/*
- * Copyright (C) 2008, 2009 Apple Inc. All rights reserved.
+ * Copyright (C) 2008, 2009, 2010 Apple Inc. All rights reserved.
* Copyright (C) 2008 Cameron Zwarich <cwzwarich@uwaterloo.ca>
*
* Redistribution and use in source and binary forms, with or without
#include "Arguments.h"
#include "BatchedTransitionOptimizer.h"
+#include "CallFrame.h"
+#include "CallFrameClosure.h"
#include "CodeBlock.h"
+#include "Collector.h"
+#include "Debugger.h"
#include "DebuggerCallFrame.h"
#include "EvalCodeCache.h"
#include "ExceptionHelpers.h"
-#include "CallFrame.h"
+#include "GetterSetter.h"
#include "GlobalEvalFunction.h"
#include "JSActivation.h"
#include "JSArray.h"
#include "JSFunction.h"
#include "JSNotAnObject.h"
#include "JSPropertyNameIterator.h"
+#include "LiteralParser.h"
#include "JSStaticScopeObject.h"
#include "JSString.h"
#include "ObjectPrototype.h"
+#include "Operations.h"
#include "Parser.h"
#include "Profiler.h"
#include "RegExpObject.h"
#include "RegExpPrototype.h"
#include "Register.h"
-#include "Collector.h"
-#include "Debugger.h"
-#include "Operations.h"
#include "SamplingTool.h"
+#include <limits.h>
#include <stdio.h>
+#include <wtf/Threading.h>
#if ENABLE(JIT)
#include "JIT.h"
#endif
-#if ENABLE(ASSEMBLER)
-#include "AssemblerBuffer.h"
-#endif
-
-#if PLATFORM(DARWIN)
-#include <mach/mach.h>
-#endif
-
-#if HAVE(SYS_TIME_H)
-#include <sys/time.h>
-#endif
-
-#if PLATFORM(WIN_OS)
-#include <windows.h>
-#endif
-
-#if PLATFORM(QT)
-#include <QDateTime>
-#endif
+#define WTF_USE_GCC_COMPUTED_GOTO_WORKAROUND (ENABLE(COMPUTED_GOTO_INTERPRETER) && !defined(__llvm__))
using namespace std;
namespace JSC {
-
-// Preferred number of milliseconds between each timeout check
-static const int preferredScriptCheckTimeInterval = 1000;
-
-static ALWAYS_INLINE unsigned bytecodeOffsetForPC(CallFrame* callFrame, CodeBlock* codeBlock, void* pc)
-{
+
#if ENABLE(JIT)
- return codeBlock->getBytecodeIndex(callFrame, pc);
-#else
- UNUSED_PARAM(callFrame);
- return static_cast<Instruction*>(pc) - codeBlock->instructions().begin();
+ static ALWAYS_INLINE unsigned bytecodeOffsetForPC(CallFrame* callFrame, CodeBlock* codeBlock, ReturnAddressPtr pc)
+ {
+ return codeBlock->getBytecodeIndex(callFrame, ReturnAddressPtr(pc));
+ }
+#endif
+#if ENABLE(INTERPRETER)
+ static ALWAYS_INLINE unsigned bytecodeOffsetForPC(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* pc)
+ {
+ UNUSED_PARAM(callFrame);
+ return pc - codeBlock->instructions().begin();
+ }
#endif
-}
// Returns the depth of the scope chain within a given call frame.
static int depth(CodeBlock* codeBlock, ScopeChain& sc)
return sc.localDepth();
}
-static inline bool jsLess(CallFrame* callFrame, JSValuePtr v1, JSValuePtr v2)
-{
- if (JSValuePtr::areBothInt32Fast(v1, v2))
- return v1.getInt32Fast() < v2.getInt32Fast();
-
- double n1;
- double n2;
- if (v1.getNumber(n1) && v2.getNumber(n2))
- return n1 < n2;
-
- Interpreter* interpreter = callFrame->interpreter();
- if (interpreter->isJSString(v1) && interpreter->isJSString(v2))
- return asString(v1)->value() < asString(v2)->value();
-
- JSValuePtr p1;
- JSValuePtr p2;
- bool wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
- bool wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
-
- if (wasNotString1 | wasNotString2)
- return n1 < n2;
-
- return asString(p1)->value() < asString(p2)->value();
-}
-
-static inline bool jsLessEq(CallFrame* callFrame, JSValuePtr v1, JSValuePtr v2)
-{
- if (JSValuePtr::areBothInt32Fast(v1, v2))
- return v1.getInt32Fast() <= v2.getInt32Fast();
-
- double n1;
- double n2;
- if (v1.getNumber(n1) && v2.getNumber(n2))
- return n1 <= n2;
-
- Interpreter* interpreter = callFrame->interpreter();
- if (interpreter->isJSString(v1) && interpreter->isJSString(v2))
- return !(asString(v2)->value() < asString(v1)->value());
-
- JSValuePtr p1;
- JSValuePtr p2;
- bool wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
- bool wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
-
- if (wasNotString1 | wasNotString2)
- return n1 <= n2;
-
- return !(asString(p2)->value() < asString(p1)->value());
-}
-
-static NEVER_INLINE JSValuePtr jsAddSlowCase(CallFrame* callFrame, JSValuePtr v1, JSValuePtr v2)
-{
- // exception for the Date exception in defaultValue()
- JSValuePtr p1 = v1.toPrimitive(callFrame);
- JSValuePtr p2 = v2.toPrimitive(callFrame);
-
- if (p1.isString() || p2.isString()) {
- RefPtr<UString::Rep> value = concatenate(p1.toString(callFrame).rep(), p2.toString(callFrame).rep());
- if (!value)
- return throwOutOfMemoryError(callFrame);
- return jsString(callFrame, value.release());
- }
-
- return jsNumber(callFrame, p1.toNumber(callFrame) + p2.toNumber(callFrame));
-}
-
-// Fast-path choices here are based on frequency data from SunSpider:
-// <times> Add case: <t1> <t2>
-// ---------------------------
-// 5626160 Add case: 3 3 (of these, 3637690 are for immediate values)
-// 247412 Add case: 5 5
-// 20900 Add case: 5 6
-// 13962 Add case: 5 3
-// 4000 Add case: 3 5
-
-static ALWAYS_INLINE JSValuePtr jsAdd(CallFrame* callFrame, JSValuePtr v1, JSValuePtr v2)
-{
- double left;
- double right = 0.0;
-
- bool rightIsNumber = v2.getNumber(right);
- if (rightIsNumber && v1.getNumber(left))
- return jsNumber(callFrame, left + right);
-
- bool leftIsString = v1.isString();
- if (leftIsString && v2.isString()) {
- RefPtr<UString::Rep> value = concatenate(asString(v1)->value().rep(), asString(v2)->value().rep());
- if (!value)
- return throwOutOfMemoryError(callFrame);
- return jsString(callFrame, value.release());
- }
-
- if (rightIsNumber & leftIsString) {
- RefPtr<UString::Rep> value = v2.isInt32Fast() ?
- concatenate(asString(v1)->value().rep(), v2.getInt32Fast()) :
- concatenate(asString(v1)->value().rep(), right);
-
- if (!value)
- return throwOutOfMemoryError(callFrame);
- return jsString(callFrame, value.release());
- }
-
- // All other cases are pretty uncommon
- return jsAddSlowCase(callFrame, v1, v2);
-}
-
-static JSValuePtr jsTypeStringForValue(CallFrame* callFrame, JSValuePtr v)
-{
- if (v.isUndefined())
- return jsNontrivialString(callFrame, "undefined");
- if (v.isBoolean())
- return jsNontrivialString(callFrame, "boolean");
- if (v.isNumber())
- return jsNontrivialString(callFrame, "number");
- if (v.isString())
- return jsNontrivialString(callFrame, "string");
- if (v.isObject()) {
- // Return "undefined" for objects that should be treated
- // as null when doing comparisons.
- if (asObject(v)->structure()->typeInfo().masqueradesAsUndefined())
- return jsNontrivialString(callFrame, "undefined");
- CallData callData;
- if (asObject(v)->getCallData(callData) != CallTypeNone)
- return jsNontrivialString(callFrame, "function");
- }
- return jsNontrivialString(callFrame, "object");
-}
-
-static bool jsIsObjectType(JSValuePtr v)
-{
- if (!v.isCell())
- return v.isNull();
-
- JSType type = asCell(v)->structure()->typeInfo().type();
- if (type == NumberType || type == StringType)
- return false;
- if (type == ObjectType) {
- if (asObject(v)->structure()->typeInfo().masqueradesAsUndefined())
- return false;
- CallData callData;
- if (asObject(v)->getCallData(callData) != CallTypeNone)
- return false;
- }
- return true;
-}
-
-static bool jsIsFunctionType(JSValuePtr v)
+#if ENABLE(INTERPRETER)
+static NEVER_INLINE JSValue concatenateStrings(ExecState* exec, Register* strings, unsigned count)
{
- if (v.isObject()) {
- CallData callData;
- if (asObject(v)->getCallData(callData) != CallTypeNone)
- return true;
- }
- return false;
+ return jsString(exec, strings, count);
}
-NEVER_INLINE bool Interpreter::resolve(CallFrame* callFrame, Instruction* vPC, JSValuePtr& exceptionValue)
+NEVER_INLINE bool Interpreter::resolve(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue)
{
- int dst = (vPC + 1)->u.operand;
- int property = (vPC + 2)->u.operand;
+ int dst = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
JSObject* o = *iter;
PropertySlot slot(o);
if (o->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
+ JSValue result = slot.getValue(callFrame, ident);
exceptionValue = callFrame->globalData().exception;
if (exceptionValue)
return false;
- callFrame[dst] = JSValuePtr(result);
+ callFrame->r(dst) = JSValue(result);
return true;
}
} while (++iter != end);
return false;
}
-NEVER_INLINE bool Interpreter::resolveSkip(CallFrame* callFrame, Instruction* vPC, JSValuePtr& exceptionValue)
+NEVER_INLINE bool Interpreter::resolveSkip(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue)
{
CodeBlock* codeBlock = callFrame->codeBlock();
- int dst = (vPC + 1)->u.operand;
- int property = (vPC + 2)->u.operand;
- int skip = (vPC + 3)->u.operand + codeBlock->needsFullScopeChain();
+ int dst = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ int skip = vPC[3].u.operand + codeBlock->needsFullScopeChain();
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
JSObject* o = *iter;
PropertySlot slot(o);
if (o->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
+ JSValue result = slot.getValue(callFrame, ident);
exceptionValue = callFrame->globalData().exception;
if (exceptionValue)
return false;
- callFrame[dst] = JSValuePtr(result);
+ callFrame->r(dst) = JSValue(result);
return true;
}
} while (++iter != end);
return false;
}
-NEVER_INLINE bool Interpreter::resolveGlobal(CallFrame* callFrame, Instruction* vPC, JSValuePtr& exceptionValue)
+NEVER_INLINE bool Interpreter::resolveGlobal(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue)
{
- int dst = (vPC + 1)->u.operand;
- JSGlobalObject* globalObject = static_cast<JSGlobalObject*>((vPC + 2)->u.jsCell);
+ int dst = vPC[1].u.operand;
+ JSGlobalObject* globalObject = static_cast<JSGlobalObject*>(vPC[2].u.jsCell);
ASSERT(globalObject->isGlobalObject());
- int property = (vPC + 3)->u.operand;
- Structure* structure = (vPC + 4)->u.structure;
- int offset = (vPC + 5)->u.operand;
+ int property = vPC[3].u.operand;
+ Structure* structure = vPC[4].u.structure;
+ int offset = vPC[5].u.operand;
if (structure == globalObject->structure()) {
- callFrame[dst] = JSValuePtr(globalObject->getDirectOffset(offset));
+ callFrame->r(dst) = JSValue(globalObject->getDirectOffset(offset));
return true;
}
Identifier& ident = codeBlock->identifier(property);
PropertySlot slot(globalObject);
if (globalObject->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
- if (slot.isCacheable() && !globalObject->structure()->isDictionary() && slot.slotBase() == globalObject) {
+ JSValue result = slot.getValue(callFrame, ident);
+ if (slot.isCacheableValue() && !globalObject->structure()->isUncacheableDictionary() && slot.slotBase() == globalObject) {
if (vPC[4].u.structure)
vPC[4].u.structure->deref();
globalObject->structure()->ref();
vPC[4] = globalObject->structure();
vPC[5] = slot.cachedOffset();
- callFrame[dst] = JSValuePtr(result);
+ callFrame->r(dst) = JSValue(result);
return true;
}
exceptionValue = callFrame->globalData().exception;
if (exceptionValue)
return false;
- callFrame[dst] = JSValuePtr(result);
+ callFrame->r(dst) = JSValue(result);
return true;
}
return false;
}
-static ALWAYS_INLINE JSValuePtr inlineResolveBase(CallFrame* callFrame, Identifier& property, ScopeChainNode* scopeChain)
+NEVER_INLINE bool Interpreter::resolveGlobalDynamic(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue)
{
+ int dst = vPC[1].u.operand;
+ JSGlobalObject* globalObject = static_cast<JSGlobalObject*>(vPC[2].u.jsCell);
+ ASSERT(globalObject->isGlobalObject());
+ int property = vPC[3].u.operand;
+ Structure* structure = vPC[4].u.structure;
+ int offset = vPC[5].u.operand;
+ CodeBlock* codeBlock = callFrame->codeBlock();
+ int skip = vPC[6].u.operand + codeBlock->needsFullScopeChain();
+
+ ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator next = iter;
- ++next;
ScopeChainIterator end = scopeChain->end();
ASSERT(iter != end);
-
- PropertySlot slot;
- JSObject* base;
- while (true) {
- base = *iter;
- if (next == end || base->getPropertySlot(callFrame, property, slot))
- return base;
-
- iter = next;
- ++next;
+ while (skip--) {
+ JSObject* o = *iter;
+ if (o->hasCustomProperties()) {
+ Identifier& ident = codeBlock->identifier(property);
+ do {
+ PropertySlot slot(o);
+ if (o->getPropertySlot(callFrame, ident, slot)) {
+ JSValue result = slot.getValue(callFrame, ident);
+ exceptionValue = callFrame->globalData().exception;
+ if (exceptionValue)
+ return false;
+ callFrame->r(dst) = JSValue(result);
+ return true;
+ }
+ if (iter == end)
+ break;
+ o = *iter;
+ ++iter;
+ } while (true);
+ exceptionValue = createUndefinedVariableError(callFrame, ident, vPC - codeBlock->instructions().begin(), codeBlock);
+ return false;
+ }
+ ++iter;
+ }
+
+ if (structure == globalObject->structure()) {
+ callFrame->r(dst) = JSValue(globalObject->getDirectOffset(offset));
+ return true;
}
- ASSERT_NOT_REACHED();
- return noValue();
+ Identifier& ident = codeBlock->identifier(property);
+ PropertySlot slot(globalObject);
+ if (globalObject->getPropertySlot(callFrame, ident, slot)) {
+ JSValue result = slot.getValue(callFrame, ident);
+ if (slot.isCacheableValue() && !globalObject->structure()->isUncacheableDictionary() && slot.slotBase() == globalObject) {
+ if (vPC[4].u.structure)
+ vPC[4].u.structure->deref();
+ globalObject->structure()->ref();
+ vPC[4] = globalObject->structure();
+ vPC[5] = slot.cachedOffset();
+ callFrame->r(dst) = JSValue(result);
+ return true;
+ }
+
+ exceptionValue = callFrame->globalData().exception;
+ if (exceptionValue)
+ return false;
+ callFrame->r(dst) = JSValue(result);
+ return true;
+ }
+
+ exceptionValue = createUndefinedVariableError(callFrame, ident, vPC - codeBlock->instructions().begin(), codeBlock);
+ return false;
}
NEVER_INLINE void Interpreter::resolveBase(CallFrame* callFrame, Instruction* vPC)
{
- int dst = (vPC + 1)->u.operand;
- int property = (vPC + 2)->u.operand;
- callFrame[dst] = JSValuePtr(inlineResolveBase(callFrame, callFrame->codeBlock()->identifier(property), callFrame->scopeChain()));
+ int dst = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ callFrame->r(dst) = JSValue(JSC::resolveBase(callFrame, callFrame->codeBlock()->identifier(property), callFrame->scopeChain()));
}
-NEVER_INLINE bool Interpreter::resolveBaseAndProperty(CallFrame* callFrame, Instruction* vPC, JSValuePtr& exceptionValue)
+NEVER_INLINE bool Interpreter::resolveBaseAndProperty(CallFrame* callFrame, Instruction* vPC, JSValue& exceptionValue)
{
- int baseDst = (vPC + 1)->u.operand;
- int propDst = (vPC + 2)->u.operand;
- int property = (vPC + 3)->u.operand;
+ int baseDst = vPC[1].u.operand;
+ int propDst = vPC[2].u.operand;
+ int property = vPC[3].u.operand;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
base = *iter;
PropertySlot slot(base);
if (base->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
+ JSValue result = slot.getValue(callFrame, ident);
exceptionValue = callFrame->globalData().exception;
if (exceptionValue)
return false;
- callFrame[propDst] = JSValuePtr(result);
- callFrame[baseDst] = JSValuePtr(base);
+ callFrame->r(propDst) = JSValue(result);
+ callFrame->r(baseDst) = JSValue(base);
return true;
}
++iter;
return false;
}
-NEVER_INLINE bool Interpreter::resolveBaseAndFunc(CallFrame* callFrame, Instruction* vPC, JSValuePtr& exceptionValue)
-{
- int baseDst = (vPC + 1)->u.operand;
- int funcDst = (vPC + 2)->u.operand;
- int property = (vPC + 3)->u.operand;
-
- ScopeChainNode* scopeChain = callFrame->scopeChain();
- ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator end = scopeChain->end();
-
- // FIXME: add scopeDepthIsZero optimization
-
- ASSERT(iter != end);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- Identifier& ident = codeBlock->identifier(property);
- JSObject* base;
- do {
- base = *iter;
- PropertySlot slot(base);
- if (base->getPropertySlot(callFrame, ident, slot)) {
- // ECMA 11.2.3 says that if we hit an activation the this value should be null.
- // However, section 10.2.3 says that in the case where the value provided
- // by the caller is null, the global object should be used. It also says
- // that the section does not apply to internal functions, but for simplicity
- // of implementation we use the global object anyway here. This guarantees
- // that in host objects you always get a valid object for this.
- // We also handle wrapper substitution for the global object at the same time.
- JSObject* thisObj = base->toThisObject(callFrame);
- JSValuePtr result = slot.getValue(callFrame, ident);
- exceptionValue = callFrame->globalData().exception;
- if (exceptionValue)
- return false;
-
- callFrame[baseDst] = JSValuePtr(thisObj);
- callFrame[funcDst] = JSValuePtr(result);
- return true;
- }
- ++iter;
- } while (iter != end);
-
- exceptionValue = createUndefinedVariableError(callFrame, ident, vPC - codeBlock->instructions().begin(), codeBlock);
- return false;
-}
+#endif // ENABLE(INTERPRETER)
ALWAYS_INLINE CallFrame* Interpreter::slideRegisterWindowForCall(CodeBlock* newCodeBlock, RegisterFile* registerFile, CallFrame* callFrame, size_t registerOffset, int argc)
{
return CallFrame::create(r);
}
-static NEVER_INLINE bool isNotObject(CallFrame* callFrame, bool forInstanceOf, CodeBlock* codeBlock, const Instruction* vPC, JSValuePtr value, JSValuePtr& exceptionData)
+#if ENABLE(INTERPRETER)
+static NEVER_INLINE bool isInvalidParamForIn(CallFrame* callFrame, CodeBlock* codeBlock, const Instruction* vPC, JSValue value, JSValue& exceptionData)
{
if (value.isObject())
return false;
- exceptionData = createInvalidParamError(callFrame, forInstanceOf ? "instanceof" : "in" , value, vPC - codeBlock->instructions().begin(), codeBlock);
+ exceptionData = createInvalidParamError(callFrame, "in" , value, vPC - codeBlock->instructions().begin(), codeBlock);
+ return true;
+}
+
+static NEVER_INLINE bool isInvalidParamForInstanceOf(CallFrame* callFrame, CodeBlock* codeBlock, const Instruction* vPC, JSValue value, JSValue& exceptionData)
+{
+ if (value.isObject() && asObject(value)->structure()->typeInfo().implementsHasInstance())
+ return false;
+ exceptionData = createInvalidParamError(callFrame, "instanceof" , value, vPC - codeBlock->instructions().begin(), codeBlock);
return true;
}
+#endif
-NEVER_INLINE JSValuePtr Interpreter::callEval(CallFrame* callFrame, RegisterFile* registerFile, Register* argv, int argc, int registerOffset, JSValuePtr& exceptionValue)
+NEVER_INLINE JSValue Interpreter::callEval(CallFrame* callFrame, RegisterFile* registerFile, Register* argv, int argc, int registerOffset, JSValue& exceptionValue)
{
if (argc < 2)
return jsUndefined();
- JSValuePtr program = argv[1].jsValue(callFrame);
+ JSValue program = argv[1].jsValue();
if (!program.isString())
return program;
- UString programSource = asString(program)->value();
+ UString programSource = asString(program)->value(callFrame);
+ if (callFrame->hadException())
+ return JSValue();
+
+ LiteralParser preparser(callFrame, programSource, LiteralParser::NonStrictJSON);
+ if (JSValue parsedObject = preparser.tryLiteralParse())
+ return parsedObject;
ScopeChainNode* scopeChain = callFrame->scopeChain();
CodeBlock* codeBlock = callFrame->codeBlock();
- RefPtr<EvalNode> evalNode = codeBlock->evalCodeCache().get(callFrame, programSource, scopeChain, exceptionValue);
+ RefPtr<EvalExecutable> eval = codeBlock->evalCodeCache().get(callFrame, programSource, scopeChain, exceptionValue);
- JSValuePtr result = jsUndefined();
- if (evalNode)
- result = callFrame->globalData().interpreter->execute(evalNode.get(), callFrame, callFrame->thisValue().toThisObject(callFrame), callFrame->registers() - registerFile->start() + registerOffset, scopeChain, &exceptionValue);
+ JSValue result = jsUndefined();
+ if (eval)
+ result = callFrame->globalData().interpreter->execute(eval.get(), callFrame, callFrame->thisValue().toThisObject(callFrame), callFrame->registers() - registerFile->start() + registerOffset, scopeChain, &exceptionValue);
return result;
}
Interpreter::Interpreter()
- : m_sampler(0)
-#if ENABLE(JIT)
- , m_ctiArrayLengthTrampoline(0)
- , m_ctiStringLengthTrampoline(0)
- , m_ctiVirtualCallPreLink(0)
- , m_ctiVirtualCallLink(0)
- , m_ctiVirtualCall(0)
-#endif
+ : m_sampleEntryDepth(0)
, m_reentryDepth(0)
- , m_timeoutTime(0)
- , m_timeAtLastCheckTimeout(0)
- , m_timeExecuting(0)
- , m_timeoutCheckCount(0)
- , m_ticksUntilNextTimeoutCheck(initialTickCountThreshold)
{
- initTimeout();
+#if ENABLE(COMPUTED_GOTO_INTERPRETER)
privateExecute(InitializeAndReturn, 0, 0, 0);
-
- // Bizarrely, calling fastMalloc here is faster than allocating space on the stack.
- void* storage = fastMalloc(sizeof(CollectorBlock));
- JSCell* jsArray = new (storage) JSArray(JSArray::createStructure(jsNull()));
- m_jsArrayVptr = jsArray->vptr();
- jsArray->~JSCell();
-
- JSCell* jsByteArray = new (storage) JSByteArray(JSByteArray::VPtrStealingHack);
- m_jsByteArrayVptr = jsByteArray->vptr();
- jsByteArray->~JSCell();
-
- JSCell* jsString = new (storage) JSString(JSString::VPtrStealingHack);
- m_jsStringVptr = jsString->vptr();
- jsString->~JSCell();
-
- JSCell* jsFunction = new (storage) JSFunction(JSFunction::createStructure(jsNull()));
- m_jsFunctionVptr = jsFunction->vptr();
- jsFunction->~JSCell();
-
- fastFree(storage);
-}
+ for (int i = 0; i < numOpcodeIDs; ++i)
+ m_opcodeIDTable.add(m_opcodeTable[i], static_cast<OpcodeID>(i));
+#endif // ENABLE(COMPUTED_GOTO_INTERPRETER)
-void Interpreter::initialize(JSGlobalData* globalData)
-{
-#if ENABLE(JIT)
- JIT::compileCTIMachineTrampolines(globalData);
-#else
- UNUSED_PARAM(globalData);
+#if ENABLE(OPCODE_SAMPLING)
+ enableSampler();
#endif
}
-Interpreter::~Interpreter()
-{
-}
-
#ifndef NDEBUG
void Interpreter::dumpCallFrame(CallFrame* callFrame)
void Interpreter::dumpRegisters(CallFrame* callFrame)
{
printf("Register frame: \n\n");
- printf("----------------------------------------------------\n");
- printf(" use | address | value \n");
- printf("----------------------------------------------------\n");
+ printf("-----------------------------------------------------------------------------\n");
+ printf(" use | address | value \n");
+ printf("-----------------------------------------------------------------------------\n");
CodeBlock* codeBlock = callFrame->codeBlock();
- RegisterFile* registerFile = &callFrame->scopeChain()->globalObject()->globalData()->interpreter->registerFile();
+ RegisterFile* registerFile = &callFrame->scopeChain()->globalObject->globalData()->interpreter->registerFile();
const Register* it;
const Register* end;
+ JSValue v;
if (codeBlock->codeType() == GlobalCode) {
it = registerFile->lastGlobal();
end = it + registerFile->numGlobals();
while (it != end) {
- printf("[global var] | %10p | %10p \n", it, (*it).v());
+ v = (*it).jsValue();
+#if USE(JSVALUE32_64)
+ printf("[global var] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v));
+#else
+ printf("[global var] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v));
+#endif
++it;
}
- printf("----------------------------------------------------\n");
+ printf("-----------------------------------------------------------------------------\n");
}
it = callFrame->registers() - RegisterFile::CallFrameHeaderSize - codeBlock->m_numParameters;
- printf("[this] | %10p | %10p \n", it, (*it).v()); ++it;
+ v = (*it).jsValue();
+#if USE(JSVALUE32_64)
+ printf("[this] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v)); ++it;
+#else
+ printf("[this] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v)); ++it;
+#endif
end = it + max(codeBlock->m_numParameters - 1, 0); // - 1 to skip "this"
if (it != end) {
do {
- printf("[param] | %10p | %10p \n", it, (*it).v());
+ v = (*it).jsValue();
+#if USE(JSVALUE32_64)
+ printf("[param] | %10p | %-16s 0x%llx \n", it, v.description(), JSValue::encode(v));
+#else
+ printf("[param] | %10p | %-16s %p \n", it, v.description(), JSValue::encode(v));
+#endif
++it;
} while (it != end);
}
- printf("----------------------------------------------------\n");
-
- printf("[CodeBlock] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[ScopeChain] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[CallerRegisters] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[ReturnPC] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[ReturnValueRegister] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[ArgumentCount] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[Callee] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("[OptionalCalleeArguments] | %10p | %10p \n", it, (*it).v()); ++it;
- printf("----------------------------------------------------\n");
+ printf("-----------------------------------------------------------------------------\n");
+ printf("[CodeBlock] | %10p | %p \n", it, (*it).codeBlock()); ++it;
+ printf("[ScopeChain] | %10p | %p \n", it, (*it).scopeChain()); ++it;
+ printf("[CallerRegisters] | %10p | %d \n", it, (*it).i()); ++it;
+ printf("[ReturnPC] | %10p | %p \n", it, (*it).vPC()); ++it;
+ printf("[ReturnValueRegister] | %10p | %d \n", it, (*it).i()); ++it;
+ printf("[ArgumentCount] | %10p | %d \n", it, (*it).i()); ++it;
+ printf("[Callee] | %10p | %p \n", it, (*it).function()); ++it;
+ printf("[OptionalCalleeArguments] | %10p | %p \n", it, (*it).arguments()); ++it;
+ printf("-----------------------------------------------------------------------------\n");
int registerCount = 0;
end = it + codeBlock->m_numVars;
if (it != end) {
do {
- printf("[r%2d] | %10p | %10p \n", registerCount, it, (*it).v());
- ++it;
- ++registerCount;
- } while (it != end);
- }
- printf("----------------------------------------------------\n");
-
- end = it + codeBlock->m_numConstants;
- if (it != end) {
- do {
- printf("[r%2d] | %10p | %10p \n", registerCount, it, (*it).v());
+ v = (*it).jsValue();
+#if USE(JSVALUE32_64)
+ printf("[r%2d] | %10p | %-16s 0x%llx \n", registerCount, it, v.description(), JSValue::encode(v));
+#else
+ printf("[r%2d] | %10p | %-16s %p \n", registerCount, it, v.description(), JSValue::encode(v));
+#endif
++it;
++registerCount;
} while (it != end);
}
- printf("----------------------------------------------------\n");
+ printf("-----------------------------------------------------------------------------\n");
- end = it + codeBlock->m_numCalleeRegisters - codeBlock->m_numConstants - codeBlock->m_numVars;
+ end = it + codeBlock->m_numCalleeRegisters - codeBlock->m_numVars;
if (it != end) {
do {
- printf("[r%2d] | %10p | %10p \n", registerCount, it, (*it).v());
+ v = (*it).jsValue();
+#if USE(JSVALUE32_64)
+ printf("[r%2d] | %10p | %-16s 0x%llx \n", registerCount, it, v.description(), JSValue::encode(v));
+#else
+ printf("[r%2d] | %10p | %-16s %p \n", registerCount, it, v.description(), JSValue::encode(v));
+#endif
++it;
++registerCount;
} while (it != end);
}
- printf("----------------------------------------------------\n");
+ printf("-----------------------------------------------------------------------------\n");
}
#endif
bool Interpreter::isOpcode(Opcode opcode)
{
-#if HAVE(COMPUTED_GOTO)
+#if ENABLE(COMPUTED_GOTO_INTERPRETER)
return opcode != HashTraits<Opcode>::emptyValue()
&& !HashTraits<Opcode>::isDeletedValue(opcode)
&& m_opcodeIDTable.contains(opcode);
#endif
}
-NEVER_INLINE bool Interpreter::unwindCallFrame(CallFrame*& callFrame, JSValuePtr exceptionValue, unsigned& bytecodeOffset, CodeBlock*& codeBlock)
+NEVER_INLINE bool Interpreter::unwindCallFrame(CallFrame*& callFrame, JSValue exceptionValue, unsigned& bytecodeOffset, CodeBlock*& codeBlock)
{
CodeBlock* oldCodeBlock = codeBlock;
ScopeChainNode* scopeChain = callFrame->scopeChain();
if (Debugger* debugger = callFrame->dynamicGlobalObject()->debugger()) {
DebuggerCallFrame debuggerCallFrame(callFrame, exceptionValue);
if (callFrame->callee())
- debugger->returnEvent(debuggerCallFrame, codeBlock->ownerNode()->sourceID(), codeBlock->ownerNode()->lastLine());
+ debugger->returnEvent(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine());
else
- debugger->didExecuteProgram(debuggerCallFrame, codeBlock->ownerNode()->sourceID(), codeBlock->ownerNode()->lastLine());
+ debugger->didExecuteProgram(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->lastLine());
}
if (Profiler* profiler = *Profiler::enabledProfilerReference()) {
if (callFrame->callee())
profiler->didExecute(callFrame, callFrame->callee());
else
- profiler->didExecute(callFrame, codeBlock->ownerNode()->sourceURL(), codeBlock->ownerNode()->lineNo());
+ profiler->didExecute(callFrame, codeBlock->ownerExecutable()->sourceURL(), codeBlock->ownerExecutable()->lineNo());
}
// If this call frame created an activation or an 'arguments' object, tear it off.
if (oldCodeBlock->codeType() == FunctionCode && oldCodeBlock->needsFullScopeChain()) {
- while (!scopeChain->object->isObject(&JSActivation::info))
+ while (!scopeChain->object->inherits(&JSActivation::info))
scopeChain = scopeChain->pop();
static_cast<JSActivation*>(scopeChain->object)->copyRegisters(callFrame->optionalCalleeArguments());
} else if (Arguments* arguments = callFrame->optionalCalleeArguments()) {
if (oldCodeBlock->needsFullScopeChain())
scopeChain->deref();
- void* returnPC = callFrame->returnPC();
- callFrame = callFrame->callerFrame();
- if (callFrame->hasHostCallFrameFlag())
+ ExecState* callerFrame = callFrame->callerFrame();
+ if (callerFrame->hasHostCallFrameFlag())
return false;
- codeBlock = callFrame->codeBlock();
- bytecodeOffset = bytecodeOffsetForPC(callFrame, codeBlock, returnPC);
+ codeBlock = callerFrame->codeBlock();
+#if ENABLE(JIT)
+#if ENABLE(INTERPRETER)
+ if (callerFrame->globalData().canUseJIT())
+#endif
+ bytecodeOffset = bytecodeOffsetForPC(callerFrame, codeBlock, callFrame->returnPC());
+#if ENABLE(INTERPRETER)
+ else
+ bytecodeOffset = bytecodeOffsetForPC(callerFrame, codeBlock, callFrame->returnVPC());
+#endif
+#else
+ bytecodeOffset = codeBlock->bytecodeOffset(callerFrame, callFrame->returnVPC());
+#endif
+ callFrame = callerFrame;
return true;
}
-NEVER_INLINE HandlerInfo* Interpreter::throwException(CallFrame*& callFrame, JSValuePtr& exceptionValue, unsigned bytecodeOffset, bool explicitThrow)
+NEVER_INLINE HandlerInfo* Interpreter::throwException(CallFrame*& callFrame, JSValue& exceptionValue, unsigned bytecodeOffset, bool explicitThrow)
{
// Set up the exception object
exception->putWithAttributes(callFrame, Identifier(callFrame, expressionEndOffsetPropertyName), jsNumber(callFrame, divotPoint + endOffset), ReadOnly | DontDelete);
} else
exception->putWithAttributes(callFrame, Identifier(callFrame, "line"), jsNumber(callFrame, codeBlock->lineNumberForBytecodeOffset(callFrame, bytecodeOffset)), ReadOnly | DontDelete);
- exception->putWithAttributes(callFrame, Identifier(callFrame, "sourceId"), jsNumber(callFrame, codeBlock->ownerNode()->sourceID()), ReadOnly | DontDelete);
- exception->putWithAttributes(callFrame, Identifier(callFrame, "sourceURL"), jsOwnedString(callFrame, codeBlock->ownerNode()->sourceURL()), ReadOnly | DontDelete);
+ exception->putWithAttributes(callFrame, Identifier(callFrame, "sourceId"), jsNumber(callFrame, codeBlock->ownerExecutable()->sourceID()), ReadOnly | DontDelete);
+ exception->putWithAttributes(callFrame, Identifier(callFrame, "sourceURL"), jsOwnedString(callFrame, codeBlock->ownerExecutable()->sourceURL()), ReadOnly | DontDelete);
}
-
- if (exception->isWatchdogException()) {
+
+ ComplType exceptionType = exception->exceptionType();
+ if (exceptionType == Interrupted || exceptionType == Terminated) {
while (unwindCallFrame(callFrame, exceptionValue, bytecodeOffset, codeBlock)) {
// Don't need handler checks or anything, we just want to unroll all the JS callframes possible.
}
if (Debugger* debugger = callFrame->dynamicGlobalObject()->debugger()) {
DebuggerCallFrame debuggerCallFrame(callFrame, exceptionValue);
- debugger->exception(debuggerCallFrame, codeBlock->ownerNode()->sourceID(), codeBlock->lineNumberForBytecodeOffset(callFrame, bytecodeOffset));
+ bool hasHandler = codeBlock->handlerForBytecodeOffset(bytecodeOffset);
+ debugger->exception(debuggerCallFrame, codeBlock->ownerExecutable()->sourceID(), codeBlock->lineNumberForBytecodeOffset(callFrame, bytecodeOffset), hasHandler);
}
// If we throw in the middle of a call instruction, we need to notify
// the profiler manually that the call instruction has returned, since
// we'll never reach the relevant op_profile_did_call.
if (Profiler* profiler = *Profiler::enabledProfilerReference()) {
-#if !ENABLE(JIT)
- if (isCallBytecode(codeBlock->instructions()[bytecodeOffset].u.opcode))
- profiler->didExecute(callFrame, callFrame[codeBlock->instructions()[bytecodeOffset + 2].u.operand].jsValue(callFrame));
- else if (codeBlock->instructions()[bytecodeOffset + 8].u.opcode == getOpcode(op_construct))
- profiler->didExecute(callFrame, callFrame[codeBlock->instructions()[bytecodeOffset + 10].u.operand].jsValue(callFrame));
-#else
- int functionRegisterIndex;
- if (codeBlock->functionRegisterForBytecodeOffset(bytecodeOffset, functionRegisterIndex))
- profiler->didExecute(callFrame, callFrame[functionRegisterIndex].jsValue(callFrame));
+#if ENABLE(INTERPRETER)
+ if (!callFrame->globalData().canUseJIT()) {
+ // FIXME: Why 8? - work out what this magic value is, replace the constant with something more helpful.
+ if (isCallBytecode(codeBlock->instructions()[bytecodeOffset].u.opcode))
+ profiler->didExecute(callFrame, callFrame->r(codeBlock->instructions()[bytecodeOffset + 1].u.operand).jsValue());
+ else if (codeBlock->instructions().size() > (bytecodeOffset + 8) && codeBlock->instructions()[bytecodeOffset + 8].u.opcode == getOpcode(op_construct))
+ profiler->didExecute(callFrame, callFrame->r(codeBlock->instructions()[bytecodeOffset + 9].u.operand).jsValue());
+ }
+#if ENABLE(JIT)
+ else
+#endif
+#endif
+#if ENABLE(JIT)
+ {
+ int functionRegisterIndex;
+ if (codeBlock->functionRegisterForBytecodeOffset(bytecodeOffset, functionRegisterIndex))
+ profiler->didExecute(callFrame, callFrame->r(functionRegisterIndex).jsValue());
+ }
#endif
}
return handler;
}
-JSValuePtr Interpreter::execute(ProgramNode* programNode, CallFrame* callFrame, ScopeChainNode* scopeChain, JSObject* thisObj, JSValuePtr* exception)
+JSValue Interpreter::execute(ProgramExecutable* program, CallFrame* callFrame, ScopeChainNode* scopeChain, JSObject* thisObj, JSValue* exception)
{
ASSERT(!scopeChain->globalData->exception);
- if (m_reentryDepth >= MaxReentryDepth) {
- *exception = createStackOverflowError(callFrame);
- return jsNull();
+ if (m_reentryDepth >= MaxSmallThreadReentryDepth) {
+ if (m_reentryDepth >= callFrame->globalData().maxReentryDepth) {
+ *exception = createStackOverflowError(callFrame);
+ return jsNull();
+ }
}
- CodeBlock* codeBlock = &programNode->bytecode(scopeChain);
+ CodeBlock* codeBlock = &program->bytecode(callFrame, scopeChain);
Register* oldEnd = m_registerFile.end();
Register* newEnd = oldEnd + codeBlock->m_numParameters + RegisterFile::CallFrameHeaderSize + codeBlock->m_numCalleeRegisters;
return jsNull();
}
- DynamicGlobalObjectScope globalObjectScope(callFrame, scopeChain->globalObject());
+ DynamicGlobalObjectScope globalObjectScope(callFrame, scopeChain->globalObject);
JSGlobalObject* lastGlobalObject = m_registerFile.globalObject();
JSGlobalObject* globalObject = callFrame->dynamicGlobalObject();
globalObject->copyGlobalsTo(m_registerFile);
CallFrame* newCallFrame = CallFrame::create(oldEnd + codeBlock->m_numParameters + RegisterFile::CallFrameHeaderSize);
- newCallFrame[codeBlock->thisRegister()] = JSValuePtr(thisObj);
+ newCallFrame->r(codeBlock->thisRegister()) = JSValue(thisObj);
newCallFrame->init(codeBlock, 0, scopeChain, CallFrame::noCaller(), 0, 0, 0);
if (codeBlock->needsFullScopeChain())
Profiler** profiler = Profiler::enabledProfilerReference();
if (*profiler)
- (*profiler)->willExecute(newCallFrame, programNode->sourceURL(), programNode->lineNo());
+ (*profiler)->willExecute(newCallFrame, program->sourceURL(), program->lineNo());
- JSValuePtr result;
+ JSValue result;
{
- SamplingTool::CallRecord callRecord(m_sampler);
+ SamplingTool::CallRecord callRecord(m_sampler.get());
- m_reentryDepth++;
+ m_reentryDepth++;
#if ENABLE(JIT)
- if (!codeBlock->jitCode())
- JIT::compile(scopeChain->globalData, codeBlock);
- result = JIT::execute(codeBlock->jitCode(), &m_registerFile, newCallFrame, scopeChain->globalData, exception);
-#else
- result = privateExecute(Normal, &m_registerFile, newCallFrame, exception);
+#if ENABLE(INTERPRETER)
+ if (callFrame->globalData().canUseJIT())
+#endif
+ result = program->jitCode(newCallFrame, scopeChain).execute(&m_registerFile, newCallFrame, scopeChain->globalData, exception);
+#if ENABLE(INTERPRETER)
+ else
+#endif
#endif
+#if ENABLE(INTERPRETER)
+ result = privateExecute(Normal, &m_registerFile, newCallFrame, exception);
+#endif
+
m_reentryDepth--;
}
if (*profiler)
- (*profiler)->didExecute(callFrame, programNode->sourceURL(), programNode->lineNo());
+ (*profiler)->didExecute(callFrame, program->sourceURL(), program->lineNo());
if (m_reentryDepth && lastGlobalObject && globalObject != lastGlobalObject)
lastGlobalObject->copyGlobalsTo(m_registerFile);
return result;
}
-JSValuePtr Interpreter::execute(FunctionBodyNode* functionBodyNode, CallFrame* callFrame, JSFunction* function, JSObject* thisObj, const ArgList& args, ScopeChainNode* scopeChain, JSValuePtr* exception)
+JSValue Interpreter::execute(FunctionExecutable* functionExecutable, CallFrame* callFrame, JSFunction* function, JSObject* thisObj, const ArgList& args, ScopeChainNode* scopeChain, JSValue* exception)
{
ASSERT(!scopeChain->globalData->exception);
- if (m_reentryDepth >= MaxReentryDepth) {
- *exception = createStackOverflowError(callFrame);
- return jsNull();
+ if (m_reentryDepth >= MaxSmallThreadReentryDepth) {
+ if (m_reentryDepth >= callFrame->globalData().maxReentryDepth) {
+ *exception = createStackOverflowError(callFrame);
+ return jsNull();
+ }
}
Register* oldEnd = m_registerFile.end();
return jsNull();
}
- DynamicGlobalObjectScope globalObjectScope(callFrame, callFrame->globalData().dynamicGlobalObject ? callFrame->globalData().dynamicGlobalObject : scopeChain->globalObject());
+ DynamicGlobalObjectScope globalObjectScope(callFrame, scopeChain->globalObject);
CallFrame* newCallFrame = CallFrame::create(oldEnd);
size_t dst = 0;
- newCallFrame[0] = JSValuePtr(thisObj);
+ newCallFrame->r(0) = JSValue(thisObj);
ArgList::const_iterator end = args.end();
for (ArgList::const_iterator it = args.begin(); it != end; ++it)
- newCallFrame[++dst] = *it;
+ newCallFrame->r(++dst) = *it;
- CodeBlock* codeBlock = &functionBodyNode->bytecode(scopeChain);
+ CodeBlock* codeBlock = &functionExecutable->bytecode(callFrame, scopeChain);
newCallFrame = slideRegisterWindowForCall(codeBlock, &m_registerFile, newCallFrame, argc + RegisterFile::CallFrameHeaderSize, argc);
if (UNLIKELY(!newCallFrame)) {
*exception = createStackOverflowError(callFrame);
if (*profiler)
(*profiler)->willExecute(callFrame, function);
- JSValuePtr result;
+ JSValue result;
{
- SamplingTool::CallRecord callRecord(m_sampler);
+ SamplingTool::CallRecord callRecord(m_sampler.get());
m_reentryDepth++;
#if ENABLE(JIT)
- if (!codeBlock->jitCode())
- JIT::compile(scopeChain->globalData, codeBlock);
- result = JIT::execute(codeBlock->jitCode(), &m_registerFile, newCallFrame, scopeChain->globalData, exception);
-#else
+#if ENABLE(INTERPRETER)
+ if (scopeChain->globalData->canUseJIT())
+#endif
+ result = functionExecutable->jitCode(newCallFrame, scopeChain).execute(&m_registerFile, newCallFrame, scopeChain->globalData, exception);
+#if ENABLE(INTERPRETER)
+ else
+#endif
+#endif
+#if ENABLE(INTERPRETER)
result = privateExecute(Normal, &m_registerFile, newCallFrame, exception);
#endif
m_reentryDepth--;
return result;
}
-JSValuePtr Interpreter::execute(EvalNode* evalNode, CallFrame* callFrame, JSObject* thisObj, ScopeChainNode* scopeChain, JSValuePtr* exception)
-{
- return execute(evalNode, callFrame, thisObj, m_registerFile.size() + evalNode->bytecode(scopeChain).m_numParameters + RegisterFile::CallFrameHeaderSize, scopeChain, exception);
-}
-
-JSValuePtr Interpreter::execute(EvalNode* evalNode, CallFrame* callFrame, JSObject* thisObj, int globalRegisterOffset, ScopeChainNode* scopeChain, JSValuePtr* exception)
+CallFrameClosure Interpreter::prepareForRepeatCall(FunctionExecutable* FunctionExecutable, CallFrame* callFrame, JSFunction* function, int argCount, ScopeChainNode* scopeChain, JSValue* exception)
{
ASSERT(!scopeChain->globalData->exception);
-
- if (m_reentryDepth >= MaxReentryDepth) {
+
+ if (m_reentryDepth >= MaxSmallThreadReentryDepth) {
+ if (m_reentryDepth >= callFrame->globalData().maxReentryDepth) {
+ *exception = createStackOverflowError(callFrame);
+ return CallFrameClosure();
+ }
+ }
+
+ Register* oldEnd = m_registerFile.end();
+ int argc = 1 + argCount; // implicit "this" parameter
+
+ if (!m_registerFile.grow(oldEnd + argc)) {
*exception = createStackOverflowError(callFrame);
- return jsNull();
+ return CallFrameClosure();
}
- DynamicGlobalObjectScope globalObjectScope(callFrame, callFrame->globalData().dynamicGlobalObject ? callFrame->globalData().dynamicGlobalObject : scopeChain->globalObject());
-
- EvalCodeBlock* codeBlock = &evalNode->bytecode(scopeChain);
-
- JSVariableObject* variableObject;
- for (ScopeChainNode* node = scopeChain; ; node = node->next) {
- ASSERT(node);
- if (node->object->isVariableObject()) {
- variableObject = static_cast<JSVariableObject*>(node->object);
- break;
- }
+ CallFrame* newCallFrame = CallFrame::create(oldEnd);
+ size_t dst = 0;
+ for (int i = 0; i < argc; ++i)
+ newCallFrame->r(++dst) = jsUndefined();
+
+ CodeBlock* codeBlock = &FunctionExecutable->bytecode(callFrame, scopeChain);
+ newCallFrame = slideRegisterWindowForCall(codeBlock, &m_registerFile, newCallFrame, argc + RegisterFile::CallFrameHeaderSize, argc);
+ if (UNLIKELY(!newCallFrame)) {
+ *exception = createStackOverflowError(callFrame);
+ m_registerFile.shrink(oldEnd);
+ return CallFrameClosure();
}
+ // a 0 codeBlock indicates a built-in caller
+ newCallFrame->init(codeBlock, 0, scopeChain, callFrame->addHostCallFrameFlag(), 0, argc, function);
+#if ENABLE(JIT)
+#if ENABLE(INTERPRETER)
+ if (callFrame->globalData().canUseJIT())
+#endif
+ FunctionExecutable->jitCode(newCallFrame, scopeChain);
+#endif
+ CallFrameClosure result = { callFrame, newCallFrame, function, FunctionExecutable, scopeChain->globalData, oldEnd, scopeChain, codeBlock->m_numParameters, argc };
+ return result;
+}
+
+JSValue Interpreter::execute(CallFrameClosure& closure, JSValue* exception)
+{
+ closure.resetCallFrame();
+ Profiler** profiler = Profiler::enabledProfilerReference();
+ if (*profiler)
+ (*profiler)->willExecute(closure.oldCallFrame, closure.function);
+
+ JSValue result;
+ {
+ SamplingTool::CallRecord callRecord(m_sampler.get());
+
+ m_reentryDepth++;
+#if ENABLE(JIT)
+#if ENABLE(INTERPRETER)
+ if (closure.newCallFrame->globalData().canUseJIT())
+#endif
+ result = closure.functionExecutable->generatedJITCode().execute(&m_registerFile, closure.newCallFrame, closure.globalData, exception);
+#if ENABLE(INTERPRETER)
+ else
+#endif
+#endif
+#if ENABLE(INTERPRETER)
+ result = privateExecute(Normal, &m_registerFile, closure.newCallFrame, exception);
+#endif
+ m_reentryDepth--;
+ }
+
+ if (*profiler)
+ (*profiler)->didExecute(closure.oldCallFrame, closure.function);
+ return result;
+}
+
+void Interpreter::endRepeatCall(CallFrameClosure& closure)
+{
+ m_registerFile.shrink(closure.oldEnd);
+}
+
+JSValue Interpreter::execute(EvalExecutable* eval, CallFrame* callFrame, JSObject* thisObj, ScopeChainNode* scopeChain, JSValue* exception)
+{
+ return execute(eval, callFrame, thisObj, m_registerFile.size() + eval->bytecode(callFrame, scopeChain).m_numParameters + RegisterFile::CallFrameHeaderSize, scopeChain, exception);
+}
+
+JSValue Interpreter::execute(EvalExecutable* eval, CallFrame* callFrame, JSObject* thisObj, int globalRegisterOffset, ScopeChainNode* scopeChain, JSValue* exception)
+{
+ ASSERT(!scopeChain->globalData->exception);
+
+ if (m_reentryDepth >= MaxSmallThreadReentryDepth) {
+ if (m_reentryDepth >= callFrame->globalData().maxReentryDepth) {
+ *exception = createStackOverflowError(callFrame);
+ return jsNull();
+ }
+ }
+
+ DynamicGlobalObjectScope globalObjectScope(callFrame, scopeChain->globalObject);
+
+ EvalCodeBlock* codeBlock = &eval->bytecode(callFrame, scopeChain);
+
+ JSVariableObject* variableObject;
+ for (ScopeChainNode* node = scopeChain; ; node = node->next) {
+ ASSERT(node);
+ if (node->object->isVariableObject()) {
+ variableObject = static_cast<JSVariableObject*>(node->object);
+ break;
+ }
+ }
+
+ unsigned numVariables = codeBlock->numVariables();
+ int numFunctions = codeBlock->numberOfFunctionDecls();
+ if (numVariables || numFunctions) {
+ // Scope for BatchedTransitionOptimizer
+ BatchedTransitionOptimizer optimizer(variableObject);
- { // Scope for BatchedTransitionOptimizer
-
- BatchedTransitionOptimizer optimizer(variableObject);
-
- const DeclarationStacks::VarStack& varStack = codeBlock->ownerNode()->varStack();
- DeclarationStacks::VarStack::const_iterator varStackEnd = varStack.end();
- for (DeclarationStacks::VarStack::const_iterator it = varStack.begin(); it != varStackEnd; ++it) {
- const Identifier& ident = (*it).first;
+ for (unsigned i = 0; i < numVariables; ++i) {
+ const Identifier& ident = codeBlock->variable(i);
if (!variableObject->hasProperty(callFrame, ident)) {
PutPropertySlot slot;
variableObject->put(callFrame, ident, jsUndefined(), slot);
}
}
- const DeclarationStacks::FunctionStack& functionStack = codeBlock->ownerNode()->functionStack();
- DeclarationStacks::FunctionStack::const_iterator functionStackEnd = functionStack.end();
- for (DeclarationStacks::FunctionStack::const_iterator it = functionStack.begin(); it != functionStackEnd; ++it) {
+ for (int i = 0; i < numFunctions; ++i) {
+ FunctionExecutable* function = codeBlock->functionDecl(i);
PutPropertySlot slot;
- variableObject->put(callFrame, (*it)->m_ident, (*it)->makeFunction(callFrame, scopeChain), slot);
+ variableObject->put(callFrame, function->name(), function->make(callFrame, scopeChain), slot);
}
-
}
Register* oldEnd = m_registerFile.end();
CallFrame* newCallFrame = CallFrame::create(m_registerFile.start() + globalRegisterOffset);
// a 0 codeBlock indicates a built-in caller
- newCallFrame[codeBlock->thisRegister()] = JSValuePtr(thisObj);
+ newCallFrame->r(codeBlock->thisRegister()) = JSValue(thisObj);
newCallFrame->init(codeBlock, 0, scopeChain, callFrame->addHostCallFrameFlag(), 0, 0, 0);
if (codeBlock->needsFullScopeChain())
Profiler** profiler = Profiler::enabledProfilerReference();
if (*profiler)
- (*profiler)->willExecute(newCallFrame, evalNode->sourceURL(), evalNode->lineNo());
+ (*profiler)->willExecute(newCallFrame, eval->sourceURL(), eval->lineNo());
- JSValuePtr result;
+ JSValue result;
{
- SamplingTool::CallRecord callRecord(m_sampler);
+ SamplingTool::CallRecord callRecord(m_sampler.get());
m_reentryDepth++;
+
#if ENABLE(JIT)
- if (!codeBlock->jitCode())
- JIT::compile(scopeChain->globalData, codeBlock);
- result = JIT::execute(codeBlock->jitCode(), &m_registerFile, newCallFrame, scopeChain->globalData, exception);
-#else
- result = privateExecute(Normal, &m_registerFile, newCallFrame, exception);
+#if ENABLE(INTERPRETER)
+ if (callFrame->globalData().canUseJIT())
+#endif
+ result = eval->jitCode(newCallFrame, scopeChain).execute(&m_registerFile, newCallFrame, scopeChain->globalData, exception);
+#if ENABLE(INTERPRETER)
+ else
+#endif
+#endif
+#if ENABLE(INTERPRETER)
+ result = privateExecute(Normal, &m_registerFile, newCallFrame, exception);
#endif
m_reentryDepth--;
}
if (*profiler)
- (*profiler)->didExecute(callFrame, evalNode->sourceURL(), evalNode->lineNo());
+ (*profiler)->didExecute(callFrame, eval->sourceURL(), eval->lineNo());
m_registerFile.shrink(oldEnd);
return result;
switch (debugHookID) {
case DidEnterCallFrame:
- debugger->callEvent(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), firstLine);
+ debugger->callEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine);
return;
case WillLeaveCallFrame:
- debugger->returnEvent(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), lastLine);
+ debugger->returnEvent(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine);
return;
case WillExecuteStatement:
- debugger->atStatement(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), firstLine);
+ debugger->atStatement(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine);
return;
case WillExecuteProgram:
- debugger->willExecuteProgram(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), firstLine);
+ debugger->willExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), firstLine);
return;
case DidExecuteProgram:
- debugger->didExecuteProgram(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), lastLine);
+ debugger->didExecuteProgram(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine);
return;
case DidReachBreakpoint:
- debugger->didReachBreakpoint(callFrame, callFrame->codeBlock()->ownerNode()->sourceID(), lastLine);
+ debugger->didReachBreakpoint(callFrame, callFrame->codeBlock()->ownerExecutable()->sourceID(), lastLine);
return;
}
}
-
-void Interpreter::resetTimeoutCheck()
-{
- m_ticksUntilNextTimeoutCheck = initialTickCountThreshold;
- m_timeAtLastCheckTimeout = 0;
- m_timeExecuting = 0;
-}
-
-// Returns the time the current thread has spent executing, in milliseconds.
-static inline unsigned getCPUTime()
-{
-#if PLATFORM(DARWIN)
- mach_msg_type_number_t infoCount = THREAD_BASIC_INFO_COUNT;
- thread_basic_info_data_t info;
-
- // Get thread information
- mach_port_t threadPort = mach_thread_self();
- thread_info(threadPort, THREAD_BASIC_INFO, reinterpret_cast<thread_info_t>(&info), &infoCount);
- mach_port_deallocate(mach_task_self(), threadPort);
-
- unsigned time = info.user_time.seconds * 1000 + info.user_time.microseconds / 1000;
- time += info.system_time.seconds * 1000 + info.system_time.microseconds / 1000;
-
- return time;
-#elif HAVE(SYS_TIME_H)
- // FIXME: This should probably use getrusage with the RUSAGE_THREAD flag.
- struct timeval tv;
- gettimeofday(&tv, 0);
- return tv.tv_sec * 1000 + tv.tv_usec / 1000;
-#elif PLATFORM(QT)
- QDateTime t = QDateTime::currentDateTime();
- return t.toTime_t() * 1000 + t.time().msec();
-#elif PLATFORM(WIN_OS)
- union {
- FILETIME fileTime;
- unsigned long long fileTimeAsLong;
- } userTime, kernelTime;
-
- // GetThreadTimes won't accept NULL arguments so we pass these even though
- // they're not used.
- FILETIME creationTime, exitTime;
-
- GetThreadTimes(GetCurrentThread(), &creationTime, &exitTime, &kernelTime.fileTime, &userTime.fileTime);
-
- return userTime.fileTimeAsLong / 10000 + kernelTime.fileTimeAsLong / 10000;
-#else
-#error Platform does not have getCurrentTime function
-#endif
-}
-
-// We have to return a JSValue here, gcc seems to produce worse code if
-// we attempt to return a bool
-ALWAYS_INLINE bool Interpreter::checkTimeout(JSGlobalObject* globalObject)
-{
- unsigned currentTime = getCPUTime();
-
- if (!m_timeAtLastCheckTimeout) {
- // Suspicious amount of looping in a script -- start timing it
- m_timeAtLastCheckTimeout = currentTime;
- return false;
- }
-
- unsigned timeDiff = currentTime - m_timeAtLastCheckTimeout;
-
- if (timeDiff == 0)
- timeDiff = 1;
-
- m_timeExecuting += timeDiff;
- m_timeAtLastCheckTimeout = currentTime;
- // Adjust the tick threshold so we get the next checkTimeout call in the interval specified in
- // preferredScriptCheckTimeInterval
- m_ticksUntilNextTimeoutCheck = static_cast<unsigned>((static_cast<float>(preferredScriptCheckTimeInterval) / timeDiff) * m_ticksUntilNextTimeoutCheck);
- // If the new threshold is 0 reset it to the default threshold. This can happen if the timeDiff is higher than the
- // preferred script check time interval.
- if (m_ticksUntilNextTimeoutCheck == 0)
- m_ticksUntilNextTimeoutCheck = initialTickCountThreshold;
-
- if (globalObject->shouldInterruptScriptBeforeTimeout())
- return true;
-
- if (m_timeoutTime && m_timeExecuting > m_timeoutTime) {
- if (globalObject->shouldInterruptScript())
- return true;
-
- resetTimeoutCheck();
- }
-
- return false;
-}
-
+#if ENABLE(INTERPRETER)
NEVER_INLINE ScopeChainNode* Interpreter::createExceptionScope(CallFrame* callFrame, const Instruction* vPC)
{
- int dst = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
CodeBlock* codeBlock = callFrame->codeBlock();
- Identifier& property = codeBlock->identifier((++vPC)->u.operand);
- JSValuePtr value = callFrame[(++vPC)->u.operand].jsValue(callFrame);
+ Identifier& property = codeBlock->identifier(vPC[2].u.operand);
+ JSValue value = callFrame->r(vPC[3].u.operand).jsValue();
JSObject* scope = new (callFrame) JSStaticScopeObject(callFrame, property, value, DontDelete);
- callFrame[dst] = JSValuePtr(scope);
+ callFrame->r(dst) = JSValue(scope);
return callFrame->scopeChain()->push(scope);
}
-NEVER_INLINE void Interpreter::tryCachePutByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValuePtr baseValue, const PutPropertySlot& slot)
+NEVER_INLINE void Interpreter::tryCachePutByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValue baseValue, const PutPropertySlot& slot)
{
// Recursive invocation may already have specialized this instruction.
if (vPC[0].u.opcode != getOpcode(op_put_by_id))
JSCell* baseCell = asCell(baseValue);
Structure* structure = baseCell->structure();
- if (structure->isDictionary()) {
+ if (structure->isUncacheableDictionary()) {
vPC[0] = getOpcode(op_put_by_id_generic);
return;
}
// Structure transition, cache transition info
if (slot.type() == PutPropertySlot::NewProperty) {
+ if (structure->isDictionary()) {
+ vPC[0] = getOpcode(op_put_by_id_generic);
+ return;
+ }
+
+ // put_by_id_transition checks the prototype chain for setters.
+ normalizePrototypeChain(callFrame, baseCell);
+
vPC[0] = getOpcode(op_put_by_id_transition);
vPC[4] = structure->previousID();
vPC[5] = structure;
vPC[4] = 0;
}
-static size_t countPrototypeChainEntriesAndCheckForProxies(CallFrame* callFrame, JSValuePtr baseValue, const PropertySlot& slot)
-{
- JSCell* cell = asCell(baseValue);
- size_t count = 0;
-
- while (slot.slotBase() != cell) {
- JSValuePtr v = cell->structure()->prototypeForLookup(callFrame);
-
- // If we didn't find slotBase in baseValue's prototype chain, then baseValue
- // must be a proxy for another object.
-
- if (v.isNull())
- return 0;
-
- cell = asCell(v);
-
- // Since we're accessing a prototype in a loop, it's a good bet that it
- // should not be treated as a dictionary.
- if (cell->structure()->isDictionary())
- asObject(cell)->setStructure(Structure::fromDictionaryTransition(cell->structure()));
-
- ++count;
- }
-
- ASSERT(count);
- return count;
-}
-
-NEVER_INLINE void Interpreter::tryCacheGetByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValuePtr baseValue, const Identifier& propertyName, const PropertySlot& slot)
+NEVER_INLINE void Interpreter::tryCacheGetByID(CallFrame* callFrame, CodeBlock* codeBlock, Instruction* vPC, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot)
{
// Recursive invocation may already have specialized this instruction.
if (vPC[0].u.opcode != getOpcode(op_get_by_id))
return;
}
- if (isJSArray(baseValue) && propertyName == callFrame->propertyNames().length) {
+ JSGlobalData* globalData = &callFrame->globalData();
+ if (isJSArray(globalData, baseValue) && propertyName == callFrame->propertyNames().length) {
vPC[0] = getOpcode(op_get_array_length);
return;
}
- if (isJSString(baseValue) && propertyName == callFrame->propertyNames().length) {
+ if (isJSString(globalData, baseValue) && propertyName == callFrame->propertyNames().length) {
vPC[0] = getOpcode(op_get_string_length);
return;
}
Structure* structure = asCell(baseValue)->structure();
- if (structure->isDictionary()) {
+ if (structure->isUncacheableDictionary()) {
vPC[0] = getOpcode(op_get_by_id_generic);
return;
}
// Cache hit: Specialize instruction and ref Structures.
if (slot.slotBase() == baseValue) {
- vPC[0] = getOpcode(op_get_by_id_self);
- vPC[5] = slot.cachedOffset();
+ switch (slot.cachedPropertyType()) {
+ case PropertySlot::Getter:
+ vPC[0] = getOpcode(op_get_by_id_getter_self);
+ vPC[5] = slot.cachedOffset();
+ break;
+ case PropertySlot::Custom:
+ vPC[0] = getOpcode(op_get_by_id_custom_self);
+ vPC[5] = slot.customGetter();
+ break;
+ default:
+ vPC[0] = getOpcode(op_get_by_id_self);
+ vPC[5] = slot.cachedOffset();
+ break;
+ }
codeBlock->refStructures(vPC);
return;
}
+ if (structure->isDictionary()) {
+ vPC[0] = getOpcode(op_get_by_id_generic);
+ return;
+ }
+
if (slot.slotBase() == structure->prototypeForLookup(callFrame)) {
ASSERT(slot.slotBase().isObject());
JSObject* baseObject = asObject(slot.slotBase());
+ size_t offset = slot.cachedOffset();
// Since we're accessing a prototype in a loop, it's a good bet that it
// should not be treated as a dictionary.
- if (baseObject->structure()->isDictionary())
- baseObject->setStructure(Structure::fromDictionaryTransition(baseObject->structure()));
+ if (baseObject->structure()->isDictionary()) {
+ baseObject->flattenDictionaryObject();
+ offset = baseObject->structure()->get(propertyName);
+ }
- vPC[0] = getOpcode(op_get_by_id_proto);
+ ASSERT(!baseObject->structure()->isUncacheableDictionary());
+
+ switch (slot.cachedPropertyType()) {
+ case PropertySlot::Getter:
+ vPC[0] = getOpcode(op_get_by_id_getter_proto);
+ vPC[6] = offset;
+ break;
+ case PropertySlot::Custom:
+ vPC[0] = getOpcode(op_get_by_id_custom_proto);
+ vPC[6] = slot.customGetter();
+ break;
+ default:
+ vPC[0] = getOpcode(op_get_by_id_proto);
+ vPC[6] = offset;
+ break;
+ }
vPC[5] = baseObject->structure();
- vPC[6] = slot.cachedOffset();
codeBlock->refStructures(vPC);
return;
}
- size_t count = countPrototypeChainEntriesAndCheckForProxies(callFrame, baseValue, slot);
+ size_t offset = slot.cachedOffset();
+ size_t count = normalizePrototypeChain(callFrame, baseValue, slot.slotBase(), propertyName, offset);
if (!count) {
vPC[0] = getOpcode(op_get_by_id_generic);
return;
}
- vPC[0] = getOpcode(op_get_by_id_chain);
+
+ switch (slot.cachedPropertyType()) {
+ case PropertySlot::Getter:
+ vPC[0] = getOpcode(op_get_by_id_getter_chain);
+ vPC[7] = offset;
+ break;
+ case PropertySlot::Custom:
+ vPC[0] = getOpcode(op_get_by_id_custom_chain);
+ vPC[7] = slot.customGetter();
+ break;
+ default:
+ vPC[0] = getOpcode(op_get_by_id_chain);
+ vPC[7] = offset;
+ break;
+ }
vPC[4] = structure;
vPC[5] = structure->prototypeChain(callFrame);
vPC[6] = count;
- vPC[7] = slot.cachedOffset();
codeBlock->refStructures(vPC);
}
vPC[4] = 0;
}
-JSValuePtr Interpreter::privateExecute(ExecutionFlag flag, RegisterFile* registerFile, CallFrame* callFrame, JSValuePtr* exception)
+#endif // ENABLE(INTERPRETER)
+
+JSValue Interpreter::privateExecute(ExecutionFlag flag, RegisterFile* registerFile, CallFrame* callFrame, JSValue* exception)
{
// One-time initialization of our address tables. We have to put this code
// here because our labels are only in scope inside this function.
- if (flag == InitializeAndReturn) {
- #if HAVE(COMPUTED_GOTO)
- #define ADD_BYTECODE(id, length) m_opcodeTable[id] = &&id;
- FOR_EACH_OPCODE_ID(ADD_BYTECODE);
- #undef ADD_BYTECODE
-
- #define ADD_OPCODE_ID(id, length) m_opcodeIDTable.add(&&id, id);
- FOR_EACH_OPCODE_ID(ADD_OPCODE_ID);
- #undef ADD_OPCODE_ID
- ASSERT(m_opcodeIDTable.size() == numOpcodeIDs);
- #endif // HAVE(COMPUTED_GOTO)
- return noValue();
+ if (UNLIKELY(flag == InitializeAndReturn)) {
+ #if ENABLE(COMPUTED_GOTO_INTERPRETER)
+ #define LIST_OPCODE_LABEL(id, length) &&id,
+ static Opcode labels[] = { FOR_EACH_OPCODE_ID(LIST_OPCODE_LABEL) };
+ for (size_t i = 0; i < sizeof(labels) / sizeof(Opcode); ++i)
+ m_opcodeTable[i] = labels[i];
+ #undef LIST_OPCODE_LABEL
+ #endif // ENABLE(COMPUTED_GOTO_INTERPRETER)
+ return JSValue();
}
-
+
#if ENABLE(JIT)
- // Currently with CTI enabled we never interpret functions
- ASSERT_NOT_REACHED();
+#if ENABLE(INTERPRETER)
+ // Mixing Interpreter + JIT is not supported.
+ if (callFrame->globalData().canUseJIT())
+#endif
+ ASSERT_NOT_REACHED();
#endif
+#if !ENABLE(INTERPRETER)
+ UNUSED_PARAM(registerFile);
+ UNUSED_PARAM(callFrame);
+ UNUSED_PARAM(exception);
+ return JSValue();
+#else
+
JSGlobalData* globalData = &callFrame->globalData();
- JSValuePtr exceptionValue = noValue();
+ JSValue exceptionValue;
HandlerInfo* handler = 0;
Instruction* vPC = callFrame->codeBlock()->instructions().begin();
Profiler** enabledProfilerReference = Profiler::enabledProfilerReference();
- unsigned tickCount = m_ticksUntilNextTimeoutCheck + 1;
+ unsigned tickCount = globalData->timeoutChecker.ticksUntilNextCheck();
#define CHECK_FOR_EXCEPTION() \
do { \
- if (UNLIKELY(globalData->exception != noValue())) { \
+ if (UNLIKELY(globalData->exception != JSValue())) { \
exceptionValue = globalData->exception; \
goto vm_throw; \
} \
#define CHECK_FOR_TIMEOUT() \
if (!--tickCount) { \
- if (checkTimeout(callFrame->dynamicGlobalObject())) { \
+ if (globalData->terminator.shouldTerminate() || globalData->timeoutChecker.didTimeOut(callFrame)) { \
exceptionValue = jsNull(); \
goto vm_throw; \
} \
- tickCount = m_ticksUntilNextTimeoutCheck; \
+ tickCount = globalData->timeoutChecker.ticksUntilNextCheck(); \
}
#if ENABLE(OPCODE_SAMPLING)
#define SAMPLE(codeBlock, vPC) m_sampler->sample(codeBlock, vPC)
- #define CTI_SAMPLER ARG_globalData->interpreter->sampler()
#else
#define SAMPLE(codeBlock, vPC)
- #define CTI_SAMPLER 0
#endif
-#if HAVE(COMPUTED_GOTO)
+#if ENABLE(COMPUTED_GOTO_INTERPRETER)
#define NEXT_INSTRUCTION() SAMPLE(callFrame->codeBlock(), vPC); goto *vPC->u.opcode
#if ENABLE(OPCODE_STATS)
#define DEFINE_OPCODE(opcode) opcode: OpcodeStats::recordInstruction(opcode);
Constructs a new empty Object instance using the original
constructor, and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- callFrame[dst] = JSValuePtr(constructEmptyObject(callFrame));
+ int dst = vPC[1].u.operand;
+ callFrame->r(dst) = JSValue(constructEmptyObject(callFrame));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_object);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_new_array) {
The array will contain argCount elements with values
taken from registers starting at register firstArg.
*/
- int dst = (++vPC)->u.operand;
- int firstArg = (++vPC)->u.operand;
- int argCount = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int firstArg = vPC[2].u.operand;
+ int argCount = vPC[3].u.operand;
ArgList args(callFrame->registers() + firstArg, argCount);
- callFrame[dst] = JSValuePtr(constructArray(callFrame, args));
+ callFrame->r(dst) = JSValue(constructArray(callFrame, args));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_array);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_new_regexp) {
constructor from regexp regExp, and puts the result in
register dst.
*/
- int dst = (++vPC)->u.operand;
- int regExp = (++vPC)->u.operand;
- callFrame[dst] = JSValuePtr(new (globalData) RegExpObject(callFrame->scopeChain()->globalObject()->regExpStructure(), callFrame->codeBlock()->regexp(regExp)));
+ int dst = vPC[1].u.operand;
+ int regExp = vPC[2].u.operand;
+ callFrame->r(dst) = JSValue(new (globalData) RegExpObject(callFrame->scopeChain()->globalObject->regExpStructure(), callFrame->codeBlock()->regexp(regExp)));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_regexp);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_mov) {
Copies register src to register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = callFrame[src];
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = callFrame->r(src);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_mov);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_eq) {
as with the ECMAScript '==' operator, and puts the result
as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- if (JSFastMath::canDoFastBitwiseOperations(src1, src2))
- callFrame[dst] = JSFastMath::equal(src1, src2);
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32())
+ callFrame->r(dst) = jsBoolean(src1.asInt32() == src2.asInt32());
else {
- JSValuePtr result = jsBoolean(JSValuePtr::equalSlowCase(callFrame, src1, src2));
+ JSValue result = jsBoolean(JSValue::equalSlowCase(callFrame, src1, src2));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_eq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_eq_null) {
Checks whether register src is null, as with the ECMAScript '!='
operator, and puts the result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src = callFrame[(++vPC)->u.operand].jsValue(callFrame);
+ int dst = vPC[1].u.operand;
+ JSValue src = callFrame->r(vPC[2].u.operand).jsValue();
if (src.isUndefinedOrNull()) {
- callFrame[dst] = jsBoolean(true);
- ++vPC;
+ callFrame->r(dst) = jsBoolean(true);
+ vPC += OPCODE_LENGTH(op_eq_null);
NEXT_INSTRUCTION();
}
- callFrame[dst] = jsBoolean(src.isCell() && src.asCell()->structure()->typeInfo().masqueradesAsUndefined());
- ++vPC;
+ callFrame->r(dst) = jsBoolean(src.isCell() && src.asCell()->structure()->typeInfo().masqueradesAsUndefined());
+ vPC += OPCODE_LENGTH(op_eq_null);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_neq) {
equal, as with the ECMAScript '!=' operator, and puts the
result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- if (JSFastMath::canDoFastBitwiseOperations(src1, src2))
- callFrame[dst] = JSFastMath::notEqual(src1, src2);
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32())
+ callFrame->r(dst) = jsBoolean(src1.asInt32() != src2.asInt32());
else {
- JSValuePtr result = jsBoolean(!JSValuePtr::equalSlowCase(callFrame, src1, src2));
+ JSValue result = jsBoolean(!JSValue::equalSlowCase(callFrame, src1, src2));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_neq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_neq_null) {
Checks whether register src is not null, as with the ECMAScript '!='
operator, and puts the result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src = callFrame[(++vPC)->u.operand].jsValue(callFrame);
+ int dst = vPC[1].u.operand;
+ JSValue src = callFrame->r(vPC[2].u.operand).jsValue();
if (src.isUndefinedOrNull()) {
- callFrame[dst] = jsBoolean(false);
- ++vPC;
+ callFrame->r(dst) = jsBoolean(false);
+ vPC += OPCODE_LENGTH(op_neq_null);
NEXT_INSTRUCTION();
}
- callFrame[dst] = jsBoolean(!src.isCell() || !asCell(src)->structure()->typeInfo().masqueradesAsUndefined());
- ++vPC;
+ callFrame->r(dst) = jsBoolean(!src.isCell() || !asCell(src)->structure()->typeInfo().masqueradesAsUndefined());
+ vPC += OPCODE_LENGTH(op_neq_null);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_stricteq) {
equal, as with the ECMAScript '===' operator, and puts the
result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- callFrame[dst] = jsBoolean(JSValuePtr::strictEqual(src1, src2));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ bool result = JSValue::strictEqual(callFrame, src1, src2);
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = jsBoolean(result);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_stricteq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_nstricteq) {
strictly equal, as with the ECMAScript '!==' operator, and
puts the result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- callFrame[dst] = jsBoolean(!JSValuePtr::strictEqual(src1, src2));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ bool result = !JSValue::strictEqual(callFrame, src1, src2);
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = jsBoolean(result);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_nstricteq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_less) {
with the ECMAScript '<' operator, and puts the result as
a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr result = jsBoolean(jsLess(callFrame, src1, src2));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ JSValue result = jsBoolean(jsLess(callFrame, src1, src2));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
- ++vPC;
+ vPC += OPCODE_LENGTH(op_less);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_lesseq) {
register src2, as with the ECMAScript '<=' operator, and
puts the result as a boolean in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr result = jsBoolean(jsLessEq(callFrame, src1, src2));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ JSValue result = jsBoolean(jsLessEq(callFrame, src1, src2));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
- ++vPC;
+ vPC += OPCODE_LENGTH(op_lesseq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_pre_inc) {
Converts register srcDst to number, adds one, and puts the result
back in register srcDst.
*/
- int srcDst = (++vPC)->u.operand;
- JSValuePtr v = callFrame[srcDst].jsValue(callFrame);
- if (JSFastMath::canDoFastAdditiveOperations(v))
- callFrame[srcDst] = JSValuePtr(JSFastMath::incImmediateNumber(v));
+ int srcDst = vPC[1].u.operand;
+ JSValue v = callFrame->r(srcDst).jsValue();
+ if (v.isInt32() && v.asInt32() < INT_MAX)
+ callFrame->r(srcDst) = jsNumber(callFrame, v.asInt32() + 1);
else {
- JSValuePtr result = jsNumber(callFrame, v.toNumber(callFrame) + 1);
+ JSValue result = jsNumber(callFrame, v.toNumber(callFrame) + 1);
CHECK_FOR_EXCEPTION();
- callFrame[srcDst] = result;
+ callFrame->r(srcDst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_pre_inc);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_pre_dec) {
Converts register srcDst to number, subtracts one, and puts the result
back in register srcDst.
*/
- int srcDst = (++vPC)->u.operand;
- JSValuePtr v = callFrame[srcDst].jsValue(callFrame);
- if (JSFastMath::canDoFastAdditiveOperations(v))
- callFrame[srcDst] = JSValuePtr(JSFastMath::decImmediateNumber(v));
+ int srcDst = vPC[1].u.operand;
+ JSValue v = callFrame->r(srcDst).jsValue();
+ if (v.isInt32() && v.asInt32() > INT_MIN)
+ callFrame->r(srcDst) = jsNumber(callFrame, v.asInt32() - 1);
else {
- JSValuePtr result = jsNumber(callFrame, v.toNumber(callFrame) - 1);
+ JSValue result = jsNumber(callFrame, v.toNumber(callFrame) - 1);
CHECK_FOR_EXCEPTION();
- callFrame[srcDst] = result;
+ callFrame->r(srcDst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_pre_dec);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_post_inc) {
written to register dst, and the number plus one is written
back to register srcDst.
*/
- int dst = (++vPC)->u.operand;
- int srcDst = (++vPC)->u.operand;
- JSValuePtr v = callFrame[srcDst].jsValue(callFrame);
- if (JSFastMath::canDoFastAdditiveOperations(v)) {
- callFrame[dst] = v;
- callFrame[srcDst] = JSValuePtr(JSFastMath::incImmediateNumber(v));
+ int dst = vPC[1].u.operand;
+ int srcDst = vPC[2].u.operand;
+ JSValue v = callFrame->r(srcDst).jsValue();
+ if (v.isInt32() && v.asInt32() < INT_MAX) {
+ callFrame->r(srcDst) = jsNumber(callFrame, v.asInt32() + 1);
+ callFrame->r(dst) = v;
} else {
- JSValuePtr number = callFrame[srcDst].jsValue(callFrame).toJSNumber(callFrame);
+ JSValue number = callFrame->r(srcDst).jsValue().toJSNumber(callFrame);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = number;
- callFrame[srcDst] = JSValuePtr(jsNumber(callFrame, number.uncheckedGetNumber() + 1));
+ callFrame->r(srcDst) = jsNumber(callFrame, number.uncheckedGetNumber() + 1);
+ callFrame->r(dst) = number;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_post_inc);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_post_dec) {
written to register dst, and the number minus one is written
back to register srcDst.
*/
- int dst = (++vPC)->u.operand;
- int srcDst = (++vPC)->u.operand;
- JSValuePtr v = callFrame[srcDst].jsValue(callFrame);
- if (JSFastMath::canDoFastAdditiveOperations(v)) {
- callFrame[dst] = v;
- callFrame[srcDst] = JSValuePtr(JSFastMath::decImmediateNumber(v));
+ int dst = vPC[1].u.operand;
+ int srcDst = vPC[2].u.operand;
+ JSValue v = callFrame->r(srcDst).jsValue();
+ if (v.isInt32() && v.asInt32() > INT_MIN) {
+ callFrame->r(srcDst) = jsNumber(callFrame, v.asInt32() - 1);
+ callFrame->r(dst) = v;
} else {
- JSValuePtr number = callFrame[srcDst].jsValue(callFrame).toJSNumber(callFrame);
+ JSValue number = callFrame->r(srcDst).jsValue().toJSNumber(callFrame);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = number;
- callFrame[srcDst] = JSValuePtr(jsNumber(callFrame, number.uncheckedGetNumber() - 1));
+ callFrame->r(srcDst) = jsNumber(callFrame, number.uncheckedGetNumber() - 1);
+ callFrame->r(dst) = number;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_post_dec);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_to_jsnumber) {
Converts register src to number, and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
- JSValuePtr srcVal = callFrame[src].jsValue(callFrame);
+ JSValue srcVal = callFrame->r(src).jsValue();
if (LIKELY(srcVal.isNumber()))
- callFrame[dst] = callFrame[src];
+ callFrame->r(dst) = callFrame->r(src);
else {
- JSValuePtr result = srcVal.toJSNumber(callFrame);
+ JSValue result = srcVal.toJSNumber(callFrame);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_to_jsnumber);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_negate) {
Converts register src to number, negates it, and puts the
result in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- ++vPC;
- double v;
- if (src.getNumber(v))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, -v));
+ int dst = vPC[1].u.operand;
+ JSValue src = callFrame->r(vPC[2].u.operand).jsValue();
+ if (src.isInt32() && (src.asInt32() & 0x7fffffff)) // non-zero and no overflow
+ callFrame->r(dst) = jsNumber(callFrame, -src.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, -src.toNumber(callFrame));
+ JSValue result = jsNumber(callFrame, -src.toNumber(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
+ vPC += OPCODE_LENGTH(op_negate);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_add) {
in register dst. (JS add may be string concatenation or
numeric add, depending on the types of the operands.)
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- if (JSFastMath::canDoFastAdditiveOperations(src1, src2))
- callFrame[dst] = JSValuePtr(JSFastMath::addImmediateNumbers(src1, src2));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | (src2.asInt32() & 0xc0000000))) // no overflow
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() + src2.asInt32());
else {
- JSValuePtr result = jsAdd(callFrame, src1, src2);
+ JSValue result = jsAdd(callFrame, src1, src2);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_add);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_mul) {
Multiplies register src1 and register src2 (converted to
numbers), and puts the product in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- double left;
- double right;
- if (JSValuePtr::areBothInt32Fast(src1, src2)) {
- int32_t left = src1.getInt32Fast();
- int32_t right = src2.getInt32Fast();
- if ((left | right) >> 15 == 0)
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left * right));
- else
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, static_cast<double>(left) * static_cast<double>(right)));
- } else if (src1.getNumber(left) && src2.getNumber(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left * right));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | src2.asInt32() >> 15)) // no overflow
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() * src2.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, src1.toNumber(callFrame) * src2.toNumber(callFrame));
+ JSValue result = jsNumber(callFrame, src1.toNumber(callFrame) * src2.toNumber(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_mul);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_div) {
register divisor (converted to number), and puts the
quotient in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr dividend = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr divisor = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- double left;
- double right;
- if (dividend.getNumber(left) && divisor.getNumber(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left / right));
- else {
- JSValuePtr result = jsNumber(callFrame, dividend.toNumber(callFrame) / divisor.toNumber(callFrame));
- CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- }
- ++vPC;
+ int dst = vPC[1].u.operand;
+ JSValue dividend = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue divisor = callFrame->r(vPC[3].u.operand).jsValue();
+
+ JSValue result = jsNumber(callFrame, dividend.toNumber(callFrame) / divisor.toNumber(callFrame));
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+
+ vPC += OPCODE_LENGTH(op_div);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_mod) {
register divisor (converted to number), and puts the
remainder in register dst.
*/
- int dst = (++vPC)->u.operand;
- int dividend = (++vPC)->u.operand;
- int divisor = (++vPC)->u.operand;
-
- JSValuePtr dividendValue = callFrame[dividend].jsValue(callFrame);
- JSValuePtr divisorValue = callFrame[divisor].jsValue(callFrame);
+ int dst = vPC[1].u.operand;
+ JSValue dividend = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue divisor = callFrame->r(vPC[3].u.operand).jsValue();
- if (JSValuePtr::areBothInt32Fast(dividendValue, divisorValue) && divisorValue != js0()) {
- // We expect the result of the modulus of a number that was representable as an int32 to also be representable
- // as an int32.
- JSValuePtr result = JSValuePtr::makeInt32Fast(dividendValue.getInt32Fast() % divisorValue.getInt32Fast());
+ if (dividend.isInt32() && divisor.isInt32() && divisor.asInt32() != 0) {
+ JSValue result = jsNumber(callFrame, dividend.asInt32() % divisor.asInt32());
ASSERT(result);
- callFrame[dst] = result;
- ++vPC;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_mod);
NEXT_INSTRUCTION();
}
- double d = dividendValue.toNumber(callFrame);
- JSValuePtr result = jsNumber(callFrame, fmod(d, divisorValue.toNumber(callFrame)));
+ // Conversion to double must happen outside the call to fmod since the
+ // order of argument evaluation is not guaranteed.
+ double d1 = dividend.toNumber(callFrame);
+ double d2 = divisor.toNumber(callFrame);
+ JSValue result = jsNumber(callFrame, fmod(d1, d2));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- ++vPC;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_mod);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_sub) {
src1 (converted to number), and puts the difference in
register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- double left;
- double right;
- if (JSFastMath::canDoFastAdditiveOperations(src1, src2))
- callFrame[dst] = JSValuePtr(JSFastMath::subImmediateNumbers(src1, src2));
- else if (src1.getNumber(left) && src2.getNumber(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left - right));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32() && !(src1.asInt32() | (src2.asInt32() & 0xc0000000))) // no overflow
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() - src2.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, src1.toNumber(callFrame) - src2.toNumber(callFrame));
+ JSValue result = jsNumber(callFrame, src1.toNumber(callFrame) - src2.toNumber(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_sub);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_lshift) {
register shift (converted to uint32), and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr val = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr shift = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t left;
- uint32_t right;
- if (JSValuePtr::areBothInt32Fast(val, shift))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, val.getInt32Fast() << (shift.getInt32Fast() & 0x1f)));
- else if (val.numberToInt32(left) && shift.numberToUInt32(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left << (right & 0x1f)));
+ int dst = vPC[1].u.operand;
+ JSValue val = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue shift = callFrame->r(vPC[3].u.operand).jsValue();
+
+ if (val.isInt32() && shift.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, val.asInt32() << (shift.asInt32() & 0x1f));
else {
- JSValuePtr result = jsNumber(callFrame, (val.toInt32(callFrame)) << (shift.toUInt32(callFrame) & 0x1f));
+ JSValue result = jsNumber(callFrame, (val.toInt32(callFrame)) << (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_lshift);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_rshift) {
to int32) by register shift (converted to
uint32), and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr val = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr shift = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t left;
- uint32_t right;
- if (JSFastMath::canDoFastRshift(val, shift))
- callFrame[dst] = JSValuePtr(JSFastMath::rightShiftImmediateNumbers(val, shift));
- else if (val.numberToInt32(left) && shift.numberToUInt32(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left >> (right & 0x1f)));
+ int dst = vPC[1].u.operand;
+ JSValue val = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue shift = callFrame->r(vPC[3].u.operand).jsValue();
+
+ if (val.isInt32() && shift.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, val.asInt32() >> (shift.asInt32() & 0x1f));
else {
- JSValuePtr result = jsNumber(callFrame, (val.toInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
+ JSValue result = jsNumber(callFrame, (val.toInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_rshift);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_urshift) {
to uint32) by register shift (converted to
uint32), and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr val = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr shift = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- if (JSFastMath::canDoFastUrshift(val, shift))
- callFrame[dst] = JSValuePtr(JSFastMath::rightShiftImmediateNumbers(val, shift));
+ int dst = vPC[1].u.operand;
+ JSValue val = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue shift = callFrame->r(vPC[3].u.operand).jsValue();
+ if (val.isUInt32() && shift.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, val.asInt32() >> (shift.asInt32() & 0x1f));
else {
- JSValuePtr result = jsNumber(callFrame, (val.toUInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
+ JSValue result = jsNumber(callFrame, (val.toUInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_urshift);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_bitand) {
and register src2 (converted to int32), and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t left;
- int32_t right;
- if (JSFastMath::canDoFastBitwiseOperations(src1, src2))
- callFrame[dst] = JSValuePtr(JSFastMath::andImmediateNumbers(src1, src2));
- else if (src1.numberToInt32(left) && src2.numberToInt32(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left & right));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() & src2.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, src1.toInt32(callFrame) & src2.toInt32(callFrame));
+ JSValue result = jsNumber(callFrame, src1.toInt32(callFrame) & src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_bitand);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_bitxor) {
and register src2 (converted to int32), and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t left;
- int32_t right;
- if (JSFastMath::canDoFastBitwiseOperations(src1, src2))
- callFrame[dst] = JSValuePtr(JSFastMath::xorImmediateNumbers(src1, src2));
- else if (src1.numberToInt32(left) && src2.numberToInt32(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left ^ right));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() ^ src2.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, src1.toInt32(callFrame) ^ src2.toInt32(callFrame));
+ JSValue result = jsNumber(callFrame, src1.toInt32(callFrame) ^ src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_bitxor);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_bitor) {
and register src2 (converted to int32), and puts the
result in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t left;
- int32_t right;
- if (JSFastMath::canDoFastBitwiseOperations(src1, src2))
- callFrame[dst] = JSValuePtr(JSFastMath::orImmediateNumbers(src1, src2));
- else if (src1.numberToInt32(left) && src2.numberToInt32(right))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, left | right));
+ int dst = vPC[1].u.operand;
+ JSValue src1 = callFrame->r(vPC[2].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[3].u.operand).jsValue();
+ if (src1.isInt32() && src2.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, src1.asInt32() | src2.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, src1.toInt32(callFrame) | src2.toInt32(callFrame));
+ JSValue result = jsNumber(callFrame, src1.toInt32(callFrame) | src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_bitor);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_bitnot) {
Computes bitwise NOT of register src1 (converted to int32),
and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSValuePtr src = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int32_t value;
- if (src.numberToInt32(value))
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, ~value));
+ int dst = vPC[1].u.operand;
+ JSValue src = callFrame->r(vPC[2].u.operand).jsValue();
+ if (src.isInt32())
+ callFrame->r(dst) = jsNumber(callFrame, ~src.asInt32());
else {
- JSValuePtr result = jsNumber(callFrame, ~src.toInt32(callFrame));
+ JSValue result = jsNumber(callFrame, ~src.toInt32(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_bitnot);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_not) {
Computes logical NOT of register src (converted to
boolean), and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- JSValuePtr result = jsBoolean(!callFrame[src].jsValue(callFrame).toBoolean(callFrame));
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ JSValue result = jsBoolean(!callFrame->r(src).jsValue().toBoolean(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
- ++vPC;
+ vPC += OPCODE_LENGTH(op_not);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_instanceof) {
int base = vPC[3].u.operand;
int baseProto = vPC[4].u.operand;
- JSValuePtr baseVal = callFrame[base].jsValue(callFrame);
+ JSValue baseVal = callFrame->r(base).jsValue();
- if (isNotObject(callFrame, true, callFrame->codeBlock(), vPC, baseVal, exceptionValue))
+ if (isInvalidParamForInstanceOf(callFrame, callFrame->codeBlock(), vPC, baseVal, exceptionValue))
goto vm_throw;
- JSObject* baseObj = asObject(baseVal);
- callFrame[dst] = jsBoolean(baseObj->structure()->typeInfo().implementsHasInstance() ? baseObj->hasInstance(callFrame, callFrame[value].jsValue(callFrame), callFrame[baseProto].jsValue(callFrame)) : false);
+ bool result = asObject(baseVal)->hasInstance(callFrame, callFrame->r(value).jsValue(), callFrame->r(baseProto).jsValue());
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = jsBoolean(result);
- vPC += 5;
+ vPC += OPCODE_LENGTH(op_instanceof);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_typeof) {
Determines the type string for src according to ECMAScript
rules, and puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = JSValuePtr(jsTypeStringForValue(callFrame, callFrame[src].jsValue(callFrame)));
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = JSValue(jsTypeStringForValue(callFrame, callFrame->r(src).jsValue()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_typeof);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_undefined) {
the ECMAScript rules is "undefined", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- JSValuePtr v = callFrame[src].jsValue(callFrame);
- callFrame[dst] = jsBoolean(v.isCell() ? v.asCell()->structure()->typeInfo().masqueradesAsUndefined() : v.isUndefined());
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ JSValue v = callFrame->r(src).jsValue();
+ callFrame->r(dst) = jsBoolean(v.isCell() ? v.asCell()->structure()->typeInfo().masqueradesAsUndefined() : v.isUndefined());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_undefined);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_boolean) {
the ECMAScript rules is "boolean", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = jsBoolean(callFrame[src].jsValue(callFrame).isBoolean());
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = jsBoolean(callFrame->r(src).jsValue().isBoolean());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_boolean);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_number) {
the ECMAScript rules is "number", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = jsBoolean(callFrame[src].jsValue(callFrame).isNumber());
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = jsBoolean(callFrame->r(src).jsValue().isNumber());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_number);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_string) {
the ECMAScript rules is "string", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = jsBoolean(callFrame[src].jsValue(callFrame).isString());
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = jsBoolean(callFrame->r(src).jsValue().isString());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_string);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_object) {
the ECMAScript rules is "object", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = jsBoolean(jsIsObjectType(callFrame[src].jsValue(callFrame)));
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = jsBoolean(jsIsObjectType(callFrame->r(src).jsValue()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_object);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_is_function) {
the ECMAScript rules is "function", and puts the result
in register dst.
*/
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = jsBoolean(jsIsFunctionType(callFrame[src].jsValue(callFrame)));
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ callFrame->r(dst) = jsBoolean(jsIsFunctionType(callFrame->r(src).jsValue()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_is_function);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_in) {
Raises an exception if register constructor is not an
object.
*/
- int dst = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
- int base = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ int base = vPC[3].u.operand;
- JSValuePtr baseVal = callFrame[base].jsValue(callFrame);
- if (isNotObject(callFrame, false, callFrame->codeBlock(), vPC, baseVal, exceptionValue))
+ JSValue baseVal = callFrame->r(base).jsValue();
+ if (isInvalidParamForIn(callFrame, callFrame->codeBlock(), vPC, baseVal, exceptionValue))
goto vm_throw;
JSObject* baseObj = asObject(baseVal);
- JSValuePtr propName = callFrame[property].jsValue(callFrame);
+ JSValue propName = callFrame->r(property).jsValue();
uint32_t i;
if (propName.getUInt32(i))
- callFrame[dst] = jsBoolean(baseObj->hasProperty(callFrame, i));
+ callFrame->r(dst) = jsBoolean(baseObj->hasProperty(callFrame, i));
else {
Identifier property(callFrame, propName.toString(callFrame));
CHECK_FOR_EXCEPTION();
- callFrame[dst] = jsBoolean(baseObj->hasProperty(callFrame, property));
+ callFrame->r(dst) = jsBoolean(baseObj->hasProperty(callFrame, property));
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_in);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_resolve) {
if (UNLIKELY(!resolve(callFrame, vPC, exceptionValue)))
goto vm_throw;
- vPC += 3;
+ vPC += OPCODE_LENGTH(op_resolve);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_resolve_skip) {
if (UNLIKELY(!resolveSkip(callFrame, vPC, exceptionValue)))
goto vm_throw;
- vPC += 4;
+ vPC += OPCODE_LENGTH(op_resolve_skip);
NEXT_INSTRUCTION();
}
if (UNLIKELY(!resolveGlobal(callFrame, vPC, exceptionValue)))
goto vm_throw;
- vPC += 6;
+ vPC += OPCODE_LENGTH(op_resolve_global);
+
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_resolve_global_dynamic) {
+ /* resolve_skip dst(r) globalObject(c) property(id) structure(sID) offset(n), depth(n)
+
+ Performs a dynamic property lookup for the given property, on the provided
+ global object. If structure matches the Structure of the global then perform
+ a fast lookup using the case offset, otherwise fall back to a full resolve and
+ cache the new structure and offset.
+
+ This walks through n levels of the scope chain to verify that none of those levels
+ in the scope chain include dynamically added properties.
+ */
+ if (UNLIKELY(!resolveGlobalDynamic(callFrame, vPC, exceptionValue)))
+ goto vm_throw;
+
+ vPC += OPCODE_LENGTH(op_resolve_global_dynamic);
NEXT_INSTRUCTION();
}
Gets the global var at global slot index and places it in register dst.
*/
- int dst = (++vPC)->u.operand;
- JSGlobalObject* scope = static_cast<JSGlobalObject*>((++vPC)->u.jsCell);
+ int dst = vPC[1].u.operand;
+ JSGlobalObject* scope = static_cast<JSGlobalObject*>(vPC[2].u.jsCell);
ASSERT(scope->isGlobalObject());
- int index = (++vPC)->u.operand;
+ int index = vPC[3].u.operand;
- callFrame[dst] = scope->registerAt(index);
- ++vPC;
+ callFrame->r(dst) = scope->registerAt(index);
+ vPC += OPCODE_LENGTH(op_get_global_var);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_global_var) {
Puts value into global slot index.
*/
- JSGlobalObject* scope = static_cast<JSGlobalObject*>((++vPC)->u.jsCell);
+ JSGlobalObject* scope = static_cast<JSGlobalObject*>(vPC[1].u.jsCell);
ASSERT(scope->isGlobalObject());
- int index = (++vPC)->u.operand;
- int value = (++vPC)->u.operand;
+ int index = vPC[2].u.operand;
+ int value = vPC[3].u.operand;
- scope->registerAt(index) = JSValuePtr(callFrame[value].jsValue(callFrame));
- ++vPC;
+ scope->registerAt(index) = JSValue(callFrame->r(value).jsValue());
+ vPC += OPCODE_LENGTH(op_put_global_var);
NEXT_INSTRUCTION();
- }
+ }
DEFINE_OPCODE(op_get_scoped_var) {
/* get_scoped_var dst(r) index(n) skip(n)
Loads the contents of the index-th local from the scope skip nodes from
the top of the scope chain, and places it in register dst
*/
- int dst = (++vPC)->u.operand;
- int index = (++vPC)->u.operand;
- int skip = (++vPC)->u.operand + callFrame->codeBlock()->needsFullScopeChain();
+ int dst = vPC[1].u.operand;
+ int index = vPC[2].u.operand;
+ int skip = vPC[3].u.operand + callFrame->codeBlock()->needsFullScopeChain();
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
++iter;
ASSERT(iter != end);
}
-
ASSERT((*iter)->isVariableObject());
JSVariableObject* scope = static_cast<JSVariableObject*>(*iter);
- callFrame[dst] = scope->registerAt(index);
- ++vPC;
+ callFrame->r(dst) = scope->registerAt(index);
+ vPC += OPCODE_LENGTH(op_get_scoped_var);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_scoped_var) {
/* put_scoped_var index(n) skip(n) value(r)
*/
- int index = (++vPC)->u.operand;
- int skip = (++vPC)->u.operand + callFrame->codeBlock()->needsFullScopeChain();
- int value = (++vPC)->u.operand;
+ int index = vPC[1].u.operand;
+ int skip = vPC[2].u.operand + callFrame->codeBlock()->needsFullScopeChain();
+ int value = vPC[3].u.operand;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
ASSERT((*iter)->isVariableObject());
JSVariableObject* scope = static_cast<JSVariableObject*>(*iter);
- scope->registerAt(index) = JSValuePtr(callFrame[value].jsValue(callFrame));
- ++vPC;
+ scope->registerAt(index) = JSValue(callFrame->r(value).jsValue());
+ vPC += OPCODE_LENGTH(op_put_scoped_var);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_resolve_base) {
*/
resolveBase(callFrame, vPC);
- vPC += 3;
+ vPC += OPCODE_LENGTH(op_resolve_base);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_resolve_with_base) {
if (UNLIKELY(!resolveBaseAndProperty(callFrame, vPC, exceptionValue)))
goto vm_throw;
- vPC += 4;
- NEXT_INSTRUCTION();
- }
- DEFINE_OPCODE(op_resolve_func) {
- /* resolve_func baseDst(r) funcDst(r) property(id)
-
- Searches the scope chain for an object containing
- identifier property, and if one is found, writes the
- appropriate object to use as "this" when calling its
- properties to register baseDst; and the retrieved property
- value to register propDst. If the property is not found,
- raises an exception.
-
- This differs from resolve_with_base, because the
- global this value will be substituted for activations or
- the global object, which is the right behavior for function
- calls but not for other property lookup.
- */
- if (UNLIKELY(!resolveBaseAndFunc(callFrame, vPC, exceptionValue)))
- goto vm_throw;
-
- vPC += 4;
+ vPC += OPCODE_LENGTH(op_resolve_with_base);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_get_by_id) {
CodeBlock* codeBlock = callFrame->codeBlock();
Identifier& ident = codeBlock->identifier(property);
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
+ JSValue result = baseValue.get(callFrame, ident, slot);
CHECK_FOR_EXCEPTION();
tryCacheGetByID(callFrame, codeBlock, vPC, baseValue, ident, slot);
- callFrame[dst] = result;
- vPC += 8;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_id);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_get_by_id_self) {
op_get_by_id.
*/
int base = vPC[2].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
if (LIKELY(baseValue.isCell())) {
JSCell* baseCell = asCell(baseValue);
int offset = vPC[5].u.operand;
ASSERT(baseObject->get(callFrame, callFrame->codeBlock()->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset));
- callFrame[dst] = JSValuePtr(baseObject->getDirectOffset(offset));
+ callFrame->r(dst) = JSValue(baseObject->getDirectOffset(offset));
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_get_by_id_self);
NEXT_INSTRUCTION();
}
}
reverts to op_get_by_id.
*/
int base = vPC[2].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
if (LIKELY(baseValue.isCell())) {
JSCell* baseCell = asCell(baseValue);
int offset = vPC[6].u.operand;
ASSERT(protoObject->get(callFrame, callFrame->codeBlock()->identifier(vPC[3].u.operand)) == protoObject->getDirectOffset(offset));
- callFrame[dst] = JSValuePtr(protoObject->getDirectOffset(offset));
+ ASSERT(baseValue.get(callFrame, callFrame->codeBlock()->identifier(vPC[3].u.operand)) == protoObject->getDirectOffset(offset));
+ callFrame->r(dst) = JSValue(protoObject->getDirectOffset(offset));
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_get_by_id_proto);
NEXT_INSTRUCTION();
}
}
uncacheGetByID(callFrame->codeBlock(), vPC);
NEXT_INSTRUCTION();
}
- DEFINE_OPCODE(op_get_by_id_self_list) {
- // Polymorphic self access caching currently only supported when JITting.
- ASSERT_NOT_REACHED();
- // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)!
- vPC += 8;
- NEXT_INSTRUCTION();
- }
- DEFINE_OPCODE(op_get_by_id_proto_list) {
- // Polymorphic prototype access caching currently only supported when JITting.
- ASSERT_NOT_REACHED();
- // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)!
- vPC += 8;
- NEXT_INSTRUCTION();
- }
- DEFINE_OPCODE(op_get_by_id_chain) {
- /* op_get_by_id_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n)
-
- Cached property access: Attempts to get a cached property from the
- value base's prototype chain. If the cache misses, op_get_by_id_chain
- reverts to op_get_by_id.
- */
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_getter_proto);
+#endif
+ DEFINE_OPCODE(op_get_by_id_getter_proto) {
+ /* op_get_by_id_getter_proto dst(r) base(r) property(id) structure(sID) prototypeStructure(sID) offset(n) nop(n)
+
+ Cached property access: Attempts to get a cached getter property from the
+ value base's prototype. If the cache misses, op_get_by_id_getter_proto
+ reverts to op_get_by_id.
+ */
int base = vPC[2].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
-
+ JSValue baseValue = callFrame->r(base).jsValue();
+
if (LIKELY(baseValue.isCell())) {
JSCell* baseCell = asCell(baseValue);
Structure* structure = vPC[4].u.structure;
-
+
if (LIKELY(baseCell->structure() == structure)) {
- RefPtr<Structure>* it = vPC[5].u.structureChain->head();
- size_t count = vPC[6].u.operand;
- RefPtr<Structure>* end = it + count;
-
- while (true) {
- JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame));
-
- if (UNLIKELY(baseObject->structure() != (*it).get()))
- break;
-
- if (++it == end) {
- int dst = vPC[1].u.operand;
+ ASSERT(structure->prototypeForLookup(callFrame).isObject());
+ JSObject* protoObject = asObject(structure->prototypeForLookup(callFrame));
+ Structure* prototypeStructure = vPC[5].u.structure;
+
+ if (LIKELY(protoObject->structure() == prototypeStructure)) {
+ int dst = vPC[1].u.operand;
+ int offset = vPC[6].u.operand;
+ if (GetterSetter* getterSetter = asGetterSetter(protoObject->getDirectOffset(offset).asCell())) {
+ JSObject* getter = getterSetter->getter();
+ CallData callData;
+ CallType callType = getter->getCallData(callData);
+ JSValue result = call(callFrame, getter, callType, callData, asObject(baseCell), ArgList());
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ } else
+ callFrame->r(dst) = jsUndefined();
+ vPC += OPCODE_LENGTH(op_get_by_id_getter_proto);
+ NEXT_INSTRUCTION();
+ }
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ skip_id_getter_proto:
+#endif
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_custom_proto);
+#endif
+ DEFINE_OPCODE(op_get_by_id_custom_proto) {
+ /* op_get_by_id_custom_proto dst(r) base(r) property(id) structure(sID) prototypeStructure(sID) offset(n) nop(n)
+
+ Cached property access: Attempts to use a cached named property getter
+ from the value base's prototype. If the cache misses, op_get_by_id_custom_proto
+ reverts to op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ ASSERT(structure->prototypeForLookup(callFrame).isObject());
+ JSObject* protoObject = asObject(structure->prototypeForLookup(callFrame));
+ Structure* prototypeStructure = vPC[5].u.structure;
+
+ if (LIKELY(protoObject->structure() == prototypeStructure)) {
+ int dst = vPC[1].u.operand;
+ int property = vPC[3].u.operand;
+ Identifier& ident = callFrame->codeBlock()->identifier(property);
+
+ PropertySlot::GetValueFunc getter = vPC[6].u.getterFunc;
+ JSValue result = getter(callFrame, protoObject, ident);
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_id_custom_proto);
+ NEXT_INSTRUCTION();
+ }
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ skip_id_custom_proto:
+#endif
+ DEFINE_OPCODE(op_get_by_id_self_list) {
+ // Polymorphic self access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_self_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_proto_list) {
+ // Polymorphic prototype access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_proto_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_getter_self_list) {
+ // Polymorphic self access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_self_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_getter_proto_list) {
+ // Polymorphic prototype access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_proto_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_custom_self_list) {
+ // Polymorphic self access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_self_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_custom_self_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_custom_proto_list) {
+ // Polymorphic prototype access caching currently only supported when JITting.
+ ASSERT_NOT_REACHED();
+ // This case of the switch must not be empty, else (op_get_by_id_proto_list == op_get_by_id_chain)!
+ vPC += OPCODE_LENGTH(op_get_by_id_proto_list);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_id_chain) {
+ /* op_get_by_id_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n)
+
+ Cached property access: Attempts to get a cached property from the
+ value base's prototype chain. If the cache misses, op_get_by_id_chain
+ reverts to op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ RefPtr<Structure>* it = vPC[5].u.structureChain->head();
+ size_t count = vPC[6].u.operand;
+ RefPtr<Structure>* end = it + count;
+
+ while (true) {
+ JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame));
+
+ if (UNLIKELY(baseObject->structure() != (*it).get()))
+ break;
+
+ if (++it == end) {
+ int dst = vPC[1].u.operand;
int offset = vPC[7].u.operand;
ASSERT(baseObject->get(callFrame, callFrame->codeBlock()->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset));
- callFrame[dst] = JSValuePtr(baseObject->getDirectOffset(offset));
+ ASSERT(baseValue.get(callFrame, callFrame->codeBlock()->identifier(vPC[3].u.operand)) == baseObject->getDirectOffset(offset));
+ callFrame->r(dst) = JSValue(baseObject->getDirectOffset(offset));
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_get_by_id_chain);
NEXT_INSTRUCTION();
}
uncacheGetByID(callFrame->codeBlock(), vPC);
NEXT_INSTRUCTION();
}
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_getter_self);
+#endif
+ DEFINE_OPCODE(op_get_by_id_getter_self) {
+ /* op_get_by_id_self dst(r) base(r) property(id) structure(sID) offset(n) nop(n) nop(n)
+
+ Cached property access: Attempts to get a cached property from the
+ value base. If the cache misses, op_get_by_id_getter_self reverts to
+ op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ ASSERT(baseCell->isObject());
+ JSObject* baseObject = asObject(baseCell);
+ int dst = vPC[1].u.operand;
+ int offset = vPC[5].u.operand;
+
+ if (GetterSetter* getterSetter = asGetterSetter(baseObject->getDirectOffset(offset).asCell())) {
+ JSObject* getter = getterSetter->getter();
+ CallData callData;
+ CallType callType = getter->getCallData(callData);
+ JSValue result = call(callFrame, getter, callType, callData, baseObject, ArgList());
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ } else
+ callFrame->r(dst) = jsUndefined();
+
+ vPC += OPCODE_LENGTH(op_get_by_id_getter_self);
+ NEXT_INSTRUCTION();
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ skip_id_getter_self:
+#endif
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_custom_self);
+#endif
+ DEFINE_OPCODE(op_get_by_id_custom_self) {
+ /* op_get_by_id_custom_self dst(r) base(r) property(id) structure(sID) offset(n) nop(n) nop(n)
+
+ Cached property access: Attempts to use a cached named property getter
+ from the value base. If the cache misses, op_get_by_id_custom_self reverts to
+ op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ ASSERT(baseCell->isObject());
+ int dst = vPC[1].u.operand;
+ int property = vPC[3].u.operand;
+ Identifier& ident = callFrame->codeBlock()->identifier(property);
+
+ PropertySlot::GetValueFunc getter = vPC[5].u.getterFunc;
+ JSValue result = getter(callFrame, baseValue, ident);
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_id_custom_self);
+ NEXT_INSTRUCTION();
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+skip_id_custom_self:
+#endif
DEFINE_OPCODE(op_get_by_id_generic) {
/* op_get_by_id_generic dst(r) base(r) property(id) nop(sID) nop(n) nop(n) nop(n)
int property = vPC[3].u.operand;
Identifier& ident = callFrame->codeBlock()->identifier(property);
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
+ JSValue result = baseValue.get(callFrame, ident, slot);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- vPC += 8;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_id_generic);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_getter_chain);
+#endif
+ DEFINE_OPCODE(op_get_by_id_getter_chain) {
+ /* op_get_by_id_getter_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n)
+
+ Cached property access: Attempts to get a cached property from the
+ value base's prototype chain. If the cache misses, op_get_by_id_getter_chain
+ reverts to op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ RefPtr<Structure>* it = vPC[5].u.structureChain->head();
+ size_t count = vPC[6].u.operand;
+ RefPtr<Structure>* end = it + count;
+
+ while (true) {
+ JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame));
+
+ if (UNLIKELY(baseObject->structure() != (*it).get()))
+ break;
+
+ if (++it == end) {
+ int dst = vPC[1].u.operand;
+ int offset = vPC[7].u.operand;
+ if (GetterSetter* getterSetter = asGetterSetter(baseObject->getDirectOffset(offset).asCell())) {
+ JSObject* getter = getterSetter->getter();
+ CallData callData;
+ CallType callType = getter->getCallData(callData);
+ JSValue result = call(callFrame, getter, callType, callData, baseValue, ArgList());
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ } else
+ callFrame->r(dst) = jsUndefined();
+ vPC += OPCODE_LENGTH(op_get_by_id_getter_chain);
+ NEXT_INSTRUCTION();
+ }
+
+ // Update baseCell, so that next time around the loop we'll pick up the prototype's prototype.
+ baseCell = baseObject;
+ }
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ skip_id_getter_chain:
+#endif
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ goto *(&&skip_id_custom_chain);
+#endif
+ DEFINE_OPCODE(op_get_by_id_custom_chain) {
+ /* op_get_by_id_custom_chain dst(r) base(r) property(id) structure(sID) structureChain(chain) count(n) offset(n)
+
+ Cached property access: Attempts to use a cached named property getter on the
+ value base's prototype chain. If the cache misses, op_get_by_id_custom_chain
+ reverts to op_get_by_id.
+ */
+ int base = vPC[2].u.operand;
+ JSValue baseValue = callFrame->r(base).jsValue();
+
+ if (LIKELY(baseValue.isCell())) {
+ JSCell* baseCell = asCell(baseValue);
+ Structure* structure = vPC[4].u.structure;
+
+ if (LIKELY(baseCell->structure() == structure)) {
+ RefPtr<Structure>* it = vPC[5].u.structureChain->head();
+ size_t count = vPC[6].u.operand;
+ RefPtr<Structure>* end = it + count;
+
+ while (true) {
+ JSObject* baseObject = asObject(baseCell->structure()->prototypeForLookup(callFrame));
+
+ if (UNLIKELY(baseObject->structure() != (*it).get()))
+ break;
+
+ if (++it == end) {
+ int dst = vPC[1].u.operand;
+ int property = vPC[3].u.operand;
+ Identifier& ident = callFrame->codeBlock()->identifier(property);
+
+ PropertySlot::GetValueFunc getter = vPC[7].u.getterFunc;
+ JSValue result = getter(callFrame, baseObject, ident);
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_id_custom_chain);
+ NEXT_INSTRUCTION();
+ }
+
+ // Update baseCell, so that next time around the loop we'll pick up the prototype's prototype.
+ baseCell = baseObject;
+ }
+ }
+ }
+ uncacheGetByID(callFrame->codeBlock(), vPC);
NEXT_INSTRUCTION();
}
+#if USE(GCC_COMPUTED_GOTO_WORKAROUND)
+ skip_id_custom_chain:
+#endif
DEFINE_OPCODE(op_get_array_length) {
/* op_get_array_length dst(r) base(r) property(id) nop(sID) nop(n) nop(n) nop(n)
*/
int base = vPC[2].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
- if (LIKELY(isJSArray(baseValue))) {
+ JSValue baseValue = callFrame->r(base).jsValue();
+ if (LIKELY(isJSArray(globalData, baseValue))) {
int dst = vPC[1].u.operand;
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, asArray(baseValue)->length()));
- vPC += 8;
+ callFrame->r(dst) = jsNumber(callFrame, asArray(baseValue)->length());
+ vPC += OPCODE_LENGTH(op_get_array_length);
NEXT_INSTRUCTION();
}
*/
int base = vPC[2].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
- if (LIKELY(isJSString(baseValue))) {
+ JSValue baseValue = callFrame->r(base).jsValue();
+ if (LIKELY(isJSString(globalData, baseValue))) {
int dst = vPC[1].u.operand;
- callFrame[dst] = JSValuePtr(jsNumber(callFrame, asString(baseValue)->value().size()));
- vPC += 8;
+ callFrame->r(dst) = jsNumber(callFrame, asString(baseValue)->length());
+ vPC += OPCODE_LENGTH(op_get_string_length);
NEXT_INSTRUCTION();
}
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_id) {
- /* put_by_id base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n)
+ /* put_by_id base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n) direct(b)
Generic property access: Sets the property named by identifier
property, belonging to register base, to register value.
Unlike many opcodes, this one does not write any output to
the register file.
+
+ The "direct" flag should only be set this put_by_id is to initialize
+ an object literal.
*/
int base = vPC[1].u.operand;
int property = vPC[2].u.operand;
int value = vPC[3].u.operand;
+ int direct = vPC[8].u.operand;
CodeBlock* codeBlock = callFrame->codeBlock();
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
Identifier& ident = codeBlock->identifier(property);
PutPropertySlot slot;
- baseValue.put(callFrame, ident, callFrame[value].jsValue(callFrame), slot);
+ if (direct) {
+ baseValue.putDirect(callFrame, ident, callFrame->r(value).jsValue(), slot);
+ ASSERT(slot.base() == baseValue);
+ } else
+ baseValue.put(callFrame, ident, callFrame->r(value).jsValue(), slot);
CHECK_FOR_EXCEPTION();
tryCachePutByID(callFrame, codeBlock, vPC, baseValue, slot);
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_put_by_id);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_id_transition) {
- /* op_put_by_id_transition base(r) property(id) value(r) oldStructure(sID) newStructure(sID) structureChain(chain) offset(n)
+ /* op_put_by_id_transition base(r) property(id) value(r) oldStructure(sID) newStructure(sID) structureChain(chain) offset(n) direct(b)
Cached property access: Attempts to set a new property with a cached transition
property named by identifier property, belonging to register base,
the register file.
*/
int base = vPC[1].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
if (LIKELY(baseValue.isCell())) {
JSCell* baseCell = asCell(baseValue);
if (LIKELY(baseCell->structure() == oldStructure)) {
ASSERT(baseCell->isObject());
JSObject* baseObject = asObject(baseCell);
-
- RefPtr<Structure>* it = vPC[6].u.structureChain->head();
-
- JSValuePtr proto = baseObject->structure()->prototypeForLookup(callFrame);
- while (!proto.isNull()) {
- if (UNLIKELY(asObject(proto)->structure() != (*it).get())) {
- uncachePutByID(callFrame->codeBlock(), vPC);
- NEXT_INSTRUCTION();
+ int direct = vPC[8].u.operand;
+
+ if (!direct) {
+ RefPtr<Structure>* it = vPC[6].u.structureChain->head();
+
+ JSValue proto = baseObject->structure()->prototypeForLookup(callFrame);
+ while (!proto.isNull()) {
+ if (UNLIKELY(asObject(proto)->structure() != (*it).get())) {
+ uncachePutByID(callFrame->codeBlock(), vPC);
+ NEXT_INSTRUCTION();
+ }
+ ++it;
+ proto = asObject(proto)->structure()->prototypeForLookup(callFrame);
}
- ++it;
- proto = asObject(proto)->structure()->prototypeForLookup(callFrame);
}
-
baseObject->transitionTo(newStructure);
int value = vPC[3].u.operand;
unsigned offset = vPC[7].u.operand;
ASSERT(baseObject->offsetForLocation(baseObject->getDirectLocation(callFrame->codeBlock()->identifier(vPC[2].u.operand))) == offset);
- baseObject->putDirectOffset(offset, callFrame[value].jsValue(callFrame));
+ baseObject->putDirectOffset(offset, callFrame->r(value).jsValue());
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_put_by_id_transition);
NEXT_INSTRUCTION();
}
}
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_id_replace) {
- /* op_put_by_id_replace base(r) property(id) value(r) structure(sID) offset(n) nop(n) nop(n)
+ /* op_put_by_id_replace base(r) property(id) value(r) structure(sID) offset(n) nop(n) nop(n) direct(b)
Cached property access: Attempts to set a pre-existing, cached
property named by identifier property, belonging to register base,
the register file.
*/
int base = vPC[1].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
if (LIKELY(baseValue.isCell())) {
JSCell* baseCell = asCell(baseValue);
unsigned offset = vPC[5].u.operand;
ASSERT(baseObject->offsetForLocation(baseObject->getDirectLocation(callFrame->codeBlock()->identifier(vPC[2].u.operand))) == offset);
- baseObject->putDirectOffset(offset, callFrame[value].jsValue(callFrame));
+ baseObject->putDirectOffset(offset, callFrame->r(value).jsValue());
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_put_by_id_replace);
NEXT_INSTRUCTION();
}
}
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_id_generic) {
- /* op_put_by_id_generic base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n)
+ /* op_put_by_id_generic base(r) property(id) value(r) nop(n) nop(n) nop(n) nop(n) direct(b)
Generic property access: Sets the property named by identifier
property, belonging to register base, to register value.
int base = vPC[1].u.operand;
int property = vPC[2].u.operand;
int value = vPC[3].u.operand;
+ int direct = vPC[8].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
Identifier& ident = callFrame->codeBlock()->identifier(property);
PutPropertySlot slot;
- baseValue.put(callFrame, ident, callFrame[value].jsValue(callFrame), slot);
+ if (direct) {
+ baseValue.putDirect(callFrame, ident, callFrame->r(value).jsValue(), slot);
+ ASSERT(slot.base() == baseValue);
+ } else
+ baseValue.put(callFrame, ident, callFrame->r(value).jsValue(), slot);
CHECK_FOR_EXCEPTION();
- vPC += 8;
+ vPC += OPCODE_LENGTH(op_put_by_id_generic);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_del_by_id) {
boolean indicating success (if true) or failure (if false)
to register dst.
*/
- int dst = (++vPC)->u.operand;
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int property = vPC[3].u.operand;
- JSObject* baseObj = callFrame[base].jsValue(callFrame).toObject(callFrame);
+ JSObject* baseObj = callFrame->r(base).jsValue().toObject(callFrame);
Identifier& ident = callFrame->codeBlock()->identifier(property);
- JSValuePtr result = jsBoolean(baseObj->deleteProperty(callFrame, ident));
+ JSValue result = jsBoolean(baseObj->deleteProperty(callFrame, ident));
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_del_by_id);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_get_by_pname) {
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int property = vPC[3].u.operand;
+ int expected = vPC[4].u.operand;
+ int iter = vPC[5].u.operand;
+ int i = vPC[6].u.operand;
+
+ JSValue baseValue = callFrame->r(base).jsValue();
+ JSPropertyNameIterator* it = callFrame->r(iter).propertyNameIterator();
+ JSValue subscript = callFrame->r(property).jsValue();
+ JSValue expectedSubscript = callFrame->r(expected).jsValue();
+ int index = callFrame->r(i).i() - 1;
+ JSValue result;
+ int offset = 0;
+ if (subscript == expectedSubscript && baseValue.isCell() && (baseValue.asCell()->structure() == it->cachedStructure()) && it->getOffset(index, offset)) {
+ callFrame->r(dst) = asObject(baseValue)->getDirectOffset(offset);
+ vPC += OPCODE_LENGTH(op_get_by_pname);
+ NEXT_INSTRUCTION();
+ }
+ Identifier propertyName(callFrame, subscript.toString(callFrame));
+ result = baseValue.get(callFrame, propertyName);
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- ++vPC;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_pname);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_get_by_val) {
in register dst. property is nominally converted to string
but numbers are treated more efficiently.
*/
- int dst = (++vPC)->u.operand;
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int property = vPC[3].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
- JSValuePtr subscript = callFrame[property].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
+ JSValue subscript = callFrame->r(property).jsValue();
- JSValuePtr result;
+ JSValue result;
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (isJSArray(baseValue)) {
+ if (LIKELY(subscript.isUInt32())) {
+ uint32_t i = subscript.asUInt32();
+ if (isJSArray(globalData, baseValue)) {
JSArray* jsArray = asArray(baseValue);
if (jsArray->canGetIndex(i))
result = jsArray->getIndex(i);
else
result = jsArray->JSArray::get(callFrame, i);
- } else if (isJSString(baseValue) && asString(baseValue)->canGetIndex(i))
- result = asString(baseValue)->getIndex(&callFrame->globalData(), i);
- else if (isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i))
+ } else if (isJSString(globalData, baseValue) && asString(baseValue)->canGetIndex(i))
+ result = asString(baseValue)->getIndex(callFrame, i);
+ else if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i))
result = asByteArray(baseValue)->getIndex(callFrame, i);
else
result = baseValue.get(callFrame, i);
}
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- ++vPC;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_get_by_val);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_val) {
Unlike many opcodes, this one does not write any output to
the register file.
*/
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
- int value = (++vPC)->u.operand;
+ int base = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ int value = vPC[3].u.operand;
- JSValuePtr baseValue = callFrame[base].jsValue(callFrame);
- JSValuePtr subscript = callFrame[property].jsValue(callFrame);
+ JSValue baseValue = callFrame->r(base).jsValue();
+ JSValue subscript = callFrame->r(property).jsValue();
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (isJSArray(baseValue)) {
+ if (LIKELY(subscript.isUInt32())) {
+ uint32_t i = subscript.asUInt32();
+ if (isJSArray(globalData, baseValue)) {
JSArray* jsArray = asArray(baseValue);
if (jsArray->canSetIndex(i))
- jsArray->setIndex(i, callFrame[value].jsValue(callFrame));
+ jsArray->setIndex(i, callFrame->r(value).jsValue());
else
- jsArray->JSArray::put(callFrame, i, callFrame[value].jsValue(callFrame));
- } else if (isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
+ jsArray->JSArray::put(callFrame, i, callFrame->r(value).jsValue());
+ } else if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
JSByteArray* jsByteArray = asByteArray(baseValue);
double dValue = 0;
- JSValuePtr jsValue = callFrame[value].jsValue(callFrame);
- if (jsValue.isInt32Fast())
- jsByteArray->setIndex(i, jsValue.getInt32Fast());
+ JSValue jsValue = callFrame->r(value).jsValue();
+ if (jsValue.isInt32())
+ jsByteArray->setIndex(i, jsValue.asInt32());
else if (jsValue.getNumber(dValue))
jsByteArray->setIndex(i, dValue);
else
baseValue.put(callFrame, i, jsValue);
} else
- baseValue.put(callFrame, i, callFrame[value].jsValue(callFrame));
+ baseValue.put(callFrame, i, callFrame->r(value).jsValue());
} else {
Identifier property(callFrame, subscript.toString(callFrame));
if (!globalData->exception) { // Don't put to an object if toString threw an exception.
PutPropertySlot slot;
- baseValue.put(callFrame, property, callFrame[value].jsValue(callFrame), slot);
+ baseValue.put(callFrame, property, callFrame->r(value).jsValue(), slot);
}
}
CHECK_FOR_EXCEPTION();
- ++vPC;
+ vPC += OPCODE_LENGTH(op_put_by_val);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_del_by_val) {
boolean indicating success (if true) or failure (if false)
to register dst.
*/
- int dst = (++vPC)->u.operand;
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int property = vPC[3].u.operand;
- JSObject* baseObj = callFrame[base].jsValue(callFrame).toObject(callFrame); // may throw
+ JSObject* baseObj = callFrame->r(base).jsValue().toObject(callFrame); // may throw
- JSValuePtr subscript = callFrame[property].jsValue(callFrame);
- JSValuePtr result;
+ JSValue subscript = callFrame->r(property).jsValue();
+ JSValue result;
uint32_t i;
if (subscript.getUInt32(i))
result = jsBoolean(baseObj->deleteProperty(callFrame, i));
}
CHECK_FOR_EXCEPTION();
- callFrame[dst] = result;
- ++vPC;
+ callFrame->r(dst) = result;
+ vPC += OPCODE_LENGTH(op_del_by_val);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_by_index) {
This opcode is mainly used to initialize array literals.
*/
- int base = (++vPC)->u.operand;
- unsigned property = (++vPC)->u.operand;
- int value = (++vPC)->u.operand;
+ int base = vPC[1].u.operand;
+ unsigned property = vPC[2].u.operand;
+ int value = vPC[3].u.operand;
- callFrame[base].jsValue(callFrame).put(callFrame, property, callFrame[value].jsValue(callFrame));
+ callFrame->r(base).jsValue().put(callFrame, property, callFrame->r(value).jsValue());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_put_by_index);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_loop) {
#if ENABLE(OPCODE_STATS)
OpcodeStats::resetLastInstruction();
#endif
- int target = (++vPC)->u.operand;
+ int target = vPC[1].u.operand;
CHECK_FOR_TIMEOUT();
vPC += target;
NEXT_INSTRUCTION();
#if ENABLE(OPCODE_STATS)
OpcodeStats::resetLastInstruction();
#endif
- int target = (++vPC)->u.operand;
+ int target = vPC[1].u.operand;
vPC += target;
NEXT_INSTRUCTION();
Additionally this loop instruction may terminate JS execution is
the JS timeout is reached.
*/
- int cond = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- if (callFrame[cond].jsValue(callFrame).toBoolean(callFrame)) {
+ int cond = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ if (callFrame->r(cond).jsValue().toBoolean(callFrame)) {
+ vPC += target;
+ CHECK_FOR_TIMEOUT();
+ NEXT_INSTRUCTION();
+ }
+
+ vPC += OPCODE_LENGTH(op_loop_if_true);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_loop_if_false) {
+ /* loop_if_true cond(r) target(offset)
+
+ Jumps to offset target from the current instruction, if and
+ only if register cond converts to boolean as false.
+
+ Additionally this loop instruction may terminate JS execution is
+ the JS timeout is reached.
+ */
+ int cond = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ if (!callFrame->r(cond).jsValue().toBoolean(callFrame)) {
vPC += target;
CHECK_FOR_TIMEOUT();
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_loop_if_true);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jtrue) {
Jumps to offset target from the current instruction, if and
only if register cond converts to boolean as true.
*/
- int cond = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- if (callFrame[cond].jsValue(callFrame).toBoolean(callFrame)) {
+ int cond = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ if (callFrame->r(cond).jsValue().toBoolean(callFrame)) {
vPC += target;
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_jtrue);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jfalse) {
Jumps to offset target from the current instruction, if and
only if register cond converts to boolean as false.
*/
- int cond = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- if (!callFrame[cond].jsValue(callFrame).toBoolean(callFrame)) {
+ int cond = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ if (!callFrame->r(cond).jsValue().toBoolean(callFrame)) {
vPC += target;
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_jfalse);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jeq_null) {
Jumps to offset target from the current instruction, if and
only if register src is null.
*/
- int src = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- JSValuePtr srcValue = callFrame[src].jsValue(callFrame);
+ int src = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ JSValue srcValue = callFrame->r(src).jsValue();
if (srcValue.isUndefinedOrNull() || (srcValue.isCell() && srcValue.asCell()->structure()->typeInfo().masqueradesAsUndefined())) {
vPC += target;
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_jeq_null);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jneq_null) {
Jumps to offset target from the current instruction, if and
only if register src is not null.
*/
- int src = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- JSValuePtr srcValue = callFrame[src].jsValue(callFrame);
+ int src = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ JSValue srcValue = callFrame->r(src).jsValue();
- if (!srcValue.isUndefinedOrNull() || (srcValue.isCell() && !srcValue.asCell()->structure()->typeInfo().masqueradesAsUndefined())) {
+ if (!srcValue.isUndefinedOrNull() && (!srcValue.isCell() || !srcValue.asCell()->structure()->typeInfo().masqueradesAsUndefined())) {
vPC += target;
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_jneq_null);
NEXT_INSTRUCTION();
}
- DEFINE_OPCODE(op_loop_if_less) {
- /* loop_if_less src1(r) src2(r) target(offset)
+ DEFINE_OPCODE(op_jneq_ptr) {
+ /* jneq_ptr src(r) ptr(jsCell) target(offset)
+
+ Jumps to offset target from the current instruction, if the value r is equal
+ to ptr, using pointer equality.
+ */
+ int src = vPC[1].u.operand;
+ JSValue ptr = JSValue(vPC[2].u.jsCell);
+ int target = vPC[3].u.operand;
+ JSValue srcValue = callFrame->r(src).jsValue();
+ if (srcValue != ptr) {
+ vPC += target;
+ NEXT_INSTRUCTION();
+ }
+
+ vPC += OPCODE_LENGTH(op_jneq_ptr);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_loop_if_less) {
+ /* loop_if_less src1(r) src2(r) target(offset)
Checks whether register src1 is less than register src2, as
with the ECMAScript '<' operator, and then jumps to offset
Additionally this loop instruction may terminate JS execution is
the JS timeout is reached.
*/
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int target = (++vPC)->u.operand;
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
bool result = jsLess(callFrame, src1, src2);
CHECK_FOR_EXCEPTION();
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_loop_if_less);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_loop_if_lesseq) {
Additionally this loop instruction may terminate JS execution is
the JS timeout is reached.
*/
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int target = (++vPC)->u.operand;
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
bool result = jsLessEq(callFrame, src1, src2);
CHECK_FOR_EXCEPTION();
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_loop_if_lesseq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jnless) {
target from the current instruction, if and only if the
result of the comparison is false.
*/
- JSValuePtr src1 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- JSValuePtr src2 = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- int target = (++vPC)->u.operand;
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
+
+ bool result = jsLess(callFrame, src1, src2);
+ CHECK_FOR_EXCEPTION();
+
+ if (!result) {
+ vPC += target;
+ NEXT_INSTRUCTION();
+ }
+
+ vPC += OPCODE_LENGTH(op_jnless);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_jless) {
+ /* jless src1(r) src2(r) target(offset)
+
+ Checks whether register src1 is less than register src2, as
+ with the ECMAScript '<' operator, and then jumps to offset
+ target from the current instruction, if and only if the
+ result of the comparison is true.
+ */
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
bool result = jsLess(callFrame, src1, src2);
CHECK_FOR_EXCEPTION();
+ if (result) {
+ vPC += target;
+ NEXT_INSTRUCTION();
+ }
+
+ vPC += OPCODE_LENGTH(op_jless);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_jnlesseq) {
+ /* jnlesseq src1(r) src2(r) target(offset)
+
+ Checks whether register src1 is less than or equal to
+ register src2, as with the ECMAScript '<=' operator,
+ and then jumps to offset target from the current instruction,
+ if and only if theresult of the comparison is false.
+ */
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
+
+ bool result = jsLessEq(callFrame, src1, src2);
+ CHECK_FOR_EXCEPTION();
+
if (!result) {
vPC += target;
NEXT_INSTRUCTION();
}
- ++vPC;
+ vPC += OPCODE_LENGTH(op_jnlesseq);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_jlesseq) {
+ /* jlesseq src1(r) src2(r) target(offset)
+
+ Checks whether register src1 is less than or equal to
+ register src2, as with the ECMAScript '<=' operator,
+ and then jumps to offset target from the current instruction,
+ if and only if the result of the comparison is true.
+ */
+ JSValue src1 = callFrame->r(vPC[1].u.operand).jsValue();
+ JSValue src2 = callFrame->r(vPC[2].u.operand).jsValue();
+ int target = vPC[3].u.operand;
+
+ bool result = jsLessEq(callFrame, src1, src2);
+ CHECK_FOR_EXCEPTION();
+
+ if (result) {
+ vPC += target;
+ NEXT_INSTRUCTION();
+ }
+
+ vPC += OPCODE_LENGTH(op_jlesseq);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_switch_imm) {
table, and the value at jumpTable[scrutinee value] is non-zero, then
that value is used as the jump offset, otherwise defaultOffset is used.
*/
- int tableIndex = (++vPC)->u.operand;
- int defaultOffset = (++vPC)->u.operand;
- JSValuePtr scrutinee = callFrame[(++vPC)->u.operand].jsValue(callFrame);
- if (scrutinee.isInt32Fast())
- vPC += callFrame->codeBlock()->immediateSwitchJumpTable(tableIndex).offsetForValue(scrutinee.getInt32Fast(), defaultOffset);
+ int tableIndex = vPC[1].u.operand;
+ int defaultOffset = vPC[2].u.operand;
+ JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue();
+ if (scrutinee.isInt32())
+ vPC += callFrame->codeBlock()->immediateSwitchJumpTable(tableIndex).offsetForValue(scrutinee.asInt32(), defaultOffset);
else {
- int32_t value;
- if (scrutinee.numberToInt32(value))
- vPC += callFrame->codeBlock()->immediateSwitchJumpTable(tableIndex).offsetForValue(value, defaultOffset);
+ double value;
+ int32_t intValue;
+ if (scrutinee.getNumber(value) && ((intValue = static_cast<int32_t>(value)) == value))
+ vPC += callFrame->codeBlock()->immediateSwitchJumpTable(tableIndex).offsetForValue(intValue, defaultOffset);
else
vPC += defaultOffset;
}
table, and the value at jumpTable[scrutinee value] is non-zero, then
that value is used as the jump offset, otherwise defaultOffset is used.
*/
- int tableIndex = (++vPC)->u.operand;
- int defaultOffset = (++vPC)->u.operand;
- JSValuePtr scrutinee = callFrame[(++vPC)->u.operand].jsValue(callFrame);
+ int tableIndex = vPC[1].u.operand;
+ int defaultOffset = vPC[2].u.operand;
+ JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue();
if (!scrutinee.isString())
vPC += defaultOffset;
else {
- UString::Rep* value = asString(scrutinee)->value().rep();
- if (value->size() != 1)
+ UString::Rep* value = asString(scrutinee)->value(callFrame).rep();
+ if (value->length() != 1)
vPC += defaultOffset;
else
- vPC += callFrame->codeBlock()->characterSwitchJumpTable(tableIndex).offsetForValue(value->data()[0], defaultOffset);
+ vPC += callFrame->codeBlock()->characterSwitchJumpTable(tableIndex).offsetForValue(value->characters()[0], defaultOffset);
}
NEXT_INSTRUCTION();
}
jump table, then the value associated with the string is used as the
jump offset, otherwise defaultOffset is used.
*/
- int tableIndex = (++vPC)->u.operand;
- int defaultOffset = (++vPC)->u.operand;
- JSValuePtr scrutinee = callFrame[(++vPC)->u.operand].jsValue(callFrame);
+ int tableIndex = vPC[1].u.operand;
+ int defaultOffset = vPC[2].u.operand;
+ JSValue scrutinee = callFrame->r(vPC[3].u.operand).jsValue();
if (!scrutinee.isString())
vPC += defaultOffset;
else
- vPC += callFrame->codeBlock()->stringSwitchJumpTable(tableIndex).offsetForValue(asString(scrutinee)->value().rep(), defaultOffset);
+ vPC += callFrame->codeBlock()->stringSwitchJumpTable(tableIndex).offsetForValue(asString(scrutinee)->value(callFrame).rep(), defaultOffset);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_new_func) {
constructor, using the rules for function declarations, and
puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- int func = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int func = vPC[2].u.operand;
- callFrame[dst] = callFrame->codeBlock()->function(func)->makeFunction(callFrame, callFrame->scopeChain());
+ callFrame->r(dst) = JSValue(callFrame->codeBlock()->functionDecl(func)->make(callFrame, callFrame->scopeChain()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_func);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_new_func_exp) {
constructor, using the rules for function expressions, and
puts the result in register dst.
*/
- int dst = (++vPC)->u.operand;
- int func = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int funcIndex = vPC[2].u.operand;
+
+ FunctionExecutable* function = callFrame->codeBlock()->functionExpr(funcIndex);
+ JSFunction* func = function->make(callFrame, callFrame->scopeChain());
+
+ /*
+ The Identifier in a FunctionExpression can be referenced from inside
+ the FunctionExpression's FunctionBody to allow the function to call
+ itself recursively. However, unlike in a FunctionDeclaration, the
+ Identifier in a FunctionExpression cannot be referenced from and
+ does not affect the scope enclosing the FunctionExpression.
+ */
+ if (!function->name().isNull()) {
+ JSStaticScopeObject* functionScopeObject = new (callFrame) JSStaticScopeObject(callFrame, function->name(), func, ReadOnly | DontDelete);
+ func->scope().push(functionScopeObject);
+ }
- callFrame[dst] = callFrame->codeBlock()->functionExpression(func)->makeFunction(callFrame, callFrame->scopeChain());
+ callFrame->r(dst) = JSValue(func);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_func_exp);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_call_eval) {
int argCount = vPC[3].u.operand;
int registerOffset = vPC[4].u.operand;
- JSValuePtr funcVal = callFrame[func].jsValue(callFrame);
+ JSValue funcVal = callFrame->r(func).jsValue();
Register* newCallFrame = callFrame->registers() + registerOffset;
Register* argv = newCallFrame - RegisterFile::CallFrameHeaderSize - argCount;
- JSValuePtr thisValue = argv[0].jsValue(callFrame);
- JSGlobalObject* globalObject = callFrame->scopeChain()->globalObject();
+ JSValue thisValue = argv[0].jsValue();
+ JSGlobalObject* globalObject = callFrame->scopeChain()->globalObject;
if (thisValue == globalObject && funcVal == globalObject->evalFunction()) {
- JSValuePtr result = callEval(callFrame, registerFile, argv, argCount, registerOffset, exceptionValue);
+ JSValue result = callEval(callFrame, registerFile, argv, argCount, registerOffset, exceptionValue);
if (exceptionValue)
goto vm_throw;
- callFrame[dst] = result;
+ callFrame->r(dst) = result;
- vPC += 5;
+ vPC += OPCODE_LENGTH(op_call_eval);
NEXT_INSTRUCTION();
}
int argCount = vPC[3].u.operand;
int registerOffset = vPC[4].u.operand;
- JSValuePtr v = callFrame[func].jsValue(callFrame);
+ JSValue v = callFrame->r(func).jsValue();
CallData callData;
CallType callType = v.getCallData(callData);
if (callType == CallTypeJS) {
ScopeChainNode* callDataScopeChain = callData.js.scopeChain;
- FunctionBodyNode* functionBodyNode = callData.js.functionBody;
- CodeBlock* newCodeBlock = &functionBodyNode->bytecode(callDataScopeChain);
+ CodeBlock* newCodeBlock = &callData.js.functionExecutable->bytecode(callFrame, callDataScopeChain);
CallFrame* previousCallFrame = callFrame;
ArgList args(thisRegister + 1, argCount - 1);
// FIXME: All host methods should be calling toThisObject, but this is not presently the case.
- JSValuePtr thisValue = thisRegister->jsValue(callFrame);
+ JSValue thisValue = thisRegister->jsValue();
if (thisValue == jsNull())
thisValue = callFrame->globalThisValue();
- JSValuePtr returnValue;
+ JSValue returnValue;
{
- SamplingTool::HostCallRecord callRecord(m_sampler);
+ SamplingTool::HostCallRecord callRecord(m_sampler.get());
returnValue = callData.native.function(newCallFrame, asObject(v), thisValue, args);
}
CHECK_FOR_EXCEPTION();
- callFrame[dst] = JSValuePtr(returnValue);
+ callFrame->r(dst) = returnValue;
- vPC += 5;
+ vPC += OPCODE_LENGTH(op_call);
NEXT_INSTRUCTION();
}
exceptionValue = createNotAFunctionError(callFrame, v, vPC - callFrame->codeBlock()->instructions().begin(), callFrame->codeBlock());
goto vm_throw;
}
+ DEFINE_OPCODE(op_load_varargs) {
+ int argCountDst = vPC[1].u.operand;
+ int argsOffset = vPC[2].u.operand;
+
+ JSValue arguments = callFrame->r(argsOffset).jsValue();
+ uint32_t argCount = 0;
+ if (!arguments) {
+ argCount = (uint32_t)(callFrame->argumentCount()) - 1;
+ argCount = min<uint32_t>(argCount, Arguments::MaxArguments);
+ int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
+ Register* newEnd = callFrame->registers() + sizeDelta;
+ if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
+ exceptionValue = createStackOverflowError(callFrame);
+ goto vm_throw;
+ }
+ ASSERT(!callFrame->callee()->isHostFunction());
+ uint32_t expectedParams = callFrame->callee()->jsExecutable()->parameterCount();
+ uint32_t inplaceArgs = min(argCount, expectedParams);
+ uint32_t i = 0;
+ Register* argStore = callFrame->registers() + argsOffset;
+
+ // First step is to copy the "expected" parameters from their normal location relative to the callframe
+ for (; i < inplaceArgs; i++)
+ argStore[i] = callFrame->registers()[i - RegisterFile::CallFrameHeaderSize - expectedParams];
+ // Then we copy any additional arguments that may be further up the stack ('-1' to account for 'this')
+ for (; i < argCount; i++)
+ argStore[i] = callFrame->registers()[i - RegisterFile::CallFrameHeaderSize - expectedParams - argCount - 1];
+ } else if (!arguments.isUndefinedOrNull()) {
+ if (!arguments.isObject()) {
+ exceptionValue = createInvalidParamError(callFrame, "Function.prototype.apply", arguments, vPC - callFrame->codeBlock()->instructions().begin(), callFrame->codeBlock());
+ goto vm_throw;
+ }
+ if (asObject(arguments)->classInfo() == &Arguments::info) {
+ Arguments* args = asArguments(arguments);
+ argCount = args->numProvidedArguments(callFrame);
+ argCount = min<uint32_t>(argCount, Arguments::MaxArguments);
+ int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
+ Register* newEnd = callFrame->registers() + sizeDelta;
+ if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
+ exceptionValue = createStackOverflowError(callFrame);
+ goto vm_throw;
+ }
+ args->copyToRegisters(callFrame, callFrame->registers() + argsOffset, argCount);
+ } else if (isJSArray(&callFrame->globalData(), arguments)) {
+ JSArray* array = asArray(arguments);
+ argCount = array->length();
+ argCount = min<uint32_t>(argCount, Arguments::MaxArguments);
+ int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
+ Register* newEnd = callFrame->registers() + sizeDelta;
+ if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
+ exceptionValue = createStackOverflowError(callFrame);
+ goto vm_throw;
+ }
+ array->copyToRegisters(callFrame, callFrame->registers() + argsOffset, argCount);
+ } else if (asObject(arguments)->inherits(&JSArray::info)) {
+ JSObject* argObject = asObject(arguments);
+ argCount = argObject->get(callFrame, callFrame->propertyNames().length).toUInt32(callFrame);
+ argCount = min<uint32_t>(argCount, Arguments::MaxArguments);
+ int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
+ Register* newEnd = callFrame->registers() + sizeDelta;
+ if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
+ exceptionValue = createStackOverflowError(callFrame);
+ goto vm_throw;
+ }
+ Register* argsBuffer = callFrame->registers() + argsOffset;
+ for (uint32_t i = 0; i < argCount; ++i) {
+ argsBuffer[i] = asObject(arguments)->get(callFrame, i);
+ CHECK_FOR_EXCEPTION();
+ }
+ } else {
+ exceptionValue = createInvalidParamError(callFrame, "Function.prototype.apply", arguments, vPC - callFrame->codeBlock()->instructions().begin(), callFrame->codeBlock());
+ goto vm_throw;
+ }
+ }
+ CHECK_FOR_EXCEPTION();
+ callFrame->r(argCountDst) = Register::withInt(argCount + 1);
+ vPC += OPCODE_LENGTH(op_load_varargs);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_call_varargs) {
+ /* call_varargs dst(r) func(r) argCountReg(r) baseRegisterOffset(n)
+
+ Perform a function call with a dynamic set of arguments.
+
+ registerOffset is the distance the callFrame pointer should move
+ before the VM initializes the new call frame's header, excluding
+ space for arguments.
+
+ dst is where op_ret should store its result.
+ */
+
+ int dst = vPC[1].u.operand;
+ int func = vPC[2].u.operand;
+ int argCountReg = vPC[3].u.operand;
+ int registerOffset = vPC[4].u.operand;
+
+ JSValue v = callFrame->r(func).jsValue();
+ int argCount = callFrame->r(argCountReg).i();
+ registerOffset += argCount;
+ CallData callData;
+ CallType callType = v.getCallData(callData);
+
+ if (callType == CallTypeJS) {
+ ScopeChainNode* callDataScopeChain = callData.js.scopeChain;
+ CodeBlock* newCodeBlock = &callData.js.functionExecutable->bytecode(callFrame, callDataScopeChain);
+
+ CallFrame* previousCallFrame = callFrame;
+
+ callFrame = slideRegisterWindowForCall(newCodeBlock, registerFile, callFrame, registerOffset, argCount);
+ if (UNLIKELY(!callFrame)) {
+ callFrame = previousCallFrame;
+ exceptionValue = createStackOverflowError(callFrame);
+ goto vm_throw;
+ }
+
+ callFrame->init(newCodeBlock, vPC + 5, callDataScopeChain, previousCallFrame, dst, argCount, asFunction(v));
+ vPC = newCodeBlock->instructions().begin();
+
+#if ENABLE(OPCODE_STATS)
+ OpcodeStats::resetLastInstruction();
+#endif
+
+ NEXT_INSTRUCTION();
+ }
+
+ if (callType == CallTypeHost) {
+ ScopeChainNode* scopeChain = callFrame->scopeChain();
+ CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + registerOffset);
+ newCallFrame->init(0, vPC + 5, scopeChain, callFrame, dst, argCount, 0);
+
+ Register* thisRegister = newCallFrame->registers() - RegisterFile::CallFrameHeaderSize - argCount;
+ ArgList args(thisRegister + 1, argCount - 1);
+
+ // FIXME: All host methods should be calling toThisObject, but this is not presently the case.
+ JSValue thisValue = thisRegister->jsValue();
+ if (thisValue == jsNull())
+ thisValue = callFrame->globalThisValue();
+
+ JSValue returnValue;
+ {
+ SamplingTool::HostCallRecord callRecord(m_sampler.get());
+ returnValue = callData.native.function(newCallFrame, asObject(v), thisValue, args);
+ }
+ CHECK_FOR_EXCEPTION();
+
+ callFrame->r(dst) = returnValue;
+
+ vPC += OPCODE_LENGTH(op_call_varargs);
+ NEXT_INSTRUCTION();
+ }
+
+ ASSERT(callType == CallTypeNone);
+
+ exceptionValue = createNotAFunctionError(callFrame, v, vPC - callFrame->codeBlock()->instructions().begin(), callFrame->codeBlock());
+ goto vm_throw;
+ }
DEFINE_OPCODE(op_tear_off_activation) {
/* tear_off_activation activation(r)
This opcode should only be used immediately before op_ret.
*/
- int src = (++vPC)->u.operand;
+ int src = vPC[1].u.operand;
ASSERT(callFrame->codeBlock()->needsFullScopeChain());
- asActivation(callFrame[src].getJSValue())->copyRegisters(callFrame->optionalCalleeArguments());
+ asActivation(callFrame->r(src).jsValue())->copyRegisters(callFrame->optionalCalleeArguments());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_tear_off_activation);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_tear_off_arguments) {
ASSERT(callFrame->codeBlock()->usesArguments() && !callFrame->codeBlock()->needsFullScopeChain());
- callFrame->optionalCalleeArguments()->copyRegisters();
+ if (callFrame->optionalCalleeArguments())
+ callFrame->optionalCalleeArguments()->copyRegisters();
- ++vPC;
+ vPC += OPCODE_LENGTH(op_tear_off_arguments);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_ret) {
register base to those of the calling function.
*/
- int result = (++vPC)->u.operand;
+ int result = vPC[1].u.operand;
if (callFrame->codeBlock()->needsFullScopeChain())
callFrame->scopeChain()->deref();
- JSValuePtr returnValue = callFrame[result].jsValue(callFrame);
+ JSValue returnValue = callFrame->r(result).jsValue();
- vPC = callFrame->returnPC();
+ vPC = callFrame->returnVPC();
int dst = callFrame->returnValueRegister();
callFrame = callFrame->callerFrame();
if (callFrame->hasHostCallFrameFlag())
return returnValue;
- callFrame[dst] = JSValuePtr(returnValue);
+ callFrame->r(dst) = returnValue;
NEXT_INSTRUCTION();
}
CodeBlock* codeBlock = callFrame->codeBlock();
for (size_t count = codeBlock->m_numVars; i < count; ++i)
- callFrame[i] = jsUndefined();
+ callFrame->r(i) = jsUndefined();
- for (size_t count = codeBlock->numberOfConstantRegisters(), j = 0; j < count; ++i, ++j)
- callFrame[i] = codeBlock->constantRegister(j);
-
- ++vPC;
+ vPC += OPCODE_LENGTH(op_enter);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_enter_with_activation) {
CodeBlock* codeBlock = callFrame->codeBlock();
for (size_t count = codeBlock->m_numVars; i < count; ++i)
- callFrame[i] = jsUndefined();
-
- for (size_t count = codeBlock->numberOfConstantRegisters(), j = 0; j < count; ++i, ++j)
- callFrame[i] = codeBlock->constantRegister(j);
+ callFrame->r(i) = jsUndefined();
- int dst = (++vPC)->u.operand;
- JSActivation* activation = new (globalData) JSActivation(callFrame, static_cast<FunctionBodyNode*>(codeBlock->ownerNode()));
- callFrame[dst] = activation;
+ int dst = vPC[1].u.operand;
+ JSActivation* activation = new (globalData) JSActivation(callFrame, static_cast<FunctionExecutable*>(codeBlock->ownerExecutable()));
+ callFrame->r(dst) = JSValue(activation);
callFrame->setScopeChain(callFrame->scopeChain()->copy()->push(activation));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_enter_with_activation);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_convert_this) {
block.
*/
- int thisRegister = (++vPC)->u.operand;
- JSValuePtr thisVal = callFrame[thisRegister].getJSValue();
+ int thisRegister = vPC[1].u.operand;
+ JSValue thisVal = callFrame->r(thisRegister).jsValue();
if (thisVal.needsThisConversion())
- callFrame[thisRegister] = JSValuePtr(thisVal.toThisObject(callFrame));
+ callFrame->r(thisRegister) = JSValue(thisVal.toThisObject(callFrame));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_convert_this);
NEXT_INSTRUCTION();
}
- DEFINE_OPCODE(op_create_arguments) {
+ DEFINE_OPCODE(op_init_arguments) {
/* create_arguments
- Creates the 'arguments' object and places it in both the
- 'arguments' call frame slot and the local 'arguments'
- register.
+ Initialises the arguments object reference to null to ensure
+ we can correctly detect that we need to create it later (or
+ avoid creating it altogether).
This opcode should only be used at the beginning of a code
block.
- */
+ */
+ callFrame->r(RegisterFile::ArgumentsRegister) = JSValue();
+ vPC += OPCODE_LENGTH(op_init_arguments);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_create_arguments) {
+ /* create_arguments
- Arguments* arguments = new (globalData) Arguments(callFrame);
- callFrame->setCalleeArguments(arguments);
- callFrame[RegisterFile::ArgumentsRegister] = arguments;
+ Creates the 'arguments' object and places it in both the
+ 'arguments' call frame slot and the local 'arguments'
+ register, if it has not already been initialised.
+ */
- ++vPC;
+ if (!callFrame->r(RegisterFile::ArgumentsRegister).jsValue()) {
+ Arguments* arguments = new (globalData) Arguments(callFrame);
+ callFrame->setCalleeArguments(arguments);
+ callFrame->r(RegisterFile::ArgumentsRegister) = JSValue(arguments);
+ }
+ vPC += OPCODE_LENGTH(op_create_arguments);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_construct) {
int proto = vPC[5].u.operand;
int thisRegister = vPC[6].u.operand;
- JSValuePtr v = callFrame[func].jsValue(callFrame);
+ JSValue v = callFrame->r(func).jsValue();
ConstructData constructData;
ConstructType constructType = v.getConstructData(constructData);
if (constructType == ConstructTypeJS) {
ScopeChainNode* callDataScopeChain = constructData.js.scopeChain;
- FunctionBodyNode* functionBodyNode = constructData.js.functionBody;
- CodeBlock* newCodeBlock = &functionBodyNode->bytecode(callDataScopeChain);
+ CodeBlock* newCodeBlock = &constructData.js.functionExecutable->bytecode(callFrame, callDataScopeChain);
Structure* structure;
- JSValuePtr prototype = callFrame[proto].jsValue(callFrame);
+ JSValue prototype = callFrame->r(proto).jsValue();
if (prototype.isObject())
structure = asObject(prototype)->inheritorID();
else
- structure = callDataScopeChain->globalObject()->emptyObjectStructure();
+ structure = callDataScopeChain->globalObject->emptyObjectStructure();
JSObject* newObject = new (globalData) JSObject(structure);
- callFrame[thisRegister] = JSValuePtr(newObject); // "this" value
+ callFrame->r(thisRegister) = JSValue(newObject); // "this" value
CallFrame* previousCallFrame = callFrame;
callFrame->init(newCodeBlock, vPC + 7, callDataScopeChain, previousCallFrame, dst, argCount, asFunction(v));
vPC = newCodeBlock->instructions().begin();
-
#if ENABLE(OPCODE_STATS)
OpcodeStats::resetLastInstruction();
#endif
CallFrame* newCallFrame = CallFrame::create(callFrame->registers() + registerOffset);
newCallFrame->init(0, vPC + 7, scopeChain, callFrame, dst, argCount, 0);
- JSValuePtr returnValue;
+ JSValue returnValue;
{
- SamplingTool::HostCallRecord callRecord(m_sampler);
+ SamplingTool::HostCallRecord callRecord(m_sampler.get());
returnValue = constructData.native.function(newCallFrame, asObject(v), args);
}
CHECK_FOR_EXCEPTION();
- callFrame[dst] = JSValuePtr(returnValue);
+ callFrame->r(dst) = JSValue(returnValue);
- vPC += 7;
+ vPC += OPCODE_LENGTH(op_construct);
NEXT_INSTRUCTION();
}
the object in register override to register dst.
*/
- int dst = vPC[1].u.operand;;
- if (LIKELY(callFrame[dst].jsValue(callFrame).isObject())) {
- vPC += 3;
+ int dst = vPC[1].u.operand;
+ if (LIKELY(callFrame->r(dst).jsValue().isObject())) {
+ vPC += OPCODE_LENGTH(op_construct_verify);
NEXT_INSTRUCTION();
}
int override = vPC[2].u.operand;
- callFrame[dst] = callFrame[override];
+ callFrame->r(dst) = callFrame->r(override);
+
+ vPC += OPCODE_LENGTH(op_construct_verify);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_strcat) {
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+ int count = vPC[3].u.operand;
+
+ callFrame->r(dst) = concatenateStrings(callFrame, &callFrame->registers()[src], count);
+ CHECK_FOR_EXCEPTION();
+ vPC += OPCODE_LENGTH(op_strcat);
+
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_to_primitive) {
+ int dst = vPC[1].u.operand;
+ int src = vPC[2].u.operand;
+
+ callFrame->r(dst) = callFrame->r(src).jsValue().toPrimitive(callFrame);
+ vPC += OPCODE_LENGTH(op_to_primitive);
- vPC += 3;
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_push_scope) {
of the current scope chain. The contents of the register scope
are replaced by the result of toObject conversion of the scope.
*/
- int scope = (++vPC)->u.operand;
- JSValuePtr v = callFrame[scope].jsValue(callFrame);
+ int scope = vPC[1].u.operand;
+ JSValue v = callFrame->r(scope).jsValue();
JSObject* o = v.toObject(callFrame);
CHECK_FOR_EXCEPTION();
- callFrame[scope] = JSValuePtr(o);
+ callFrame->r(scope) = JSValue(o);
callFrame->setScopeChain(callFrame->scopeChain()->push(o));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_push_scope);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_pop_scope) {
*/
callFrame->setScopeChain(callFrame->scopeChain()->pop());
- ++vPC;
+ vPC += OPCODE_LENGTH(op_pop_scope);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_get_pnames) {
- /* get_pnames dst(r) base(r)
+ /* get_pnames dst(r) base(r) i(n) size(n) breakTarget(offset)
Creates a property name list for register base and puts it
- in register dst. This is not a true JavaScript value, just
- a synthetic value used to keep the iteration state in a
- register.
+ in register dst, initializing i and size for iteration. If
+ base is undefined or null, jumps to breakTarget.
*/
- int dst = (++vPC)->u.operand;
- int base = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int i = vPC[3].u.operand;
+ int size = vPC[4].u.operand;
+ int breakTarget = vPC[5].u.operand;
+
+ JSValue v = callFrame->r(base).jsValue();
+ if (v.isUndefinedOrNull()) {
+ vPC += breakTarget;
+ NEXT_INSTRUCTION();
+ }
- callFrame[dst] = JSPropertyNameIterator::create(callFrame, callFrame[base].jsValue(callFrame));
- ++vPC;
+ JSObject* o = v.toObject(callFrame);
+ Structure* structure = o->structure();
+ JSPropertyNameIterator* jsPropertyNameIterator = structure->enumerationCache();
+ if (!jsPropertyNameIterator || jsPropertyNameIterator->cachedPrototypeChain() != structure->prototypeChain(callFrame))
+ jsPropertyNameIterator = JSPropertyNameIterator::create(callFrame, o);
+
+ callFrame->r(dst) = jsPropertyNameIterator;
+ callFrame->r(base) = JSValue(o);
+ callFrame->r(i) = Register::withInt(0);
+ callFrame->r(size) = Register::withInt(jsPropertyNameIterator->size());
+ vPC += OPCODE_LENGTH(op_get_pnames);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_next_pname) {
- /* next_pname dst(r) iter(r) target(offset)
+ /* next_pname dst(r) base(r) i(n) size(n) iter(r) target(offset)
- Tries to copies the next name from property name list in
- register iter. If there are names left, then copies one to
- register dst, and jumps to offset target. If there are none
- left, invalidates the iterator and continues to the next
+ Copies the next name from the property name list in
+ register iter to dst, then jumps to offset target. If there are no
+ names left, invalidates the iterator and continues to the next
instruction.
*/
- int dst = (++vPC)->u.operand;
- int iter = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
-
- JSPropertyNameIterator* it = callFrame[iter].propertyNameIterator();
- if (JSValuePtr temp = it->next(callFrame)) {
- CHECK_FOR_TIMEOUT();
- callFrame[dst] = JSValuePtr(temp);
- vPC += target;
- NEXT_INSTRUCTION();
+ int dst = vPC[1].u.operand;
+ int base = vPC[2].u.operand;
+ int i = vPC[3].u.operand;
+ int size = vPC[4].u.operand;
+ int iter = vPC[5].u.operand;
+ int target = vPC[6].u.operand;
+
+ JSPropertyNameIterator* it = callFrame->r(iter).propertyNameIterator();
+ while (callFrame->r(i).i() != callFrame->r(size).i()) {
+ JSValue key = it->get(callFrame, asObject(callFrame->r(base).jsValue()), callFrame->r(i).i());
+ callFrame->r(i) = Register::withInt(callFrame->r(i).i() + 1);
+ if (key) {
+ CHECK_FOR_TIMEOUT();
+ callFrame->r(dst) = key;
+ vPC += target;
+ NEXT_INSTRUCTION();
+ }
}
- it->invalidate();
- ++vPC;
+ vPC += OPCODE_LENGTH(op_next_pname);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jmp_scopes) {
specified by immediate number count, then jumps to offset
target.
*/
- int count = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
+ int count = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
ScopeChainNode* tmp = callFrame->scopeChain();
while (count--)
vPC += target;
NEXT_INSTRUCTION();
}
-#if HAVE(COMPUTED_GOTO)
+#if ENABLE(COMPUTED_GOTO_INTERPRETER)
// Appease GCC
goto *(&&skip_new_scope);
#endif
*/
callFrame->setScopeChain(createExceptionScope(callFrame, vPC));
- vPC += 4;
+ vPC += OPCODE_LENGTH(op_push_new_scope);
NEXT_INSTRUCTION();
}
-#if HAVE(COMPUTED_GOTO)
+#if ENABLE(COMPUTED_GOTO_INTERPRETER)
skip_new_scope:
#endif
DEFINE_OPCODE(op_catch) {
/* catch ex(r)
- Retrieves the VMs current exception and puts it in register
+ Retrieves the VM's current exception and puts it in register
ex. This is only valid after an exception has been raised,
and usually forms the beginning of an exception handler.
*/
ASSERT(exceptionValue);
ASSERT(!globalData->exception);
- int ex = (++vPC)->u.operand;
- callFrame[ex] = exceptionValue;
- exceptionValue = noValue();
+ int ex = vPC[1].u.operand;
+ callFrame->r(ex) = exceptionValue;
+ exceptionValue = JSValue();
- ++vPC;
+ vPC += OPCODE_LENGTH(op_catch);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_throw) {
else the script returns control to the nearest native caller.
*/
- int ex = (++vPC)->u.operand;
- exceptionValue = callFrame[ex].jsValue(callFrame);
+ int ex = vPC[1].u.operand;
+ exceptionValue = callFrame->r(ex).jsValue();
handler = throwException(callFrame, exceptionValue, vPC - callFrame->codeBlock()->instructions().begin(), true);
if (!handler) {
vPC = callFrame->codeBlock()->instructions().begin() + handler->target;
NEXT_INSTRUCTION();
}
- DEFINE_OPCODE(op_unexpected_load) {
- /* unexpected_load load dst(r) src(k)
-
- Copies constant src to register dst.
- */
- int dst = (++vPC)->u.operand;
- int src = (++vPC)->u.operand;
- callFrame[dst] = JSValuePtr(callFrame->codeBlock()->unexpectedConstant(src));
-
- ++vPC;
- NEXT_INSTRUCTION();
- }
DEFINE_OPCODE(op_new_error) {
/* new_error dst(r) type(n) message(k)
constant message as the message string. The result is
written to register dst.
*/
- int dst = (++vPC)->u.operand;
- int type = (++vPC)->u.operand;
- int message = (++vPC)->u.operand;
+ int dst = vPC[1].u.operand;
+ int type = vPC[2].u.operand;
+ int message = vPC[3].u.operand;
CodeBlock* codeBlock = callFrame->codeBlock();
- callFrame[dst] = JSValuePtr(Error::create(callFrame, (ErrorType)type, codeBlock->unexpectedConstant(message).toString(callFrame), codeBlock->lineNumberForBytecodeOffset(callFrame, vPC - codeBlock->instructions().begin()), codeBlock->ownerNode()->sourceID(), codeBlock->ownerNode()->sourceURL()));
+ callFrame->r(dst) = JSValue(Error::create(callFrame, (ErrorType)type, callFrame->r(message).jsValue().toString(callFrame), codeBlock->lineNumberForBytecodeOffset(callFrame, vPC - codeBlock->instructions().begin()), codeBlock->ownerExecutable()->sourceID(), codeBlock->ownerExecutable()->sourceURL()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_new_error);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_end) {
ASSERT(scopeChain->refCount > 1);
scopeChain->deref();
}
- int result = (++vPC)->u.operand;
- return callFrame[result].jsValue(callFrame);
+ int result = vPC[1].u.operand;
+ return callFrame->r(result).jsValue();
}
DEFINE_OPCODE(op_put_getter) {
/* put_getter base(r) property(id) function(r)
Unlike many opcodes, this one does not write any output to
the register file.
*/
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
- int function = (++vPC)->u.operand;
+ int base = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ int function = vPC[3].u.operand;
- ASSERT(callFrame[base].jsValue(callFrame).isObject());
- JSObject* baseObj = asObject(callFrame[base].jsValue(callFrame));
+ ASSERT(callFrame->r(base).jsValue().isObject());
+ JSObject* baseObj = asObject(callFrame->r(base).jsValue());
Identifier& ident = callFrame->codeBlock()->identifier(property);
- ASSERT(callFrame[function].jsValue(callFrame).isObject());
- baseObj->defineGetter(callFrame, ident, asObject(callFrame[function].jsValue(callFrame)));
+ ASSERT(callFrame->r(function).jsValue().isObject());
+ baseObj->defineGetter(callFrame, ident, asObject(callFrame->r(function).jsValue()));
- ++vPC;
+ vPC += OPCODE_LENGTH(op_put_getter);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_put_setter) {
Unlike many opcodes, this one does not write any output to
the register file.
*/
- int base = (++vPC)->u.operand;
- int property = (++vPC)->u.operand;
- int function = (++vPC)->u.operand;
+ int base = vPC[1].u.operand;
+ int property = vPC[2].u.operand;
+ int function = vPC[3].u.operand;
- ASSERT(callFrame[base].jsValue(callFrame).isObject());
- JSObject* baseObj = asObject(callFrame[base].jsValue(callFrame));
+ ASSERT(callFrame->r(base).jsValue().isObject());
+ JSObject* baseObj = asObject(callFrame->r(base).jsValue());
Identifier& ident = callFrame->codeBlock()->identifier(property);
- ASSERT(callFrame[function].jsValue(callFrame).isObject());
- baseObj->defineSetter(callFrame, ident, asObject(callFrame[function].jsValue(callFrame)));
+ ASSERT(callFrame->r(function).jsValue().isObject());
+ baseObj->defineSetter(callFrame, ident, asObject(callFrame->r(function).jsValue()), 0);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_put_setter);
+ NEXT_INSTRUCTION();
+ }
+ DEFINE_OPCODE(op_method_check) {
+ vPC++;
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_jsr) {
Places the address of the next instruction into the retAddrDst
register and jumps to offset target from the current instruction.
*/
- int retAddrDst = (++vPC)->u.operand;
- int target = (++vPC)->u.operand;
- callFrame[retAddrDst] = vPC + 1;
+ int retAddrDst = vPC[1].u.operand;
+ int target = vPC[2].u.operand;
+ callFrame->r(retAddrDst) = vPC + OPCODE_LENGTH(op_jsr);
vPC += target;
NEXT_INSTRUCTION();
differs from op_jmp because the target address is stored in a
register, not as an immediate.
*/
- int retAddrSrc = (++vPC)->u.operand;
- vPC = callFrame[retAddrSrc].vPC();
+ int retAddrSrc = vPC[1].u.operand;
+ vPC = callFrame->r(retAddrSrc).vPC();
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_debug) {
Notifies the debugger of the current state of execution. This opcode
is only generated while the debugger is attached.
*/
- int debugHookID = (++vPC)->u.operand;
- int firstLine = (++vPC)->u.operand;
- int lastLine = (++vPC)->u.operand;
+ int debugHookID = vPC[1].u.operand;
+ int firstLine = vPC[2].u.operand;
+ int lastLine = vPC[3].u.operand;
debug(callFrame, static_cast<DebugHookID>(debugHookID), firstLine, lastLine);
- ++vPC;
+ vPC += OPCODE_LENGTH(op_debug);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_profile_will_call) {
int function = vPC[1].u.operand;
if (*enabledProfilerReference)
- (*enabledProfilerReference)->willExecute(callFrame, callFrame[function].jsValue(callFrame));
+ (*enabledProfilerReference)->willExecute(callFrame, callFrame->r(function).jsValue());
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_profile_will_call);
NEXT_INSTRUCTION();
}
DEFINE_OPCODE(op_profile_did_call) {
int function = vPC[1].u.operand;
if (*enabledProfilerReference)
- (*enabledProfilerReference)->didExecute(callFrame, callFrame[function].jsValue(callFrame));
+ (*enabledProfilerReference)->didExecute(callFrame, callFrame->r(function).jsValue());
- vPC += 2;
+ vPC += OPCODE_LENGTH(op_profile_did_call);
NEXT_INSTRUCTION();
}
vm_throw: {
- globalData->exception = noValue();
+ globalData->exception = JSValue();
if (!tickCount) {
// The exceptionValue is a lie! (GCC produces bad code for reasons I
// cannot fathom if we don't assign to the exceptionValue before branching)
NEXT_INSTRUCTION();
}
}
-#if !HAVE(COMPUTED_GOTO)
+#if !ENABLE(COMPUTED_GOTO_INTERPRETER)
} // iterator loop ends
#endif
#undef NEXT_INSTRUCTION
#undef DEFINE_OPCODE
#undef CHECK_FOR_EXCEPTION
#undef CHECK_FOR_TIMEOUT
+#endif // ENABLE(INTERPRETER)
}
-JSValuePtr Interpreter::retrieveArguments(CallFrame* callFrame, JSFunction* function) const
+JSValue Interpreter::retrieveArguments(CallFrame* callFrame, JSFunction* function) const
{
CallFrame* functionCallFrame = findFunctionCallFrame(callFrame, function);
if (!functionCallFrame)
CodeBlock* codeBlock = functionCallFrame->codeBlock();
if (codeBlock->usesArguments()) {
ASSERT(codeBlock->codeType() == FunctionCode);
- SymbolTable& symbolTable = codeBlock->symbolTable();
+ SymbolTable& symbolTable = *codeBlock->symbolTable();
int argumentsIndex = symbolTable.get(functionCallFrame->propertyNames().arguments.ustring().rep()).getIndex();
- return functionCallFrame[argumentsIndex].jsValue(callFrame);
+ if (!functionCallFrame->r(argumentsIndex).jsValue()) {
+ Arguments* arguments = new (callFrame) Arguments(functionCallFrame);
+ functionCallFrame->setCalleeArguments(arguments);
+ functionCallFrame->r(RegisterFile::ArgumentsRegister) = JSValue(arguments);
+ }
+ return functionCallFrame->r(argumentsIndex).jsValue();
}
Arguments* arguments = functionCallFrame->optionalCalleeArguments();
return arguments;
}
-JSValuePtr Interpreter::retrieveCaller(CallFrame* callFrame, InternalFunction* function) const
+JSValue Interpreter::retrieveCaller(CallFrame* callFrame, InternalFunction* function) const
{
CallFrame* functionCallFrame = findFunctionCallFrame(callFrame, function);
if (!functionCallFrame)
if (callerFrame->hasHostCallFrameFlag())
return jsNull();
- JSValuePtr caller = callerFrame->callee();
+ JSValue caller = callerFrame->callee();
if (!caller)
return jsNull();
return caller;
}
-void Interpreter::retrieveLastCaller(CallFrame* callFrame, int& lineNumber, intptr_t& sourceID, UString& sourceURL, JSValuePtr& function) const
+void Interpreter::retrieveLastCaller(CallFrame* callFrame, int& lineNumber, intptr_t& sourceID, UString& sourceURL, JSValue& function) const
{
- function = noValue();
+ function = JSValue();
lineNumber = -1;
sourceURL = UString();
CodeBlock* callerCodeBlock = callerFrame->codeBlock();
if (!callerCodeBlock)
return;
-
- unsigned bytecodeOffset = bytecodeOffsetForPC(callerFrame, callerCodeBlock, callFrame->returnPC());
+ unsigned bytecodeOffset = 0;
+#if ENABLE(INTERPRETER)
+ if (!callerFrame->globalData().canUseJIT())
+ bytecodeOffset = bytecodeOffsetForPC(callerFrame, callerCodeBlock, callFrame->returnVPC());
+#if ENABLE(JIT)
+ else
+ bytecodeOffset = bytecodeOffsetForPC(callerFrame, callerCodeBlock, callFrame->returnPC());
+#endif
+#else
+ bytecodeOffset = bytecodeOffsetForPC(callerFrame, callerCodeBlock, callFrame->returnPC());
+#endif
lineNumber = callerCodeBlock->lineNumberForBytecodeOffset(callerFrame, bytecodeOffset - 1);
- sourceID = callerCodeBlock->ownerNode()->sourceID();
- sourceURL = callerCodeBlock->ownerNode()->sourceURL();
+ sourceID = callerCodeBlock->ownerExecutable()->sourceID();
+ sourceURL = callerCodeBlock->ownerExecutable()->sourceURL();
function = callerFrame->callee();
}
return 0;
}
-#if ENABLE(JIT)
-
-#if ENABLE(JIT_OPTIMIZE_PROPERTY_ACCESS)
-
-NEVER_INLINE void Interpreter::tryCTICachePutByID(CallFrame* callFrame, CodeBlock* codeBlock, void* returnAddress, JSValuePtr baseValue, const PutPropertySlot& slot)
+void Interpreter::enableSampler()
{
- // The interpreter checks for recursion here; I do not believe this can occur in CTI.
-
- if (!baseValue.isCell())
- return;
-
- // Uncacheable: give up.
- if (!slot.isCacheable()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_put_by_id_generic));
- return;
- }
-
- JSCell* baseCell = asCell(baseValue);
- Structure* structure = baseCell->structure();
-
- if (structure->isDictionary()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_put_by_id_generic));
- return;
- }
-
- // If baseCell != base, then baseCell must be a proxy for another object.
- if (baseCell != slot.base()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_put_by_id_generic));
- return;
- }
-
- StructureStubInfo* stubInfo = &codeBlock->getStubInfo(returnAddress);
-
- // Cache hit: Specialize instruction and ref Structures.
-
- // Structure transition, cache transition info
- if (slot.type() == PutPropertySlot::NewProperty) {
- StructureChain* prototypeChain = structure->prototypeChain(callFrame);
- stubInfo->initPutByIdTransition(structure->previousID(), structure, prototypeChain);
- JIT::compilePutByIdTransition(callFrame->scopeChain()->globalData, codeBlock, stubInfo, structure->previousID(), structure, slot.cachedOffset(), prototypeChain, returnAddress);
- return;
+#if ENABLE(OPCODE_SAMPLING)
+ if (!m_sampler) {
+ m_sampler.set(new SamplingTool(this));
+ m_sampler->setup();
}
-
- stubInfo->initPutByIdReplace(structure);
-
-#if USE(CTI_REPATCH_PIC)
- UNUSED_PARAM(callFrame);
- JIT::patchPutByIdReplace(stubInfo, structure, slot.cachedOffset(), returnAddress);
-#else
- JIT::compilePutByIdReplace(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, structure, slot.cachedOffset(), returnAddress);
#endif
}
-
-NEVER_INLINE void Interpreter::tryCTICacheGetByID(CallFrame* callFrame, CodeBlock* codeBlock, void* returnAddress, JSValuePtr baseValue, const Identifier& propertyName, const PropertySlot& slot)
+void Interpreter::dumpSampleData(ExecState* exec)
{
- // FIXME: Write a test that proves we need to check for recursion here just
- // like the interpreter does, then add a check for recursion.
-
- // FIXME: Cache property access for immediates.
- if (!baseValue.isCell()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_get_by_id_generic));
- return;
- }
-
- if (isJSArray(baseValue) && propertyName == callFrame->propertyNames().length) {
-#if USE(CTI_REPATCH_PIC)
- JIT::compilePatchGetArrayLength(callFrame->scopeChain()->globalData, codeBlock, returnAddress);
+#if ENABLE(OPCODE_SAMPLING)
+ if (m_sampler)
+ m_sampler->dump(exec);
#else
- ctiPatchCallByReturnAddress(returnAddress, m_ctiArrayLengthTrampoline);
+ UNUSED_PARAM(exec);
#endif
- return;
- }
- if (isJSString(baseValue) && propertyName == callFrame->propertyNames().length) {
- // The tradeoff of compiling an patched inline string length access routine does not seem
- // to pay off, so we currently only do this for arrays.
- ctiPatchCallByReturnAddress(returnAddress, m_ctiStringLengthTrampoline);
- return;
- }
-
- // Uncacheable: give up.
- if (!slot.isCacheable()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_get_by_id_generic));
- return;
- }
-
- JSCell* baseCell = asCell(baseValue);
- Structure* structure = baseCell->structure();
-
- if (structure->isDictionary()) {
- ctiPatchCallByReturnAddress(returnAddress, reinterpret_cast<void*>(cti_op_get_by_id_generic));
- return;
- }
-
- // In the interpreter the last structure is trapped here; in CTI we use the
- // *_second method to achieve a similar (but not quite the same) effect.
-
- StructureStubInfo* stubInfo = &codeBlock->getStubInfo(returnAddress);
-
- // Cache hit: Specialize instruction and ref Structures.
-
- if (slot.slotBase() == baseValue) {
- // set this up, so derefStructures can do it's job.
- stubInfo->initGetByIdSelf(structure);
-
-#if USE(CTI_REPATCH_PIC)
- JIT::patchGetByIdSelf(stubInfo, structure, slot.cachedOffset(), returnAddress);
-#else
- JIT::compileGetByIdSelf(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, structure, slot.cachedOffset(), returnAddress);
-#endif
- return;
- }
-
- if (slot.slotBase() == structure->prototypeForLookup(callFrame)) {
- ASSERT(slot.slotBase().isObject());
-
- JSObject* slotBaseObject = asObject(slot.slotBase());
-
- // Since we're accessing a prototype in a loop, it's a good bet that it
- // should not be treated as a dictionary.
- if (slotBaseObject->structure()->isDictionary())
- slotBaseObject->setStructure(Structure::fromDictionaryTransition(slotBaseObject->structure()));
-
- stubInfo->initGetByIdProto(structure, slotBaseObject->structure());
-
- JIT::compileGetByIdProto(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, structure, slotBaseObject->structure(), slot.cachedOffset(), returnAddress);
- return;
- }
-
- size_t count = countPrototypeChainEntriesAndCheckForProxies(callFrame, baseValue, slot);
- if (!count) {
- stubInfo->opcodeID = op_get_by_id_generic;
- return;
- }
-
- StructureChain* prototypeChain = structure->prototypeChain(callFrame);
- stubInfo->initGetByIdChain(structure, prototypeChain);
- JIT::compileGetByIdChain(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, structure, prototypeChain, count, slot.cachedOffset(), returnAddress);
-}
+}
+void Interpreter::startSampling()
+{
+#if ENABLE(SAMPLING_THREAD)
+ if (!m_sampleEntryDepth)
+ SamplingThread::start();
+ m_sampleEntryDepth++;
#endif
-
-#if USE(JIT_STUB_ARGUMENT_VA_LIST)
-#define SETUP_VA_LISTL_ARGS va_list vl_args; va_start(vl_args, args)
-#else // JIT_STUB_ARGUMENT_REGISTER or JIT_STUB_ARGUMENT_STACK
-#define SETUP_VA_LISTL_ARGS
-#endif
-
-#ifndef NDEBUG
-
-extern "C" {
-
-static void jscGeneratedNativeCode()
-{
- // When executing a CTI function (which might do an allocation), we hack the return address
- // to pretend to be executing this function, to keep stack logging tools from blowing out
- // memory.
-}
-
-}
-
-struct StackHack {
- ALWAYS_INLINE StackHack(void** location)
- {
- returnAddressLocation = location;
- savedReturnAddress = *returnAddressLocation;
- ctiSetReturnAddress(returnAddressLocation, reinterpret_cast<void*>(jscGeneratedNativeCode));
- }
- ALWAYS_INLINE ~StackHack()
- {
- ctiSetReturnAddress(returnAddressLocation, savedReturnAddress);
- }
-
- void** returnAddressLocation;
- void* savedReturnAddress;
-};
-
-#define BEGIN_STUB_FUNCTION() SETUP_VA_LISTL_ARGS; StackHack stackHack(&STUB_RETURN_ADDRESS_SLOT)
-#define STUB_SET_RETURN_ADDRESS(address) stackHack.savedReturnAddress = address
-#define STUB_RETURN_ADDRESS stackHack.savedReturnAddress
-
-#else
-
-#define BEGIN_STUB_FUNCTION() SETUP_VA_LISTL_ARGS
-#define STUB_SET_RETURN_ADDRESS(address) ctiSetReturnAddress(&STUB_RETURN_ADDRESS_SLOT, address);
-#define STUB_RETURN_ADDRESS STUB_RETURN_ADDRESS_SLOT
-
-#endif
-
-// The reason this is not inlined is to avoid having to do a PIC branch
-// to get the address of the ctiVMThrowTrampoline function. It's also
-// good to keep the code size down by leaving as much of the exception
-// handling code out of line as possible.
-static NEVER_INLINE void returnToThrowTrampoline(JSGlobalData* globalData, void* exceptionLocation, void*& returnAddressSlot)
-{
- ASSERT(globalData->exception);
- globalData->exceptionLocation = exceptionLocation;
- ctiSetReturnAddress(&returnAddressSlot, reinterpret_cast<void*>(ctiVMThrowTrampoline));
-}
-
-static NEVER_INLINE void throwStackOverflowError(CallFrame* callFrame, JSGlobalData* globalData, void* exceptionLocation, void*& returnAddressSlot)
-{
- globalData->exception = createStackOverflowError(callFrame);
- returnToThrowTrampoline(globalData, exceptionLocation, returnAddressSlot);
-}
-
-#define VM_THROW_EXCEPTION() \
- do { \
- VM_THROW_EXCEPTION_AT_END(); \
- return 0; \
- } while (0)
-#define VM_THROW_EXCEPTION_2() \
- do { \
- VM_THROW_EXCEPTION_AT_END(); \
- RETURN_PAIR(0, 0); \
- } while (0)
-#define VM_THROW_EXCEPTION_AT_END() \
- returnToThrowTrampoline(ARG_globalData, STUB_RETURN_ADDRESS, STUB_RETURN_ADDRESS)
-
-#define CHECK_FOR_EXCEPTION() \
- do { \
- if (UNLIKELY(ARG_globalData->exception != noValue())) \
- VM_THROW_EXCEPTION(); \
- } while (0)
-#define CHECK_FOR_EXCEPTION_AT_END() \
- do { \
- if (UNLIKELY(ARG_globalData->exception != noValue())) \
- VM_THROW_EXCEPTION_AT_END(); \
- } while (0)
-#define CHECK_FOR_EXCEPTION_VOID() \
- do { \
- if (UNLIKELY(ARG_globalData->exception != noValue())) { \
- VM_THROW_EXCEPTION_AT_END(); \
- return; \
- } \
- } while (0)
-
-JSObject* Interpreter::cti_op_convert_this(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v1 = ARG_src1;
- CallFrame* callFrame = ARG_callFrame;
-
- JSObject* result = v1.toThisObject(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-void Interpreter::cti_op_end(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ScopeChainNode* scopeChain = ARG_callFrame->scopeChain();
- ASSERT(scopeChain->refCount > 1);
- scopeChain->deref();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_add(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v1 = ARG_src1;
- JSValuePtr v2 = ARG_src2;
-
- double left;
- double right = 0.0;
-
- bool rightIsNumber = v2.getNumber(right);
- if (rightIsNumber && v1.getNumber(left))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left + right));
-
- CallFrame* callFrame = ARG_callFrame;
-
- bool leftIsString = v1.isString();
- if (leftIsString && v2.isString()) {
- RefPtr<UString::Rep> value = concatenate(asString(v1)->value().rep(), asString(v2)->value().rep());
- if (UNLIKELY(!value)) {
- throwOutOfMemoryError(callFrame);
- VM_THROW_EXCEPTION();
- }
-
- return JSValuePtr::encode(jsString(ARG_globalData, value.release()));
- }
-
- if (rightIsNumber & leftIsString) {
- RefPtr<UString::Rep> value = v2.isInt32Fast() ?
- concatenate(asString(v1)->value().rep(), v2.getInt32Fast()) :
- concatenate(asString(v1)->value().rep(), right);
-
- if (UNLIKELY(!value)) {
- throwOutOfMemoryError(callFrame);
- VM_THROW_EXCEPTION();
- }
- return JSValuePtr::encode(jsString(ARG_globalData, value.release()));
- }
-
- // All other cases are pretty uncommon
- JSValuePtr result = jsAddSlowCase(callFrame, v1, v2);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_pre_inc(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, v.toNumber(callFrame) + 1);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-int Interpreter::cti_timeout_check(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- if (interpreter->checkTimeout(ARG_callFrame->dynamicGlobalObject())) {
- ARG_globalData->exception = createInterruptedExecutionException(ARG_globalData);
- VM_THROW_EXCEPTION_AT_END();
- }
-
- return interpreter->m_ticksUntilNextTimeoutCheck;
-}
-
-void Interpreter::cti_register_file_check(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- if (LIKELY(ARG_registerFile->grow(ARG_callFrame + ARG_callFrame->codeBlock()->m_numCalleeRegisters)))
- return;
-
- // Rewind to the previous call frame because op_call already optimistically
- // moved the call frame forward.
- CallFrame* oldCallFrame = ARG_callFrame->callerFrame();
- ARG_setCallFrame(oldCallFrame);
- throwStackOverflowError(oldCallFrame, ARG_globalData, oldCallFrame->returnPC(), STUB_RETURN_ADDRESS);
-}
-
-int Interpreter::cti_op_loop_if_less(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
- CallFrame* callFrame = ARG_callFrame;
-
- bool result = jsLess(callFrame, src1, src2);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-int Interpreter::cti_op_loop_if_lesseq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
- CallFrame* callFrame = ARG_callFrame;
-
- bool result = jsLessEq(callFrame, src1, src2);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-JSObject* Interpreter::cti_op_new_object(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return constructEmptyObject(ARG_callFrame);
-}
-
-void Interpreter::cti_op_put_by_id_generic(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- PutPropertySlot slot;
- ARG_src1.put(ARG_callFrame, *ARG_id2, ARG_src3, slot);
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_generic(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-#if ENABLE(JIT_OPTIMIZE_PROPERTY_ACCESS)
-
-void Interpreter::cti_op_put_by_id(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- PutPropertySlot slot;
- ARG_src1.put(callFrame, ident, ARG_src3, slot);
-
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_put_by_id_second));
-
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-void Interpreter::cti_op_put_by_id_second(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- PutPropertySlot slot;
- ARG_src1.put(ARG_callFrame, *ARG_id2, ARG_src3, slot);
- ARG_globalData->interpreter->tryCTICachePutByID(ARG_callFrame, ARG_callFrame->codeBlock(), STUB_RETURN_ADDRESS, ARG_src1, slot);
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-void Interpreter::cti_op_put_by_id_fail(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- PutPropertySlot slot;
- ARG_src1.put(callFrame, ident, ARG_src3, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
-
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_second));
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_second(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
-
- ARG_globalData->interpreter->tryCTICacheGetByID(callFrame, callFrame->codeBlock(), STUB_RETURN_ADDRESS, baseValue, ident, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_self_fail(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Identifier& ident = *ARG_id2;
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, ident, slot);
-
- CHECK_FOR_EXCEPTION();
-
- if (baseValue.isCell()
- && slot.isCacheable()
- && !asCell(baseValue)->structure()->isDictionary()
- && slot.slotBase() == baseValue) {
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- StructureStubInfo* stubInfo = &codeBlock->getStubInfo(STUB_RETURN_ADDRESS);
-
- ASSERT(slot.slotBase().isObject());
-
- PolymorphicAccessStructureList* polymorphicStructureList;
- int listIndex = 1;
-
- if (stubInfo->opcodeID == op_get_by_id_self) {
- ASSERT(!stubInfo->stubRoutine);
- polymorphicStructureList = new PolymorphicAccessStructureList(0, stubInfo->u.getByIdSelf.baseObjectStructure);
- stubInfo->initGetByIdSelfList(polymorphicStructureList, 2);
- } else {
- polymorphicStructureList = stubInfo->u.getByIdSelfList.structureList;
- listIndex = stubInfo->u.getByIdSelfList.listSize;
- stubInfo->u.getByIdSelfList.listSize++;
- }
-
- JIT::compileGetByIdSelfList(callFrame->scopeChain()->globalData, codeBlock, stubInfo, polymorphicStructureList, listIndex, asCell(baseValue)->structure(), slot.cachedOffset());
-
- if (listIndex == (POLYMORPHIC_LIST_CACHE_SIZE - 1))
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_generic));
- } else {
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_generic));
- }
- return JSValuePtr::encode(result);
-}
-
-static PolymorphicAccessStructureList* getPolymorphicAccessStructureListSlot(StructureStubInfo* stubInfo, int& listIndex)
-{
- PolymorphicAccessStructureList* prototypeStructureList = 0;
- listIndex = 1;
-
- switch (stubInfo->opcodeID) {
- case op_get_by_id_proto:
- prototypeStructureList = new PolymorphicAccessStructureList(stubInfo->stubRoutine, stubInfo->u.getByIdProto.baseObjectStructure, stubInfo->u.getByIdProto.prototypeStructure);
- stubInfo->stubRoutine = 0;
- stubInfo->initGetByIdProtoList(prototypeStructureList, 2);
- break;
- case op_get_by_id_chain:
- prototypeStructureList = new PolymorphicAccessStructureList(stubInfo->stubRoutine, stubInfo->u.getByIdChain.baseObjectStructure, stubInfo->u.getByIdChain.chain);
- stubInfo->stubRoutine = 0;
- stubInfo->initGetByIdProtoList(prototypeStructureList, 2);
- break;
- case op_get_by_id_proto_list:
- prototypeStructureList = stubInfo->u.getByIdProtoList.structureList;
- listIndex = stubInfo->u.getByIdProtoList.listSize;
- stubInfo->u.getByIdProtoList.listSize++;
- break;
- default:
- ASSERT_NOT_REACHED();
- }
-
- ASSERT(listIndex < POLYMORPHIC_LIST_CACHE_SIZE);
- return prototypeStructureList;
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_proto_list(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(callFrame, *ARG_id2, slot);
-
- CHECK_FOR_EXCEPTION();
-
- if (!baseValue.isCell() || !slot.isCacheable() || asCell(baseValue)->structure()->isDictionary()) {
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_proto_fail));
- return JSValuePtr::encode(result);
- }
-
- Structure* structure = asCell(baseValue)->structure();
- CodeBlock* codeBlock = callFrame->codeBlock();
- StructureStubInfo* stubInfo = &codeBlock->getStubInfo(STUB_RETURN_ADDRESS);
-
- ASSERT(slot.slotBase().isObject());
- JSObject* slotBaseObject = asObject(slot.slotBase());
-
- if (slot.slotBase() == baseValue)
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_proto_fail));
- else if (slot.slotBase() == asCell(baseValue)->structure()->prototypeForLookup(callFrame)) {
- // Since we're accessing a prototype in a loop, it's a good bet that it
- // should not be treated as a dictionary.
- if (slotBaseObject->structure()->isDictionary())
- slotBaseObject->setStructure(Structure::fromDictionaryTransition(slotBaseObject->structure()));
-
- int listIndex;
- PolymorphicAccessStructureList* prototypeStructureList = getPolymorphicAccessStructureListSlot(stubInfo, listIndex);
-
- JIT::compileGetByIdProtoList(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, prototypeStructureList, listIndex, structure, slotBaseObject->structure(), slot.cachedOffset());
-
- if (listIndex == (POLYMORPHIC_LIST_CACHE_SIZE - 1))
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_proto_list_full));
- } else if (size_t count = countPrototypeChainEntriesAndCheckForProxies(callFrame, baseValue, slot)) {
- int listIndex;
- PolymorphicAccessStructureList* prototypeStructureList = getPolymorphicAccessStructureListSlot(stubInfo, listIndex);
-
- JIT::compileGetByIdChainList(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, prototypeStructureList, listIndex, structure, structure->prototypeChain(callFrame), count, slot.cachedOffset());
-
- if (listIndex == (POLYMORPHIC_LIST_CACHE_SIZE - 1))
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_proto_list_full));
- } else
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_id_proto_fail));
-
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_proto_list_full(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(ARG_callFrame, *ARG_id2, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_proto_fail(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(ARG_callFrame, *ARG_id2, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_array_fail(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(ARG_callFrame, *ARG_id2, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_id_string_fail(STUB_ARGS)
+void Interpreter::stopSampling()
{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr baseValue = ARG_src1;
- PropertySlot slot(baseValue);
- JSValuePtr result = baseValue.get(ARG_callFrame, *ARG_id2, slot);
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
+#if ENABLE(SAMPLING_THREAD)
+ m_sampleEntryDepth--;
+ if (!m_sampleEntryDepth)
+ SamplingThread::stop();
#endif
-
-JSValueEncodedAsPointer* Interpreter::cti_op_instanceof(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr value = ARG_src1;
- JSValuePtr baseVal = ARG_src2;
- JSValuePtr proto = ARG_src3;
-
- // at least one of these checks must have failed to get to the slow case
- ASSERT(!value.isCell() || !baseVal.isCell() || !proto.isCell()
- || !value.isObject() || !baseVal.isObject() || !proto.isObject()
- || (asObject(baseVal)->structure()->typeInfo().flags() & (ImplementsHasInstance | OverridesHasInstance)) != ImplementsHasInstance);
-
- if (!baseVal.isObject()) {
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createInvalidParamError(callFrame, "instanceof", baseVal, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
- }
-
- if (!asObject(baseVal)->structure()->typeInfo().implementsHasInstance())
- return JSValuePtr::encode(jsBoolean(false));
-
- if (!proto.isObject()) {
- throwError(callFrame, TypeError, "instanceof called on an object with an invalid prototype property.");
- VM_THROW_EXCEPTION();
- }
-
- if (!value.isObject())
- return JSValuePtr::encode(jsBoolean(false));
-
- JSValuePtr result = jsBoolean(asObject(baseVal)->hasInstance(callFrame, value, proto));
- CHECK_FOR_EXCEPTION_AT_END();
-
- return JSValuePtr::encode(result);
}
-JSValueEncodedAsPointer* Interpreter::cti_op_del_by_id(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSObject* baseObj = ARG_src1.toObject(callFrame);
-
- JSValuePtr result = jsBoolean(baseObj->deleteProperty(callFrame, *ARG_id2));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_mul(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- double left;
- double right;
- if (src1.getNumber(left) && src2.getNumber(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left * right));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, src1.toNumber(callFrame) * src2.toNumber(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSObject* Interpreter::cti_op_new_func(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return ARG_func1->makeFunction(ARG_callFrame, ARG_callFrame->scopeChain());
-}
-
-void* Interpreter::cti_op_call_JSFunction(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
-#ifndef NDEBUG
- CallData callData;
- ASSERT(ARG_src1.getCallData(callData) == CallTypeJS);
-#endif
-
- ScopeChainNode* callDataScopeChain = asFunction(ARG_src1)->m_scopeChain.node();
- CodeBlock* newCodeBlock = &asFunction(ARG_src1)->body()->bytecode(callDataScopeChain);
-
- if (!newCodeBlock->jitCode())
- JIT::compile(ARG_globalData, newCodeBlock);
-
- return newCodeBlock;
-}
-
-VoidPtrPair Interpreter::cti_op_call_arityCheck(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* newCodeBlock = ARG_codeBlock4;
- int argCount = ARG_int3;
-
- ASSERT(argCount != newCodeBlock->m_numParameters);
-
- CallFrame* oldCallFrame = callFrame->callerFrame();
-
- if (argCount > newCodeBlock->m_numParameters) {
- size_t numParameters = newCodeBlock->m_numParameters;
- Register* r = callFrame->registers() + numParameters;
-
- Register* argv = r - RegisterFile::CallFrameHeaderSize - numParameters - argCount;
- for (size_t i = 0; i < numParameters; ++i)
- argv[i + argCount] = argv[i];
-
- callFrame = CallFrame::create(r);
- callFrame->setCallerFrame(oldCallFrame);
- } else {
- size_t omittedArgCount = newCodeBlock->m_numParameters - argCount;
- Register* r = callFrame->registers() + omittedArgCount;
- Register* newEnd = r + newCodeBlock->m_numCalleeRegisters;
- if (!ARG_registerFile->grow(newEnd)) {
- // Rewind to the previous call frame because op_call already optimistically
- // moved the call frame forward.
- ARG_setCallFrame(oldCallFrame);
- throwStackOverflowError(oldCallFrame, ARG_globalData, ARG_returnAddress2, STUB_RETURN_ADDRESS);
- RETURN_PAIR(0, 0);
- }
-
- Register* argv = r - RegisterFile::CallFrameHeaderSize - omittedArgCount;
- for (size_t i = 0; i < omittedArgCount; ++i)
- argv[i] = jsUndefined();
-
- callFrame = CallFrame::create(r);
- callFrame->setCallerFrame(oldCallFrame);
- }
-
- RETURN_PAIR(newCodeBlock, callFrame);
-}
-
-void* Interpreter::cti_vm_dontLazyLinkCall(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSFunction* callee = asFunction(ARG_src1);
- CodeBlock* codeBlock = &callee->body()->bytecode(callee->m_scopeChain.node());
- if (!codeBlock->jitCode())
- JIT::compile(ARG_globalData, codeBlock);
-
- ctiPatchCallByReturnAddress(ARG_returnAddress2, ARG_globalData->interpreter->m_ctiVirtualCallLink);
-
- return codeBlock->jitCode();
-}
-
-void* Interpreter::cti_vm_lazyLinkCall(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSFunction* callee = asFunction(ARG_src1);
- CodeBlock* codeBlock = &callee->body()->bytecode(callee->m_scopeChain.node());
- if (!codeBlock->jitCode())
- JIT::compile(ARG_globalData, codeBlock);
-
- CallLinkInfo* callLinkInfo = &ARG_callFrame->callerFrame()->codeBlock()->getCallLinkInfo(ARG_returnAddress2);
- JIT::linkCall(callee, codeBlock, codeBlock->jitCode(), callLinkInfo, ARG_int3);
-
- return codeBlock->jitCode();
-}
-
-JSObject* Interpreter::cti_op_push_activation(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSActivation* activation = new (ARG_globalData) JSActivation(ARG_callFrame, static_cast<FunctionBodyNode*>(ARG_callFrame->codeBlock()->ownerNode()));
- ARG_callFrame->setScopeChain(ARG_callFrame->scopeChain()->copy()->push(activation));
- return activation;
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_call_NotJSFunction(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr funcVal = ARG_src1;
-
- CallData callData;
- CallType callType = funcVal.getCallData(callData);
-
- ASSERT(callType != CallTypeJS);
-
- if (callType == CallTypeHost) {
- int registerOffset = ARG_int2;
- int argCount = ARG_int3;
- CallFrame* previousCallFrame = ARG_callFrame;
- CallFrame* callFrame = CallFrame::create(previousCallFrame->registers() + registerOffset);
-
- callFrame->init(0, static_cast<Instruction*>(STUB_RETURN_ADDRESS), previousCallFrame->scopeChain(), previousCallFrame, 0, argCount, 0);
- ARG_setCallFrame(callFrame);
-
- Register* argv = ARG_callFrame->registers() - RegisterFile::CallFrameHeaderSize - argCount;
- ArgList argList(argv + 1, argCount - 1);
-
- JSValuePtr returnValue;
- {
- SamplingTool::HostCallRecord callRecord(CTI_SAMPLER);
-
- // FIXME: All host methods should be calling toThisObject, but this is not presently the case.
- JSValuePtr thisValue = argv[0].jsValue(callFrame);
- if (thisValue == jsNull())
- thisValue = callFrame->globalThisValue();
-
- returnValue = callData.native.function(callFrame, asObject(funcVal), thisValue, argList);
- }
- ARG_setCallFrame(previousCallFrame);
- CHECK_FOR_EXCEPTION();
-
- return JSValuePtr::encode(returnValue);
- }
-
- ASSERT(callType == CallTypeNone);
-
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createNotAFunctionError(ARG_callFrame, funcVal, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
-}
-
-void Interpreter::cti_op_create_arguments(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- Arguments* arguments = new (ARG_globalData) Arguments(ARG_callFrame);
- ARG_callFrame->setCalleeArguments(arguments);
- ARG_callFrame[RegisterFile::ArgumentsRegister] = arguments;
-}
-
-void Interpreter::cti_op_create_arguments_no_params(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- Arguments* arguments = new (ARG_globalData) Arguments(ARG_callFrame, Arguments::NoParameters);
- ARG_callFrame->setCalleeArguments(arguments);
- ARG_callFrame[RegisterFile::ArgumentsRegister] = arguments;
-}
-
-void Interpreter::cti_op_tear_off_activation(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ASSERT(ARG_callFrame->codeBlock()->needsFullScopeChain());
- asActivation(ARG_src1)->copyRegisters(ARG_callFrame->optionalCalleeArguments());
-}
-
-void Interpreter::cti_op_tear_off_arguments(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ASSERT(ARG_callFrame->codeBlock()->usesArguments() && !ARG_callFrame->codeBlock()->needsFullScopeChain());
- ARG_callFrame->optionalCalleeArguments()->copyRegisters();
-}
-
-void Interpreter::cti_op_profile_will_call(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ASSERT(*ARG_profilerReference);
- (*ARG_profilerReference)->willExecute(ARG_callFrame, ARG_src1);
-}
-
-void Interpreter::cti_op_profile_did_call(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ASSERT(*ARG_profilerReference);
- (*ARG_profilerReference)->didExecute(ARG_callFrame, ARG_src1);
-}
-
-void Interpreter::cti_op_ret_scopeChain(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ASSERT(ARG_callFrame->codeBlock()->needsFullScopeChain());
- ARG_callFrame->scopeChain()->deref();
-}
-
-JSObject* Interpreter::cti_op_new_array(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ArgList argList(&ARG_callFrame->registers()[ARG_int1], ARG_int2);
- return constructArray(ARG_callFrame, argList);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_resolve(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- ScopeChainNode* scopeChain = callFrame->scopeChain();
-
- ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator end = scopeChain->end();
- ASSERT(iter != end);
-
- Identifier& ident = *ARG_id1;
- do {
- JSObject* o = *iter;
- PropertySlot slot(o);
- if (o->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
- }
- } while (++iter != end);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
-}
-
-JSObject* Interpreter::cti_op_construct_JSConstruct(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
-#ifndef NDEBUG
- ConstructData constructData;
- ASSERT(asFunction(ARG_src1)->getConstructData(constructData) == ConstructTypeJS);
-#endif
-
- Structure* structure;
- if (ARG_src4.isObject())
- structure = asObject(ARG_src4)->inheritorID();
- else
- structure = asFunction(ARG_src1)->m_scopeChain.node()->globalObject()->emptyObjectStructure();
- return new (ARG_globalData) JSObject(structure);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_construct_NotJSConstruct(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr constrVal = ARG_src1;
- int argCount = ARG_int3;
- int thisRegister = ARG_int5;
-
- ConstructData constructData;
- ConstructType constructType = constrVal.getConstructData(constructData);
-
- if (constructType == ConstructTypeHost) {
- ArgList argList(callFrame->registers() + thisRegister + 1, argCount - 1);
-
- JSValuePtr returnValue;
- {
- SamplingTool::HostCallRecord callRecord(CTI_SAMPLER);
- returnValue = constructData.native.function(callFrame, asObject(constrVal), argList);
- }
- CHECK_FOR_EXCEPTION();
-
- return JSValuePtr::encode(returnValue);
- }
-
- ASSERT(constructType == ConstructTypeNone);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createNotAConstructorError(callFrame, constrVal, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_val(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- JSValuePtr baseValue = ARG_src1;
- JSValuePtr subscript = ARG_src2;
-
- JSValuePtr result;
-
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (interpreter->isJSArray(baseValue)) {
- JSArray* jsArray = asArray(baseValue);
- if (jsArray->canGetIndex(i))
- result = jsArray->getIndex(i);
- else
- result = jsArray->JSArray::get(callFrame, i);
- } else if (interpreter->isJSString(baseValue) && asString(baseValue)->canGetIndex(i))
- result = asString(baseValue)->getIndex(ARG_globalData, i);
- else if (interpreter->isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
- // All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_val_byte_array));
- return JSValuePtr::encode(asByteArray(baseValue)->getIndex(callFrame, i));
- } else
- result = baseValue.get(callFrame, i);
- } else {
- Identifier property(callFrame, subscript.toString(callFrame));
- result = baseValue.get(callFrame, property);
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_get_by_val_byte_array(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- JSValuePtr baseValue = ARG_src1;
- JSValuePtr subscript = ARG_src2;
-
- JSValuePtr result;
-
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (interpreter->isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
- // All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
- return JSValuePtr::encode(asByteArray(baseValue)->getIndex(callFrame, i));
- }
-
- result = baseValue.get(callFrame, i);
- if (!interpreter->isJSByteArray(baseValue))
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_get_by_val));
- } else {
- Identifier property(callFrame, subscript.toString(callFrame));
- result = baseValue.get(callFrame, property);
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-VoidPtrPair Interpreter::cti_op_resolve_func(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- ScopeChainNode* scopeChain = callFrame->scopeChain();
-
- ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator end = scopeChain->end();
-
- // FIXME: add scopeDepthIsZero optimization
-
- ASSERT(iter != end);
-
- Identifier& ident = *ARG_id1;
- JSObject* base;
- do {
- base = *iter;
- PropertySlot slot(base);
- if (base->getPropertySlot(callFrame, ident, slot)) {
- // ECMA 11.2.3 says that if we hit an activation the this value should be null.
- // However, section 10.2.3 says that in the case where the value provided
- // by the caller is null, the global object should be used. It also says
- // that the section does not apply to internal functions, but for simplicity
- // of implementation we use the global object anyway here. This guarantees
- // that in host objects you always get a valid object for this.
- // We also handle wrapper substitution for the global object at the same time.
- JSObject* thisObj = base->toThisObject(callFrame);
- JSValuePtr result = slot.getValue(callFrame, ident);
- CHECK_FOR_EXCEPTION_AT_END();
-
- RETURN_PAIR(thisObj, JSValuePtr::encode(result));
- }
- ++iter;
- } while (iter != end);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION_2();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_sub(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- double left;
- double right;
- if (src1.getNumber(left) && src2.getNumber(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left - right));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, src1.toNumber(callFrame) - src2.toNumber(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-void Interpreter::cti_op_put_by_val(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- JSValuePtr baseValue = ARG_src1;
- JSValuePtr subscript = ARG_src2;
- JSValuePtr value = ARG_src3;
-
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (interpreter->isJSArray(baseValue)) {
- JSArray* jsArray = asArray(baseValue);
- if (jsArray->canSetIndex(i))
- jsArray->setIndex(i, value);
- else
- jsArray->JSArray::put(callFrame, i, value);
- } else if (interpreter->isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
- JSByteArray* jsByteArray = asByteArray(baseValue);
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_put_by_val_byte_array));
- // All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
- if (value.isInt32Fast()) {
- jsByteArray->setIndex(i, value.getInt32Fast());
- return;
- } else {
- double dValue = 0;
- if (value.getNumber(dValue)) {
- jsByteArray->setIndex(i, dValue);
- return;
- }
- }
-
- baseValue.put(callFrame, i, value);
- } else
- baseValue.put(callFrame, i, value);
- } else {
- Identifier property(callFrame, subscript.toString(callFrame));
- if (!ARG_globalData->exception) { // Don't put to an object if toString threw an exception.
- PutPropertySlot slot;
- baseValue.put(callFrame, property, value, slot);
- }
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-void Interpreter::cti_op_put_by_val_array(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr baseValue = ARG_src1;
- int i = ARG_int2;
- JSValuePtr value = ARG_src3;
-
- ASSERT(ARG_globalData->interpreter->isJSArray(baseValue));
-
- if (LIKELY(i >= 0))
- asArray(baseValue)->JSArray::put(callFrame, i, value);
- else {
- // This should work since we're re-boxing an immediate unboxed in JIT code.
- ASSERT(JSValuePtr::makeInt32Fast(i));
- Identifier property(callFrame, JSValuePtr::makeInt32Fast(i).toString(callFrame));
- // FIXME: can toString throw an exception here?
- if (!ARG_globalData->exception) { // Don't put to an object if toString threw an exception.
- PutPropertySlot slot;
- baseValue.put(callFrame, property, value, slot);
- }
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-void Interpreter::cti_op_put_by_val_byte_array(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- JSValuePtr baseValue = ARG_src1;
- JSValuePtr subscript = ARG_src2;
- JSValuePtr value = ARG_src3;
-
- if (LIKELY(subscript.isUInt32Fast())) {
- uint32_t i = subscript.getUInt32Fast();
- if (interpreter->isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
- JSByteArray* jsByteArray = asByteArray(baseValue);
-
- // All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
- if (value.isInt32Fast()) {
- jsByteArray->setIndex(i, value.getInt32Fast());
- return;
- } else {
- double dValue = 0;
- if (value.getNumber(dValue)) {
- jsByteArray->setIndex(i, dValue);
- return;
- }
- }
- }
-
- if (!interpreter->isJSByteArray(baseValue))
- ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, reinterpret_cast<void*>(cti_op_put_by_val));
- baseValue.put(callFrame, i, value);
- } else {
- Identifier property(callFrame, subscript.toString(callFrame));
- if (!ARG_globalData->exception) { // Don't put to an object if toString threw an exception.
- PutPropertySlot slot;
- baseValue.put(callFrame, property, value, slot);
- }
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_lesseq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsBoolean(jsLessEq(callFrame, ARG_src1, ARG_src2));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-int Interpreter::cti_op_loop_if_true(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
-
- bool result = src1.toBoolean(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_negate(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src = ARG_src1;
-
- double v;
- if (src.getNumber(v))
- return JSValuePtr::encode(jsNumber(ARG_globalData, -v));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, -src.toNumber(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_resolve_base(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(inlineResolveBase(ARG_callFrame, *ARG_id1, ARG_callFrame->scopeChain()));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_resolve_skip(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- ScopeChainNode* scopeChain = callFrame->scopeChain();
-
- int skip = ARG_int2;
-
- ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator end = scopeChain->end();
- ASSERT(iter != end);
- while (skip--) {
- ++iter;
- ASSERT(iter != end);
- }
- Identifier& ident = *ARG_id1;
- do {
- JSObject* o = *iter;
- PropertySlot slot(o);
- if (o->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
- }
- } while (++iter != end);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_resolve_global(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- JSGlobalObject* globalObject = asGlobalObject(ARG_src1);
- Identifier& ident = *ARG_id2;
- unsigned globalResolveInfoIndex = ARG_int3;
- ASSERT(globalObject->isGlobalObject());
-
- PropertySlot slot(globalObject);
- if (globalObject->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
- if (slot.isCacheable() && !globalObject->structure()->isDictionary() && slot.slotBase() == globalObject) {
- GlobalResolveInfo& globalResolveInfo = callFrame->codeBlock()->globalResolveInfo(globalResolveInfoIndex);
- if (globalResolveInfo.structure)
- globalResolveInfo.structure->deref();
- globalObject->structure()->ref();
- globalResolveInfo.structure = globalObject->structure();
- globalResolveInfo.offset = slot.cachedOffset();
- return JSValuePtr::encode(result);
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
- }
-
- unsigned vPCIndex = callFrame->codeBlock()->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, callFrame->codeBlock());
- VM_THROW_EXCEPTION();
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_div(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- double left;
- double right;
- if (src1.getNumber(left) && src2.getNumber(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left / right));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, src1.toNumber(callFrame) / src2.toNumber(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_pre_dec(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, v.toNumber(callFrame) - 1);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-int Interpreter::cti_op_jless(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
- CallFrame* callFrame = ARG_callFrame;
-
- bool result = jsLess(callFrame, src1, src2);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_not(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr result = jsBoolean(!src.toBoolean(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-int Interpreter::cti_op_jtrue(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
-
- bool result = src1.toBoolean(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
- return result;
-}
-
-VoidPtrPair Interpreter::cti_op_post_inc(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr number = v.toJSNumber(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
-
- RETURN_PAIR(JSValuePtr::encode(number), JSValuePtr::encode(jsNumber(ARG_globalData, number.uncheckedGetNumber() + 1)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_eq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- CallFrame* callFrame = ARG_callFrame;
-
- ASSERT(!JSValuePtr::areBothInt32Fast(src1, src2));
- JSValuePtr result = jsBoolean(JSValuePtr::equalSlowCaseInline(callFrame, src1, src2));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_lshift(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr val = ARG_src1;
- JSValuePtr shift = ARG_src2;
-
- int32_t left;
- uint32_t right;
- if (JSValuePtr::areBothInt32Fast(val, shift))
- return JSValuePtr::encode(jsNumber(ARG_globalData, val.getInt32Fast() << (shift.getInt32Fast() & 0x1f)));
- if (val.numberToInt32(left) && shift.numberToUInt32(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left << (right & 0x1f)));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, (val.toInt32(callFrame)) << (shift.toUInt32(callFrame) & 0x1f));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_bitand(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- int32_t left;
- int32_t right;
- if (src1.numberToInt32(left) && src2.numberToInt32(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left & right));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, src1.toInt32(callFrame) & src2.toInt32(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_rshift(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr val = ARG_src1;
- JSValuePtr shift = ARG_src2;
-
- int32_t left;
- uint32_t right;
- if (JSFastMath::canDoFastRshift(val, shift))
- return JSValuePtr::encode(JSFastMath::rightShiftImmediateNumbers(val, shift));
- if (val.numberToInt32(left) && shift.numberToUInt32(right))
- return JSValuePtr::encode(jsNumber(ARG_globalData, left >> (right & 0x1f)));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, (val.toInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_bitnot(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src = ARG_src1;
-
- int value;
- if (src.numberToInt32(value))
- return JSValuePtr::encode(jsNumber(ARG_globalData, ~value));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsNumber(ARG_globalData, ~src.toInt32(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-VoidPtrPair Interpreter::cti_op_resolve_with_base(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- ScopeChainNode* scopeChain = callFrame->scopeChain();
-
- ScopeChainIterator iter = scopeChain->begin();
- ScopeChainIterator end = scopeChain->end();
-
- // FIXME: add scopeDepthIsZero optimization
-
- ASSERT(iter != end);
-
- Identifier& ident = *ARG_id1;
- JSObject* base;
- do {
- base = *iter;
- PropertySlot slot(base);
- if (base->getPropertySlot(callFrame, ident, slot)) {
- JSValuePtr result = slot.getValue(callFrame, ident);
- CHECK_FOR_EXCEPTION_AT_END();
-
- RETURN_PAIR(base, JSValuePtr::encode(result));
- }
- ++iter;
- } while (iter != end);
-
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION_2();
-}
-
-JSObject* Interpreter::cti_op_new_func_exp(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return ARG_funcexp1->makeFunction(ARG_callFrame, ARG_callFrame->scopeChain());
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_mod(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr dividendValue = ARG_src1;
- JSValuePtr divisorValue = ARG_src2;
-
- CallFrame* callFrame = ARG_callFrame;
- double d = dividendValue.toNumber(callFrame);
- JSValuePtr result = jsNumber(ARG_globalData, fmod(d, divisorValue.toNumber(callFrame)));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_less(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsBoolean(jsLess(callFrame, ARG_src1, ARG_src2));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_neq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- ASSERT(!JSValuePtr::areBothInt32Fast(src1, src2));
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr result = jsBoolean(!JSValuePtr::equalSlowCaseInline(callFrame, src1, src2));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-VoidPtrPair Interpreter::cti_op_post_dec(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v = ARG_src1;
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr number = v.toJSNumber(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
-
- RETURN_PAIR(JSValuePtr::encode(number), JSValuePtr::encode(jsNumber(ARG_globalData, number.uncheckedGetNumber() - 1)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_urshift(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr val = ARG_src1;
- JSValuePtr shift = ARG_src2;
-
- CallFrame* callFrame = ARG_callFrame;
-
- if (JSFastMath::canDoFastUrshift(val, shift))
- return JSValuePtr::encode(JSFastMath::rightShiftImmediateNumbers(val, shift));
- else {
- JSValuePtr result = jsNumber(ARG_globalData, (val.toUInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
- }
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_bitxor(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr result = jsNumber(ARG_globalData, src1.toInt32(callFrame) ^ src2.toInt32(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSObject* Interpreter::cti_op_new_regexp(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return new (ARG_globalData) RegExpObject(ARG_callFrame->lexicalGlobalObject()->regExpStructure(), ARG_regexp1);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_bitor(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr result = jsNumber(ARG_globalData, src1.toInt32(callFrame) | src2.toInt32(callFrame));
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_call_eval(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- RegisterFile* registerFile = ARG_registerFile;
-
- Interpreter* interpreter = ARG_globalData->interpreter;
-
- JSValuePtr funcVal = ARG_src1;
- int registerOffset = ARG_int2;
- int argCount = ARG_int3;
-
- Register* newCallFrame = callFrame->registers() + registerOffset;
- Register* argv = newCallFrame - RegisterFile::CallFrameHeaderSize - argCount;
- JSValuePtr thisValue = argv[0].jsValue(callFrame);
- JSGlobalObject* globalObject = callFrame->scopeChain()->globalObject();
-
- if (thisValue == globalObject && funcVal == globalObject->evalFunction()) {
- JSValuePtr exceptionValue = noValue();
- JSValuePtr result = interpreter->callEval(callFrame, registerFile, argv, argCount, registerOffset, exceptionValue);
- if (UNLIKELY(exceptionValue != noValue())) {
- ARG_globalData->exception = exceptionValue;
- VM_THROW_EXCEPTION_AT_END();
- }
- return JSValuePtr::encode(result);
- }
-
- return JSValuePtr::encode(jsImpossibleValue());
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_throw(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
-
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
-
- JSValuePtr exceptionValue = ARG_src1;
- ASSERT(exceptionValue);
-
- HandlerInfo* handler = ARG_globalData->interpreter->throwException(callFrame, exceptionValue, vPCIndex, true);
-
- if (!handler) {
- *ARG_exception = exceptionValue;
- return JSValuePtr::encode(jsNull());
- }
-
- ARG_setCallFrame(callFrame);
- void* catchRoutine = handler->nativeCode;
- ASSERT(catchRoutine);
- STUB_SET_RETURN_ADDRESS(catchRoutine);
- return JSValuePtr::encode(exceptionValue);
-}
-
-JSPropertyNameIterator* Interpreter::cti_op_get_pnames(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSPropertyNameIterator::create(ARG_callFrame, ARG_src1);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_next_pname(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSPropertyNameIterator* it = ARG_pni1;
- JSValuePtr temp = it->next(ARG_callFrame);
- if (!temp)
- it->invalidate();
- return JSValuePtr::encode(temp);
-}
-
-JSObject* Interpreter::cti_op_push_scope(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSObject* o = ARG_src1.toObject(ARG_callFrame);
- CHECK_FOR_EXCEPTION();
- ARG_callFrame->setScopeChain(ARG_callFrame->scopeChain()->push(o));
- return o;
-}
-
-void Interpreter::cti_op_pop_scope(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- ARG_callFrame->setScopeChain(ARG_callFrame->scopeChain()->pop());
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_typeof(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsTypeStringForValue(ARG_callFrame, ARG_src1));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_undefined(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr v = ARG_src1;
- return JSValuePtr::encode(jsBoolean(v.isCell() ? v.asCell()->structure()->typeInfo().masqueradesAsUndefined() : v.isUndefined()));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_boolean(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsBoolean(ARG_src1.isBoolean()));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_number(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsBoolean(ARG_src1.isNumber()));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_string(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsBoolean(ARG_globalData->interpreter->isJSString(ARG_src1)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_object(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsBoolean(jsIsObjectType(ARG_src1)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_is_function(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- return JSValuePtr::encode(jsBoolean(jsIsFunctionType(ARG_src1)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_stricteq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- return JSValuePtr::encode(jsBoolean(JSValuePtr::strictEqual(src1, src2)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_nstricteq(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src1 = ARG_src1;
- JSValuePtr src2 = ARG_src2;
-
- return JSValuePtr::encode(jsBoolean(!JSValuePtr::strictEqual(src1, src2)));
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_to_jsnumber(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr src = ARG_src1;
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr result = src.toJSNumber(callFrame);
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_in(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- JSValuePtr baseVal = ARG_src2;
-
- if (!baseVal.isObject()) {
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
- ARG_globalData->exception = createInvalidParamError(callFrame, "in", baseVal, vPCIndex, codeBlock);
- VM_THROW_EXCEPTION();
- }
-
- JSValuePtr propName = ARG_src1;
- JSObject* baseObj = asObject(baseVal);
-
- uint32_t i;
- if (propName.getUInt32(i))
- return JSValuePtr::encode(jsBoolean(baseObj->hasProperty(callFrame, i)));
-
- Identifier property(callFrame, propName.toString(callFrame));
- CHECK_FOR_EXCEPTION();
- return JSValuePtr::encode(jsBoolean(baseObj->hasProperty(callFrame, property)));
-}
-
-JSObject* Interpreter::cti_op_push_new_scope(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSObject* scope = new (ARG_globalData) JSStaticScopeObject(ARG_callFrame, *ARG_id1, ARG_src2, DontDelete);
-
- CallFrame* callFrame = ARG_callFrame;
- callFrame->setScopeChain(callFrame->scopeChain()->push(scope));
- return scope;
-}
-
-void Interpreter::cti_op_jmp_scopes(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- unsigned count = ARG_int1;
- CallFrame* callFrame = ARG_callFrame;
-
- ScopeChainNode* tmp = callFrame->scopeChain();
- while (count--)
- tmp = tmp->pop();
- callFrame->setScopeChain(tmp);
-}
-
-void Interpreter::cti_op_put_by_index(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- unsigned property = ARG_int2;
-
- ARG_src1.put(callFrame, property, ARG_src3);
-}
-
-void* Interpreter::cti_op_switch_imm(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr scrutinee = ARG_src1;
- unsigned tableIndex = ARG_int2;
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
-
- if (scrutinee.isInt32Fast())
- return codeBlock->immediateSwitchJumpTable(tableIndex).ctiForValue(scrutinee.getInt32Fast());
- else {
- int32_t value;
- if (scrutinee.numberToInt32(value))
- return codeBlock->immediateSwitchJumpTable(tableIndex).ctiForValue(value);
- else
- return codeBlock->immediateSwitchJumpTable(tableIndex).ctiDefault;
- }
-}
-
-void* Interpreter::cti_op_switch_char(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr scrutinee = ARG_src1;
- unsigned tableIndex = ARG_int2;
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
-
- void* result = codeBlock->characterSwitchJumpTable(tableIndex).ctiDefault;
-
- if (scrutinee.isString()) {
- UString::Rep* value = asString(scrutinee)->value().rep();
- if (value->size() == 1)
- result = codeBlock->characterSwitchJumpTable(tableIndex).ctiForValue(value->data()[0]);
- }
-
- return result;
-}
-
-void* Interpreter::cti_op_switch_string(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- JSValuePtr scrutinee = ARG_src1;
- unsigned tableIndex = ARG_int2;
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
-
- void* result = codeBlock->stringSwitchJumpTable(tableIndex).ctiDefault;
-
- if (scrutinee.isString()) {
- UString::Rep* value = asString(scrutinee)->value().rep();
- result = codeBlock->stringSwitchJumpTable(tableIndex).ctiForValue(value);
- }
-
- return result;
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_op_del_by_val(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- JSValuePtr baseValue = ARG_src1;
- JSObject* baseObj = baseValue.toObject(callFrame); // may throw
-
- JSValuePtr subscript = ARG_src2;
- JSValuePtr result;
- uint32_t i;
- if (subscript.getUInt32(i))
- result = jsBoolean(baseObj->deleteProperty(callFrame, i));
- else {
- CHECK_FOR_EXCEPTION();
- Identifier property(callFrame, subscript.toString(callFrame));
- CHECK_FOR_EXCEPTION();
- result = jsBoolean(baseObj->deleteProperty(callFrame, property));
- }
-
- CHECK_FOR_EXCEPTION_AT_END();
- return JSValuePtr::encode(result);
-}
-
-void Interpreter::cti_op_put_getter(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- ASSERT(ARG_src1.isObject());
- JSObject* baseObj = asObject(ARG_src1);
- ASSERT(ARG_src3.isObject());
- baseObj->defineGetter(callFrame, *ARG_id2, asObject(ARG_src3));
-}
-
-void Interpreter::cti_op_put_setter(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- ASSERT(ARG_src1.isObject());
- JSObject* baseObj = asObject(ARG_src1);
- ASSERT(ARG_src3.isObject());
- baseObj->defineSetter(callFrame, *ARG_id2, asObject(ARG_src3));
-}
-
-JSObject* Interpreter::cti_op_new_error(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
- unsigned type = ARG_int1;
- JSValuePtr message = ARG_src2;
- unsigned bytecodeOffset = ARG_int3;
-
- unsigned lineNumber = codeBlock->lineNumberForBytecodeOffset(callFrame, bytecodeOffset);
- return Error::create(callFrame, static_cast<ErrorType>(type), message.toString(callFrame), lineNumber, codeBlock->ownerNode()->sourceID(), codeBlock->ownerNode()->sourceURL());
-}
-
-void Interpreter::cti_op_debug(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
-
- int debugHookID = ARG_int1;
- int firstLine = ARG_int2;
- int lastLine = ARG_int3;
-
- ARG_globalData->interpreter->debug(callFrame, static_cast<DebugHookID>(debugHookID), firstLine, lastLine);
-}
-
-JSValueEncodedAsPointer* Interpreter::cti_vm_throw(STUB_ARGS)
-{
- BEGIN_STUB_FUNCTION();
-
- CallFrame* callFrame = ARG_callFrame;
- CodeBlock* codeBlock = callFrame->codeBlock();
- JSGlobalData* globalData = ARG_globalData;
-
- unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, globalData->exceptionLocation);
-
- JSValuePtr exceptionValue = globalData->exception;
- ASSERT(exceptionValue);
- globalData->exception = noValue();
-
- HandlerInfo* handler = globalData->interpreter->throwException(callFrame, exceptionValue, vPCIndex, false);
-
- if (!handler) {
- *ARG_exception = exceptionValue;
- return JSValuePtr::encode(jsNull());
- }
-
- ARG_setCallFrame(callFrame);
- void* catchRoutine = handler->nativeCode;
- ASSERT(catchRoutine);
- STUB_SET_RETURN_ADDRESS(catchRoutine);
- return JSValuePtr::encode(exceptionValue);
-}
-
-#undef STUB_RETURN_ADDRESS
-#undef STUB_SET_RETURN_ADDRESS
-#undef BEGIN_STUB_FUNCTION
-#undef CHECK_FOR_EXCEPTION
-#undef CHECK_FOR_EXCEPTION_AT_END
-#undef CHECK_FOR_EXCEPTION_VOID
-#undef VM_THROW_EXCEPTION
-#undef VM_THROW_EXCEPTION_2
-#undef VM_THROW_EXCEPTION_AT_END
-
-#endif // ENABLE(JIT)
-
} // namespace JSC