLogicalNot(NodeIndex nodeIndex, void* vptr, bool needSpeculationCheck)
{
JSValueOperand value(this, nodeIndex);
GPRTemporary resultPayload(this);
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg resultPayloadGPR = resultPayload.gpr();
MacroAssembler::Jump notCell = m_jit.branch32(MacroAssembler::NotEqual, valueTagGPR, TrustedImm32(JSValue::CellTag));
if (needSpeculationCheck)
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeIndex, m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(valuePayloadGPR), MacroAssembler::TrustedImmPtr(vptr)));
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 (needSpeculationCheck) {
m_jit.move(valueTagGPR, resultPayloadGPR);
m_jit.or32(TrustedImm32(1), resultPayloadGPR);
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, resultPayloadGPR, TrustedImm32(JSValue::NullTag)));
}
m_jit.move(TrustedImm32(1), resultPayloadGPR);
done.link(&m_jit);
booleanResult(resultPayloadGPR, m_compileIndex);
}
void SpeculativeJIT::compileLogicalNot(Node& node)
{
if (isKnownBoolean(node.child1()) || isBooleanPrediction(m_jit.getPrediction(node.child1()))) {
SpeculateBooleanOperand value(this, node.child1());
GPRTemporary result(this, value);
m_jit.xor32(TrustedImm32(1), value.gpr(), result.gpr());
booleanResult(result.gpr(), m_compileIndex);
return;
}
if (at(node.child1()).shouldSpeculateFinalObjectOrOther()) {
compileObjectOrOtherLogicalNot(node.child1(), m_jit.globalData()->jsFinalObjectVPtr, !isFinalObjectOrOtherPrediction(m_state.forNode(node.child1()).m_type));
return;
}
if (at(node.child1()).shouldSpeculateArrayOrOther()) {
compileObjectOrOtherLogicalNot(node.child1(), m_jit.globalData()->jsArrayVPtr, !isArrayOrOtherPrediction(m_state.forNode(node.child1()).m_type));
return;
}
if (at(node.child1()).shouldSpeculateInteger()) {
SpeculateIntegerOperand value(this, node.child1());
GPRTemporary resultPayload(this, value);
m_jit.compare32(MacroAssembler::Equal, value.gpr(), MacroAssembler::TrustedImm32(0), resultPayload.gpr());
booleanResult(resultPayload.gpr(), m_compileIndex);
return;
}
if (at(node.child1()).shouldSpeculateNumber()) {
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(), m_compileIndex);
return;
}
JSValueOperand arg1(this, node.child1());
GPRTemporary resultPayload(this, arg1, false);
GPRReg arg1TagGPR = arg1.tagGPR();
GPRReg arg1PayloadGPR = arg1.payloadGPR();
GPRReg resultPayloadGPR = resultPayload.gpr();
arg1.use();
JITCompiler::Jump fastCase = m_jit.branch32(JITCompiler::Equal, arg1TagGPR, TrustedImm32(JSValue::BooleanTag));
silentSpillAllRegisters(resultPayloadGPR);
callOperation(dfgConvertJSValueToBoolean, resultPayloadGPR, arg1TagGPR, arg1PayloadGPR);
silentFillAllRegisters(resultPayloadGPR);
JITCompiler::Jump doNot = m_jit.jump();
fastCase.link(&m_jit);
m_jit.move(arg1PayloadGPR, resultPayloadGPR);
doNot.link(&m_jit);
m_jit.xor32(TrustedImm32(1), resultPayloadGPR);
booleanResult(resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
}
void SpeculativeJIT::emitObjectOrOtherBranch(NodeIndex nodeIndex, BlockIndex taken, BlockIndex notTaken, void *vptr, bool needSpeculationCheck)
{
JSValueOperand value(this, nodeIndex);
GPRTemporary scratch(this);
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg scratchGPR = scratch.gpr();
MacroAssembler::Jump notCell = m_jit.branch32(MacroAssembler::NotEqual, valueTagGPR, TrustedImm32(JSValue::CellTag));
if (needSpeculationCheck)
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeIndex, m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(valuePayloadGPR), MacroAssembler::TrustedImmPtr(vptr)));
addBranch(m_jit.jump(), taken);
notCell.link(&m_jit);
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
if (needSpeculationCheck) {
m_jit.move(valueTagGPR, scratchGPR);
m_jit.or32(TrustedImm32(1), scratchGPR);
speculationCheck(BadType, JSValueRegs(valueTagGPR, valuePayloadGPR), nodeIndex, m_jit.branch32(MacroAssembler::NotEqual, scratchGPR, TrustedImm32(JSValue::NullTag)));
}
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
noResult(m_compileIndex);
}
void SpeculativeJIT::emitBranch(Node& node)
{
BlockIndex taken = node.takenBlockIndex();
BlockIndex notTaken = node.notTakenBlockIndex();
if (isKnownBoolean(node.child1())) {
SpeculateBooleanOperand value(this, node.child1());
MacroAssembler::ResultCondition condition = MacroAssembler::NonZero;
if (taken == (m_block + 1)) {
condition = MacroAssembler::Zero;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
addBranch(m_jit.branchTest32(condition, value.gpr(), TrustedImm32(1)), taken);
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
noResult(m_compileIndex);
} else if (at(node.child1()).shouldSpeculateFinalObjectOrOther()) {
emitObjectOrOtherBranch(node.child1(), taken, notTaken, m_jit.globalData()->jsFinalObjectVPtr, !isFinalObjectOrOtherPrediction(m_state.forNode(node.child1()).m_type));
} else if (at(node.child1()).shouldSpeculateArrayOrOther()) {
emitObjectOrOtherBranch(node.child1(), taken, notTaken, m_jit.globalData()->jsArrayVPtr, !isArrayOrOtherPrediction(m_state.forNode(node.child1()).m_type));
} else if (at(node.child1()).shouldSpeculateNumber()) {
if (at(node.child1()).shouldSpeculateInteger()) {
bool invert = false;
if (taken == (m_block + 1)) {
invert = true;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
SpeculateIntegerOperand value(this, node.child1());
addBranch(m_jit.branchTest32(invert ? MacroAssembler::Zero : MacroAssembler::NonZero, value.gpr()), taken);
} else {
SpeculateDoubleOperand value(this, node.child1());
FPRTemporary scratch(this);
addBranch(m_jit.branchDoubleNonZero(value.fpr(), scratch.fpr()), taken);
}
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
noResult(m_compileIndex);
} else {
JSValueOperand value(this, node.child1());
value.fill();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRTemporary result(this);
GPRReg resultGPR = result.gpr();
use(node.child1());
JITCompiler::Jump fastPath = m_jit.branch32(JITCompiler::Equal, valueTagGPR, JITCompiler::TrustedImm32(JSValue::Int32Tag));
JITCompiler::Jump slowPath = m_jit.branch32(JITCompiler::NotEqual, valueTagGPR, JITCompiler::TrustedImm32(JSValue::BooleanTag));
fastPath.link(&m_jit);
addBranch(m_jit.branchTest32(JITCompiler::Zero, valuePayloadGPR), notTaken);
addBranch(m_jit.jump(), taken);
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
callOperation(dfgConvertJSValueToBoolean, resultGPR, valueTagGPR, valuePayloadGPR);
silentFillAllRegisters(resultGPR);
addBranch(m_jit.branchTest32(JITCompiler::NonZero, resultGPR), taken);
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
noResult(m_compileIndex, UseChildrenCalledExplicitly);
}
}
void SpeculativeJIT::compile(Node& node)
{
NodeType op = node.op;
switch (op) {
case JSConstant:
initConstantInfo(m_compileIndex);
break;
case WeakJSConstant:
m_jit.addWeakReference(node.weakConstant());
initConstantInfo(m_compileIndex);
break;
case GetLocal: {
PredictedType prediction = node.variableAccessData()->prediction();
AbstractValue& value = block()->valuesAtHead.operand(node.local());
if (prediction == PredictNone) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
break;
}
GPRTemporary result(this);
if (isInt32Prediction(prediction)) {
m_jit.load32(JITCompiler::payloadFor(node.local()), result.gpr());
VirtualRegister virtualRegister = node.virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderInteger);
m_generationInfo[virtualRegister].initInteger(m_compileIndex, node.refCount(), result.gpr());
break;
}
if (isArrayPrediction(prediction) || isByteArrayPrediction(prediction)) {
m_jit.load32(JITCompiler::payloadFor(node.local()), result.gpr());
VirtualRegister virtualRegister = node.virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderCell);
m_generationInfo[virtualRegister].initCell(m_compileIndex, node.refCount(), result.gpr());
break;
}
if (isBooleanPrediction(prediction)) {
m_jit.load32(JITCompiler::payloadFor(node.local()), result.gpr());
VirtualRegister virtualRegister = node.virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderBoolean);
m_generationInfo[virtualRegister].initBoolean(m_compileIndex, node.refCount(), result.gpr());
break;
}
GPRTemporary tag(this);
m_jit.load32(JITCompiler::payloadFor(node.local()), result.gpr());
m_jit.load32(JITCompiler::tagFor(node.local()), tag.gpr());
VirtualRegister virtualRegister = node.virtualRegister();
m_gprs.retain(result.gpr(), virtualRegister, SpillOrderJS);
m_gprs.retain(tag.gpr(), virtualRegister, SpillOrderJS);
DataFormat format = isCellPrediction(value.m_type) ? DataFormatJSCell : DataFormatJS;
m_generationInfo[virtualRegister].initJSValue(m_compileIndex, node.refCount(), tag.gpr(), result.gpr(), format);
break;
}
case SetLocal: {
compileMovHint(node);
ASSERT(m_codeOriginForOSR == node.codeOrigin);
Node& nextNode = at(m_compileIndex + 1);
m_codeOriginForOSR = nextNode.codeOrigin;
PredictedType predictedType = node.variableAccessData()->prediction();
if (m_generationInfo[at(node.child1()).virtualRegister()].registerFormat() == DataFormatDouble) {
DoubleOperand value(this, node.child1());
m_jit.storeDouble(value.fpr(), JITCompiler::addressFor(node.local()));
noResult(m_compileIndex);
} else if (isInt32Prediction(predictedType)) {
SpeculateIntegerOperand value(this, node.child1());
m_jit.store32(value.gpr(), JITCompiler::payloadFor(node.local()));
noResult(m_compileIndex);
} else if (isArrayPrediction(predictedType)) {
SpeculateCellOperand cell(this, node.child1());
GPRReg cellGPR = cell.gpr();
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(cellGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(cellGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
m_jit.storePtr(cellGPR, JITCompiler::payloadFor(node.local()));
noResult(m_compileIndex);
} else if (isByteArrayPrediction(predictedType)) {
SpeculateCellOperand cell(this, node.child1());
GPRReg cellGPR = cell.gpr();
if (!isByteArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(cellGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(cellGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsByteArrayVPtr)));
m_jit.storePtr(cellGPR, JITCompiler::payloadFor(node.local()));
noResult(m_compileIndex);
} else if (isBooleanPrediction(predictedType)) {
SpeculateBooleanOperand value(this, node.child1());
m_jit.store32(value.gpr(), JITCompiler::payloadFor(node.local()));
noResult(m_compileIndex);
} else {
JSValueOperand value(this, node.child1());
m_jit.store32(value.payloadGPR(), JITCompiler::payloadFor(node.local()));
m_jit.store32(value.tagGPR(), JITCompiler::tagFor(node.local()));
noResult(m_compileIndex);
}
valueSourceReferenceForOperand(node.local()) = ValueSource::forPrediction(predictedType);
break;
}
case SetArgument:
break;
case BitAnd:
case BitOr:
case BitXor:
if (isInt32Constant(node.child1())) {
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this, op2);
bitOp(op, valueOfInt32Constant(node.child1()), op2.gpr(), result.gpr());
integerResult(result.gpr(), m_compileIndex);
} else if (isInt32Constant(node.child2())) {
SpeculateIntegerOperand op1(this, node.child1());
GPRTemporary result(this, op1);
bitOp(op, valueOfInt32Constant(node.child2()), op1.gpr(), result.gpr());
integerResult(result.gpr(), m_compileIndex);
} else {
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this, op1, op2);
GPRReg reg1 = op1.gpr();
GPRReg reg2 = op2.gpr();
bitOp(op, reg1, reg2, result.gpr());
integerResult(result.gpr(), m_compileIndex);
}
break;
case BitRShift:
case BitLShift:
case BitURShift:
if (isInt32Constant(node.child2())) {
SpeculateIntegerOperand op1(this, node.child1());
GPRTemporary result(this, op1);
shiftOp(op, op1.gpr(), valueOfInt32Constant(node.child2()) & 0x1f, result.gpr());
integerResult(result.gpr(), m_compileIndex);
} else {
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this, op1);
GPRReg reg1 = op1.gpr();
GPRReg reg2 = op2.gpr();
shiftOp(op, reg1, reg2, result.gpr());
integerResult(result.gpr(), m_compileIndex);
}
break;
case UInt32ToNumber: {
compileUInt32ToNumber(node);
break;
}
case ValueToInt32: {
compileValueToInt32(node);
break;
}
case ValueToNumber: {
if (at(node.child1()).shouldNotSpeculateInteger()) {
SpeculateDoubleOperand op1(this, node.child1());
FPRTemporary result(this, op1);
m_jit.moveDouble(op1.fpr(), result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
SpeculateIntegerOperand op1(this, node.child1());
GPRTemporary result(this, op1);
m_jit.move(op1.gpr(), result.gpr());
integerResult(result.gpr(), m_compileIndex, op1.format());
break;
}
case ValueToDouble: {
SpeculateDoubleOperand op1(this, node.child1());
FPRTemporary result(this, op1);
m_jit.moveDouble(op1.fpr(), result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
case ValueAdd:
case ArithAdd: {
if (Node::shouldSpeculateInteger(at(node.child1()), at(node.child2())) && node.canSpeculateInteger()) {
if (isInt32Constant(node.child1())) {
int32_t imm1 = valueOfInt32Constant(node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this);
if (nodeCanTruncateInteger(node.arithNodeFlags())) {
m_jit.move(op2.gpr(), result.gpr());
m_jit.add32(Imm32(imm1), result.gpr());
} else
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchAdd32(MacroAssembler::Overflow, op2.gpr(), Imm32(imm1), result.gpr()));
integerResult(result.gpr(), m_compileIndex);
break;
}
if (isInt32Constant(node.child2())) {
SpeculateIntegerOperand op1(this, node.child1());
int32_t imm2 = valueOfInt32Constant(node.child2());
GPRTemporary result(this);
if (nodeCanTruncateInteger(node.arithNodeFlags())) {
m_jit.move(op1.gpr(), result.gpr());
m_jit.add32(Imm32(imm2), result.gpr());
} else
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchAdd32(MacroAssembler::Overflow, op1.gpr(), Imm32(imm2), result.gpr()));
integerResult(result.gpr(), m_compileIndex);
break;
}
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this, op1, op2);
GPRReg gpr1 = op1.gpr();
GPRReg gpr2 = op2.gpr();
GPRReg gprResult = result.gpr();
if (nodeCanTruncateInteger(node.arithNodeFlags())) {
if (gpr1 == gprResult)
m_jit.add32(gpr2, gprResult);
else {
m_jit.move(gpr2, gprResult);
m_jit.add32(gpr1, gprResult);
}
} else {
MacroAssembler::Jump check = m_jit.branchAdd32(MacroAssembler::Overflow, gpr1, gpr2, gprResult);
if (gpr1 == gprResult)
speculationCheck(Overflow, JSValueRegs(), NoNode, check, SpeculationRecovery(SpeculativeAdd, gprResult, gpr2));
else if (gpr2 == gprResult)
speculationCheck(Overflow, JSValueRegs(), NoNode, check, SpeculationRecovery(SpeculativeAdd, gprResult, gpr1));
else
speculationCheck(Overflow, JSValueRegs(), NoNode, check);
}
integerResult(gprResult, m_compileIndex);
break;
}
if (Node::shouldSpeculateNumber(at(node.child1()), at(node.child2()))) {
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
FPRTemporary result(this, op1, op2);
FPRReg reg1 = op1.fpr();
FPRReg reg2 = op2.fpr();
m_jit.addDouble(reg1, reg2, result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
ASSERT(op == ValueAdd);
compileValueAdd(node);
break;
}
case ArithSub: {
if (Node::shouldSpeculateInteger(at(node.child1()), at(node.child2())) && node.canSpeculateInteger()) {
if (isInt32Constant(node.child2())) {
SpeculateIntegerOperand op1(this, node.child1());
int32_t imm2 = valueOfInt32Constant(node.child2());
GPRTemporary result(this);
if (nodeCanTruncateInteger(node.arithNodeFlags())) {
m_jit.move(op1.gpr(), result.gpr());
m_jit.sub32(Imm32(imm2), result.gpr());
} else
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchSub32(MacroAssembler::Overflow, op1.gpr(), Imm32(imm2), result.gpr()));
integerResult(result.gpr(), m_compileIndex);
break;
}
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary result(this);
if (nodeCanTruncateInteger(node.arithNodeFlags())) {
m_jit.move(op1.gpr(), result.gpr());
m_jit.sub32(op2.gpr(), result.gpr());
} else
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchSub32(MacroAssembler::Overflow, op1.gpr(), op2.gpr(), result.gpr()));
integerResult(result.gpr(), m_compileIndex);
break;
}
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
FPRTemporary result(this, op1);
FPRReg reg1 = op1.fpr();
FPRReg reg2 = op2.fpr();
m_jit.subDouble(reg1, reg2, result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
case ArithMul: {
compileArithMul(node);
break;
}
case ArithDiv: {
if (Node::shouldSpeculateInteger(at(node.child1()), at(node.child2())) && node.canSpeculateInteger()) {
#if CPU(X86)
SpeculateIntegerOperand op1(this, node.child1());
SpeculateIntegerOperand op2(this, node.child2());
GPRTemporary eax(this, X86Registers::eax);
GPRTemporary edx(this, X86Registers::edx);
GPRReg op1GPR = op1.gpr();
GPRReg op2GPR = op2.gpr();
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchTest32(JITCompiler::Zero, op2GPR));
if (!nodeCanIgnoreNegativeZero(node.arithNodeFlags())) {
MacroAssembler::Jump numeratorNonZero = m_jit.branchTest32(MacroAssembler::NonZero, op1GPR);
speculationCheck(NegativeZero, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::LessThan, op2GPR, TrustedImm32(0)));
numeratorNonZero.link(&m_jit);
}
GPRReg temp2 = InvalidGPRReg;
if (op2GPR == X86Registers::eax || op2GPR == X86Registers::edx) {
temp2 = allocate();
m_jit.move(op2GPR, temp2);
op2GPR = temp2;
}
m_jit.move(op1GPR, eax.gpr());
m_jit.assembler().cdq();
m_jit.assembler().idivl_r(op2GPR);
if (temp2 != InvalidGPRReg)
unlock(temp2);
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branchTest32(JITCompiler::NonZero, edx.gpr()));
integerResult(eax.gpr(), m_compileIndex);
#else // CPU(X86) -> so non-X86 code follows
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
FPRTemporary result(this);
FPRTemporary scratch(this);
GPRTemporary intResult(this);
FPRReg op1FPR = op1.fpr();
FPRReg op2FPR = op2.fpr();
FPRReg resultFPR = result.fpr();
FPRReg scratchFPR = scratch.fpr();
GPRReg resultGPR = intResult.gpr();
m_jit.divDouble(op1FPR, op2FPR, resultFPR);
JITCompiler::JumpList failureCases;
m_jit.branchConvertDoubleToInt32(resultFPR, resultGPR, failureCases, scratchFPR);
speculationCheck(Overflow, JSValueRegs(), NoNode, failureCases);
integerResult(resultGPR, m_compileIndex);
#endif // CPU(X86)
break;
}
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
FPRTemporary result(this, op1);
FPRReg reg1 = op1.fpr();
FPRReg reg2 = op2.fpr();
m_jit.divDouble(reg1, reg2, result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
case ArithMod: {
compileArithMod(node);
break;
}
case ArithAbs: {
if (at(node.child1()).shouldSpeculateInteger() && node.canSpeculateInteger()) {
SpeculateIntegerOperand op1(this, node.child1());
GPRTemporary result(this);
GPRTemporary scratch(this);
m_jit.zeroExtend32ToPtr(op1.gpr(), result.gpr());
m_jit.rshift32(result.gpr(), MacroAssembler::TrustedImm32(31), scratch.gpr());
m_jit.add32(scratch.gpr(), result.gpr());
m_jit.xor32(scratch.gpr(), result.gpr());
speculationCheck(Overflow, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::Equal, result.gpr(), MacroAssembler::TrustedImm32(1 << 31)));
integerResult(result.gpr(), m_compileIndex);
break;
}
SpeculateDoubleOperand op1(this, node.child1());
FPRTemporary result(this);
m_jit.absDouble(op1.fpr(), result.fpr());
doubleResult(result.fpr(), m_compileIndex);
break;
}
case ArithMin:
case ArithMax: {
if (Node::shouldSpeculateInteger(at(node.child1()), at(node.child2())) && node.canSpeculateInteger()) {
SpeculateStrictInt32Operand op1(this, node.child1());
SpeculateStrictInt32Operand op2(this, node.child2());
GPRTemporary result(this, op1);
MacroAssembler::Jump op1Less = m_jit.branch32(op == ArithMin ? MacroAssembler::LessThan : MacroAssembler::GreaterThan, op1.gpr(), op2.gpr());
m_jit.move(op2.gpr(), result.gpr());
if (op1.gpr() != result.gpr()) {
MacroAssembler::Jump done = m_jit.jump();
op1Less.link(&m_jit);
m_jit.move(op1.gpr(), result.gpr());
done.link(&m_jit);
} else
op1Less.link(&m_jit);
integerResult(result.gpr(), m_compileIndex);
break;
}
SpeculateDoubleOperand op1(this, node.child1());
SpeculateDoubleOperand op2(this, node.child2());
FPRTemporary result(this, op1);
MacroAssembler::JumpList done;
MacroAssembler::Jump op1Less = m_jit.branchDouble(op == ArithMin ? MacroAssembler::DoubleLessThan : MacroAssembler::DoubleGreaterThan, op1.fpr(), op2.fpr());
MacroAssembler::Jump op2Less = m_jit.branchDouble(op == ArithMin ? MacroAssembler::DoubleGreaterThanOrEqual : MacroAssembler::DoubleLessThanOrEqual, op1.fpr(), op2.fpr());
m_jit.addDouble(op1.fpr(), op2.fpr(), result.fpr());
done.append(m_jit.jump());
op2Less.link(&m_jit);
m_jit.moveDouble(op2.fpr(), result.fpr());
if (op1.fpr() != result.fpr()) {
done.append(m_jit.jump());
op1Less.link(&m_jit);
m_jit.moveDouble(op1.fpr(), result.fpr());
} else
op1Less.link(&m_jit);
done.link(&m_jit);
doubleResult(result.fpr(), m_compileIndex);
break;
}
case ArithSqrt: {
SpeculateDoubleOperand op1(this, node.child1());
FPRTemporary result(this, op1);
m_jit.sqrtDouble(op1.fpr(), result.fpr());
doubleResult(result.fpr(), m_compileIndex);
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 (isNullConstant(node.child1())) {
if (nonSpeculativeCompareNull(node, node.child2()))
return;
break;
}
if (isNullConstant(node.child2())) {
if (nonSpeculativeCompareNull(node, node.child1()))
return;
break;
}
if (compare(node, JITCompiler::Equal, JITCompiler::DoubleEqual, operationCompareEq))
return;
break;
case CompareStrictEq:
if (compileStrictEq(node))
return;
break;
case StringCharCodeAt: {
compileGetCharCodeAt(node);
break;
}
case StringCharAt: {
compileGetByValOnString(node);
break;
}
case GetByVal: {
PredictedType basePrediction = at(node.child2()).prediction();
if (!(basePrediction & PredictInt32) && basePrediction) {
SpeculateCellOperand base(this, node.child1()); JSValueOperand property(this, node.child2());
GPRReg baseGPR = base.gpr();
GPRReg propertyTagGPR = property.tagGPR();
GPRReg propertyPayloadGPR = property.payloadGPR();
flushRegisters();
GPRResult2 resultTag(this);
GPRResult resultPayload(this);
callOperation(operationGetByValCell, resultTag.gpr(), resultPayload.gpr(), baseGPR, propertyTagGPR, propertyPayloadGPR);
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
break;
}
if (at(node.child1()).prediction() == PredictString) {
compileGetByValOnString(node);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateByteArray()) {
compileGetByValOnByteArray(node);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt8Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->int8ArrayDescriptor(), node, sizeof(int8_t), isInt8ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt16Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->int16ArrayDescriptor(), node, sizeof(int16_t), isInt16ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt32Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->int32ArrayDescriptor(), node, sizeof(int32_t), isInt32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint8Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->uint8ArrayDescriptor(), node, sizeof(uint8_t), isUint8ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint16Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->uint16ArrayDescriptor(), node, sizeof(uint16_t), isUint16ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint32Array()) {
compileGetByValOnIntTypedArray(m_jit.globalData()->uint32ArrayDescriptor(), node, sizeof(uint32_t), isUint32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat32Array()) {
compileGetByValOnFloatTypedArray(m_jit.globalData()->float32ArrayDescriptor(), node, sizeof(float), isFloat32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat64Array()) {
compileGetByValOnFloatTypedArray(m_jit.globalData()->float64ArrayDescriptor(), node, sizeof(double), isFloat64ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks);
if (!m_compileOkay)
return;
break;
}
SpeculateStrictInt32Operand property(this, node.child2());
StorageOperand storage(this, node.child3());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg propertyReg = property.gpr();
GPRReg storageReg = storage.gpr();
if (!m_compileOkay)
return;
{
SpeculateCellOperand base(this, node.child1());
GPRReg baseReg = base.gpr();
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseReg), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseReg), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
speculationCheck(Uncountable, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::AboveOrEqual, propertyReg, MacroAssembler::Address(baseReg, JSArray::vectorLengthOffset())));
}
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), resultTag.gpr());
speculationCheck(Uncountable, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::Equal, resultTag.gpr(), TrustedImm32(JSValue::EmptyValueTag)));
m_jit.load32(MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), resultPayload.gpr());
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
break;
}
case PutByVal: {
PredictedType basePrediction = at(node.child2()).prediction();
if (!(basePrediction & PredictInt32) && basePrediction) {
SpeculateCellOperand base(this, node.child1()); JSValueOperand property(this, node.child2());
JSValueOperand value(this, node.child3());
GPRReg baseGPR = base.gpr();
GPRReg propertyTagGPR = property.tagGPR();
GPRReg propertyPayloadGPR = property.payloadGPR();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
flushRegisters();
callOperation(m_jit.codeBlock()->isStrictMode() ? operationPutByValCellStrict : operationPutByValCellNonStrict, baseGPR, propertyTagGPR, propertyPayloadGPR, valueTagGPR, valuePayloadGPR);
noResult(m_compileIndex);
break;
}
SpeculateCellOperand base(this, node.child1());
SpeculateStrictInt32Operand property(this, node.child2());
if (at(node.child1()).shouldSpeculateByteArray()) {
compilePutByValForByteArray(base.gpr(), property.gpr(), node);
break;
}
if (at(node.child1()).shouldSpeculateByteArray()) {
compilePutByValForByteArray(base.gpr(), property.gpr(), node);
break;
}
if (at(node.child1()).shouldSpeculateInt8Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int8ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int8_t), isInt8ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt16Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int16ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int16_t), isInt16ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt32Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int32_t), isInt32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint8Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint8ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint8_t), isUint8ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint16Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint16ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint16_t), isUint16ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint32Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint32_t), isUint32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat32Array()) {
compilePutByValForFloatTypedArray(m_jit.globalData()->float32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(float), isFloat32ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat64Array()) {
compilePutByValForFloatTypedArray(m_jit.globalData()->float64ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(double), isFloat64ArrayPrediction(m_state.forNode(node.child1()).m_type) ? NoTypedArrayTypeSpecCheck : AllTypedArraySpecChecks);
if (!m_compileOkay)
return;
break;
}
JSValueOperand value(this, node.child3());
GPRTemporary scratch(this);
GPRReg baseReg = base.gpr();
GPRReg propertyReg = property.gpr();
GPRReg valueTagReg = value.tagGPR();
GPRReg valuePayloadReg = value.payloadGPR();
GPRReg scratchReg = scratch.gpr();
if (!m_compileOkay)
return;
writeBarrier(baseReg, valueTagReg, node.child3(), WriteBarrierForPropertyAccess, scratchReg);
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseReg), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseReg), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
base.use();
property.use();
value.use();
MacroAssembler::Jump withinArrayBounds = m_jit.branch32(MacroAssembler::Below, propertyReg, MacroAssembler::Address(baseReg, JSArray::vectorLengthOffset()));
silentSpillAllRegisters(scratchReg);
callOperation(operationPutByValBeyondArrayBounds, baseReg, propertyReg, valueTagReg, valuePayloadReg);
silentFillAllRegisters(scratchReg);
JITCompiler::Jump wasBeyondArrayBounds = m_jit.jump();
withinArrayBounds.link(&m_jit);
GPRReg storageReg = scratchReg;
m_jit.loadPtr(MacroAssembler::Address(baseReg, JSArray::storageOffset()), storageReg);
MacroAssembler::Jump notHoleValue = m_jit.branch32(MacroAssembler::NotEqual, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), TrustedImm32(JSValue::EmptyValueTag));
m_jit.add32(TrustedImm32(1), MacroAssembler::Address(storageReg, OBJECT_OFFSETOF(ArrayStorage, m_numValuesInVector)));
MacroAssembler::Jump lengthDoesNotNeedUpdate = m_jit.branch32(MacroAssembler::Below, propertyReg, MacroAssembler::Address(storageReg, OBJECT_OFFSETOF(ArrayStorage, m_length)));
m_jit.add32(TrustedImm32(1), propertyReg);
m_jit.store32(propertyReg, MacroAssembler::Address(storageReg, OBJECT_OFFSETOF(ArrayStorage, m_length)));
m_jit.sub32(TrustedImm32(1), propertyReg);
lengthDoesNotNeedUpdate.link(&m_jit);
notHoleValue.link(&m_jit);
m_jit.store32(valueTagReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadReg, MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
wasBeyondArrayBounds.link(&m_jit);
noResult(m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case PutByValAlias: {
SpeculateCellOperand base(this, node.child1());
SpeculateStrictInt32Operand property(this, node.child2());
if (at(node.child1()).shouldSpeculateByteArray()) {
compilePutByValForByteArray(base.gpr(), property.gpr(), node);
break;
}
if (at(node.child1()).shouldSpeculateInt8Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int8ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int8_t), NoTypedArraySpecCheck, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt16Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int16ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int16_t), NoTypedArraySpecCheck, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateInt32Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->int32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(int32_t), NoTypedArraySpecCheck, SignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint8Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint8ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint8_t), NoTypedArraySpecCheck, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint16Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint16ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint16_t), NoTypedArraySpecCheck, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateUint32Array()) {
compilePutByValForIntTypedArray(m_jit.globalData()->uint32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(uint32_t), NoTypedArraySpecCheck, UnsignedTypedArray);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat32Array()) {
compilePutByValForFloatTypedArray(m_jit.globalData()->float32ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(float), NoTypedArraySpecCheck);
if (!m_compileOkay)
return;
break;
}
if (at(node.child1()).shouldSpeculateFloat64Array()) {
compilePutByValForFloatTypedArray(m_jit.globalData()->float64ArrayDescriptor(), base.gpr(), property.gpr(), node, sizeof(double), NoTypedArraySpecCheck);
if (!m_compileOkay)
return;
break;
}
JSValueOperand value(this, node.child3());
GPRTemporary scratch(this, base);
GPRReg baseReg = base.gpr();
GPRReg scratchReg = scratch.gpr();
writeBarrier(baseReg, value.tagGPR(), node.child3(), WriteBarrierForPropertyAccess, scratchReg);
GPRReg storageReg = scratchReg;
m_jit.loadPtr(MacroAssembler::Address(baseReg, JSArray::storageOffset()), storageReg);
GPRReg propertyReg = property.gpr();
m_jit.store32(value.tagGPR(), MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(value.payloadGPR(), MacroAssembler::BaseIndex(storageReg, propertyReg, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
noResult(m_compileIndex);
break;
}
case ArrayPush: {
SpeculateCellOperand base(this, node.child1());
JSValueOperand value(this, node.child2());
GPRTemporary storage(this);
GPRTemporary storageLength(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
GPRReg storageGPR = storage.gpr();
GPRReg storageLengthGPR = storageLength.gpr();
writeBarrier(baseGPR, valueTagGPR, node.child2(), WriteBarrierForPropertyAccess, storageGPR, storageLengthGPR);
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
m_jit.loadPtr(MacroAssembler::Address(baseGPR, JSArray::storageOffset()), storageGPR);
m_jit.load32(MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_length)), storageLengthGPR);
speculationCheck(Uncountable, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::Above, storageLengthGPR, TrustedImm32(0x7ffffffe)));
MacroAssembler::Jump slowPath = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(baseGPR, JSArray::vectorLengthOffset()));
m_jit.store32(valueTagGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.store32(valuePayloadGPR, MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)));
m_jit.add32(Imm32(1), storageLengthGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_length)));
m_jit.add32(Imm32(1), MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_numValuesInVector)));
m_jit.move(Imm32(JSValue::Int32Tag), storageGPR);
MacroAssembler::Jump done = m_jit.jump();
slowPath.link(&m_jit);
silentSpillAllRegisters(storageGPR, storageLengthGPR);
callOperation(operationArrayPush, storageGPR, storageLengthGPR, valueTagGPR, valuePayloadGPR, baseGPR);
silentFillAllRegisters(storageGPR, storageLengthGPR);
done.link(&m_jit);
jsValueResult(storageGPR, storageLengthGPR, m_compileIndex);
break;
}
case ArrayPop: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary valueTag(this);
GPRTemporary valuePayload(this);
GPRTemporary storage(this);
GPRTemporary storageLength(this);
GPRReg baseGPR = base.gpr();
GPRReg valueTagGPR = valueTag.gpr();
GPRReg valuePayloadGPR = valuePayload.gpr();
GPRReg storageGPR = storage.gpr();
GPRReg storageLengthGPR = storageLength.gpr();
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
m_jit.loadPtr(MacroAssembler::Address(baseGPR, JSArray::storageOffset()), storageGPR);
m_jit.load32(MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_length)), storageLengthGPR);
MacroAssembler::Jump emptyArrayCase = m_jit.branchTest32(MacroAssembler::Zero, storageLengthGPR);
m_jit.sub32(Imm32(1), storageLengthGPR);
MacroAssembler::Jump slowCase = m_jit.branch32(MacroAssembler::AboveOrEqual, storageLengthGPR, MacroAssembler::Address(baseGPR, JSArray::vectorLengthOffset()));
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)), valueTagGPR);
m_jit.load32(MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.payload)), valuePayloadGPR);
m_jit.store32(storageLengthGPR, MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_length)));
MacroAssembler::Jump holeCase = m_jit.branch32(MacroAssembler::Equal, Imm32(JSValue::EmptyValueTag), valueTagGPR);
m_jit.store32(TrustedImm32(JSValue::EmptyValueTag), MacroAssembler::BaseIndex(storageGPR, storageLengthGPR, MacroAssembler::TimesEight, OBJECT_OFFSETOF(ArrayStorage, m_vector[0]) + OBJECT_OFFSETOF(JSValue, u.asBits.tag)));
m_jit.sub32(MacroAssembler::Imm32(1), MacroAssembler::Address(storageGPR, OBJECT_OFFSETOF(ArrayStorage, m_numValuesInVector)));
MacroAssembler::JumpList done;
done.append(m_jit.jump());
holeCase.link(&m_jit);
emptyArrayCase.link(&m_jit);
m_jit.move(MacroAssembler::Imm32(jsUndefined().tag()), valueTagGPR);
m_jit.move(MacroAssembler::Imm32(jsUndefined().payload()), valuePayloadGPR);
done.append(m_jit.jump());
slowCase.link(&m_jit);
silentSpillAllRegisters(valueTagGPR, valuePayloadGPR);
callOperation(operationArrayPop, valueTagGPR, valuePayloadGPR, baseGPR);
silentFillAllRegisters(valueTagGPR, valuePayloadGPR);
done.link(&m_jit);
jsValueResult(valueTagGPR, valuePayloadGPR, m_compileIndex);
break;
}
case DFG::Jump: {
BlockIndex taken = node.takenBlockIndex();
if (taken != (m_block + 1))
addBranch(m_jit.jump(), taken);
noResult(m_compileIndex);
break;
}
case Branch:
if (isStrictInt32(node.child1()) || at(node.child1()).shouldSpeculateInteger()) {
SpeculateIntegerOperand op(this, node.child1());
BlockIndex taken = node.takenBlockIndex();
BlockIndex notTaken = node.notTakenBlockIndex();
MacroAssembler::ResultCondition condition = MacroAssembler::NonZero;
if (taken == (m_block + 1)) {
condition = MacroAssembler::Zero;
BlockIndex tmp = taken;
taken = notTaken;
notTaken = tmp;
}
addBranch(m_jit.branchTest32(condition, op.gpr()), taken);
if (notTaken != (m_block + 1))
addBranch(m_jit.jump(), notTaken);
noResult(m_compileIndex);
break;
}
emitBranch(node);
break;
case Return: {
ASSERT(GPRInfo::callFrameRegister != GPRInfo::regT2);
ASSERT(GPRInfo::regT1 != GPRInfo::returnValueGPR);
ASSERT(GPRInfo::returnValueGPR != GPRInfo::callFrameRegister);
#if DFG_ENABLE(SUCCESS_STATS)
static SamplingCounter counter("SpeculativeJIT");
m_jit.emitCount(counter);
#endif
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.emitGetFromCallFrameHeaderPtr(RegisterFile::ReturnPC, GPRInfo::regT2);
m_jit.emitGetFromCallFrameHeaderPtr(RegisterFile::CallerFrame, GPRInfo::callFrameRegister);
m_jit.restoreReturnAddressBeforeReturn(GPRInfo::regT2);
m_jit.ret();
noResult(m_compileIndex);
break;
}
case Throw:
case ThrowReferenceError: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
break;
}
case ToPrimitive: {
if (at(node.child1()).shouldSpeculateInteger()) {
SpeculateIntegerOperand op1(this, node.child1());
GPRTemporary result(this, op1);
ASSERT(op1.format() == DataFormatInteger);
m_jit.move(op1.gpr(), result.gpr());
integerResult(result.gpr(), m_compileIndex);
break;
}
bool wasPrimitive = isKnownNumeric(node.child1()) || isKnownBoolean(node.child1());
JSValueOperand op1(this, node.child1());
GPRTemporary resultTag(this, op1);
GPRTemporary resultPayload(this, op1, false);
GPRReg op1TagGPR = op1.tagGPR();
GPRReg op1PayloadGPR = op1.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
op1.use();
if (wasPrimitive) {
m_jit.move(op1TagGPR, resultTagGPR);
m_jit.move(op1PayloadGPR, resultPayloadGPR);
} else {
MacroAssembler::JumpList alreadyPrimitive;
alreadyPrimitive.append(m_jit.branch32(MacroAssembler::NotEqual, op1TagGPR, TrustedImm32(JSValue::CellTag)));
alreadyPrimitive.append(m_jit.branchPtr(MacroAssembler::Equal, MacroAssembler::Address(op1PayloadGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsStringVPtr)));
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
callOperation(operationToPrimitive, resultTagGPR, resultPayloadGPR, op1TagGPR, op1PayloadGPR);
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
MacroAssembler::Jump done = m_jit.jump();
alreadyPrimitive.link(&m_jit);
m_jit.move(op1TagGPR, resultTagGPR);
m_jit.move(op1PayloadGPR, resultPayloadGPR);
done.link(&m_jit);
}
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case StrCat:
case NewArray: {
EncodedJSValue* buffer = static_cast<EncodedJSValue*>(m_jit.globalData()->scratchBufferForSize(sizeof(EncodedJSValue) * node.numChildren()));
for (unsigned operandIdx = 0; operandIdx < node.numChildren(); ++operandIdx) {
JSValueOperand operand(this, m_jit.graph().m_varArgChildren[node.firstChild() + operandIdx]);
GPRReg opTagGPR = operand.tagGPR();
GPRReg opPayloadGPR = operand.payloadGPR();
operand.use();
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));
}
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(op == StrCat ? operationStrCat : operationNewArray, resultTag.gpr(), resultPayload.gpr(), buffer, node.numChildren());
cellResult(resultPayload.gpr(), m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case NewArrayBuffer: {
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(operationNewArrayBuffer, resultTag.gpr(), resultPayload.gpr(), node.startConstant(), node.numConstants());
cellResult(resultPayload.gpr(), m_compileIndex);
break;
}
case NewRegexp: {
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(operationNewRegexp, resultTag.gpr(), resultPayload.gpr(), m_jit.codeBlock()->regexp(node.regexpIndex()));
cellResult(resultPayload.gpr(), m_compileIndex);
break;
}
case ConvertThis: {
if (isObjectPrediction(m_state.forNode(node.child1()).m_type)) {
SpeculateCellOperand thisValue(this, node.child1());
GPRTemporary result(this, thisValue);
m_jit.move(thisValue.gpr(), result.gpr());
cellResult(result.gpr(), m_compileIndex);
break;
}
if (isOtherPrediction(at(node.child1()).prediction())) {
JSValueOperand thisValue(this, node.child1());
GPRTemporary scratch(this);
GPRReg thisValueTagGPR = thisValue.tagGPR();
GPRReg scratchGPR = scratch.gpr();
COMPILE_ASSERT((JSValue::UndefinedTag | 1) == JSValue::NullTag, UndefinedTag_OR_1_EQUALS_NullTag);
m_jit.move(thisValueTagGPR, scratchGPR);
m_jit.or32(TrustedImm32(1), scratchGPR);
speculationCheck(BadType, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::NotEqual, scratchGPR, TrustedImm32(JSValue::NullTag)));
m_jit.move(MacroAssembler::TrustedImmPtr(m_jit.globalThisObjectFor(node.codeOrigin)), scratchGPR);
cellResult(scratchGPR, m_compileIndex);
break;
}
if (isObjectPrediction(at(node.child1()).prediction())) {
SpeculateCellOperand thisValue(this, node.child1());
GPRTemporary result(this, thisValue);
GPRReg thisValueGPR = thisValue.gpr();
GPRReg resultGPR = result.gpr();
if (!isObjectPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(thisValueGPR), node.child1(), m_jit.branchPtr(JITCompiler::Equal, JITCompiler::Address(thisValueGPR), JITCompiler::TrustedImmPtr(m_jit.globalData()->jsStringVPtr)));
m_jit.move(thisValueGPR, resultGPR);
cellResult(resultGPR, m_compileIndex);
break;
}
JSValueOperand thisValue(this, node.child1());
GPRReg thisValueTagGPR = thisValue.tagGPR();
GPRReg thisValuePayloadGPR = thisValue.payloadGPR();
flushRegisters();
GPRResult2 resultTag(this);
GPRResult resultPayload(this);
callOperation(operationConvertThis, resultTag.gpr(), resultPayload.gpr(), thisValueTagGPR, thisValuePayloadGPR);
cellResult(resultPayload.gpr(), m_compileIndex);
break;
}
case CreateThis: {
SpeculateCellOperand proto(this, node.child1());
GPRTemporary result(this);
GPRTemporary scratch(this);
GPRReg protoGPR = proto.gpr();
GPRReg resultGPR = result.gpr();
GPRReg scratchGPR = scratch.gpr();
proto.use();
MacroAssembler::JumpList slowPath;
if (at(node.child1()).shouldSpeculateFinalObject()) {
if (!isFinalObjectPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(protoGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(protoGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsFinalObjectVPtr)));
} else {
m_jit.loadPtr(MacroAssembler::Address(protoGPR, JSCell::structureOffset()), scratchGPR);
slowPath.append(m_jit.branch8(MacroAssembler::Below, MacroAssembler::Address(scratchGPR, Structure::typeInfoTypeOffset()), MacroAssembler::TrustedImm32(ObjectType)));
}
m_jit.loadPtr(MacroAssembler::Address(protoGPR, JSObject::offsetOfInheritorID()), scratchGPR);
slowPath.append(m_jit.branchTestPtr(MacroAssembler::Zero, scratchGPR));
emitAllocateJSFinalObject(scratchGPR, resultGPR, scratchGPR, slowPath);
MacroAssembler::Jump done = m_jit.jump();
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
if (node.codeOrigin.inlineCallFrame)
callOperation(operationCreateThisInlined, resultGPR, protoGPR, node.codeOrigin.inlineCallFrame->callee.get());
else
callOperation(operationCreateThis, resultGPR, protoGPR);
silentFillAllRegisters(resultGPR);
done.link(&m_jit);
cellResult(resultGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case NewObject: {
GPRTemporary result(this);
GPRTemporary scratch(this);
GPRReg resultGPR = result.gpr();
GPRReg scratchGPR = scratch.gpr();
MacroAssembler::JumpList slowPath;
emitAllocateJSFinalObject(MacroAssembler::TrustedImmPtr(m_jit.globalObjectFor(node.codeOrigin)->emptyObjectStructure()), resultGPR, scratchGPR, slowPath);
MacroAssembler::Jump done = m_jit.jump();
slowPath.link(&m_jit);
silentSpillAllRegisters(resultGPR);
callOperation(operationNewObject, resultGPR);
silentFillAllRegisters(resultGPR);
done.link(&m_jit);
cellResult(resultGPR, m_compileIndex);
break;
}
case GetCallee: {
GPRTemporary result(this);
m_jit.loadPtr(JITCompiler::addressFor(static_cast<VirtualRegister>(RegisterFile::Callee)), result.gpr());
cellResult(result.gpr(), m_compileIndex);
break;
}
case GetScopeChain: {
GPRTemporary result(this);
GPRReg resultGPR = result.gpr();
m_jit.loadPtr(JITCompiler::addressFor(static_cast<VirtualRegister>(RegisterFile::ScopeChain)), resultGPR);
bool checkTopLevel = m_jit.codeBlock()->codeType() == FunctionCode && m_jit.codeBlock()->needsFullScopeChain();
int skip = node.scopeChainDepth();
ASSERT(skip || !checkTopLevel);
if (checkTopLevel && skip--) {
JITCompiler::Jump activationNotCreated;
if (checkTopLevel)
activationNotCreated = m_jit.branchTestPtr(JITCompiler::Zero, JITCompiler::addressFor(static_cast<VirtualRegister>(m_jit.codeBlock()->activationRegister())));
m_jit.loadPtr(JITCompiler::Address(resultGPR, OBJECT_OFFSETOF(ScopeChainNode, next)), resultGPR);
activationNotCreated.link(&m_jit);
}
while (skip--)
m_jit.loadPtr(JITCompiler::Address(resultGPR, OBJECT_OFFSETOF(ScopeChainNode, next)), resultGPR);
m_jit.loadPtr(JITCompiler::Address(resultGPR, OBJECT_OFFSETOF(ScopeChainNode, object)), resultGPR);
cellResult(resultGPR, m_compileIndex);
break;
}
case GetScopedVar: {
SpeculateCellOperand scopeChain(this, node.child1());
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
m_jit.loadPtr(JITCompiler::Address(scopeChain.gpr(), JSVariableObject::offsetOfRegisters()), resultPayloadGPR);
m_jit.load32(JITCompiler::Address(resultPayloadGPR, node.varNumber() * sizeof(Register) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR);
m_jit.load32(JITCompiler::Address(resultPayloadGPR, node.varNumber() * sizeof(Register) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex);
break;
}
case PutScopedVar: {
SpeculateCellOperand scopeChain(this, node.child1());
GPRTemporary scratchRegister(this);
GPRReg scratchGPR = scratchRegister.gpr();
m_jit.loadPtr(JITCompiler::Address(scopeChain.gpr(), JSVariableObject::offsetOfRegisters()), scratchGPR);
JSValueOperand value(this, node.child2());
m_jit.store32(value.tagGPR(), JITCompiler::Address(scratchGPR, node.varNumber() * sizeof(Register) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
m_jit.store32(value.payloadGPR(), JITCompiler::Address(scratchGPR, node.varNumber() * sizeof(Register) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
writeBarrier(scopeChain.gpr(), value.tagGPR(), node.child2(), WriteBarrierForVariableAccess, scratchGPR);
noResult(m_compileIndex);
break;
}
case GetById: {
if (!node.prediction()) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
break;
}
if (isCellPrediction(at(node.child1()).prediction())) {
SpeculateCellOperand base(this, node.child1());
GPRTemporary resultTag(this, base);
GPRTemporary resultPayload(this);
GPRReg baseGPR = base.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR;
if (resultTagGPR == baseGPR)
scratchGPR = resultPayloadGPR;
else
scratchGPR = resultTagGPR;
base.use();
cachedGetById(node.codeOrigin, InvalidGPRReg, baseGPR, resultTagGPR, resultPayloadGPR, scratchGPR, node.identifierNumber());
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
JSValueOperand base(this, node.child1());
GPRTemporary resultTag(this, base);
GPRTemporary resultPayload(this);
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR;
if (resultTagGPR == basePayloadGPR)
scratchGPR = resultPayloadGPR;
else
scratchGPR = resultTagGPR;
base.use();
JITCompiler::Jump notCell = m_jit.branch32(JITCompiler::NotEqual, baseTagGPR, TrustedImm32(JSValue::CellTag));
cachedGetById(node.codeOrigin, baseTagGPR, basePayloadGPR, resultTagGPR, resultPayloadGPR, scratchGPR, node.identifierNumber(), notCell);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case GetByIdFlush: {
if (!node.prediction()) {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
break;
}
if (isCellPrediction(at(node.child1()).prediction())) {
SpeculateCellOperand base(this, node.child1());
GPRReg baseGPR = base.gpr();
GPRResult resultTag(this);
GPRResult2 resultPayload(this);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR = selectScratchGPR(baseGPR, resultTagGPR, resultPayloadGPR);
base.use();
flushRegisters();
cachedGetById(node.codeOrigin, InvalidGPRReg, baseGPR, resultTagGPR, resultPayloadGPR, scratchGPR, node.identifierNumber(), JITCompiler::Jump(), DontSpill);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
JSValueOperand base(this, node.child1());
GPRReg baseTagGPR = base.tagGPR();
GPRReg basePayloadGPR = base.payloadGPR();
GPRResult resultTag(this);
GPRResult resultPayload(this);
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
GPRReg scratchGPR = selectScratchGPR(baseTagGPR, basePayloadGPR, resultTagGPR, resultPayloadGPR);
base.use();
flushRegisters();
JITCompiler::Jump notCell = m_jit.branch32(JITCompiler::NotEqual, baseTagGPR, TrustedImm32(JSValue::CellTag));
cachedGetById(node.codeOrigin, baseTagGPR, basePayloadGPR, resultTagGPR, resultPayloadGPR, scratchGPR, node.identifierNumber(), notCell, DontSpill);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case GetArrayLength: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary result(this);
GPRReg baseGPR = base.gpr();
GPRReg resultGPR = result.gpr();
if (!isArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsArrayVPtr)));
m_jit.loadPtr(MacroAssembler::Address(baseGPR, JSArray::storageOffset()), resultGPR);
m_jit.load32(MacroAssembler::Address(resultGPR, OBJECT_OFFSETOF(ArrayStorage, m_length)), resultGPR);
speculationCheck(Uncountable, JSValueRegs(), NoNode, m_jit.branch32(MacroAssembler::LessThan, resultGPR, MacroAssembler::TrustedImm32(0)));
integerResult(resultGPR, m_compileIndex);
break;
}
case GetStringLength: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary result(this);
GPRReg baseGPR = base.gpr();
GPRReg resultGPR = result.gpr();
if (!isStringPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsStringVPtr)));
m_jit.load32(MacroAssembler::Address(baseGPR, JSString::offsetOfLength()), resultGPR);
integerResult(resultGPR, m_compileIndex);
break;
}
case GetByteArrayLength: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary result(this);
GPRReg baseGPR = base.gpr();
GPRReg resultGPR = result.gpr();
if (!isByteArrayPrediction(m_state.forNode(node.child1()).m_type))
speculationCheck(BadType, JSValueSource::unboxedCell(baseGPR), node.child1(), m_jit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR), MacroAssembler::TrustedImmPtr(m_jit.globalData()->jsByteArrayVPtr)));
m_jit.loadPtr(MacroAssembler::Address(baseGPR, JSByteArray::offsetOfStorage()), resultGPR);
m_jit.load32(MacroAssembler::Address(resultGPR, ByteArray::offsetOfSize()), resultGPR);
integerResult(resultGPR, m_compileIndex);
break;
}
case GetInt8ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->int8ArrayDescriptor(), node, !isInt8ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetInt16ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->int16ArrayDescriptor(), node, !isInt16ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetInt32ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->int32ArrayDescriptor(), node, !isInt32ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetUint8ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->uint8ArrayDescriptor(), node, !isUint8ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetUint16ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->uint16ArrayDescriptor(), node, !isUint16ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetUint32ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->uint32ArrayDescriptor(), node, !isUint32ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetFloat32ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->float32ArrayDescriptor(), node, !isFloat32ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case GetFloat64ArrayLength: {
compileGetTypedArrayLength(m_jit.globalData()->float64ArrayDescriptor(), node, !isFloat64ArrayPrediction(m_state.forNode(node.child1()).m_type));
break;
}
case CheckFunction: {
SpeculateCellOperand function(this, node.child1());
speculationCheck(BadCache, JSValueRegs(), NoNode, m_jit.branchWeakPtr(JITCompiler::NotEqual, function.gpr(), node.function()));
noResult(m_compileIndex);
break;
}
case CheckStructure: {
if (m_state.forNode(node.child1()).m_structure.isSubsetOf(node.structureSet())) {
noResult(m_compileIndex);
break;
}
SpeculateCellOperand base(this, node.child1());
ASSERT(node.structureSet().size());
if (node.structureSet().size() == 1)
speculationCheck(BadCache, JSValueRegs(), NoNode, m_jit.branchWeakPtr(JITCompiler::NotEqual, JITCompiler::Address(base.gpr(), JSCell::structureOffset()), node.structureSet()[0]));
else {
GPRTemporary structure(this);
m_jit.loadPtr(JITCompiler::Address(base.gpr(), JSCell::structureOffset()), structure.gpr());
JITCompiler::JumpList done;
for (size_t i = 0; i < node.structureSet().size() - 1; ++i)
done.append(m_jit.branchWeakPtr(JITCompiler::Equal, structure.gpr(), node.structureSet()[i]));
speculationCheck(BadCache, JSValueRegs(), NoNode, m_jit.branchWeakPtr(JITCompiler::NotEqual, structure.gpr(), node.structureSet().last()));
done.link(&m_jit);
}
noResult(m_compileIndex);
break;
}
case PutStructure: {
SpeculateCellOperand base(this, node.child1());
GPRReg baseGPR = base.gpr();
m_jit.addWeakReferenceTransition(
node.codeOrigin.codeOriginOwner(),
node.structureTransitionData().previousStructure,
node.structureTransitionData().newStructure);
#if ENABLE(GGC) || ENABLE(WRITE_BARRIER_PROFILING)
writeBarrier(baseGPR, node.structureTransitionData().newStructure, WriteBarrierForGenericAccess);
#endif
m_jit.storePtr(MacroAssembler::TrustedImmPtr(node.structureTransitionData().newStructure), MacroAssembler::Address(baseGPR, JSCell::structureOffset()));
noResult(m_compileIndex);
break;
}
case GetPropertyStorage: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary result(this, base);
GPRReg baseGPR = base.gpr();
GPRReg resultGPR = result.gpr();
m_jit.loadPtr(JITCompiler::Address(baseGPR, JSObject::offsetOfPropertyStorage()), resultGPR);
storageResult(resultGPR, m_compileIndex);
break;
}
case GetIndexedPropertyStorage: {
compileGetIndexedPropertyStorage(node);
break;
}
case GetByOffset: {
StorageOperand storage(this, node.child1());
GPRTemporary resultTag(this, storage);
GPRTemporary resultPayload(this);
GPRReg storageGPR = storage.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
StorageAccessData& storageAccessData = m_jit.graph().m_storageAccessData[node.storageAccessDataIndex()];
m_jit.load32(JITCompiler::Address(storageGPR, storageAccessData.offset * sizeof(EncodedJSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
m_jit.load32(JITCompiler::Address(storageGPR, storageAccessData.offset * sizeof(EncodedJSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex);
break;
}
case PutByOffset: {
#if ENABLE(GGC) || ENABLE(WRITE_BARRIER_PROFILING)
SpeculateCellOperand base(this, node.child1());
#endif
StorageOperand storage(this, node.child2());
JSValueOperand value(this, node.child3());
GPRReg storageGPR = storage.gpr();
GPRReg valueTagGPR = value.tagGPR();
GPRReg valuePayloadGPR = value.payloadGPR();
#if ENABLE(GGC) || ENABLE(WRITE_BARRIER_PROFILING)
writeBarrier(base.gpr(), valueTagGPR, node.child3(), WriteBarrierForPropertyAccess);
#endif
StorageAccessData& storageAccessData = m_jit.graph().m_storageAccessData[node.storageAccessDataIndex()];
m_jit.storePtr(valueTagGPR, JITCompiler::Address(storageGPR, storageAccessData.offset * sizeof(EncodedJSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
m_jit.storePtr(valuePayloadGPR, JITCompiler::Address(storageGPR, storageAccessData.offset * sizeof(EncodedJSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
noResult(m_compileIndex);
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();
base.use();
value.use();
cachedPutById(node.codeOrigin, baseGPR, valueTagGPR, valuePayloadGPR, node.child2(), scratchGPR, node.identifierNumber(), NotDirect);
noResult(m_compileIndex, UseChildrenCalledExplicitly);
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();
base.use();
value.use();
cachedPutById(node.codeOrigin, baseGPR, valueTagGPR, valuePayloadGPR, node.child2(), scratchGPR, node.identifierNumber(), Direct);
noResult(m_compileIndex, UseChildrenCalledExplicitly);
break;
}
case GetGlobalVar: {
GPRTemporary result(this);
GPRTemporary scratch(this);
JSVariableObject* globalObject = m_jit.globalObjectFor(node.codeOrigin);
m_jit.loadPtr(const_cast<WriteBarrier<Unknown>**>(globalObject->addressOfRegisters()), result.gpr());
m_jit.load32(JITCompiler::tagForGlobalVar(result.gpr(), node.varNumber()), scratch.gpr());
m_jit.load32(JITCompiler::payloadForGlobalVar(result.gpr(), node.varNumber()), result.gpr());
jsValueResult(scratch.gpr(), result.gpr(), m_compileIndex);
break;
}
case PutGlobalVar: {
JSValueOperand value(this, node.child1());
GPRTemporary globalObject(this);
GPRTemporary scratch(this);
GPRReg globalObjectReg = globalObject.gpr();
GPRReg scratchReg = scratch.gpr();
m_jit.move(MacroAssembler::TrustedImmPtr(m_jit.globalObjectFor(node.codeOrigin)), globalObjectReg);
writeBarrier(m_jit.globalObjectFor(node.codeOrigin), value.tagGPR(), node.child1(), WriteBarrierForVariableAccess, scratchReg);
m_jit.loadPtr(MacroAssembler::Address(globalObjectReg, JSVariableObject::offsetOfRegisters()), scratchReg);
m_jit.store32(value.tagGPR(), JITCompiler::tagForGlobalVar(scratchReg, node.varNumber()));
m_jit.store32(value.payloadGPR(), JITCompiler::payloadForGlobalVar(scratchReg, node.varNumber()));
noResult(m_compileIndex);
break;
}
case CheckHasInstance: {
SpeculateCellOperand base(this, node.child1());
GPRTemporary structure(this);
m_jit.loadPtr(MacroAssembler::Address(base.gpr(), JSCell::structureOffset()), structure.gpr());
speculationCheck(Uncountable, JSValueRegs(), NoNode, m_jit.branchTest8(MacroAssembler::Zero, MacroAssembler::Address(structure.gpr(), Structure::typeInfoFlagsOffset()), MacroAssembler::TrustedImm32(ImplementsDefaultHasInstance)));
noResult(m_compileIndex);
break;
}
case InstanceOf: {
compileInstanceOf(node);
break;
}
case Phi:
case Flush:
ASSERT_NOT_REACHED();
case Breakpoint:
#if ENABLE(DEBUG_WITH_BREAKPOINT)
m_jit.breakpoint();
#else
ASSERT_NOT_REACHED();
#endif
break;
case Call:
case Construct:
emitCall(node);
break;
case Resolve: {
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(operationResolve, resultTag.gpr(), resultPayload.gpr(), identifier(node.identifierNumber()));
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
break;
}
case ResolveBase: {
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(operationResolveBase, resultTag.gpr(), resultPayload.gpr(), identifier(node.identifierNumber()));
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
break;
}
case ResolveBaseStrictPut: {
flushRegisters();
GPRResult resultPayload(this);
GPRResult2 resultTag(this);
callOperation(operationResolveBaseStrictPut, resultTag.gpr(), resultPayload.gpr(), identifier(node.identifierNumber()));
jsValueResult(resultTag.gpr(), resultPayload.gpr(), m_compileIndex);
break;
}
case ResolveGlobal: {
GPRTemporary globalObject(this);
GPRTemporary resolveInfo(this);
GPRTemporary resultTag(this);
GPRTemporary resultPayload(this);
GPRReg globalObjectGPR = globalObject.gpr();
GPRReg resolveInfoGPR = resolveInfo.gpr();
GPRReg resultTagGPR = resultTag.gpr();
GPRReg resultPayloadGPR = resultPayload.gpr();
ResolveGlobalData& data = m_jit.graph().m_resolveGlobalData[node.resolveGlobalDataIndex()];
GlobalResolveInfo* resolveInfoAddress = &(m_jit.codeBlock()->globalResolveInfo(data.resolveInfoIndex));
m_jit.move(JITCompiler::TrustedImmPtr(m_jit.globalObjectFor(node.codeOrigin)), globalObjectGPR);
m_jit.move(JITCompiler::TrustedImmPtr(resolveInfoAddress), resolveInfoGPR);
m_jit.loadPtr(JITCompiler::Address(resolveInfoGPR, OBJECT_OFFSETOF(GlobalResolveInfo, structure)), resultPayloadGPR);
JITCompiler::Jump structuresNotMatch = m_jit.branchPtr(JITCompiler::NotEqual, resultPayloadGPR, JITCompiler::Address(globalObjectGPR, JSCell::structureOffset()));
m_jit.loadPtr(JITCompiler::Address(globalObjectGPR, JSObject::offsetOfPropertyStorage()), resultPayloadGPR);
m_jit.load32(JITCompiler::Address(resolveInfoGPR, OBJECT_OFFSETOF(GlobalResolveInfo, offset)), resolveInfoGPR);
m_jit.load32(JITCompiler::BaseIndex(resultPayloadGPR, resolveInfoGPR, JITCompiler::TimesEight, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR);
m_jit.load32(JITCompiler::BaseIndex(resultPayloadGPR, resolveInfoGPR, JITCompiler::TimesEight, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultPayloadGPR);
JITCompiler::Jump wasFast = m_jit.jump();
structuresNotMatch.link(&m_jit);
silentSpillAllRegisters(resultTagGPR, resultPayloadGPR);
callOperation(operationResolveGlobal, resultTagGPR, resultPayloadGPR, resolveInfoGPR, &m_jit.codeBlock()->identifier(data.identifierNumber));
silentFillAllRegisters(resultTagGPR, resultPayloadGPR);
wasFast.link(&m_jit);
jsValueResult(resultTagGPR, resultPayloadGPR, m_compileIndex);
break;
}
case ForceOSRExit: {
terminateSpeculativeExecution(Uncountable, JSValueRegs(), NoNode);
break;
}
case Phantom:
noResult(m_compileIndex);
break;
case InlineStart:
case Nop:
ASSERT_NOT_REACHED();
break;
}
if (!m_compileOkay)
return;
if (node.hasResult() && node.mustGenerate())
use(m_compileIndex);
}
#endif
} }
#endif