/* * Copyright (C) 2009 Apple Inc. All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 INC. OR * 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 "JSONObject.h" #include "BooleanObject.h" #include "Error.h" #include "ExceptionHelpers.h" #include "JSArray.h" #include "LiteralParser.h" #include "PropertyNameArray.h" #include "StringBuilder.h" #include <wtf/MathExtras.h> namespace JSC { ASSERT_CLASS_FITS_IN_CELL(JSONObject); static JSValue JSC_HOST_CALL JSONProtoFuncParse(ExecState*, JSObject*, JSValue, const ArgList&); static JSValue JSC_HOST_CALL JSONProtoFuncStringify(ExecState*, JSObject*, JSValue, const ArgList&); } #include "JSONObject.lut.h" namespace JSC { // PropertyNameForFunctionCall objects must be on the stack, since the JSValue that they create is not marked. class PropertyNameForFunctionCall { public: PropertyNameForFunctionCall(const Identifier&); PropertyNameForFunctionCall(unsigned); JSValue value(ExecState*) const; private: const Identifier* m_identifier; unsigned m_number; mutable JSValue m_value; }; class Stringifier : public Noncopyable { public: Stringifier(ExecState*, JSValue replacer, JSValue space); ~Stringifier(); JSValue stringify(JSValue); void markAggregate(MarkStack&); private: class Holder { public: Holder(JSObject*); JSObject* object() const { return m_object; } bool appendNextProperty(Stringifier&, StringBuilder&); private: JSObject* const m_object; const bool m_isArray; bool m_isJSArray; unsigned m_index; unsigned m_size; RefPtr<PropertyNameArrayData> m_propertyNames; }; friend class Holder; static void appendQuotedString(StringBuilder&, const UString&); JSValue toJSON(JSValue, const PropertyNameForFunctionCall&); enum StringifyResult { StringifyFailed, StringifySucceeded, StringifyFailedDueToUndefinedValue }; StringifyResult appendStringifiedValue(StringBuilder&, JSValue, JSObject* holder, const PropertyNameForFunctionCall&); bool willIndent() const; void indent(); void unindent(); void startNewLine(StringBuilder&) const; Stringifier* const m_nextStringifierToMark; ExecState* const m_exec; const JSValue m_replacer; bool m_usingArrayReplacer; PropertyNameArray m_arrayReplacerPropertyNames; CallType m_replacerCallType; CallData m_replacerCallData; const UString m_gap; HashSet<JSObject*> m_holderCycleDetector; Vector<Holder, 16> m_holderStack; UString m_repeatedGap; UString m_indent; }; // ------------------------------ helper functions -------------------------------- static inline JSValue unwrapBoxedPrimitive(ExecState* exec, JSValue value) { if (!value.isObject()) return value; JSObject* object = asObject(value); if (object->inherits(&NumberObject::info)) return jsNumber(exec, object->toNumber(exec)); if (object->inherits(&StringObject::info)) return jsString(exec, object->toString(exec)); if (object->inherits(&BooleanObject::info)) return object->toPrimitive(exec); return value; } static inline UString gap(ExecState* exec, JSValue space) { const int maxGapLength = 10; space = unwrapBoxedPrimitive(exec, space); // If the space value is a number, create a gap string with that number of spaces. double spaceCount; if (space.getNumber(spaceCount)) { int count; if (spaceCount > maxGapLength) count = maxGapLength; else if (!(spaceCount > 0)) count = 0; else count = static_cast<int>(spaceCount); UChar spaces[maxGapLength]; for (int i = 0; i < count; ++i) spaces[i] = ' '; return UString(spaces, count); } // If the space value is a string, use it as the gap string, otherwise use no gap string. UString spaces = space.getString(exec); if (spaces.size() > maxGapLength) { spaces = spaces.substr(0, maxGapLength); } return spaces; } // ------------------------------ PropertyNameForFunctionCall -------------------------------- inline PropertyNameForFunctionCall::PropertyNameForFunctionCall(const Identifier& identifier) : m_identifier(&identifier) { } inline PropertyNameForFunctionCall::PropertyNameForFunctionCall(unsigned number) : m_identifier(0) , m_number(number) { } JSValue PropertyNameForFunctionCall::value(ExecState* exec) const { if (!m_value) { if (m_identifier) m_value = jsString(exec, m_identifier->ustring()); else m_value = jsNumber(exec, m_number); } return m_value; } // ------------------------------ Stringifier -------------------------------- Stringifier::Stringifier(ExecState* exec, JSValue replacer, JSValue space) : m_nextStringifierToMark(exec->globalData().firstStringifierToMark) , m_exec(exec) , m_replacer(replacer) , m_usingArrayReplacer(false) , m_arrayReplacerPropertyNames(exec) , m_replacerCallType(CallTypeNone) , m_gap(gap(exec, space)) { exec->globalData().firstStringifierToMark = this; if (!m_replacer.isObject()) return; if (asObject(m_replacer)->inherits(&JSArray::info)) { m_usingArrayReplacer = true; JSObject* array = asObject(m_replacer); unsigned length = array->get(exec, exec->globalData().propertyNames->length).toUInt32(exec); for (unsigned i = 0; i < length; ++i) { JSValue name = array->get(exec, i); if (exec->hadException()) break; UString propertyName; if (name.getString(exec, propertyName)) { m_arrayReplacerPropertyNames.add(Identifier(exec, propertyName)); continue; } double value = 0; if (name.getNumber(value)) { m_arrayReplacerPropertyNames.add(Identifier::from(exec, value)); continue; } if (name.isObject()) { if (!asObject(name)->inherits(&NumberObject::info) && !asObject(name)->inherits(&StringObject::info)) continue; propertyName = name.toString(exec); if (exec->hadException()) break; m_arrayReplacerPropertyNames.add(Identifier(exec, propertyName)); } } return; } m_replacerCallType = asObject(m_replacer)->getCallData(m_replacerCallData); } Stringifier::~Stringifier() { ASSERT(m_exec->globalData().firstStringifierToMark == this); m_exec->globalData().firstStringifierToMark = m_nextStringifierToMark; } void Stringifier::markAggregate(MarkStack& markStack) { for (Stringifier* stringifier = this; stringifier; stringifier = stringifier->m_nextStringifierToMark) { size_t size = m_holderStack.size(); for (size_t i = 0; i < size; ++i) markStack.append(m_holderStack[i].object()); } } JSValue Stringifier::stringify(JSValue value) { JSObject* object = constructEmptyObject(m_exec); if (m_exec->hadException()) return jsNull(); PropertyNameForFunctionCall emptyPropertyName(m_exec->globalData().propertyNames->emptyIdentifier); object->putDirect(m_exec->globalData().propertyNames->emptyIdentifier, value); StringBuilder result; if (appendStringifiedValue(result, value, object, emptyPropertyName) != StringifySucceeded) return jsUndefined(); if (m_exec->hadException()) return jsNull(); return jsString(m_exec, result.build()); } void Stringifier::appendQuotedString(StringBuilder& builder, const UString& value) { int length = value.size(); // String length plus 2 for quote marks plus 8 so we can accomodate a few escaped characters. builder.reserveCapacity(builder.size() + length + 2 + 8); builder.append('"'); const UChar* data = value.data(); for (int i = 0; i < length; ++i) { int start = i; while (i < length && (data[i] > 0x1F && data[i] != '"' && data[i] != '\\')) ++i; builder.append(data + start, i - start); if (i >= length) break; switch (data[i]) { case '\t': builder.append('\\'); builder.append('t'); break; case '\r': builder.append('\\'); builder.append('r'); break; case '\n': builder.append('\\'); builder.append('n'); break; case '\f': builder.append('\\'); builder.append('f'); break; case '\b': builder.append('\\'); builder.append('b'); break; case '"': builder.append('\\'); builder.append('"'); break; case '\\': builder.append('\\'); builder.append('\\'); break; default: static const char hexDigits[] = "0123456789abcdef"; UChar ch = data[i]; UChar hex[] = { '\\', 'u', hexDigits[(ch >> 12) & 0xF], hexDigits[(ch >> 8) & 0xF], hexDigits[(ch >> 4) & 0xF], hexDigits[ch & 0xF] }; builder.append(hex, sizeof(hex) / sizeof(UChar)); break; } } builder.append('"'); } inline JSValue Stringifier::toJSON(JSValue value, const PropertyNameForFunctionCall& propertyName) { ASSERT(!m_exec->hadException()); if (!value.isObject() || !asObject(value)->hasProperty(m_exec, m_exec->globalData().propertyNames->toJSON)) return value; JSValue toJSONFunction = asObject(value)->get(m_exec, m_exec->globalData().propertyNames->toJSON); if (m_exec->hadException()) return jsNull(); if (!toJSONFunction.isObject()) return value; JSObject* object = asObject(toJSONFunction); CallData callData; CallType callType = object->getCallData(callData); if (callType == CallTypeNone) return value; JSValue list[] = { propertyName.value(m_exec) }; ArgList args(list, sizeof(list) / sizeof(JSValue)); return call(m_exec, object, callType, callData, value, args); } Stringifier::StringifyResult Stringifier::appendStringifiedValue(StringBuilder& builder, JSValue value, JSObject* holder, const PropertyNameForFunctionCall& propertyName) { // Call the toJSON function. value = toJSON(value, propertyName); if (m_exec->hadException()) return StringifyFailed; // Call the replacer function. if (m_replacerCallType != CallTypeNone) { JSValue list[] = { propertyName.value(m_exec), value }; ArgList args(list, sizeof(list) / sizeof(JSValue)); value = call(m_exec, m_replacer, m_replacerCallType, m_replacerCallData, holder, args); if (m_exec->hadException()) return StringifyFailed; } if (value.isUndefined() && !holder->inherits(&JSArray::info)) return StringifyFailedDueToUndefinedValue; if (value.isNull()) { builder.append("null"); return StringifySucceeded; } value = unwrapBoxedPrimitive(m_exec, value); if (m_exec->hadException()) return StringifyFailed; if (value.isBoolean()) { builder.append(value.getBoolean() ? "true" : "false"); return StringifySucceeded; } UString stringValue; if (value.getString(m_exec, stringValue)) { appendQuotedString(builder, stringValue); return StringifySucceeded; } double numericValue; if (value.getNumber(numericValue)) { if (!isfinite(numericValue)) builder.append("null"); else builder.append(UString::from(numericValue)); return StringifySucceeded; } if (!value.isObject()) return StringifyFailed; JSObject* object = asObject(value); CallData callData; if (object->getCallData(callData) != CallTypeNone) { if (holder->inherits(&JSArray::info)) { builder.append("null"); return StringifySucceeded; } return StringifyFailedDueToUndefinedValue; } // Handle cycle detection, and put the holder on the stack. if (!m_holderCycleDetector.add(object).second) { throwError(m_exec, TypeError, "JSON.stringify cannot serialize cyclic structures."); return StringifyFailed; } bool holderStackWasEmpty = m_holderStack.isEmpty(); m_holderStack.append(object); if (!holderStackWasEmpty) return StringifySucceeded; // If this is the outermost call, then loop to handle everything on the holder stack. TimeoutChecker localTimeoutChecker(m_exec->globalData().timeoutChecker); localTimeoutChecker.reset(); unsigned tickCount = localTimeoutChecker.ticksUntilNextCheck(); do { while (m_holderStack.last().appendNextProperty(*this, builder)) { if (m_exec->hadException()) return StringifyFailed; if (!--tickCount) { if (localTimeoutChecker.didTimeOut(m_exec)) { m_exec->setException(createInterruptedExecutionException(&m_exec->globalData())); return StringifyFailed; } tickCount = localTimeoutChecker.ticksUntilNextCheck(); } } m_holderCycleDetector.remove(m_holderStack.last().object()); m_holderStack.removeLast(); } while (!m_holderStack.isEmpty()); return StringifySucceeded; } inline bool Stringifier::willIndent() const { return !m_gap.isEmpty(); } inline void Stringifier::indent() { // Use a single shared string, m_repeatedGap, so we don't keep allocating new ones as we indent and unindent. int newSize = m_indent.size() + m_gap.size(); if (newSize > m_repeatedGap.size()) m_repeatedGap = makeString(m_repeatedGap, m_gap); ASSERT(newSize <= m_repeatedGap.size()); m_indent = m_repeatedGap.substr(0, newSize); } inline void Stringifier::unindent() { ASSERT(m_indent.size() >= m_gap.size()); m_indent = m_repeatedGap.substr(0, m_indent.size() - m_gap.size()); } inline void Stringifier::startNewLine(StringBuilder& builder) const { if (m_gap.isEmpty()) return; builder.append('\n'); builder.append(m_indent); } inline Stringifier::Holder::Holder(JSObject* object) : m_object(object) , m_isArray(object->inherits(&JSArray::info)) , m_index(0) { } bool Stringifier::Holder::appendNextProperty(Stringifier& stringifier, StringBuilder& builder) { ASSERT(m_index <= m_size); ExecState* exec = stringifier.m_exec; // First time through, initialize. if (!m_index) { if (m_isArray) { m_isJSArray = isJSArray(&exec->globalData(), m_object); m_size = m_object->get(exec, exec->globalData().propertyNames->length).toUInt32(exec); builder.append('['); } else { if (stringifier.m_usingArrayReplacer) m_propertyNames = stringifier.m_arrayReplacerPropertyNames.data(); else { PropertyNameArray objectPropertyNames(exec); m_object->getOwnPropertyNames(exec, objectPropertyNames); m_propertyNames = objectPropertyNames.releaseData(); } m_size = m_propertyNames->propertyNameVector().size(); builder.append('{'); } stringifier.indent(); } // Last time through, finish up and return false. if (m_index == m_size) { stringifier.unindent(); if (m_size && builder[builder.size() - 1] != '{') stringifier.startNewLine(builder); builder.append(m_isArray ? ']' : '}'); return false; } // Handle a single element of the array or object. unsigned index = m_index++; unsigned rollBackPoint = 0; StringifyResult stringifyResult; if (m_isArray) { // Get the value. JSValue value; if (m_isJSArray && asArray(m_object)->canGetIndex(index)) value = asArray(m_object)->getIndex(index); else { PropertySlot slot(m_object); if (!m_object->getOwnPropertySlot(exec, index, slot)) slot.setUndefined(); if (exec->hadException()) return false; value = slot.getValue(exec, index); } // Append the separator string. if (index) builder.append(','); stringifier.startNewLine(builder); // Append the stringified value. stringifyResult = stringifier.appendStringifiedValue(builder, value, m_object, index); } else { // Get the value. PropertySlot slot(m_object); Identifier& propertyName = m_propertyNames->propertyNameVector()[index]; if (!m_object->getOwnPropertySlot(exec, propertyName, slot)) return true; JSValue value = slot.getValue(exec, propertyName); if (exec->hadException()) return false; rollBackPoint = builder.size(); // Append the separator string. if (builder[rollBackPoint - 1] != '{') builder.append(','); stringifier.startNewLine(builder); // Append the property name. appendQuotedString(builder, propertyName.ustring()); builder.append(':'); if (stringifier.willIndent()) builder.append(' '); // Append the stringified value. stringifyResult = stringifier.appendStringifiedValue(builder, value, m_object, propertyName); } // From this point on, no access to the this pointer or to any members, because the // Holder object may have moved if the call to stringify pushed a new Holder onto // m_holderStack. switch (stringifyResult) { case StringifyFailed: builder.append("null"); break; case StringifySucceeded: break; case StringifyFailedDueToUndefinedValue: // This only occurs when get an undefined value for an object property. // In this case we don't want the separator and property name that we // already appended, so roll back. builder.resize(rollBackPoint); break; } return true; } // ------------------------------ JSONObject -------------------------------- const ClassInfo JSONObject::info = { "JSON", 0, 0, ExecState::jsonTable }; /* Source for JSONObject.lut.h @begin jsonTable parse JSONProtoFuncParse DontEnum|Function 1 stringify JSONProtoFuncStringify DontEnum|Function 1 @end */ // ECMA 15.8 bool JSONObject::getOwnPropertySlot(ExecState* exec, const Identifier& propertyName, PropertySlot& slot) { return getStaticFunctionSlot<JSObject>(exec, ExecState::jsonTable(exec), this, propertyName, slot); } bool JSONObject::getOwnPropertyDescriptor(ExecState* exec, const Identifier& propertyName, PropertyDescriptor& descriptor) { return getStaticFunctionDescriptor<JSObject>(exec, ExecState::jsonTable(exec), this, propertyName, descriptor); } void JSONObject::markStringifiers(MarkStack& markStack, Stringifier* stringifier) { stringifier->markAggregate(markStack); } class Walker { public: Walker(ExecState* exec, JSObject* function, CallType callType, CallData callData) : m_exec(exec) , m_function(function) , m_callType(callType) , m_callData(callData) { } JSValue walk(JSValue unfiltered); private: JSValue callReviver(JSObject* thisObj, JSValue property, JSValue unfiltered) { JSValue args[] = { property, unfiltered }; ArgList argList(args, 2); return call(m_exec, m_function, m_callType, m_callData, thisObj, argList); } friend class Holder; ExecState* m_exec; JSObject* m_function; CallType m_callType; CallData m_callData; }; // We clamp recursion well beyond anything reasonable, but we also have a timeout check // to guard against "infinite" execution by inserting arbitrarily large objects. static const unsigned maximumFilterRecursion = 40000; enum WalkerState { StateUnknown, ArrayStartState, ArrayStartVisitMember, ArrayEndVisitMember, ObjectStartState, ObjectStartVisitMember, ObjectEndVisitMember }; NEVER_INLINE JSValue Walker::walk(JSValue unfiltered) { Vector<PropertyNameArray, 16> propertyStack; Vector<uint32_t, 16> indexStack; Vector<JSObject*, 16> objectStack; Vector<JSArray*, 16> arrayStack; Vector<WalkerState, 16> stateStack; WalkerState state = StateUnknown; JSValue inValue = unfiltered; JSValue outValue = jsNull(); TimeoutChecker localTimeoutChecker(m_exec->globalData().timeoutChecker); localTimeoutChecker.reset(); unsigned tickCount = localTimeoutChecker.ticksUntilNextCheck(); while (1) { switch (state) { arrayStartState: case ArrayStartState: { ASSERT(inValue.isObject()); ASSERT(isJSArray(&m_exec->globalData(), asObject(inValue)) || asObject(inValue)->inherits(&JSArray::info)); if (objectStack.size() + arrayStack.size() > maximumFilterRecursion) { m_exec->setException(createStackOverflowError(m_exec)); return jsUndefined(); } JSArray* array = asArray(inValue); arrayStack.append(array); indexStack.append(0); // fallthrough } arrayStartVisitMember: case ArrayStartVisitMember: { if (!--tickCount) { if (localTimeoutChecker.didTimeOut(m_exec)) { m_exec->setException(createInterruptedExecutionException(&m_exec->globalData())); return jsUndefined(); } tickCount = localTimeoutChecker.ticksUntilNextCheck(); } JSArray* array = arrayStack.last(); uint32_t index = indexStack.last(); if (index == array->length()) { outValue = array; arrayStack.removeLast(); indexStack.removeLast(); break; } if (isJSArray(&m_exec->globalData(), array) && array->canGetIndex(index)) inValue = array->getIndex(index); else { PropertySlot slot; if (array->getOwnPropertySlot(m_exec, index, slot)) inValue = slot.getValue(m_exec, index); else inValue = jsUndefined(); } if (inValue.isObject()) { stateStack.append(ArrayEndVisitMember); goto stateUnknown; } else outValue = inValue; // fallthrough } case ArrayEndVisitMember: { JSArray* array = arrayStack.last(); JSValue filteredValue = callReviver(array, jsString(m_exec, UString::from(indexStack.last())), outValue); if (filteredValue.isUndefined()) array->deleteProperty(m_exec, indexStack.last()); else { if (isJSArray(&m_exec->globalData(), array) && array->canSetIndex(indexStack.last())) array->setIndex(indexStack.last(), filteredValue); else array->put(m_exec, indexStack.last(), filteredValue); } if (m_exec->hadException()) return jsNull(); indexStack.last()++; goto arrayStartVisitMember; } objectStartState: case ObjectStartState: { ASSERT(inValue.isObject()); ASSERT(!isJSArray(&m_exec->globalData(), asObject(inValue)) && !asObject(inValue)->inherits(&JSArray::info)); if (objectStack.size() + arrayStack.size() > maximumFilterRecursion) { m_exec->setException(createStackOverflowError(m_exec)); return jsUndefined(); } JSObject* object = asObject(inValue); objectStack.append(object); indexStack.append(0); propertyStack.append(PropertyNameArray(m_exec)); object->getOwnPropertyNames(m_exec, propertyStack.last()); // fallthrough } objectStartVisitMember: case ObjectStartVisitMember: { if (!--tickCount) { if (localTimeoutChecker.didTimeOut(m_exec)) { m_exec->setException(createInterruptedExecutionException(&m_exec->globalData())); return jsUndefined(); } tickCount = localTimeoutChecker.ticksUntilNextCheck(); } JSObject* object = objectStack.last(); uint32_t index = indexStack.last(); PropertyNameArray& properties = propertyStack.last(); if (index == properties.size()) { outValue = object; objectStack.removeLast(); indexStack.removeLast(); propertyStack.removeLast(); break; } PropertySlot slot; if (object->getOwnPropertySlot(m_exec, properties[index], slot)) inValue = slot.getValue(m_exec, properties[index]); else inValue = jsUndefined(); // The holder may be modified by the reviver function so any lookup may throw if (m_exec->hadException()) return jsNull(); if (inValue.isObject()) { stateStack.append(ObjectEndVisitMember); goto stateUnknown; } else outValue = inValue; // fallthrough } case ObjectEndVisitMember: { JSObject* object = objectStack.last(); Identifier prop = propertyStack.last()[indexStack.last()]; PutPropertySlot slot; JSValue filteredValue = callReviver(object, jsString(m_exec, prop.ustring()), outValue); if (filteredValue.isUndefined()) object->deleteProperty(m_exec, prop); else object->put(m_exec, prop, filteredValue, slot); if (m_exec->hadException()) return jsNull(); indexStack.last()++; goto objectStartVisitMember; } stateUnknown: case StateUnknown: if (!inValue.isObject()) { outValue = inValue; break; } JSObject* object = asObject(inValue); if (isJSArray(&m_exec->globalData(), object) || object->inherits(&JSArray::info)) goto arrayStartState; goto objectStartState; } if (stateStack.isEmpty()) break; state = stateStack.last(); stateStack.removeLast(); if (!--tickCount) { if (localTimeoutChecker.didTimeOut(m_exec)) { m_exec->setException(createInterruptedExecutionException(&m_exec->globalData())); return jsUndefined(); } tickCount = localTimeoutChecker.ticksUntilNextCheck(); } } JSObject* finalHolder = constructEmptyObject(m_exec); PutPropertySlot slot; finalHolder->put(m_exec, m_exec->globalData().propertyNames->emptyIdentifier, outValue, slot); return callReviver(finalHolder, jsEmptyString(m_exec), outValue); } // ECMA-262 v5 15.12.2 JSValue JSC_HOST_CALL JSONProtoFuncParse(ExecState* exec, JSObject*, JSValue, const ArgList& args) { if (args.isEmpty()) return throwError(exec, GeneralError, "JSON.parse requires at least one parameter"); JSValue value = args.at(0); UString source = value.toString(exec); if (exec->hadException()) return jsNull(); LiteralParser jsonParser(exec, source, LiteralParser::StrictJSON); JSValue unfiltered = jsonParser.tryLiteralParse(); if (!unfiltered) return throwError(exec, SyntaxError, "Unable to parse JSON string"); if (args.size() < 2) return unfiltered; JSValue function = args.at(1); CallData callData; CallType callType = function.getCallData(callData); if (callType == CallTypeNone) return unfiltered; return Walker(exec, asObject(function), callType, callData).walk(unfiltered); } // ECMA-262 v5 15.12.3 JSValue JSC_HOST_CALL JSONProtoFuncStringify(ExecState* exec, JSObject*, JSValue, const ArgList& args) { if (args.isEmpty()) return throwError(exec, GeneralError, "No input to stringify"); JSValue value = args.at(0); JSValue replacer = args.at(1); JSValue space = args.at(2); return Stringifier(exec, replacer, space).stringify(value); } } // namespace JSC