示例#1
0
 void dumpImmediate(JSValue value)
 {
     if (value.isNull())
         write(NullTag);
     else if (value.isUndefined())
         write(UndefinedTag);
     else if (value.isNumber()) {
         if (value.isInt32()) {
             if (!value.asInt32())
                 write(ZeroTag);
             else if (value.asInt32() == 1)
                 write(OneTag);
             else {
                 write(IntTag);
                 write(static_cast<uint32_t>(value.asInt32()));
             }
         } else {
             write(DoubleTag);
             write(value.asDouble());
         }
     } else if (value.isBoolean()) {
         if (value.isTrue())
             write(TrueTag);
         else
             write(FalseTag);
     }
 }
示例#2
0
static inline void putByVal(ExecState* exec, JSValue baseValue, uint32_t index, JSValue value)
{
    JSGlobalData* globalData = &exec->globalData();

    if (isJSArray(baseValue)) {
        JSArray* array = asArray(baseValue);
        if (array->canSetIndex(index)) {
            array->setIndex(*globalData, index, value);
            return;
        }

        JSArray::putByIndex(array, exec, index, value, strict);
        return;
    }

    if (isJSByteArray(baseValue) && asByteArray(baseValue)->canAccessIndex(index)) {
        JSByteArray* byteArray = asByteArray(baseValue);
        // FIXME: the JITstub used to relink this to an optimized form!
        if (value.isInt32()) {
            byteArray->setIndex(index, value.asInt32());
            return;
        }

        if (value.isNumber()) {
            byteArray->setIndex(index, value.asNumber());
            return;
        }
    }

    baseValue.putByIndex(exec, index, value, strict);
}
示例#3
0
// http://www.w3.org/TR/WebIDL/#es-byte
int8_t toInt8(ExecState* exec, JSValue value, IntegerConversionConfiguration configuration)
{
    // Fast path if the value is already a 32-bit signed integer in the right range.
    if (value.isInt32()) {
        int32_t d = value.asInt32();
        if (d >= kMinInt8 && d <= kMaxInt8)
            return static_cast<int8_t>(d);
        if (configuration == EnforceRange) {
            throwTypeError(exec);
            return 0;
        }
        d %= 256;
        return static_cast<int8_t>(d > kMaxInt8 ? d - 256 : d);
    }

    double x = value.toNumber(exec);
    if (exec->hadException())
        return 0;

    if (configuration == EnforceRange)
        return enforceRange(exec, x, kMinInt8, kMaxInt8);

    if (std::isnan(x) || std::isinf(x) || !x)
        return 0;

    x = x < 0 ? -floor(fabs(x)) : floor(fabs(x));
    x = fmod(x, 256); // 2^8.

    return static_cast<int8_t>(x > kMaxInt8 ? x - 256 : x);
}
示例#4
0
static inline T toSmallerInt(ExecState* exec, JSValue value, IntegerConversionConfiguration configuration)
{
    typedef IntTypeLimits<T> LimitsTrait;
    // Fast path if the value is already a 32-bit signed integer in the right range.
    if (value.isInt32()) {
        int32_t d = value.asInt32();
        if (d >= LimitsTrait::minValue && d <= LimitsTrait::maxValue)
            return static_cast<T>(d);
        if (configuration == EnforceRange) {
            throwTypeError(exec);
            return 0;
        }
        d %= LimitsTrait::numberOfValues;
        return static_cast<T>(d > LimitsTrait::maxValue ? d - LimitsTrait::numberOfValues : d);
    }

    double x = value.toNumber(exec);
    if (exec->hadException())
        return 0;

    if (configuration == EnforceRange)
        return enforceRange(exec, x, LimitsTrait::minValue, LimitsTrait::maxValue);

    if (std::isnan(x) || std::isinf(x) || !x)
        return 0;

    x = x < 0 ? -floor(fabs(x)) : floor(fabs(x));
    x = fmod(x, LimitsTrait::numberOfValues);

    return static_cast<T>(x > LimitsTrait::maxValue ? x - LimitsTrait::numberOfValues : x);
}
示例#5
0
char* newTypedArrayWithOneArgument(
    ExecState* exec, Structure* structure, EncodedJSValue encodedValue)
{
    VM& vm = exec->vm();
    NativeCallFrameTracer tracer(&vm, exec);
    
    JSValue value = JSValue::decode(encodedValue);
    
    if (JSArrayBuffer* jsBuffer = jsDynamicCast<JSArrayBuffer*>(value)) {
        RefPtr<ArrayBuffer> buffer = jsBuffer->impl();
        
        if (buffer->byteLength() % ViewClass::elementSize) {
            vm.throwException(exec, createRangeError(exec, ASCIILiteral("ArrayBuffer length minus the byteOffset is not a multiple of the element size")));
            return 0;
        }
        return bitwise_cast<char*>(
            ViewClass::create(
                exec, structure, buffer, 0, buffer->byteLength() / ViewClass::elementSize));
    }
    
    if (JSObject* object = jsDynamicCast<JSObject*>(value)) {
        unsigned length = object->get(exec, vm.propertyNames->length).toUInt32(exec);
        if (exec->hadException())
            return 0;
        
        ViewClass* result = ViewClass::createUninitialized(exec, structure, length);
        if (!result)
            return 0;
        
        if (!result->set(exec, object, 0, length))
            return 0;
        
        return bitwise_cast<char*>(result);
    }
    
    int length;
    if (value.isInt32())
        length = value.asInt32();
    else if (!value.isNumber()) {
        vm.throwException(exec, createTypeError(exec, ASCIILiteral("Invalid array length argument")));
        return 0;
    } else {
        length = static_cast<int>(value.asNumber());
        if (length != value.asNumber()) {
            vm.throwException(exec, createTypeError(exec, ASCIILiteral("Invalid array length argument (fractional lengths not allowed)")));
            return 0;
        }
    }
    
    if (length < 0) {
        vm.throwException(exec, createRangeError(exec, ASCIILiteral("Requested length is negative")));
        return 0;
    }
    
    return bitwise_cast<char*>(ViewClass::create(exec, structure, length));
}
示例#6
0
// http://www.w3.org/TR/WebIDL/#es-long
int32_t toInt32EnforceRange(ExecState* exec, JSValue value)
{
    if (value.isInt32())
        return value.asInt32();

    double x = value.toNumber(exec);
    if (exec->hadException())
        return 0;
    return enforceRange(exec, x, kMinInt32, kMaxInt32);
}
static inline int32_t extractRadixFromArgs(ExecState* exec)
{
    JSValue radixValue = exec->argument(0);
    int32_t radix;
    if (radixValue.isInt32())
        radix = radixValue.asInt32();
    else if (radixValue.isUndefined())
        radix = 10;
    else
        radix = static_cast<int32_t>(radixValue.toInteger(exec)); // nan -> 0

    return radix;
}
ALWAYS_INLINE static void operationPutByValInternal(ExecState* exec, EncodedJSValue encodedBase, EncodedJSValue encodedProperty, EncodedJSValue encodedValue)
{
    JSGlobalData* globalData = &exec->globalData();

    JSValue baseValue = JSValue::decode(encodedBase);
    JSValue property = JSValue::decode(encodedProperty);
    JSValue value = JSValue::decode(encodedValue);

    if (LIKELY(property.isUInt32())) {
        uint32_t i = property.asUInt32();

        if (isJSArray(globalData, baseValue)) {
            JSArray* jsArray = asArray(baseValue);
            if (jsArray->canSetIndex(i)) {
                jsArray->setIndex(*globalData, i, value);
                return;
            }

            jsArray->JSArray::put(exec, i, value);
            return;
        }

        if (isJSByteArray(globalData, baseValue) && asByteArray(baseValue)->canAccessIndex(i)) {
            JSByteArray* jsByteArray = asByteArray(baseValue);
            // FIXME: the JITstub used to relink this to an optimized form!
            if (value.isInt32()) {
                jsByteArray->setIndex(i, value.asInt32());
                return;
            }

            double dValue = 0;
            if (value.getNumber(dValue)) {
                jsByteArray->setIndex(i, dValue);
                return;
            }
        }

        baseValue.put(exec, i, value);
        return;
    }

    // Don't put to an object if toString throws an exception.
    Identifier ident(exec, property.toString(exec));
    if (!globalData->exception) {
        PutPropertySlot slot(strict);
        baseValue.put(exec, ident, value, slot);
    }
}
示例#9
0
TypedPointer IndexedAbstractHeap::baseIndex(Output& out, LValue base, LValue index, JSValue indexAsConstant, ptrdiff_t offset)
{
    if (indexAsConstant.isInt32())
        return out.address(base, at(indexAsConstant.asInt32()), offset);
    
    LValue result;
    if (m_canShift) {
        if (!m_scaleTerm)
            result = out.add(base, index);
        else
            result = out.add(base, out.shl(index, m_scaleTerm));
    } else
        result = out.add(base, out.mul(index, m_scaleTerm));
    
    return TypedPointer(atAnyIndex(), out.addPtr(result, m_offset + offset));
}
示例#10
0
// http://www.w3.org/TR/WebIDL/#es-long-long
int64_t toInt64(ExecState* exec, JSValue value, IntegerConversionConfiguration configuration)
{
    if (value.isInt32())
        return value.asInt32();

    double x = value.toNumber(exec);
    if (exec->hadException())
        return 0;

    if (configuration == EnforceRange)
        return enforceRange(exec, x, -kJSMaxInteger, kJSMaxInteger);

    // Map NaNs and +/-Infinity to 0; convert finite values modulo 2^64.
    unsigned long long n;
    doubleToInteger(x, n);
    return n;
}
static ALWAYS_INLINE bool toThisNumber(JSValue thisValue, double& x)
{
    if (thisValue.isInt32()) {
        x = thisValue.asInt32();
        return true;
    }

    if (thisValue.isDouble()) {
        x = thisValue.asDouble();
        return true;
    }

    if (thisValue.isCell() && thisValue.asCell()->type() == NumberObjectType) {
        x = static_cast<const NumberObject*>(thisValue.asCell())->internalValue().asNumber();
        return true;
    }

    return false;
}
    bool isWithinPowerOfTwo(Node* node)
    {
        switch (node->op()) {
        case DoubleConstant:
        case JSConstant:
        case Int52Constant: {
            return isWithinPowerOfTwoForConstant<power>(node);
        }

        case BitAnd: {
            if (power > 31)
                return true;

            return isWithinPowerOfTwoNonRecursive<power>(node->child1().node())
                || isWithinPowerOfTwoNonRecursive<power>(node->child2().node());
        }

        case BitOr:
        case BitXor:
        case BitLShift: {
            return power > 31;
        }

        case BitRShift:
        case BitURShift: {
            if (power > 31)
                return true;

            Node* shiftAmount = node->child2().node();
            if (!node->isNumberConstant())
                return false;
            JSValue immediateValue = shiftAmount->asJSValue();
            if (!immediateValue.isInt32())
                return false;
            return immediateValue.asInt32() > 32 - power;
        }

        default:
            return false;
        }
    }
示例#13
0
    bool foldConstants(BasicBlock* block)
    {
        bool changed = false;
        m_state.beginBasicBlock(block);
        for (unsigned indexInBlock = 0; indexInBlock < block->size(); ++indexInBlock) {
            if (!m_state.isValid())
                break;
            
            Node* node = block->at(indexInBlock);

            bool alreadyHandled = false;
            bool eliminated = false;
                    
            switch (node->op()) {
            case BooleanToNumber: {
                if (node->child1().useKind() == UntypedUse
                    && !m_interpreter.needsTypeCheck(node->child1(), SpecBoolean))
                    node->child1().setUseKind(BooleanUse);
                break;
            }
                
            case CheckArgumentsNotCreated: {
                if (!isEmptySpeculation(
                        m_state.variables().operand(
                            m_graph.argumentsRegisterFor(node->origin.semantic)).m_type))
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                    
            case CheckStructure:
            case ArrayifyToStructure: {
                AbstractValue& value = m_state.forNode(node->child1());
                StructureSet set;
                if (node->op() == ArrayifyToStructure)
                    set = node->structure();
                else
                    set = node->structureSet();
                if (value.m_structure.isSubsetOf(set)) {
                    m_interpreter.execute(indexInBlock); // Catch the fact that we may filter on cell.
                    node->convertToPhantom();
                    eliminated = true;
                    break;
                }
                break;
            }
                
            case CheckArray:
            case Arrayify: {
                if (!node->arrayMode().alreadyChecked(m_graph, node, m_state.forNode(node->child1())))
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                
            case PutStructure: {
                if (m_state.forNode(node->child1()).m_structure.onlyStructure() != node->transition()->next)
                    break;
                
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                
            case CheckFunction: {
                if (m_state.forNode(node->child1()).value() != node->function()->value())
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                
            case CheckInBounds: {
                JSValue left = m_state.forNode(node->child1()).value();
                JSValue right = m_state.forNode(node->child2()).value();
                if (left && right && left.isInt32() && right.isInt32()
                    && static_cast<uint32_t>(left.asInt32()) < static_cast<uint32_t>(right.asInt32())) {
                    node->convertToPhantom();
                    eliminated = true;
                    break;
                }
                
                break;
            }
                
            case MultiGetByOffset: {
                Edge baseEdge = node->child1();
                Node* base = baseEdge.node();
                MultiGetByOffsetData& data = node->multiGetByOffsetData();

                // First prune the variants, then check if the MultiGetByOffset can be
                // strength-reduced to a GetByOffset.
                
                AbstractValue baseValue = m_state.forNode(base);
                
                m_interpreter.execute(indexInBlock); // Push CFA over this node after we get the state before.
                alreadyHandled = true; // Don't allow the default constant folder to do things to this.
                
                for (unsigned i = 0; i < data.variants.size(); ++i) {
                    GetByIdVariant& variant = data.variants[i];
                    variant.structureSet().filter(baseValue);
                    if (variant.structureSet().isEmpty()) {
                        data.variants[i--] = data.variants.last();
                        data.variants.removeLast();
                        changed = true;
                    }
                }
                
                if (data.variants.size() != 1)
                    break;
                
                emitGetByOffset(
                    indexInBlock, node, baseValue, data.variants[0], data.identifierNumber);
                changed = true;
                break;
            }
                
            case MultiPutByOffset: {
                Edge baseEdge = node->child1();
                Node* base = baseEdge.node();
                MultiPutByOffsetData& data = node->multiPutByOffsetData();
                
                AbstractValue baseValue = m_state.forNode(base);

                m_interpreter.execute(indexInBlock); // Push CFA over this node after we get the state before.
                alreadyHandled = true; // Don't allow the default constant folder to do things to this.
                

                for (unsigned i = 0; i < data.variants.size(); ++i) {
                    PutByIdVariant& variant = data.variants[i];
                    variant.oldStructure().filter(baseValue);
                    
                    if (variant.oldStructure().isEmpty()) {
                        data.variants[i--] = data.variants.last();
                        data.variants.removeLast();
                        changed = true;
                        continue;
                    }
                    
                    if (variant.kind() == PutByIdVariant::Transition
                        && variant.oldStructure().onlyStructure() == variant.newStructure()) {
                        variant = PutByIdVariant::replace(
                            variant.oldStructure(),
                            variant.offset());
                        changed = true;
                    }
                }

                if (data.variants.size() != 1)
                    break;
                
                emitPutByOffset(
                    indexInBlock, node, baseValue, data.variants[0], data.identifierNumber);
                changed = true;
                break;
            }
        
            case GetById:
            case GetByIdFlush: {
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                unsigned identifierNumber = node->identifierNumber();
                
                AbstractValue baseValue = m_state.forNode(child);

                m_interpreter.execute(indexInBlock); // Push CFA over this node after we get the state before.
                alreadyHandled = true; // Don't allow the default constant folder to do things to this.

                if (baseValue.m_structure.isTop() || baseValue.m_structure.isClobbered()
                    || (node->child1().useKind() == UntypedUse || (baseValue.m_type & ~SpecCell)))
                    break;
                
                GetByIdStatus status = GetByIdStatus::computeFor(
                    vm(), baseValue.m_structure.set(), m_graph.identifiers()[identifierNumber]);
                if (!status.isSimple())
                    break;
                
                for (unsigned i = status.numVariants(); i--;) {
                    if (!status[i].constantChecks().isEmpty()
                        || status[i].alternateBase()) {
                        // FIXME: We could handle prototype cases.
                        // https://bugs.webkit.org/show_bug.cgi?id=110386
                        break;
                    }
                }
                
                if (status.numVariants() == 1) {
                    emitGetByOffset(indexInBlock, node, baseValue, status[0], identifierNumber);
                    changed = true;
                    break;
                }
                
                if (!isFTL(m_graph.m_plan.mode))
                    break;
                
                MultiGetByOffsetData* data = m_graph.m_multiGetByOffsetData.add();
                data->variants = status.variants();
                data->identifierNumber = identifierNumber;
                node->convertToMultiGetByOffset(data);
                changed = true;
                break;
            }
                
            case PutById:
            case PutByIdDirect:
            case PutByIdFlush: {
                NodeOrigin origin = node->origin;
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                unsigned identifierNumber = node->identifierNumber();
                
                ASSERT(childEdge.useKind() == CellUse);
                
                AbstractValue baseValue = m_state.forNode(child);

                m_interpreter.execute(indexInBlock); // Push CFA over this node after we get the state before.
                alreadyHandled = true; // Don't allow the default constant folder to do things to this.

                if (baseValue.m_structure.isTop() || baseValue.m_structure.isClobbered())
                    break;
                
                PutByIdStatus status = PutByIdStatus::computeFor(
                    vm(),
                    m_graph.globalObjectFor(origin.semantic),
                    baseValue.m_structure.set(),
                    m_graph.identifiers()[identifierNumber],
                    node->op() == PutByIdDirect);
                
                if (!status.isSimple())
                    break;
                
                ASSERT(status.numVariants());
                
                if (status.numVariants() > 1 && !isFTL(m_graph.m_plan.mode))
                    break;
                
                changed = true;
                
                for (unsigned i = status.numVariants(); i--;)
                    addChecks(origin, indexInBlock, status[i].constantChecks());
                
                if (status.numVariants() == 1) {
                    emitPutByOffset(indexInBlock, node, baseValue, status[0], identifierNumber);
                    break;
                }
                
                ASSERT(isFTL(m_graph.m_plan.mode));

                MultiPutByOffsetData* data = m_graph.m_multiPutByOffsetData.add();
                data->variants = status.variants();
                data->identifierNumber = identifierNumber;
                node->convertToMultiPutByOffset(data);
                break;
            }

            case ToPrimitive: {
                if (m_state.forNode(node->child1()).m_type & ~(SpecFullNumber | SpecBoolean | SpecString))
                    break;
                
                node->convertToIdentity();
                changed = true;
                break;
            }
                
            case GetMyArgumentByVal: {
                InlineCallFrame* inlineCallFrame = node->origin.semantic.inlineCallFrame;
                JSValue value = m_state.forNode(node->child1()).m_value;
                if (inlineCallFrame && value && value.isInt32()) {
                    int32_t index = value.asInt32();
                    if (index >= 0
                        && static_cast<size_t>(index + 1) < inlineCallFrame->arguments.size()) {
                        // Roll the interpreter over this.
                        m_interpreter.execute(indexInBlock);
                        eliminated = true;
                        
                        int operand =
                            inlineCallFrame->stackOffset +
                            m_graph.baselineCodeBlockFor(inlineCallFrame)->argumentIndexAfterCapture(index);
                        
                        m_insertionSet.insertNode(
                            indexInBlock, SpecNone, CheckArgumentsNotCreated, node->origin);
                        m_insertionSet.insertNode(
                            indexInBlock, SpecNone, Phantom, node->origin, node->children);
                        
                        node->convertToGetLocalUnlinked(VirtualRegister(operand));
                        break;
                    }
                }
                
                break;
            }
                
            case Check: {
                alreadyHandled = true;
                m_interpreter.execute(indexInBlock);
                for (unsigned i = 0; i < AdjacencyList::Size; ++i) {
                    Edge edge = node->children.child(i);
                    if (!edge)
                        break;
                    if (edge.isProved() || edge.willNotHaveCheck()) {
                        node->children.removeEdge(i--);
                        changed = true;
                    }
                }
                break;
            }

            default:
                break;
            }
            
            if (eliminated) {
                changed = true;
                continue;
            }
                
            if (alreadyHandled)
                continue;
            
            m_interpreter.execute(indexInBlock);
            if (!m_state.isValid()) {
                // If we invalidated then we shouldn't attempt to constant-fold. Here's an
                // example:
                //
                //     c: JSConstant(4.2)
                //     x: ValueToInt32(Check:Int32:@const)
                //
                // It would be correct for an analysis to assume that execution cannot
                // proceed past @x. Therefore, constant-folding @x could be rather bad. But,
                // the CFA may report that it found a constant even though it also reported
                // that everything has been invalidated. This will only happen in a couple of
                // the constant folding cases; most of them are also separately defensive
                // about such things.
                break;
            }
            if (!node->shouldGenerate() || m_state.didClobber() || node->hasConstant())
                continue;
            
            // Interesting fact: this freezing that we do right here may turn an fragile value into
            // a weak value. See DFGValueStrength.h.
            FrozenValue* value = m_graph.freeze(m_state.forNode(node).value());
            if (!*value)
                continue;
            
            NodeOrigin origin = node->origin;
            AdjacencyList children = node->children;
            
            m_graph.convertToConstant(node, value);
            if (!children.isEmpty()) {
                m_insertionSet.insertNode(
                    indexInBlock, SpecNone, Phantom, origin, children);
            }
            
            changed = true;
        }
        m_state.reset();
        m_insertionSet.execute(block);
        
        return changed;
    }
    bool foldConstants(BasicBlock* block)
    {
        bool changed = false;
        m_state.beginBasicBlock(block);
        for (unsigned indexInBlock = 0; indexInBlock < block->size(); ++indexInBlock) {
            if (!m_state.isValid())
                break;
            
            Node* node = block->at(indexInBlock);

            bool eliminated = false;
                    
            switch (node->op()) {
            case BooleanToNumber: {
                if (node->child1().useKind() == UntypedUse
                    && !m_interpreter.needsTypeCheck(node->child1(), SpecBoolean))
                    node->child1().setUseKind(BooleanUse);
                break;
            }
                
            case CheckArgumentsNotCreated: {
                if (!isEmptySpeculation(
                        m_state.variables().operand(
                            m_graph.argumentsRegisterFor(node->origin.semantic)).m_type))
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                    
            case CheckStructure:
            case ArrayifyToStructure: {
                AbstractValue& value = m_state.forNode(node->child1());
                StructureSet set;
                if (node->op() == ArrayifyToStructure)
                    set = node->structure();
                else
                    set = node->structureSet();
                if (value.m_currentKnownStructure.isSubsetOf(set)) {
                    m_interpreter.execute(indexInBlock); // Catch the fact that we may filter on cell.
                    node->convertToPhantom();
                    eliminated = true;
                    break;
                }
                StructureAbstractValue& structureValue = value.m_futurePossibleStructure;
                if (structureValue.isSubsetOf(set)
                    && structureValue.hasSingleton()) {
                    Structure* structure = structureValue.singleton();
                    m_interpreter.execute(indexInBlock); // Catch the fact that we may filter on cell.
                    AdjacencyList children = node->children;
                    children.removeEdge(0);
                    if (!!children.child1())
                        m_insertionSet.insertNode(indexInBlock, SpecNone, Phantom, node->origin, children);
                    node->children.setChild2(Edge());
                    node->children.setChild3(Edge());
                    node->convertToStructureTransitionWatchpoint(structure);
                    eliminated = true;
                    break;
                }
                break;
            }
                
            case CheckArray:
            case Arrayify: {
                if (!node->arrayMode().alreadyChecked(m_graph, node, m_state.forNode(node->child1())))
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                
            case CheckFunction: {
                if (m_state.forNode(node->child1()).value() != node->function())
                    break;
                node->convertToPhantom();
                eliminated = true;
                break;
            }
                
            case CheckInBounds: {
                JSValue left = m_state.forNode(node->child1()).value();
                JSValue right = m_state.forNode(node->child2()).value();
                if (left && right && left.isInt32() && right.isInt32()
                    && static_cast<uint32_t>(left.asInt32()) < static_cast<uint32_t>(right.asInt32())) {
                    node->convertToPhantom();
                    eliminated = true;
                    break;
                }
                
                break;
            }
                
            case MultiGetByOffset: {
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                MultiGetByOffsetData& data = node->multiGetByOffsetData();

                Structure* structure = m_state.forNode(child).bestProvenStructure();
                if (!structure)
                    break;
                
                for (unsigned i = data.variants.size(); i--;) {
                    const GetByIdVariant& variant = data.variants[i];
                    if (!variant.structureSet().contains(structure))
                        continue;
                    
                    if (variant.chain())
                        break;
                    
                    emitGetByOffset(indexInBlock, node, structure, variant, data.identifierNumber);
                    eliminated = true;
                    break;
                }
                break;
            }
                
            case MultiPutByOffset: {
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                MultiPutByOffsetData& data = node->multiPutByOffsetData();

                Structure* structure = m_state.forNode(child).bestProvenStructure();
                if (!structure)
                    break;
                
                for (unsigned i = data.variants.size(); i--;) {
                    const PutByIdVariant& variant = data.variants[i];
                    if (variant.oldStructure() != structure)
                        continue;
                    
                    emitPutByOffset(indexInBlock, node, structure, variant, data.identifierNumber);
                    eliminated = true;
                    break;
                }
                break;
            }
        
            case GetById:
            case GetByIdFlush: {
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                unsigned identifierNumber = node->identifierNumber();
                
                if (childEdge.useKind() != CellUse)
                    break;
                
                Structure* structure = m_state.forNode(child).bestProvenStructure();
                if (!structure)
                    break;

                GetByIdStatus status = GetByIdStatus::computeFor(
                    vm(), structure, m_graph.identifiers()[identifierNumber]);
                
                if (!status.isSimple() || status.numVariants() != 1) {
                    // FIXME: We could handle prototype cases.
                    // https://bugs.webkit.org/show_bug.cgi?id=110386
                    break;
                }
                
                emitGetByOffset(indexInBlock, node, structure, status[0], identifierNumber);
                eliminated = true;
                break;
            }
                
            case PutById:
            case PutByIdDirect: {
                NodeOrigin origin = node->origin;
                Edge childEdge = node->child1();
                Node* child = childEdge.node();
                unsigned identifierNumber = node->identifierNumber();
                
                ASSERT(childEdge.useKind() == CellUse);
                
                Structure* structure = m_state.forNode(child).bestProvenStructure();
                if (!structure)
                    break;
                
                PutByIdStatus status = PutByIdStatus::computeFor(
                    vm(),
                    m_graph.globalObjectFor(origin.semantic),
                    structure,
                    m_graph.identifiers()[identifierNumber],
                    node->op() == PutByIdDirect);
                
                if (!status.isSimple())
                    break;
                if (status.numVariants() != 1)
                    break;
                
                emitPutByOffset(indexInBlock, node, structure, status[0], identifierNumber);
                eliminated = true;
                break;
            }

            case ToPrimitive: {
                if (m_state.forNode(node->child1()).m_type & ~(SpecFullNumber | SpecBoolean | SpecString))
                    break;
                
                node->convertToIdentity();
                break;
            }

            default:
                break;
            }
                
            if (eliminated) {
                changed = true;
                continue;
            }
                
            m_interpreter.execute(indexInBlock);
            if (!m_state.isValid()) {
                // If we invalidated then we shouldn't attempt to constant-fold. Here's an
                // example:
                //
                //     c: JSConstant(4.2)
                //     x: ValueToInt32(Check:Int32:@const)
                //
                // It would be correct for an analysis to assume that execution cannot
                // proceed past @x. Therefore, constant-folding @x could be rather bad. But,
                // the CFA may report that it found a constant even though it also reported
                // that everything has been invalidated. This will only happen in a couple of
                // the constant folding cases; most of them are also separately defensive
                // about such things.
                break;
            }
            if (!node->shouldGenerate() || m_state.didClobber() || node->hasConstant())
                continue;
            JSValue value = m_state.forNode(node).value();
            if (!value)
                continue;
            
            // Check if merging the abstract value of the constant into the abstract value
            // we've proven for this node wouldn't widen the proof. If it widens the proof
            // (i.e. says that the set contains more things in it than it previously did)
            // then we refuse to fold.
            AbstractValue oldValue = m_state.forNode(node);
            AbstractValue constantValue;
            constantValue.set(m_graph, value);
            constantValue.fixTypeForRepresentation(node);
            if (oldValue.merge(constantValue))
                continue;
                
            NodeOrigin origin = node->origin;
            AdjacencyList children = node->children;
            
            if (node->op() == GetLocal)
                m_graph.dethread();
            else
                ASSERT(!node->hasVariableAccessData(m_graph));
            
            m_graph.convertToConstant(node, value);
            m_insertionSet.insertNode(
                indexInBlock, SpecNone, Phantom, origin, children);
            
            changed = true;
        }
        m_state.reset();
        m_insertionSet.execute(block);
        
        return changed;
    }
EncodedJSValue JSC_HOST_CALL numberProtoFuncToString(ExecState* exec)
{
    JSValue thisValue = exec->hostThisValue();
    JSValue v = thisValue.getJSNumber();
    if (!v)
        return throwVMTypeError(exec);

    JSValue radixValue = exec->argument(0);
    int radix;
    if (radixValue.isInt32())
        radix = radixValue.asInt32();
    else if (radixValue.isUndefined())
        radix = 10;
    else
        radix = static_cast<int>(radixValue.toInteger(exec)); // nan -> 0

    if (radix == 10)
        return JSValue::encode(jsString(exec, v.toString(exec)));

    static const char* const digits = "0123456789abcdefghijklmnopqrstuvwxyz";

    // Fast path for number to character conversion.
    if (radix == 36) {
        if (v.isInt32()) {
            int x = v.asInt32();
            if (static_cast<unsigned>(x) < 36) { // Exclude negatives
                JSGlobalData* globalData = &exec->globalData();
                return JSValue::encode(globalData->smallStrings.singleCharacterString(globalData, digits[x]));
            }
        }
    }

    if (radix < 2 || radix > 36)
        return throwVMError(exec, createRangeError(exec, "toString() radix argument must be between 2 and 36"));

    // INT_MAX results in 1024 characters left of the dot with radix 2
    // give the same space on the right side. safety checks are in place
    // unless someone finds a precise rule.
    char s[2048 + 3];
    const char* lastCharInString = s + sizeof(s) - 1;
    double x = v.uncheckedGetNumber();
    if (isnan(x) || isinf(x))
        return JSValue::encode(jsString(exec, UString::number(x)));

    bool isNegative = x < 0.0;
    if (isNegative)
        x = -x;

    double integerPart = floor(x);
    char* decimalPoint = s + sizeof(s) / 2;

    // convert integer portion
    char* p = decimalPoint;
    double d = integerPart;
    do {
        int remainderDigit = static_cast<int>(fmod(d, radix));
        *--p = digits[remainderDigit];
        d /= radix;
    } while ((d <= -1.0 || d >= 1.0) && s < p);

    if (isNegative)
        *--p = '-';
    char* startOfResultString = p;
    ASSERT(s <= startOfResultString);

    d = x - integerPart;
    p = decimalPoint;
    const double epsilon = 0.001; // TODO: guessed. base on radix ?
    bool hasFractionalPart = (d < -epsilon || d > epsilon);
    if (hasFractionalPart) {
        *p++ = '.';
        do {
            d *= radix;
            const int digit = static_cast<int>(d);
            *p++ = digits[digit];
            d -= digit;
        } while ((d < -epsilon || d > epsilon) && p < lastCharInString);
    }
    *p = '\0';
    ASSERT(p < s + sizeof(s));

    return JSValue::encode(jsString(exec, startOfResultString));
}
    void handleNode()
    {
        switch (m_node->op()) {
        case BitOr:
            handleCommutativity();

            if (m_node->child2()->isConstant()) {
                JSValue op2 = m_graph.valueOfJSConstant(m_node->child2().node());
                if (op2.isInt32() && !op2.asInt32()) {
                    convertToIdentityOverChild1();
                    break;
                }
            }
            break;

        case BitXor:
        case BitAnd:
            handleCommutativity();
            break;

        case BitLShift:
        case BitRShift:
        case BitURShift:
            if (m_node->child2()->isConstant()) {
                JSValue op2 = m_graph.valueOfJSConstant(m_node->child2().node());
                if (op2.isInt32() && !(op2.asInt32() & 0x1f)) {
                    convertToIdentityOverChild1();
                    break;
                }
            }
            break;

        case UInt32ToNumber:
            if (m_node->child1()->op() == BitURShift
                    && m_node->child1()->child2()->isConstant()) {
                JSValue shiftAmount = m_graph.valueOfJSConstant(
                                          m_node->child1()->child2().node());
                if (shiftAmount.isInt32() && (shiftAmount.asInt32() & 0x1f)) {
                    m_node->convertToIdentity();
                    m_changed = true;
                    break;
                }
            }
            break;

        case ArithAdd:
            handleCommutativity();

            if (m_graph.isInt32Constant(m_node->child2().node())) {
                int32_t value = m_graph.valueOfInt32Constant(
                                    m_node->child2().node());
                if (!value) {
                    convertToIdentityOverChild1();
                    break;
                }
            }
            break;

        case ArithMul:
            handleCommutativity();
            break;

        case ArithSub:
            if (m_graph.isInt32Constant(m_node->child2().node())
                    && m_node->isBinaryUseKind(Int32Use)) {
                int32_t value = m_graph.valueOfInt32Constant(m_node->child2().node());
                if (-value != value) {
                    m_node->setOp(ArithAdd);
                    m_node->child2().setNode(
                        m_insertionSet.insertConstant(
                            m_nodeIndex, m_node->origin, jsNumber(-value)));
                    m_changed = true;
                    break;
                }
            }
            break;

        case GetArrayLength:
            if (JSArrayBufferView* view = m_graph.tryGetFoldableViewForChild1(m_node))
                foldTypedArrayPropertyToConstant(view, jsNumber(view->length()));
            break;

        case GetTypedArrayByteOffset:
            if (JSArrayBufferView* view = m_graph.tryGetFoldableView(m_node->child1().node()))
                foldTypedArrayPropertyToConstant(view, jsNumber(view->byteOffset()));
            break;

        case GetIndexedPropertyStorage:
            if (JSArrayBufferView* view = m_graph.tryGetFoldableViewForChild1(m_node)) {
                if (view->mode() != FastTypedArray) {
                    prepareToFoldTypedArray(view);
                    m_node->convertToConstantStoragePointer(view->vector());
                    m_changed = true;
                    break;
                } else {
                    // FIXME: It would be awesome to be able to fold the property storage for
                    // these GC-allocated typed arrays. For now it doesn't matter because the
                    // most common use-cases for constant typed arrays involve large arrays with
                    // aliased buffer views.
                    // https://bugs.webkit.org/show_bug.cgi?id=125425
                }
            }
            break;

        default:
            break;
        }
    }