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webkit / WebKit / b9d380bfb7e609853e45bf4358ba35004d126f6c / . / JavaScriptCore / jit / JITStubs.cpp
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/*
* Copyright (C) 2008, 2009 Apple Inc. All rights reserved.
* Copyright (C) 2008 Cameron Zwarich <cwzwarich@uwaterloo.ca>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "JITStubs.h"
#if ENABLE(JIT)
#include "Arguments.h"
#include "CallFrame.h"
#include "CodeBlock.h"
#include "Collector.h"
#include "Debugger.h"
#include "ExceptionHelpers.h"
#include "GlobalEvalFunction.h"
#include "JIT.h"
#include "JSActivation.h"
#include "JSArray.h"
#include "JSByteArray.h"
#include "JSFunction.h"
#include "JSNotAnObject.h"
#include "JSPropertyNameIterator.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 "SamplingTool.h"
#include <stdio.h>
using namespace std;
namespace JSC {
#if PLATFORM(DARWIN) || PLATFORM(WIN_OS)
#define SYMBOL_STRING(name) "_" #name
#else
#define SYMBOL_STRING(name) #name
#endif
#if COMPILER(GCC) && PLATFORM(X86)
// These ASSERTs remind you that, if you change the layout of JITStackFrame, you
// need to change the assembly trampolines below to match.
COMPILE_ASSERT(offsetof(struct JITStackFrame, callFrame) == 0x38, JITStackFrame_callFrame_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, code) == 0x30, JITStackFrame_code_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, savedEBX) == 0x1c, JITStackFrame_stub_argument_space_matches_ctiTrampoline);
asm volatile (
".globl " SYMBOL_STRING(ctiTrampoline) "\n"
SYMBOL_STRING(ctiTrampoline) ":" "\n"
"pushl %ebp" "\n"
"movl %esp, %ebp" "\n"
"pushl %esi" "\n"
"pushl %edi" "\n"
"pushl %ebx" "\n"
"subl $0x1c, %esp" "\n"
"movl $512, %esi" "\n"
"movl 0x38(%esp), %edi" "\n"
"call *0x30(%esp)" "\n"
"addl $0x1c, %esp" "\n"
"popl %ebx" "\n"
"popl %edi" "\n"
"popl %esi" "\n"
"popl %ebp" "\n"
"ret" "\n"
);
asm volatile (
".globl " SYMBOL_STRING(ctiVMThrowTrampoline) "\n"
SYMBOL_STRING(ctiVMThrowTrampoline) ":" "\n"
#if !USE(JIT_STUB_ARGUMENT_VA_LIST)
"movl %esp, %ecx" "\n"
#endif
"call " SYMBOL_STRING(cti_vm_throw) "\n"
"addl $0x1c, %esp" "\n"
"popl %ebx" "\n"
"popl %edi" "\n"
"popl %esi" "\n"
"popl %ebp" "\n"
"ret" "\n"
);
asm volatile (
".globl " SYMBOL_STRING(ctiOpThrowNotCaught) "\n"
SYMBOL_STRING(ctiOpThrowNotCaught) ":" "\n"
"addl $0x1c, %esp" "\n"
"popl %ebx" "\n"
"popl %edi" "\n"
"popl %esi" "\n"
"popl %ebp" "\n"
"ret" "\n"
);
#elif COMPILER(GCC) && PLATFORM(X86_64)
#if USE(JIT_STUB_ARGUMENT_VA_LIST)
#error "JIT_STUB_ARGUMENT_VA_LIST not supported on x86-64."
#endif
// These ASSERTs remind you that, if you change the layout of JITStackFrame, you
// need to change the assembly trampolines below to match.
COMPILE_ASSERT(offsetof(struct JITStackFrame, callFrame) == 0x90, JITStackFrame_callFrame_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, code) == 0x80, JITStackFrame_code_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, savedRBX) == 0x48, JITStackFrame_stub_argument_space_matches_ctiTrampoline);
asm volatile (
".globl " SYMBOL_STRING(ctiTrampoline) "\n"
SYMBOL_STRING(ctiTrampoline) ":" "\n"
"pushq %rbp" "\n"
"movq %rsp, %rbp" "\n"
"pushq %r12" "\n"
"pushq %r13" "\n"
"pushq %r14" "\n"
"pushq %r15" "\n"
"pushq %rbx" "\n"
"subq $0x48, %rsp" "\n"
"movq $512, %r12" "\n"
"movq $0xFFFF000000000000, %r14" "\n"
"movq $0xFFFF000000000002, %r15" "\n"
"movq 0x90(%rsp), %r13" "\n"
"call *0x80(%rsp)" "\n"
"addq $0x48, %rsp" "\n"
"popq %rbx" "\n"
"popq %r15" "\n"
"popq %r14" "\n"
"popq %r13" "\n"
"popq %r12" "\n"
"popq %rbp" "\n"
"ret" "\n"
);
asm volatile (
".globl " SYMBOL_STRING(ctiVMThrowTrampoline) "\n"
SYMBOL_STRING(ctiVMThrowTrampoline) ":" "\n"
"movq %rsp, %rdi" "\n"
"call " SYMBOL_STRING(cti_vm_throw) "\n"
"addq $0x48, %rsp" "\n"
"popq %rbx" "\n"
"popq %r15" "\n"
"popq %r14" "\n"
"popq %r13" "\n"
"popq %r12" "\n"
"popq %rbp" "\n"
"ret" "\n"
);
asm volatile (
".globl " SYMBOL_STRING(ctiOpThrowNotCaught) "\n"
SYMBOL_STRING(ctiOpThrowNotCaught) ":" "\n"
"addq $0x48, %rsp" "\n"
"popq %rbx" "\n"
"popq %r15" "\n"
"popq %r14" "\n"
"popq %r13" "\n"
"popq %r12" "\n"
"popq %rbp" "\n"
"ret" "\n"
);
#elif COMPILER(GCC) && PLATFORM_ARM_ARCH(7)
#if USE(JIT_STUB_ARGUMENT_VA_LIST)
#error "JIT_STUB_ARGUMENT_VA_LIST not supported on ARMv7."
#endif
asm volatile (
".text" "\n"
".align 2" "\n"
".globl " SYMBOL_STRING(ctiTrampoline) "\n"
".thumb" "\n"
".thumb_func " SYMBOL_STRING(ctiTrampoline) "\n"
SYMBOL_STRING(ctiTrampoline) ":" "\n"
"sub sp, sp, #0x3c" "\n"
"str lr, [sp, #0x20]" "\n"
"str r4, [sp, #0x24]" "\n"
"str r5, [sp, #0x28]" "\n"
"str r6, [sp, #0x2c]" "\n"
"str r1, [sp, #0x30]" "\n"
"str r2, [sp, #0x34]" "\n"
"str r3, [sp, #0x38]" "\n"
"cpy r5, r2" "\n"
"mov r6, #512" "\n"
"blx r0" "\n"
"ldr r6, [sp, #0x2c]" "\n"
"ldr r5, [sp, #0x28]" "\n"
"ldr r4, [sp, #0x24]" "\n"
"ldr lr, [sp, #0x20]" "\n"
"add sp, sp, #0x3c" "\n"
"bx lr" "\n"
);
asm volatile (
".text" "\n"
".align 2" "\n"
".globl " SYMBOL_STRING(ctiVMThrowTrampoline) "\n"
".thumb" "\n"
".thumb_func " SYMBOL_STRING(ctiVMThrowTrampoline) "\n"
SYMBOL_STRING(ctiVMThrowTrampoline) ":" "\n"
"cpy r0, sp" "\n"
"bl " SYMBOL_STRING(cti_vm_throw) "\n"
"ldr r6, [sp, #0x2c]" "\n"
"ldr r5, [sp, #0x28]" "\n"
"ldr r4, [sp, #0x24]" "\n"
"ldr lr, [sp, #0x20]" "\n"
"add sp, sp, #0x3c" "\n"
"bx lr" "\n"
);
asm volatile (
".text" "\n"
".align 2" "\n"
".globl " SYMBOL_STRING(ctiOpThrowNotCaught) "\n"
".thumb" "\n"
".thumb_func " SYMBOL_STRING(ctiOpThrowNotCaught) "\n"
SYMBOL_STRING(ctiOpThrowNotCaught) ":" "\n"
"ldr r6, [sp, #0x2c]" "\n"
"ldr r5, [sp, #0x28]" "\n"
"ldr r4, [sp, #0x24]" "\n"
"ldr lr, [sp, #0x20]" "\n"
"add sp, sp, #0x3c" "\n"
"bx lr" "\n"
);
#elif COMPILER(MSVC)
#if USE(JIT_STUB_ARGUMENT_VA_LIST)
#error "JIT_STUB_ARGUMENT_VA_LIST configuration not supported on MSVC."
#endif
// These ASSERTs remind you that, if you change the layout of JITStackFrame, you
// need to change the assembly trampolines below to match.
COMPILE_ASSERT(offsetof(struct JITStackFrame, callFrame) == 0x38, JITStackFrame_callFrame_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, code) == 0x30, JITStackFrame_code_offset_matches_ctiTrampoline);
COMPILE_ASSERT(offsetof(struct JITStackFrame, savedEBX) == 0x1c, JITStackFrame_stub_argument_space_matches_ctiTrampoline);
extern "C" {
__declspec(naked) EncodedJSValue ctiTrampoline(void* code, RegisterFile*, CallFrame*, JSValue* exception, Profiler**, JSGlobalData*)
{
__asm {
push ebp;
mov ebp, esp;
push esi;
push edi;
push ebx;
sub esp, 0x1c;
mov esi, 512;
mov ecx, esp;
mov edi, [esp + 0x38];
call [esp + 0x30];
add esp, 0x1c;
pop ebx;
pop edi;
pop esi;
pop ebp;
ret;
}
}
__declspec(naked) void ctiVMThrowTrampoline()
{
__asm {
mov ecx, esp;
call JITStubs::cti_vm_throw;
add esp, 0x1c;
pop ebx;
pop edi;
pop esi;
pop ebp;
ret;
}
}
__declspec(naked) void ctiOpThrowNotCaught()
{
__asm {
add esp, 0x1c;
pop ebx;
pop edi;
pop esi;
pop ebp;
ret;
}
}
}
#endif
#if ENABLE(OPCODE_SAMPLING)
#define CTI_SAMPLER stackFrame.globalData->interpreter->sampler()
#else
#define CTI_SAMPLER 0
#endif
JITThunks::JITThunks(JSGlobalData* globalData)
{
JIT::compileCTIMachineTrampolines(globalData, &m_executablePool, &m_ctiArrayLengthTrampoline, &m_ctiStringLengthTrampoline, &m_ctiVirtualCallPreLink, &m_ctiVirtualCallLink, &m_ctiVirtualCall, &m_ctiNativeCallThunk);
#if PLATFORM_ARM_ARCH(7)
// Unfortunate the arm compiler does not like the use of offsetof on JITStackFrame (since it contains non POD types),
// and the OBJECT_OFFSETOF macro does not appear constantish enough for it to be happy with its use in COMPILE_ASSERT
// macros.
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, preservedReturnAddress) == 0x20);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, preservedR4) == 0x24);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, preservedR5) == 0x28);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, preservedR6) == 0x2c);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, registerFile) == 0x30);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, callFrame) == 0x34);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, exception) == 0x38);
// The fifth argument is the first item already on the stack.
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, enabledProfilerReference) == 0x3c);
ASSERT(OBJECT_OFFSETOF(struct JITStackFrame, thunkReturnAddress) == 0x1C);
#endif
}
#if ENABLE(JIT_OPTIMIZE_PROPERTY_ACCESS)
NEVER_INLINE void JITThunks::tryCachePutByID(CallFrame* callFrame, CodeBlock* codeBlock, ReturnAddressPtr returnAddress, JSValue baseValue, const PutPropertySlot& slot)
{
// 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, FunctionPtr(JITStubs::cti_op_put_by_id_generic));
return;
}
JSCell* baseCell = asCell(baseValue);
Structure* structure = baseCell->structure();
if (structure->isDictionary()) {
ctiPatchCallByReturnAddress(returnAddress, FunctionPtr(JITStubs::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, FunctionPtr(JITStubs::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);
if (!prototypeChain->isCacheable()) {
ctiPatchCallByReturnAddress(returnAddress, FunctionPtr(JITStubs::cti_op_put_by_id_generic));
return;
}
stubInfo->initPutByIdTransition(structure->previousID(), structure, prototypeChain);
JIT::compilePutByIdTransition(callFrame->scopeChain()->globalData, codeBlock, stubInfo, structure->previousID(), structure, slot.cachedOffset(), prototypeChain, returnAddress);
return;
}
stubInfo->initPutByIdReplace(structure);
JIT::patchPutByIdReplace(stubInfo, structure, slot.cachedOffset(), returnAddress);
}
NEVER_INLINE void JITThunks::tryCacheGetByID(CallFrame* callFrame, CodeBlock* codeBlock, ReturnAddressPtr returnAddress, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot)
{
// 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, FunctionPtr(JITStubs::cti_op_get_by_id_generic));
return;
}
JSGlobalData* globalData = &callFrame->globalData();
if (isJSArray(globalData, baseValue) && propertyName == callFrame->propertyNames().length) {
JIT::compilePatchGetArrayLength(callFrame->scopeChain()->globalData, codeBlock, returnAddress);
return;
}
if (isJSString(globalData, 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, globalData->jitStubs.ctiStringLengthTrampoline());
return;
}
// Uncacheable: give up.
if (!slot.isCacheable()) {
ctiPatchCallByReturnAddress(returnAddress, FunctionPtr(JITStubs::cti_op_get_by_id_generic));
return;
}
JSCell* baseCell = asCell(baseValue);
Structure* structure = baseCell->structure();
if (structure->isDictionary()) {
ctiPatchCallByReturnAddress(returnAddress, FunctionPtr(JITStubs::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);
JIT::patchGetByIdSelf(stubInfo, structure, slot.cachedOffset(), returnAddress);
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);
if (!prototypeChain->isCacheable()) {
ctiPatchCallByReturnAddress(returnAddress, FunctionPtr(JITStubs::cti_op_get_by_id_generic));
return;
}
stubInfo->initGetByIdChain(structure, prototypeChain);
JIT::compileGetByIdChain(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, structure, prototypeChain, count, slot.cachedOffset(), returnAddress);
}
#endif
#if USE(JIT_STUB_ARGUMENT_VA_LIST)
#define SETUP_VA_LISTL_ARGS va_list vl_args; va_start(vl_args, args)
#else
#define SETUP_VA_LISTL_ARGS
#endif
#ifndef NDEBUG
extern "C" {
static void jscGeneratedNativeCode()
{
// When executing a JIT stub 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(JITStackFrame& stackFrame)
: stackFrame(stackFrame)
, savedReturnAddress(*stackFrame.returnAddressSlot())
{
*stackFrame.returnAddressSlot() = ReturnAddressPtr(FunctionPtr(jscGeneratedNativeCode));
}
ALWAYS_INLINE ~StackHack()
{
*stackFrame.returnAddressSlot() = savedReturnAddress;
}
JITStackFrame& stackFrame;
ReturnAddressPtr savedReturnAddress;
};
#define STUB_INIT_STACK_FRAME(stackFrame) SETUP_VA_LISTL_ARGS; JITStackFrame& stackFrame = *reinterpret_cast<JITStackFrame*>(STUB_ARGS); StackHack stackHack(stackFrame)
#define STUB_SET_RETURN_ADDRESS(returnAddress) stackHack.savedReturnAddress = ReturnAddressPtr(returnAddress)
#define STUB_RETURN_ADDRESS stackHack.savedReturnAddress
#else
#define STUB_INIT_STACK_FRAME(stackFrame) SETUP_VA_LISTL_ARGS; JITStackFrame& stackFrame = *reinterpret_cast<JITStackFrame*>(STUB_ARGS)
#define STUB_SET_RETURN_ADDRESS(returnAddress) *stackFrame.returnAddressSlot() = ReturnAddressPtr(returnAddress)
#define STUB_RETURN_ADDRESS *stackFrame.returnAddressSlot()
#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, ReturnAddressPtr exceptionLocation, ReturnAddressPtr& returnAddressSlot)
{
ASSERT(globalData->exception);
globalData->exceptionLocation = exceptionLocation;
returnAddressSlot = ReturnAddressPtr(FunctionPtr(ctiVMThrowTrampoline));
}
static NEVER_INLINE void throwStackOverflowError(CallFrame* callFrame, JSGlobalData* globalData, ReturnAddressPtr exceptionLocation, ReturnAddressPtr& 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_AT_END() \
returnToThrowTrampoline(stackFrame.globalData, STUB_RETURN_ADDRESS, STUB_RETURN_ADDRESS)
#define CHECK_FOR_EXCEPTION() \
do { \
if (UNLIKELY(stackFrame.globalData->exception != JSValue())) \
VM_THROW_EXCEPTION(); \
} while (0)
#define CHECK_FOR_EXCEPTION_AT_END() \
do { \
if (UNLIKELY(stackFrame.globalData->exception != JSValue())) \
VM_THROW_EXCEPTION_AT_END(); \
} while (0)
#define CHECK_FOR_EXCEPTION_VOID() \
do { \
if (UNLIKELY(stackFrame.globalData->exception != JSValue())) { \
VM_THROW_EXCEPTION_AT_END(); \
return; \
} \
} while (0)
namespace JITStubs {
#if PLATFORM_ARM_ARCH(7)
#define DEFINE_STUB_FUNCTION(rtype, op) \
extern "C" { \
rtype JITStubThunked_##op(STUB_ARGS_DECLARATION); \
}; \
asm volatile ( \
".text" "\n" \
".align 2" "\n" \
".globl " SYMBOL_STRING(cti_##op) "\n" \
".thumb" "\n" \
".thumb_func " SYMBOL_STRING(cti_##op) "\n" \
SYMBOL_STRING(cti_##op) ":" "\n" \
"str lr, [sp, #0x1c]" "\n" \
"bl " SYMBOL_STRING(JITStubThunked_##op) "\n" \
"ldr lr, [sp, #0x1c]" "\n" \
"bx lr" "\n" \
); \
rtype JITStubThunked_##op(STUB_ARGS_DECLARATION) \
#else
#define DEFINE_STUB_FUNCTION(rtype, op) rtype JIT_STUB cti_##op(STUB_ARGS_DECLARATION)
#endif
DEFINE_STUB_FUNCTION(JSObject*, op_convert_this)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v1 = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSObject* result = v1.toThisObject(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(void, op_end)
{
STUB_INIT_STACK_FRAME(stackFrame);
ScopeChainNode* scopeChain = stackFrame.callFrame->scopeChain();
ASSERT(scopeChain->refCount > 1);
scopeChain->deref();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_add)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v1 = stackFrame.args[0].jsValue();
JSValue v2 = stackFrame.args[1].jsValue();
double left;
double right = 0.0;
bool rightIsNumber = v2.getNumber(right);
if (rightIsNumber && v1.getNumber(left))
return JSValue::encode(jsNumber(stackFrame.globalData, left + right));
CallFrame* callFrame = stackFrame.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 JSValue::encode(jsString(stackFrame.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 JSValue::encode(jsString(stackFrame.globalData, value.release()));
}
// All other cases are pretty uncommon
JSValue result = jsAddSlowCase(callFrame, v1, v2);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_pre_inc)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, v.toNumber(callFrame) + 1);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(int, timeout_check)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSGlobalData* globalData = stackFrame.globalData;
TimeoutChecker& timeoutChecker = globalData->timeoutChecker;
if (timeoutChecker.didTimeOut(stackFrame.callFrame)) {
globalData->exception = createInterruptedExecutionException(globalData);
VM_THROW_EXCEPTION_AT_END();
}
return timeoutChecker.ticksUntilNextCheck();
}
DEFINE_STUB_FUNCTION(void, register_file_check)
{
STUB_INIT_STACK_FRAME(stackFrame);
if (LIKELY(stackFrame.registerFile->grow(&stackFrame.callFrame->registers()[stackFrame.callFrame->codeBlock()->m_numCalleeRegisters])))
return;
// Rewind to the previous call frame because op_call already optimistically
// moved the call frame forward.
CallFrame* oldCallFrame = stackFrame.callFrame->callerFrame();
stackFrame.callFrame = oldCallFrame;
throwStackOverflowError(oldCallFrame, stackFrame.globalData, ReturnAddressPtr(oldCallFrame->returnPC()), STUB_RETURN_ADDRESS);
}
DEFINE_STUB_FUNCTION(int, op_loop_if_less)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = jsLess(callFrame, src1, src2);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(int, op_loop_if_lesseq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = jsLessEq(callFrame, src1, src2);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_object)
{
STUB_INIT_STACK_FRAME(stackFrame);
return constructEmptyObject(stackFrame.callFrame);
}
DEFINE_STUB_FUNCTION(void, op_put_by_id_generic)
{
STUB_INIT_STACK_FRAME(stackFrame);
PutPropertySlot slot;
stackFrame.args[0].jsValue().put(stackFrame.callFrame, stackFrame.args[1].identifier(), stackFrame.args[2].jsValue(), slot);
CHECK_FOR_EXCEPTION_AT_END();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_generic)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, ident, slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
#if ENABLE(JIT_OPTIMIZE_PROPERTY_ACCESS)
DEFINE_STUB_FUNCTION(void, op_put_by_id)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
PutPropertySlot slot;
stackFrame.args[0].jsValue().put(callFrame, ident, stackFrame.args[2].jsValue(), slot);
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_put_by_id_second));
CHECK_FOR_EXCEPTION_AT_END();
}
DEFINE_STUB_FUNCTION(void, op_put_by_id_second)
{
STUB_INIT_STACK_FRAME(stackFrame);
PutPropertySlot slot;
stackFrame.args[0].jsValue().put(stackFrame.callFrame, stackFrame.args[1].identifier(), stackFrame.args[2].jsValue(), slot);
JITThunks::tryCachePutByID(stackFrame.callFrame, stackFrame.callFrame->codeBlock(), STUB_RETURN_ADDRESS, stackFrame.args[0].jsValue(), slot);
CHECK_FOR_EXCEPTION_AT_END();
}
DEFINE_STUB_FUNCTION(void, op_put_by_id_fail)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
PutPropertySlot slot;
stackFrame.args[0].jsValue().put(callFrame, ident, stackFrame.args[2].jsValue(), slot);
CHECK_FOR_EXCEPTION_AT_END();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_put_by_id_transition_realloc)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue baseValue = stackFrame.args[0].jsValue();
int32_t oldSize = stackFrame.args[1].int32();
int32_t newSize = stackFrame.args[2].int32();
ASSERT(baseValue.isObject());
asObject(baseValue)->allocatePropertyStorage(oldSize, newSize);
return JSValue::encode(baseValue);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, ident, slot);
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_second));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_method_check)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, ident, slot);
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_method_check_second));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_method_check_second)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, ident, slot);
CHECK_FOR_EXCEPTION();
// If we successfully got something, then the base from which it is being accessed must
// be an object. (Assertion to ensure asObject() call below is safe, which comes after
// an isCacheable() chceck.
ASSERT(!slot.isCacheable() || slot.slotBase().isObject());
// Check that:
// * We're dealing with a JSCell,
// * the property is cachable,
// * it's not a dictionary
// * there is a function cached.
Structure* structure;
JSCell* specific;
JSObject* slotBaseObject;
if (baseValue.isCell()
&& slot.isCacheable()
&& !(structure = asCell(baseValue)->structure())->isDictionary()
&& (slotBaseObject = asObject(slot.slotBase()))->getPropertySpecificValue(callFrame, ident, specific)
&& specific
) {
JSFunction* callee = (JSFunction*)specific;
// 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()));
// The result fetched should always be the callee!
ASSERT(result == JSValue(callee));
MethodCallLinkInfo& methodCallLinkInfo = callFrame->codeBlock()->getMethodCallLinkInfo(STUB_RETURN_ADDRESS);
// Check to see if the function is on the object's prototype. Patch up the code to optimize.
if (slot.slotBase() == structure->prototypeForLookup(callFrame))
JIT::patchMethodCallProto(methodCallLinkInfo, callee, structure, slotBaseObject);
// Check to see if the function is on the object itself.
// Since we generate the method-check to check both the structure and a prototype-structure (since this
// is the common case) we have a problem - we need to patch the prototype structure check to do something
// useful. We could try to nop it out altogether, but that's a little messy, so lets do something simpler
// for now. For now it performs a check on a special object on the global object only used for this
// purpose. The object is in no way exposed, and as such the check will always pass.
else if (slot.slotBase() == baseValue)
JIT::patchMethodCallProto(methodCallLinkInfo, callee, structure, callFrame->scopeChain()->globalObject()->methodCallDummy());
// For now let any other case be cached as a normal get_by_id.
}
// Revert the get_by_id op back to being a regular get_by_id - allow it to cache like normal, if it needs to.
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id));
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_second)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, ident, slot);
JITThunks::tryCacheGetByID(callFrame, callFrame->codeBlock(), STUB_RETURN_ADDRESS, baseValue, ident, slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_self_fail)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
Identifier& ident = stackFrame.args[1].identifier();
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue 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(CodeLocationLabel(), 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, FunctionPtr(cti_op_get_by_id_generic));
} else {
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_generic));
}
return JSValue::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 = CodeLocationLabel();
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 = CodeLocationLabel();
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;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_proto_list)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(callFrame, stackFrame.args[1].identifier(), slot);
CHECK_FOR_EXCEPTION();
if (!baseValue.isCell() || !slot.isCacheable() || asCell(baseValue)->structure()->isDictionary()) {
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_proto_fail));
return JSValue::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, FunctionPtr(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, FunctionPtr(cti_op_get_by_id_proto_list_full));
} else if (size_t count = countPrototypeChainEntriesAndCheckForProxies(callFrame, baseValue, slot)) {
StructureChain* protoChain = structure->prototypeChain(callFrame);
if (!protoChain->isCacheable()) {
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_proto_fail));
return JSValue::encode(result);
}
int listIndex;
PolymorphicAccessStructureList* prototypeStructureList = getPolymorphicAccessStructureListSlot(stubInfo, listIndex);
JIT::compileGetByIdChainList(callFrame->scopeChain()->globalData, callFrame, codeBlock, stubInfo, prototypeStructureList, listIndex, structure, protoChain, count, slot.cachedOffset());
if (listIndex == (POLYMORPHIC_LIST_CACHE_SIZE - 1))
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_proto_list_full));
} else
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_id_proto_fail));
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_proto_list_full)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(stackFrame.callFrame, stackFrame.args[1].identifier(), slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_proto_fail)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(stackFrame.callFrame, stackFrame.args[1].identifier(), slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_array_fail)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(stackFrame.callFrame, stackFrame.args[1].identifier(), slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_id_string_fail)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue baseValue = stackFrame.args[0].jsValue();
PropertySlot slot(baseValue);
JSValue result = baseValue.get(stackFrame.callFrame, stackFrame.args[1].identifier(), slot);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
#endif
DEFINE_STUB_FUNCTION(EncodedJSValue, op_instanceof)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue value = stackFrame.args[0].jsValue();
JSValue baseVal = stackFrame.args[1].jsValue();
JSValue proto = stackFrame.args[2].jsValue();
// 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);
// ECMA-262 15.3.5.3:
// Throw an exception either if baseVal is not an object, or if it does not implement 'HasInstance' (i.e. is a function).
TypeInfo typeInfo(UnspecifiedType, 0);
if (!baseVal.isObject() || !(typeInfo = asObject(baseVal)->structure()->typeInfo()).implementsHasInstance()) {
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createInvalidParamError(callFrame, "instanceof", baseVal, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
ASSERT(typeInfo.type() != UnspecifiedType);
if (!typeInfo.overridesHasInstance()) {
if (!value.isObject())
return JSValue::encode(jsBoolean(false));
if (!proto.isObject()) {
throwError(callFrame, TypeError, "instanceof called on an object with an invalid prototype property.");
VM_THROW_EXCEPTION();
}
}
JSValue result = jsBoolean(asObject(baseVal)->hasInstance(callFrame, value, proto));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_del_by_id)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSObject* baseObj = stackFrame.args[0].jsValue().toObject(callFrame);
JSValue result = jsBoolean(baseObj->deleteProperty(callFrame, stackFrame.args[1].identifier()));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_mul)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
double left;
double right;
if (src1.getNumber(left) && src2.getNumber(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left * right));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toNumber(callFrame) * src2.toNumber(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_func)
{
STUB_INIT_STACK_FRAME(stackFrame);
return stackFrame.args[0].funcDeclNode()->makeFunction(stackFrame.callFrame, stackFrame.callFrame->scopeChain());
}
DEFINE_STUB_FUNCTION(void*, op_call_JSFunction)
{
STUB_INIT_STACK_FRAME(stackFrame);
#ifndef NDEBUG
CallData callData;
ASSERT(stackFrame.args[0].jsValue().getCallData(callData) == CallTypeJS);
#endif
JSFunction* function = asFunction(stackFrame.args[0].jsValue());
ASSERT(!function->isHostFunction());
FunctionBodyNode* body = function->body();
ScopeChainNode* callDataScopeChain = function->scope().node();
body->jitCode(callDataScopeChain);
return &(body->generatedBytecode());
}
DEFINE_STUB_FUNCTION(VoidPtrPair, op_call_arityCheck)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* newCodeBlock = stackFrame.args[3].codeBlock();
ASSERT(newCodeBlock->codeType() != NativeCode);
int argCount = stackFrame.args[2].int32();
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 (!stackFrame.registerFile->grow(newEnd)) {
// Rewind to the previous call frame because op_call already optimistically
// moved the call frame forward.
stackFrame.callFrame = oldCallFrame;
throwStackOverflowError(oldCallFrame, stackFrame.globalData, stackFrame.args[1].returnAddress(), STUB_RETURN_ADDRESS);
RETURN_POINTER_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_POINTER_PAIR(newCodeBlock, callFrame);
}
DEFINE_STUB_FUNCTION(void*, vm_dontLazyLinkCall)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSGlobalData* globalData = stackFrame.globalData;
JSFunction* callee = asFunction(stackFrame.args[0].jsValue());
ctiPatchNearCallByReturnAddress(stackFrame.args[1].returnAddress(), globalData->jitStubs.ctiVirtualCallLink());
return callee->body()->generatedJITCode().addressForCall().executableAddress();
}
DEFINE_STUB_FUNCTION(void*, vm_lazyLinkCall)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSFunction* callee = asFunction(stackFrame.args[0].jsValue());
JITCode& jitCode = callee->body()->generatedJITCode();
CodeBlock* codeBlock = 0;
if (!callee->isHostFunction())
codeBlock = &callee->body()->bytecode(callee->scope().node());
else
codeBlock = &callee->body()->generatedBytecode();
CallLinkInfo* callLinkInfo = &stackFrame.callFrame->callerFrame()->codeBlock()->getCallLinkInfo(stackFrame.args[1].returnAddress());
JIT::linkCall(callee, codeBlock, jitCode, callLinkInfo, stackFrame.args[2].int32(), stackFrame.globalData);
return jitCode.addressForCall().executableAddress();
}
DEFINE_STUB_FUNCTION(JSObject*, op_push_activation)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSActivation* activation = new (stackFrame.globalData) JSActivation(stackFrame.callFrame, static_cast<FunctionBodyNode*>(stackFrame.callFrame->codeBlock()->ownerNode()));
stackFrame.callFrame->setScopeChain(stackFrame.callFrame->scopeChain()->copy()->push(activation));
return activation;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_call_NotJSFunction)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue funcVal = stackFrame.args[0].jsValue();
CallData callData;
CallType callType = funcVal.getCallData(callData);
ASSERT(callType != CallTypeJS);
if (callType == CallTypeHost) {
int registerOffset = stackFrame.args[1].int32();
int argCount = stackFrame.args[2].int32();
CallFrame* previousCallFrame = stackFrame.callFrame;
CallFrame* callFrame = CallFrame::create(previousCallFrame->registers() + registerOffset);
callFrame->init(0, static_cast<Instruction*>((STUB_RETURN_ADDRESS).value()), previousCallFrame->scopeChain(), previousCallFrame, 0, argCount, 0);
stackFrame.callFrame = callFrame;
Register* argv = stackFrame.callFrame->registers() - RegisterFile::CallFrameHeaderSize - argCount;
ArgList argList(argv + 1, argCount - 1);
JSValue returnValue;
{
SamplingTool::HostCallRecord callRecord(CTI_SAMPLER);
// FIXME: All host methods should be calling toThisObject, but this is not presently the case.
JSValue thisValue = argv[0].jsValue();
if (thisValue == jsNull())
thisValue = callFrame->globalThisValue();
returnValue = callData.native.function(callFrame, asObject(funcVal), thisValue, argList);
}
stackFrame.callFrame = previousCallFrame;
CHECK_FOR_EXCEPTION();
return JSValue::encode(returnValue);
}
ASSERT(callType == CallTypeNone);
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createNotAFunctionError(stackFrame.callFrame, funcVal, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
DEFINE_STUB_FUNCTION(void, op_create_arguments)
{
STUB_INIT_STACK_FRAME(stackFrame);
Arguments* arguments = new (stackFrame.globalData) Arguments(stackFrame.callFrame);
stackFrame.callFrame->setCalleeArguments(arguments);
stackFrame.callFrame[RegisterFile::ArgumentsRegister] = arguments;
}
DEFINE_STUB_FUNCTION(void, op_create_arguments_no_params)
{
STUB_INIT_STACK_FRAME(stackFrame);
Arguments* arguments = new (stackFrame.globalData) Arguments(stackFrame.callFrame, Arguments::NoParameters);
stackFrame.callFrame->setCalleeArguments(arguments);
stackFrame.callFrame[RegisterFile::ArgumentsRegister] = arguments;
}
DEFINE_STUB_FUNCTION(void, op_tear_off_activation)
{
STUB_INIT_STACK_FRAME(stackFrame);
ASSERT(stackFrame.callFrame->codeBlock()->needsFullScopeChain());
asActivation(stackFrame.args[0].jsValue())->copyRegisters(stackFrame.callFrame->optionalCalleeArguments());
}
DEFINE_STUB_FUNCTION(void, op_tear_off_arguments)
{
STUB_INIT_STACK_FRAME(stackFrame);
ASSERT(stackFrame.callFrame->codeBlock()->usesArguments() && !stackFrame.callFrame->codeBlock()->needsFullScopeChain());
if (stackFrame.callFrame->optionalCalleeArguments())
stackFrame.callFrame->optionalCalleeArguments()->copyRegisters();
}
DEFINE_STUB_FUNCTION(void, op_profile_will_call)
{
STUB_INIT_STACK_FRAME(stackFrame);
ASSERT(*stackFrame.enabledProfilerReference);
(*stackFrame.enabledProfilerReference)->willExecute(stackFrame.callFrame, stackFrame.args[0].jsValue());
}
DEFINE_STUB_FUNCTION(void, op_profile_did_call)
{
STUB_INIT_STACK_FRAME(stackFrame);
ASSERT(*stackFrame.enabledProfilerReference);
(*stackFrame.enabledProfilerReference)->didExecute(stackFrame.callFrame, stackFrame.args[0].jsValue());
}
DEFINE_STUB_FUNCTION(void, op_ret_scopeChain)
{
STUB_INIT_STACK_FRAME(stackFrame);
ASSERT(stackFrame.callFrame->codeBlock()->needsFullScopeChain());
stackFrame.callFrame->scopeChain()->deref();
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_array)
{
STUB_INIT_STACK_FRAME(stackFrame);
ArgList argList(&stackFrame.callFrame->registers()[stackFrame.args[0].int32()], stackFrame.args[1].int32());
return constructArray(stackFrame.callFrame, argList);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
ScopeChainIterator end = scopeChain->end();
ASSERT(iter != end);
Identifier& ident = stackFrame.args[0].identifier();
do {
JSObject* o = *iter;
PropertySlot slot(o);
if (o->getPropertySlot(callFrame, ident, slot)) {
JSValue result = slot.getValue(callFrame, ident);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
} while (++iter != end);
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
DEFINE_STUB_FUNCTION(JSObject*, op_construct_JSConstruct)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSFunction* constructor = asFunction(stackFrame.args[0].jsValue());
if (constructor->isHostFunction()) {
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createNotAConstructorError(callFrame, constructor, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
#ifndef NDEBUG
ConstructData constructData;
ASSERT(constructor->getConstructData(constructData) == ConstructTypeJS);
#endif
Structure* structure;
if (stackFrame.args[3].jsValue().isObject())
structure = asObject(stackFrame.args[3].jsValue())->inheritorID();
else
structure = constructor->scope().node()->globalObject()->emptyObjectStructure();
return new (stackFrame.globalData) JSObject(structure);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_construct_NotJSConstruct)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue constrVal = stackFrame.args[0].jsValue();
int argCount = stackFrame.args[2].int32();
int thisRegister = stackFrame.args[4].int32();
ConstructData constructData;
ConstructType constructType = constrVal.getConstructData(constructData);
if (constructType == ConstructTypeHost) {
ArgList argList(callFrame->registers() + thisRegister + 1, argCount - 1);
JSValue returnValue;
{
SamplingTool::HostCallRecord callRecord(CTI_SAMPLER);
returnValue = constructData.native.function(callFrame, asObject(constrVal), argList);
}
CHECK_FOR_EXCEPTION();
return JSValue::encode(returnValue);
}
ASSERT(constructType == ConstructTypeNone);
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createNotAConstructorError(callFrame, constrVal, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_val)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalData* globalData = stackFrame.globalData;
JSValue baseValue = stackFrame.args[0].jsValue();
JSValue subscript = stackFrame.args[1].jsValue();
JSValue result;
if (LIKELY(subscript.isUInt32Fast())) {
uint32_t i = subscript.getUInt32Fast();
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(globalData, baseValue) && asString(baseValue)->canGetIndex(i)) {
// All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_val_string));
result = asString(baseValue)->getIndex(stackFrame.globalData, i);
} else if (isJSByteArray(globalData, 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, FunctionPtr(cti_op_get_by_val_byte_array));
return JSValue::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 JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_val_string)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalData* globalData = stackFrame.globalData;
JSValue baseValue = stackFrame.args[0].jsValue();
JSValue subscript = stackFrame.args[1].jsValue();
JSValue result;
if (LIKELY(subscript.isUInt32Fast())) {
uint32_t i = subscript.getUInt32Fast();
if (isJSString(globalData, baseValue) && asString(baseValue)->canGetIndex(i))
result = asString(baseValue)->getIndex(stackFrame.globalData, i);
else {
result = baseValue.get(callFrame, i);
if (!isJSString(globalData, baseValue))
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_val));
}
} else {
Identifier property(callFrame, subscript.toString(callFrame));
result = baseValue.get(callFrame, property);
}
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_get_by_val_byte_array)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalData* globalData = stackFrame.globalData;
JSValue baseValue = stackFrame.args[0].jsValue();
JSValue subscript = stackFrame.args[1].jsValue();
JSValue result;
if (LIKELY(subscript.isUInt32Fast())) {
uint32_t i = subscript.getUInt32Fast();
if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
// All fast byte array accesses are safe from exceptions so return immediately to avoid exception checks.
return JSValue::encode(asByteArray(baseValue)->getIndex(callFrame, i));
}
result = baseValue.get(callFrame, i);
if (!isJSByteArray(globalData, baseValue))
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_get_by_val));
} else {
Identifier property(callFrame, subscript.toString(callFrame));
result = baseValue.get(callFrame, property);
}
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve_func)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
ScopeChainIterator end = scopeChain->end();
// FIXME: add scopeDepthIsZero optimization
ASSERT(iter != end);
Identifier& ident = stackFrame.args[0].identifier();
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);
JSValue result = slot.getValue(callFrame, ident);
CHECK_FOR_EXCEPTION_AT_END();
callFrame->registers()[stackFrame.args[1].int32()] = JSValue(thisObj);
return JSValue::encode(result);
}
++iter;
} while (iter != end);
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
VM_THROW_EXCEPTION_AT_END();
return JSValue::encode(JSValue());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_sub)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
double left;
double right;
if (src1.getNumber(left) && src2.getNumber(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left - right));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toNumber(callFrame) - src2.toNumber(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(void, op_put_by_val)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalData* globalData = stackFrame.globalData;
JSValue baseValue = stackFrame.args[0].jsValue();
JSValue subscript = stackFrame.args[1].jsValue();
JSValue value = stackFrame.args[2].jsValue();
if (LIKELY(subscript.isUInt32Fast())) {
uint32_t i = subscript.getUInt32Fast();
if (isJSArray(globalData, baseValue)) {
JSArray* jsArray = asArray(baseValue);
if (jsArray->canSetIndex(i))
jsArray->setIndex(i, value);
else
jsArray->JSArray::put(callFrame, i, value);
} else if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
JSByteArray* jsByteArray = asByteArray(baseValue);
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(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 (!stackFrame.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();
}
DEFINE_STUB_FUNCTION(void, op_put_by_val_array)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue baseValue = stackFrame.args[0].jsValue();
int i = stackFrame.args[1].int32();
JSValue value = stackFrame.args[2].jsValue();
ASSERT(isJSArray(stackFrame.globalData, 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(JSValue::makeInt32Fast(i));
Identifier property(callFrame, JSValue::makeInt32Fast(i).toString(callFrame));
// FIXME: can toString throw an exception here?
if (!stackFrame.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();
}
DEFINE_STUB_FUNCTION(void, op_put_by_val_byte_array)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalData* globalData = stackFrame.globalData;
JSValue baseValue = stackFrame.args[0].jsValue();
JSValue subscript = stackFrame.args[1].jsValue();
JSValue value = stackFrame.args[2].jsValue();
if (LIKELY(subscript.isUInt32Fast())) {
uint32_t i = subscript.getUInt32Fast();
if (isJSByteArray(globalData, 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 (!isJSByteArray(globalData, baseValue))
ctiPatchCallByReturnAddress(STUB_RETURN_ADDRESS, FunctionPtr(cti_op_put_by_val));
baseValue.put(callFrame, i, value);
} else {
Identifier property(callFrame, subscript.toString(callFrame));
if (!stackFrame.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();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_lesseq)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsBoolean(jsLessEq(callFrame, stackFrame.args[0].jsValue(), stackFrame.args[1].jsValue()));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(int, op_loop_if_true)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = src1.toBoolean(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(int, op_load_varargs)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
RegisterFile* registerFile = stackFrame.registerFile;
int argsOffset = stackFrame.args[0].int32();
JSValue arguments = callFrame->registers()[argsOffset].jsValue();
uint32_t argCount = 0;
if (!arguments) {
int providedParams = callFrame->registers()[RegisterFile::ArgumentCount].i() - 1;
argCount = providedParams;
int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
Register* newEnd = callFrame->registers() + sizeDelta;
if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
stackFrame.globalData->exception = createStackOverflowError(callFrame);
VM_THROW_EXCEPTION();
}
int32_t expectedParams = asFunction(callFrame->registers()[RegisterFile::Callee].jsValue())->body()->parameterCount();
int32_t inplaceArgs = min(providedParams, expectedParams);
Register* inplaceArgsDst = callFrame->registers() + argsOffset;
Register* inplaceArgsEnd = inplaceArgsDst + inplaceArgs;
Register* inplaceArgsEnd2 = inplaceArgsDst + providedParams;
Register* inplaceArgsSrc = callFrame->registers() - RegisterFile::CallFrameHeaderSize - expectedParams;
Register* inplaceArgsSrc2 = inplaceArgsSrc - providedParams - 1 + inplaceArgs;
// First step is to copy the "expected" parameters from their normal location relative to the callframe
while (inplaceArgsDst < inplaceArgsEnd)
*inplaceArgsDst++ = *inplaceArgsSrc++;
// Then we copy any additional arguments that may be further up the stack ('-1' to account for 'this')
while (inplaceArgsDst < inplaceArgsEnd2)
*inplaceArgsDst++ = *inplaceArgsSrc2++;
} else if (!arguments.isUndefinedOrNull()) {
if (!arguments.isObject()) {
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createInvalidParamError(callFrame, "Function.prototype.apply", arguments, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
if (asObject(arguments)->classInfo() == &Arguments::info) {
Arguments* argsObject = asArguments(arguments);
argCount = argsObject->numProvidedArguments(callFrame);
int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
Register* newEnd = callFrame->registers() + sizeDelta;
if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
stackFrame.globalData->exception = createStackOverflowError(callFrame);
VM_THROW_EXCEPTION();
}
argsObject->copyToRegisters(callFrame, callFrame->registers() + argsOffset, argCount);
} else if (isJSArray(&callFrame->globalData(), arguments)) {
JSArray* array = asArray(arguments);
argCount = array->length();
int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
Register* newEnd = callFrame->registers() + sizeDelta;
if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
stackFrame.globalData->exception = createStackOverflowError(callFrame);
VM_THROW_EXCEPTION();
}
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);
int32_t sizeDelta = argsOffset + argCount + RegisterFile::CallFrameHeaderSize;
Register* newEnd = callFrame->registers() + sizeDelta;
if (!registerFile->grow(newEnd) || ((newEnd - callFrame->registers()) != sizeDelta)) {
stackFrame.globalData->exception = createStackOverflowError(callFrame);
VM_THROW_EXCEPTION();
}
Register* argsBuffer = callFrame->registers() + argsOffset;
for (unsigned i = 0; i < argCount; ++i) {
argsBuffer[i] = asObject(arguments)->get(callFrame, i);
CHECK_FOR_EXCEPTION();
}
} else {
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createInvalidParamError(callFrame, "Function.prototype.apply", arguments, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
}
return argCount + 1;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_negate)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src = stackFrame.args[0].jsValue();
double v;
if (src.getNumber(v))
return JSValue::encode(jsNumber(stackFrame.globalData, -v));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, -src.toNumber(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve_base)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(JSC::resolveBase(stackFrame.callFrame, stackFrame.args[0].identifier(), stackFrame.callFrame->scopeChain()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve_skip)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ScopeChainNode* scopeChain = callFrame->scopeChain();
int skip = stackFrame.args[1].int32();
ScopeChainIterator iter = scopeChain->begin();
ScopeChainIterator end = scopeChain->end();
ASSERT(iter != end);
while (skip--) {
++iter;
ASSERT(iter != end);
}
Identifier& ident = stackFrame.args[0].identifier();
do {
JSObject* o = *iter;
PropertySlot slot(o);
if (o->getPropertySlot(callFrame, ident, slot)) {
JSValue result = slot.getValue(callFrame, ident);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
} while (++iter != end);
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve_global)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSGlobalObject* globalObject = asGlobalObject(stackFrame.args[0].jsValue());
Identifier& ident = stackFrame.args[1].identifier();
unsigned globalResolveInfoIndex = stackFrame.args[2].int32();
ASSERT(globalObject->isGlobalObject());
PropertySlot slot(globalObject);
if (globalObject->getPropertySlot(callFrame, ident, slot)) {
JSValue 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 JSValue::encode(result);
}
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
unsigned vPCIndex = callFrame->codeBlock()->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, callFrame->codeBlock());
VM_THROW_EXCEPTION();
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_div)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
double left;
double right;
if (src1.getNumber(left) && src2.getNumber(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left / right));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toNumber(callFrame) / src2.toNumber(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_pre_dec)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, v.toNumber(callFrame) - 1);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(int, op_jless)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = jsLess(callFrame, src1, src2);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(int, op_jlesseq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = jsLessEq(callFrame, src1, src2);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_not)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsBoolean(!src.toBoolean(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(int, op_jtrue)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
bool result = src1.toBoolean(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
return result;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_post_inc)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue number = v.toJSNumber(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
callFrame->registers()[stackFrame.args[1].int32()] = jsNumber(stackFrame.globalData, number.uncheckedGetNumber() + 1);
return JSValue::encode(number);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_eq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
ASSERT(!JSValue::areBothInt32Fast(src1, src2));
JSValue result = jsBoolean(JSValue::equalSlowCaseInline(callFrame, src1, src2));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_lshift)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue val = stackFrame.args[0].jsValue();
JSValue shift = stackFrame.args[1].jsValue();
int32_t left;
uint32_t right;
if (JSValue::areBothInt32Fast(val, shift))
return JSValue::encode(jsNumber(stackFrame.globalData, val.getInt32Fast() << (shift.getInt32Fast() & 0x1f)));
if (val.numberToInt32(left) && shift.numberToUInt32(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left << (right & 0x1f)));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, (val.toInt32(callFrame)) << (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_bitand)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
int32_t left;
int32_t right;
if (src1.numberToInt32(left) && src2.numberToInt32(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left & right));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toInt32(callFrame) & src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_rshift)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue val = stackFrame.args[0].jsValue();
JSValue shift = stackFrame.args[1].jsValue();
int32_t left;
uint32_t right;
if (JSFastMath::canDoFastRshift(val, shift))
return JSValue::encode(JSFastMath::rightShiftImmediateNumbers(val, shift));
if (val.numberToInt32(left) && shift.numberToUInt32(right))
return JSValue::encode(jsNumber(stackFrame.globalData, left >> (right & 0x1f)));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, (val.toInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_bitnot)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src = stackFrame.args[0].jsValue();
int value;
if (src.numberToInt32(value))
return JSValue::encode(jsNumber(stackFrame.globalData, ~value));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, ~src.toInt32(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_resolve_with_base)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ScopeChainNode* scopeChain = callFrame->scopeChain();
ScopeChainIterator iter = scopeChain->begin();
ScopeChainIterator end = scopeChain->end();
// FIXME: add scopeDepthIsZero optimization
ASSERT(iter != end);
Identifier& ident = stackFrame.args[0].identifier();
JSObject* base;
do {
base = *iter;
PropertySlot slot(base);
if (base->getPropertySlot(callFrame, ident, slot)) {
JSValue result = slot.getValue(callFrame, ident);
CHECK_FOR_EXCEPTION_AT_END();
callFrame->registers()[stackFrame.args[1].int32()] = JSValue(base);
return JSValue::encode(result);
}
++iter;
} while (iter != end);
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createUndefinedVariableError(callFrame, ident, vPCIndex, codeBlock);
VM_THROW_EXCEPTION_AT_END();
return JSValue::encode(JSValue());
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_func_exp)
{
STUB_INIT_STACK_FRAME(stackFrame);
return stackFrame.args[0].funcExprNode()->makeFunction(stackFrame.callFrame, stackFrame.callFrame->scopeChain());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_mod)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue dividendValue = stackFrame.args[0].jsValue();
JSValue divisorValue = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
double d = dividendValue.toNumber(callFrame);
JSValue result = jsNumber(stackFrame.globalData, fmod(d, divisorValue.toNumber(callFrame)));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_less)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsBoolean(jsLess(callFrame, stackFrame.args[0].jsValue(), stackFrame.args[1].jsValue()));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_neq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
ASSERT(!JSValue::areBothInt32Fast(src1, src2));
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsBoolean(!JSValue::equalSlowCaseInline(callFrame, src1, src2));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_post_dec)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue number = v.toJSNumber(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
callFrame->registers()[stackFrame.args[1].int32()] = jsNumber(stackFrame.globalData, number.uncheckedGetNumber() - 1);
return JSValue::encode(number);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_urshift)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue val = stackFrame.args[0].jsValue();
JSValue shift = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
if (JSFastMath::canDoFastUrshift(val, shift))
return JSValue::encode(JSFastMath::rightShiftImmediateNumbers(val, shift));
else {
JSValue result = jsNumber(stackFrame.globalData, (val.toUInt32(callFrame)) >> (shift.toUInt32(callFrame) & 0x1f));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_bitxor)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toInt32(callFrame) ^ src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_regexp)
{
STUB_INIT_STACK_FRAME(stackFrame);
return new (stackFrame.globalData) RegExpObject(stackFrame.callFrame->lexicalGlobalObject()->regExpStructure(), stackFrame.args[0].regExp());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_bitor)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = jsNumber(stackFrame.globalData, src1.toInt32(callFrame) | src2.toInt32(callFrame));
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_call_eval)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
RegisterFile* registerFile = stackFrame.registerFile;
Interpreter* interpreter = stackFrame.globalData->interpreter;
JSValue funcVal = stackFrame.args[0].jsValue();
int registerOffset = stackFrame.args[1].int32();
int argCount = stackFrame.args[2].int32();
Register* newCallFrame = callFrame->registers() + registerOffset;
Register* argv = newCallFrame - RegisterFile::CallFrameHeaderSize - argCount;
JSValue thisValue = argv[0].jsValue();
JSGlobalObject* globalObject = callFrame->scopeChain()->globalObject();
if (thisValue == globalObject && funcVal == globalObject->evalFunction()) {
JSValue exceptionValue;
JSValue result = interpreter->callEval(callFrame, registerFile, argv, argCount, registerOffset, exceptionValue);
if (UNLIKELY(exceptionValue != JSValue())) {
stackFrame.globalData->exception = exceptionValue;
VM_THROW_EXCEPTION_AT_END();
}
return JSValue::encode(result);
}
return JSValue::encode(JSValue());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_throw)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
JSValue exceptionValue = stackFrame.args[0].jsValue();
ASSERT(exceptionValue);
HandlerInfo* handler = stackFrame.globalData->interpreter->throwException(callFrame, exceptionValue, vPCIndex, true);
if (!handler) {
*stackFrame.exception = exceptionValue;
STUB_SET_RETURN_ADDRESS(reinterpret_cast<void*>(ctiOpThrowNotCaught));
return JSValue::encode(jsNull());
}
stackFrame.callFrame = callFrame;
void* catchRoutine = handler->nativeCode.executableAddress();
ASSERT(catchRoutine);
STUB_SET_RETURN_ADDRESS(catchRoutine);
return JSValue::encode(exceptionValue);
}
DEFINE_STUB_FUNCTION(JSPropertyNameIterator*, op_get_pnames)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSPropertyNameIterator::create(stackFrame.callFrame, stackFrame.args[0].jsValue());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_next_pname)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSPropertyNameIterator* it = stackFrame.args[0].propertyNameIterator();
JSValue temp = it->next(stackFrame.callFrame);
if (!temp)
it->invalidate();
return JSValue::encode(temp);
}
DEFINE_STUB_FUNCTION(JSObject*, op_push_scope)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSObject* o = stackFrame.args[0].jsValue().toObject(stackFrame.callFrame);
CHECK_FOR_EXCEPTION();
stackFrame.callFrame->setScopeChain(stackFrame.callFrame->scopeChain()->push(o));
return o;
}
DEFINE_STUB_FUNCTION(void, op_pop_scope)
{
STUB_INIT_STACK_FRAME(stackFrame);
stackFrame.callFrame->setScopeChain(stackFrame.callFrame->scopeChain()->pop());
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_typeof)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsTypeStringForValue(stackFrame.callFrame, stackFrame.args[0].jsValue()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_undefined)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue v = stackFrame.args[0].jsValue();
return JSValue::encode(jsBoolean(v.isCell() ? v.asCell()->structure()->typeInfo().masqueradesAsUndefined() : v.isUndefined()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_boolean)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsBoolean(stackFrame.args[0].jsValue().isBoolean()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_number)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsBoolean(stackFrame.args[0].jsValue().isNumber()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_string)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsBoolean(isJSString(stackFrame.globalData, stackFrame.args[0].jsValue())));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_object)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsBoolean(jsIsObjectType(stackFrame.args[0].jsValue())));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_is_function)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(jsBoolean(jsIsFunctionType(stackFrame.args[0].jsValue())));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_stricteq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
return JSValue::encode(jsBoolean(JSValue::strictEqual(src1, src2)));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_to_primitive)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(stackFrame.args[0].jsValue().toPrimitive(stackFrame.callFrame));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_strcat)
{
STUB_INIT_STACK_FRAME(stackFrame);
return JSValue::encode(concatenateStrings(stackFrame.callFrame, &stackFrame.callFrame->registers()[stackFrame.args[0].int32()], stackFrame.args[1].int32()));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_nstricteq)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src1 = stackFrame.args[0].jsValue();
JSValue src2 = stackFrame.args[1].jsValue();
return JSValue::encode(jsBoolean(!JSValue::strictEqual(src1, src2)));
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_to_jsnumber)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue src = stackFrame.args[0].jsValue();
CallFrame* callFrame = stackFrame.callFrame;
JSValue result = src.toJSNumber(callFrame);
CHECK_FOR_EXCEPTION_AT_END();
return JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_in)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue baseVal = stackFrame.args[1].jsValue();
if (!baseVal.isObject()) {
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, STUB_RETURN_ADDRESS);
stackFrame.globalData->exception = createInvalidParamError(callFrame, "in", baseVal, vPCIndex, codeBlock);
VM_THROW_EXCEPTION();
}
JSValue propName = stackFrame.args[0].jsValue();
JSObject* baseObj = asObject(baseVal);
uint32_t i;
if (propName.getUInt32(i))
return JSValue::encode(jsBoolean(baseObj->hasProperty(callFrame, i)));
Identifier property(callFrame, propName.toString(callFrame));
CHECK_FOR_EXCEPTION();
return JSValue::encode(jsBoolean(baseObj->hasProperty(callFrame, property)));
}
DEFINE_STUB_FUNCTION(JSObject*, op_push_new_scope)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSObject* scope = new (stackFrame.globalData) JSStaticScopeObject(stackFrame.callFrame, stackFrame.args[0].identifier(), stackFrame.args[1].jsValue(), DontDelete);
CallFrame* callFrame = stackFrame.callFrame;
callFrame->setScopeChain(callFrame->scopeChain()->push(scope));
return scope;
}
DEFINE_STUB_FUNCTION(void, op_jmp_scopes)
{
STUB_INIT_STACK_FRAME(stackFrame);
unsigned count = stackFrame.args[0].int32();
CallFrame* callFrame = stackFrame.callFrame;
ScopeChainNode* tmp = callFrame->scopeChain();
while (count--)
tmp = tmp->pop();
callFrame->setScopeChain(tmp);
}
DEFINE_STUB_FUNCTION(void, op_put_by_index)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
unsigned property = stackFrame.args[1].int32();
stackFrame.args[0].jsValue().put(callFrame, property, stackFrame.args[2].jsValue());
}
DEFINE_STUB_FUNCTION(void*, op_switch_imm)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue scrutinee = stackFrame.args[0].jsValue();
unsigned tableIndex = stackFrame.args[1].int32();
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
if (scrutinee.isInt32Fast())
return codeBlock->immediateSwitchJumpTable(tableIndex).ctiForValue(scrutinee.getInt32Fast()).executableAddress();
else {
double value;
int32_t intValue;
if (scrutinee.getNumber(value) && ((intValue = static_cast<int32_t>(value)) == value))
return codeBlock->immediateSwitchJumpTable(tableIndex).ctiForValue(intValue).executableAddress();
else
return codeBlock->immediateSwitchJumpTable(tableIndex).ctiDefault.executableAddress();
}
}
DEFINE_STUB_FUNCTION(void*, op_switch_char)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue scrutinee = stackFrame.args[0].jsValue();
unsigned tableIndex = stackFrame.args[1].int32();
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
void* result = codeBlock->characterSwitchJumpTable(tableIndex).ctiDefault.executableAddress();
if (scrutinee.isString()) {
UString::Rep* value = asString(scrutinee)->value().rep();
if (value->size() == 1)
result = codeBlock->characterSwitchJumpTable(tableIndex).ctiForValue(value->data()[0]).executableAddress();
}
return result;
}
DEFINE_STUB_FUNCTION(void*, op_switch_string)
{
STUB_INIT_STACK_FRAME(stackFrame);
JSValue scrutinee = stackFrame.args[0].jsValue();
unsigned tableIndex = stackFrame.args[1].int32();
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
void* result = codeBlock->stringSwitchJumpTable(tableIndex).ctiDefault.executableAddress();
if (scrutinee.isString()) {
UString::Rep* value = asString(scrutinee)->value().rep();
result = codeBlock->stringSwitchJumpTable(tableIndex).ctiForValue(value).executableAddress();
}
return result;
}
DEFINE_STUB_FUNCTION(EncodedJSValue, op_del_by_val)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
JSValue baseValue = stackFrame.args[0].jsValue();
JSObject* baseObj = baseValue.toObject(callFrame); // may throw
JSValue subscript = stackFrame.args[1].jsValue();
JSValue 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 JSValue::encode(result);
}
DEFINE_STUB_FUNCTION(void, op_put_getter)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ASSERT(stackFrame.args[0].jsValue().isObject());
JSObject* baseObj = asObject(stackFrame.args[0].jsValue());
ASSERT(stackFrame.args[2].jsValue().isObject());
baseObj->defineGetter(callFrame, stackFrame.args[1].identifier(), asObject(stackFrame.args[2].jsValue()));
}
DEFINE_STUB_FUNCTION(void, op_put_setter)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
ASSERT(stackFrame.args[0].jsValue().isObject());
JSObject* baseObj = asObject(stackFrame.args[0].jsValue());
ASSERT(stackFrame.args[2].jsValue().isObject());
baseObj->defineSetter(callFrame, stackFrame.args[1].identifier(), asObject(stackFrame.args[2].jsValue()));
}
DEFINE_STUB_FUNCTION(JSObject*, op_new_error)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
unsigned type = stackFrame.args[0].int32();
JSValue message = stackFrame.args[1].jsValue();
unsigned bytecodeOffset = stackFrame.args[2].int32();
unsigned lineNumber = codeBlock->lineNumberForBytecodeOffset(callFrame, bytecodeOffset);
return Error::create(callFrame, static_cast<ErrorType>(type), message.toString(callFrame), lineNumber, codeBlock->ownerNode()->sourceID(), codeBlock->ownerNode()->sourceURL());
}
DEFINE_STUB_FUNCTION(void, op_debug)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
int debugHookID = stackFrame.args[0].int32();
int firstLine = stackFrame.args[1].int32();
int lastLine = stackFrame.args[2].int32();
stackFrame.globalData->interpreter->debug(callFrame, static_cast<DebugHookID>(debugHookID), firstLine, lastLine);
}
DEFINE_STUB_FUNCTION(EncodedJSValue, vm_throw)
{
STUB_INIT_STACK_FRAME(stackFrame);
CallFrame* callFrame = stackFrame.callFrame;
CodeBlock* codeBlock = callFrame->codeBlock();
JSGlobalData* globalData = stackFrame.globalData;
unsigned vPCIndex = codeBlock->getBytecodeIndex(callFrame, globalData->exceptionLocation);
JSValue exceptionValue = globalData->exception;
ASSERT(exceptionValue);
globalData->exception = JSValue();
HandlerInfo* handler = globalData->interpreter->throwException(callFrame, exceptionValue, vPCIndex, false);
if (!handler) {
*stackFrame.exception = exceptionValue;
return JSValue::encode(jsNull());
}
stackFrame.callFrame = callFrame;
void* catchRoutine = handler->nativeCode.executableAddress();
ASSERT(catchRoutine);
STUB_SET_RETURN_ADDRESS(catchRoutine);
return JSValue::encode(exceptionValue);
}
} // namespace JITStubs
} // namespace JSC
#endif // ENABLE(JIT)