src/third_party/mozjs/js/src/jsonparser.cpp - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
  * vim: set ts=8 sts=4 et sw=4 tw=99:
  * This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #include "jsonparser.h"

 #include "mozilla/RangedPtr.h"

 #include "jsarray.h"
 #include "jscompartment.h"
 #include "jsnum.h"

 #include "vm/StringBuffer.h"

 #include "jsobjinlines.h"

 using namespace js;

 using mozilla::RangedPtr;

 JSONParser::~JSONParser()
 {
     for (size_t i = 0; i < stack.length(); i++) {
         if (stack[i].state == FinishArrayElement)
             js_delete(&stack[i].elements());
         else
             js_delete(&stack[i].properties());
     }

     for (size_t i = 0; i < freeElements.length(); i++)
         js_delete(freeElements[i]);

     for (size_t i = 0; i < freeProperties.length(); i++)
         js_delete(freeProperties[i]);
 }

 void
 JSONParser::trace(JSTracer *trc)
 {
     for (size_t i = 0; i < stack.length(); i++) {
         if (stack[i].state == FinishArrayElement) {
             ElementVector &elements = stack[i].elements();
             for (size_t j = 0; j < elements.length(); j++)
                 gc::MarkValueRoot(trc, &elements[j], "JSONParser element");
         } else {
             PropertyVector &properties = stack[i].properties();
             for (size_t j = 0; j < properties.length(); j++) {
                 gc::MarkValueRoot(trc, &properties[j].value, "JSONParser property value");
                 gc::MarkIdRoot(trc, &properties[j].id, "JSONParser property id");
             }
         }
     }
 }

 void
 JSONParser::error(const char *msg)
 {
     if (errorHandling == RaiseError)
         JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_JSON_BAD_PARSE, msg);
 }

 bool
 JSONParser::errorReturn()
 {
     return errorHandling == NoError;
 }

 template<JSONParser::StringType ST>
 JSONParser::Token
 JSONParser::readString()
 {
     JS_ASSERT(current < end);
     JS_ASSERT(*current == '"');

     /*
      * JSONString:
      *   /^"([^\u0000-\u001F"\\]|\\(["/\\bfnrt]|u[0-9a-fA-F]{4}))*"$/
      */

     if (++current == end) {
         error("unterminated string literal");
         return token(Error);
     }

     /*
      * Optimization: if the source contains no escaped characters, create the
      * string directly from the source text.
      */
     RangedPtr<const jschar> start = current;
     for (; current < end; current++) {
         if (*current == '"') {
             size_t length = current - start;
             current++;
             JSFlatString *str = (ST == JSONParser::PropertyName)
                                 ? AtomizeChars<CanGC>(cx, start.get(), length)
                                 : js_NewStringCopyN<CanGC>(cx, start.get(), length);
             if (!str)
                 return token(OOM);
             return stringToken(str);
         }

         if (*current == '\\')
             break;

         if (*current <= 0x001F) {
             error("bad control character in string literal");
             return token(Error);
         }
     }

     /*
      * Slow case: string contains escaped characters.  Copy a maximal sequence
      * of unescaped characters into a temporary buffer, then an escaped
      * character, and repeat until the entire string is consumed.
      */
     StringBuffer buffer(cx);
     do {
         if (start < current && !buffer.append(start.get(), current.get()))
             return token(OOM);

         if (current >= end)
             break;

         jschar c = *current++;
         if (c == '"') {
             JSFlatString *str = (ST == JSONParser::PropertyName)
                                 ? buffer.finishAtom()
                                 : buffer.finishString();
             if (!str)
                 return token(OOM);
             return stringToken(str);
         }

         if (c != '\\') {
             error("bad character in string literal");
             return token(Error);
         }

         if (current >= end)
             break;

         switch (*current++) {
           case '"':  c = '"';  break;
           case '/':  c = '/';  break;
           case '\\': c = '\\'; break;
           case 'b':  c = '\b'; break;
           case 'f':  c = '\f'; break;
           case 'n':  c = '\n'; break;
           case 'r':  c = '\r'; break;
           case 't':  c = '\t'; break;

           case 'u':
             if (end - current < 4) {
                 error("bad Unicode escape");
                 return token(Error);
             }
             if (JS7_ISHEX(current[0]) &&
                 JS7_ISHEX(current[1]) &&
                 JS7_ISHEX(current[2]) &&
                 JS7_ISHEX(current[3]))
             {
                 c = (JS7_UNHEX(current[0]) << 12)
                   | (JS7_UNHEX(current[1]) << 8)
                   | (JS7_UNHEX(current[2]) << 4)
                   | (JS7_UNHEX(current[3]));
                 current += 4;
                 break;
             }
             /* FALL THROUGH */

           default:
             error("bad escaped character");
             return token(Error);
         }
         if (!buffer.append(c))
             return token(OOM);

         start = current;
         for (; current < end; current++) {
             if (*current == '"' || *current == '\\' || *current <= 0x001F)
                 break;
         }
     } while (current < end);

     error("unterminated string");
     return token(Error);
 }

 JSONParser::Token
 JSONParser::readNumber()
 {
     JS_ASSERT(current < end);
     JS_ASSERT(JS7_ISDEC(*current) || *current == '-');

     /*
      * JSONNumber:
      *   /^-?(0|[1-9][0-9]+)(\.[0-9]+)?([eE][\+\-]?[0-9]+)?$/
      */

     bool negative = *current == '-';

     /* -? */
     if (negative && ++current == end) {
         error("no number after minus sign");
         return token(Error);
     }

     const RangedPtr<const jschar> digitStart = current;

     /* 0|[1-9][0-9]+ */
     if (!JS7_ISDEC(*current)) {
         error("unexpected non-digit");
         return token(Error);
     }
     if (*current++ != '0') {
         for (; current < end; current++) {
             if (!JS7_ISDEC(*current))
                 break;
         }
     }

     /* Fast path: no fractional or exponent part. */
     if (current == end || (*current != '.' && *current != 'e' && *current != 'E')) {
         TwoByteChars chars(digitStart.get(), current - digitStart);
         if (chars.length() < strlen("9007199254740992")) {
             // If the decimal number is shorter than the length of 2**53, (the
             // largest number a double can represent with integral precision),
             // parse it using a decimal-only parser.  This comparison is
             // conservative but faster than a fully-precise check.
             double d = ParseDecimalNumber(chars);
             return numberToken(negative ? -d : d);
         }

         double d;
         const jschar *dummy;
         if (!GetPrefixInteger(cx, digitStart.get(), current.get(), 10, &dummy, &d))
             return token(OOM);
         JS_ASSERT(current == dummy);
         return numberToken(negative ? -d : d);
     }

     /* (\.[0-9]+)? */
     if (current < end && *current == '.') {
         if (++current == end) {
             error("missing digits after decimal point");
             return token(Error);
         }
         if (!JS7_ISDEC(*current)) {
             error("unterminated fractional number");
             return token(Error);
         }
         while (++current < end) {
             if (!JS7_ISDEC(*current))
                 break;
         }
     }

     /* ([eE][\+\-]?[0-9]+)? */
     if (current < end && (*current == 'e' || *current == 'E')) {
         if (++current == end) {
             error("missing digits after exponent indicator");
             return token(Error);
         }
         if (*current == '+' || *current == '-') {
             if (++current == end) {
                 error("missing digits after exponent sign");
                 return token(Error);
             }
         }
         if (!JS7_ISDEC(*current)) {
             error("exponent part is missing a number");
             return token(Error);
         }
         while (++current < end) {
             if (!JS7_ISDEC(*current))
                 break;
         }
     }

     double d;
     const jschar *finish;
     if (!js_strtod(cx, digitStart.get(), current.get(), &finish, &d))
         return token(OOM);
     JS_ASSERT(current == finish);
     return numberToken(negative ? -d : d);
 }

 static inline bool
 IsJSONWhitespace(jschar c)
 {
     return c == '\t' || c == '\r' || c == '\n' || c == ' ';
 }

 JSONParser::Token
 JSONParser::advance()
 {
     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("unexpected end of data");
         return token(Error);
     }

     switch (*current) {
       case '"':
         return readString<LiteralValue>();

       case '-':
       case '0':
       case '1':
       case '2':
       case '3':
       case '4':
       case '5':
       case '6':
       case '7':
       case '8':
       case '9':
         return readNumber();

       case 't':
         if (end - current < 4 || current[1] != 'r' || current[2] != 'u' || current[3] != 'e') {
             error("unexpected keyword");
             return token(Error);
         }
         current += 4;
         return token(True);

       case 'f':
         if (end - current < 5 ||
             current[1] != 'a' || current[2] != 'l' || current[3] != 's' || current[4] != 'e')
         {
             error("unexpected keyword");
             return token(Error);
         }
         current += 5;
         return token(False);

       case 'n':
         if (end - current < 4 || current[1] != 'u' || current[2] != 'l' || current[3] != 'l') {
             error("unexpected keyword");
             return token(Error);
         }
         current += 4;
         return token(Null);

       case '[':
         current++;
         return token(ArrayOpen);
       case ']':
         current++;
         return token(ArrayClose);

       case '{':
         current++;
         return token(ObjectOpen);
       case '}':
         current++;
         return token(ObjectClose);

       case ',':
         current++;
         return token(Comma);

       case ':':
         current++;
         return token(Colon);

       default:
         error("unexpected character");
         return token(Error);
     }
 }

 JSONParser::Token
 JSONParser::advanceAfterObjectOpen()
 {
     JS_ASSERT(current[-1] == '{');

     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("end of data while reading object contents");
         return token(Error);
     }

     if (*current == '"')
         return readString<PropertyName>();

     if (*current == '}') {
         current++;
         return token(ObjectClose);
     }

     error("expected property name or '}'");
     return token(Error);
 }

 static inline void
 AssertPastValue(const RangedPtr<const jschar> current)
 {
     /*
      * We're past an arbitrary JSON value, so the previous character is
      * *somewhat* constrained, even if this assertion is pretty broad.  Don't
      * knock it till you tried it: this assertion *did* catch a bug once.
      */
     JS_ASSERT((current[-1] == 'l' &&
                current[-2] == 'l' &&
                current[-3] == 'u' &&
                current[-4] == 'n') ||
               (current[-1] == 'e' &&
                current[-2] == 'u' &&
                current[-3] == 'r' &&
                current[-4] == 't') ||
               (current[-1] == 'e' &&
                current[-2] == 's' &&
                current[-3] == 'l' &&
                current[-4] == 'a' &&
                current[-5] == 'f') ||
               current[-1] == '}' ||
               current[-1] == ']' ||
               current[-1] == '"' ||
               JS7_ISDEC(current[-1]));
 }

 JSONParser::Token
 JSONParser::advanceAfterArrayElement()
 {
     AssertPastValue(current);

     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("end of data when ',' or ']' was expected");
         return token(Error);
     }

     if (*current == ',') {
         current++;
         return token(Comma);
     }

     if (*current == ']') {
         current++;
         return token(ArrayClose);
     }

     error("expected ',' or ']' after array element");
     return token(Error);
 }

 JSONParser::Token
 JSONParser::advancePropertyName()
 {
     JS_ASSERT(current[-1] == ',');

     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("end of data when property name was expected");
         return token(Error);
     }

     if (*current == '"')
         return readString<PropertyName>();

     error("expected double-quoted property name");
     return token(Error);
 }

 JSONParser::Token
 JSONParser::advancePropertyColon()
 {
     JS_ASSERT(current[-1] == '"');

     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("end of data after property name when ':' was expected");
         return token(Error);
     }

     if (*current == ':') {
         current++;
         return token(Colon);
     }

     error("expected ':' after property name in object");
     return token(Error);
 }

 JSONParser::Token
 JSONParser::advanceAfterProperty()
 {
     AssertPastValue(current);

     while (current < end && IsJSONWhitespace(*current))
         current++;
     if (current >= end) {
         error("end of data after property value in object");
         return token(Error);
     }

     if (*current == ',') {
         current++;
         return token(Comma);
     }

     if (*current == '}') {
         current++;
         return token(ObjectClose);
     }

     error("expected ',' or '}' after property value in object");
     return token(Error);
 }

 JSObject *
 JSONParser::createFinishedObject(PropertyVector &properties)
 {
     /*
      * Look for an existing cached type and shape for objects with this set of
      * properties.
      */
     if (cx->typeInferenceEnabled()) {
         JSObject *obj = cx->compartment()->types.newTypedObject(cx, properties.begin(),
                                                               properties.length());
         if (obj)
             return obj;
     }

     /*
      * Make a new object sized for the given number of properties and fill its
      * shape in manually.
      */
     gc::AllocKind allocKind = gc::GetGCObjectKind(properties.length());
     RootedObject obj(cx, NewBuiltinClassInstance(cx, &ObjectClass, allocKind));
     if (!obj)
         return NULL;

     RootedId propid(cx);
     RootedValue value(cx);

     for (size_t i = 0; i < properties.length(); i++) {
         propid = properties[i].id;
         value = properties[i].value;
         if (!DefineNativeProperty(cx, obj, propid, value,
                                   JS_PropertyStub, JS_StrictPropertyStub, JSPROP_ENUMERATE,
                                   0, 0))
         {
             return NULL;
         }
     }

     /*
      * Try to assign a new type to the object with type information for its
      * properties, and update the initializer type object cache with this
      * object's final shape.
      */
     if (cx->typeInferenceEnabled())
         cx->compartment()->types.fixObjectType(cx, obj);

     return obj;
 }

 inline bool
 JSONParser::finishObject(MutableHandleValue vp, PropertyVector &properties)
 {
     JS_ASSERT(&properties == &stack.back().properties());

     JSObject *obj = createFinishedObject(properties);
     if (!obj)
         return false;

     vp.setObject(*obj);
     if (!freeProperties.append(&properties))
         return false;
     stack.popBack();
     return true;
 }

 inline bool
 JSONParser::finishArray(MutableHandleValue vp, ElementVector &elements)
 {
     JS_ASSERT(&elements == &stack.back().elements());

     JSObject *obj = NewDenseCopiedArray(cx, elements.length(), elements.begin());
     if (!obj)
         return false;

     /* Try to assign a new type to the array according to its elements. */
     if (cx->typeInferenceEnabled())
         cx->compartment()->types.fixArrayType(cx, obj);

     vp.setObject(*obj);
     if (!freeElements.append(&elements))
         return false;
     stack.popBack();
     return true;
 }

 bool
 JSONParser::parse(MutableHandleValue vp)
 {
     RootedValue value(cx);
     JS_ASSERT(stack.empty());

     vp.setUndefined();

     Token token;
     ParserState state = JSONValue;
     while (true) {
         switch (state) {
           case FinishObjectMember: {
             PropertyVector &properties = stack.back().properties();
             properties.back().value = value;

             token = advanceAfterProperty();
             if (token == ObjectClose) {
                 if (!finishObject(&value, properties))
                     return false;
                 break;
             }
             if (token != Comma) {
                 if (token == OOM)
                     return false;
                 if (token != Error)
                     error("expected ',' or '}' after property-value pair in object literal");
                 return errorReturn();
             }
             token = advancePropertyName();
             /* FALL THROUGH */
           }

           JSONMember:
             if (token == String) {
                 jsid id = AtomToId(atomValue());
                 PropertyVector &properties = stack.back().properties();
                 if (!properties.append(IdValuePair(id)))
                     return false;
                 token = advancePropertyColon();
                 if (token != Colon) {
                     JS_ASSERT(token == Error);
                     return errorReturn();
                 }
                 goto JSONValue;
             }
             if (token == OOM)
                 return false;
             if (token != Error)
                 error("property names must be double-quoted strings");
             return errorReturn();

           case FinishArrayElement: {
             ElementVector &elements = stack.back().elements();
             if (!elements.append(value.get()))
                 return false;
             token = advanceAfterArrayElement();
             if (token == Comma)
                 goto JSONValue;
             if (token == ArrayClose) {
                 if (!finishArray(&value, elements))
                     return false;
                 break;
             }
             JS_ASSERT(token == Error);
             return errorReturn();
           }

           JSONValue:
           case JSONValue:
             token = advance();
           JSONValueSwitch:
             switch (token) {
               case String:
                 value = stringValue();
                 break;
               case Number:
                 value = numberValue();
                 break;
               case True:
                 value = BooleanValue(true);
                 break;
               case False:
                 value = BooleanValue(false);
                 break;
               case Null:
                 value = NullValue();
                 break;

               case ArrayOpen: {
                 ElementVector *elements;
                 if (!freeElements.empty()) {
                     elements = freeElements.popCopy();
                     elements->clear();
                 } else {
                     elements = cx->new_<ElementVector>(cx);
                     if (!elements)
                         return false;
                 }
                 if (!stack.append(elements))
                     return false;

                 token = advance();
                 if (token == ArrayClose) {
                     if (!finishArray(&value, *elements))
                         return false;
                     break;
                 }
                 goto JSONValueSwitch;
               }

               case ObjectOpen: {
                 PropertyVector *properties;
                 if (!freeProperties.empty()) {
                     properties = freeProperties.popCopy();
                     properties->clear();
                 } else {
                     properties = cx->new_<PropertyVector>(cx);
                     if (!properties)
                         return false;
                 }
                 if (!stack.append(properties))
                     return false;

                 token = advanceAfterObjectOpen();
                 if (token == ObjectClose) {
                     if (!finishObject(&value, *properties))
                         return false;
                     break;
                 }
                 goto JSONMember;
               }

               case ArrayClose:
               case ObjectClose:
               case Colon:
               case Comma:
                 error("unexpected character");
                 return errorReturn();

               case OOM:
                 return false;

               case Error:
                 return errorReturn();
             }
             break;
         }

         if (stack.empty())
             break;
         state = stack.back().state;
     }

     for (; current < end; current++) {
         if (!IsJSONWhitespace(*current)) {
             error("unexpected non-whitespace character after JSON data");
             return errorReturn();
         }
     }

     JS_ASSERT(end == current);
     JS_ASSERT(stack.empty());

     vp.set(value);
     return true;
 }
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	* vim: set ts=8 sts=4 et sw=4 tw=99:
	* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#include "jsonparser.h"

	#include "mozilla/RangedPtr.h"

	#include "jsarray.h"
	#include "jscompartment.h"
	#include "jsnum.h"

	#include "vm/StringBuffer.h"

	#include "jsobjinlines.h"

	using namespace js;

	using mozilla::RangedPtr;

	JSONParser::~JSONParser()
	{
	for (size_t i = 0; i < stack.length(); i++) {
	if (stack[i].state == FinishArrayElement)
	js_delete(&stack[i].elements());
	else
	js_delete(&stack[i].properties());
	}

	for (size_t i = 0; i < freeElements.length(); i++)
	js_delete(freeElements[i]);

	for (size_t i = 0; i < freeProperties.length(); i++)
	js_delete(freeProperties[i]);
	}

	void
	JSONParser::trace(JSTracer *trc)
	{
	for (size_t i = 0; i < stack.length(); i++) {
	if (stack[i].state == FinishArrayElement) {
	ElementVector &elements = stack[i].elements();
	for (size_t j = 0; j < elements.length(); j++)
	gc::MarkValueRoot(trc, &elements[j], "JSONParser element");
	} else {
	PropertyVector &properties = stack[i].properties();
	for (size_t j = 0; j < properties.length(); j++) {
	gc::MarkValueRoot(trc, &properties[j].value, "JSONParser property value");
	gc::MarkIdRoot(trc, &properties[j].id, "JSONParser property id");
	}
	}
	}
	}

	void
	JSONParser::error(const char *msg)
	{
	if (errorHandling == RaiseError)
	JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_JSON_BAD_PARSE, msg);
	}

	bool
	JSONParser::errorReturn()
	{
	return errorHandling == NoError;
	}

	template<JSONParser::StringType ST>
	JSONParser::Token
	JSONParser::readString()
	{
	JS_ASSERT(current < end);
	JS_ASSERT(*current == '"');

	/*
	* JSONString:
	* /^"([^\u0000-\u001F"\\]\|\\(["/\\bfnrt]\|u[0-9a-fA-F]{4}))*"$/
	*/

	if (++current == end) {
	error("unterminated string literal");
	return token(Error);
	}

	/*
	* Optimization: if the source contains no escaped characters, create the
	* string directly from the source text.
	*/
	RangedPtr<const jschar> start = current;
	for (; current < end; current++) {
	if (*current == '"') {
	size_t length = current - start;
	current++;
	JSFlatString *str = (ST == JSONParser::PropertyName)
	? AtomizeChars<CanGC>(cx, start.get(), length)
	: js_NewStringCopyN<CanGC>(cx, start.get(), length);
	if (!str)
	return token(OOM);
	return stringToken(str);
	}

	if (*current == '\\')
	break;

	if (*current <= 0x001F) {
	error("bad control character in string literal");
	return token(Error);
	}
	}

	/*
	* Slow case: string contains escaped characters. Copy a maximal sequence
	* of unescaped characters into a temporary buffer, then an escaped
	* character, and repeat until the entire string is consumed.
	*/
	StringBuffer buffer(cx);
	do {
	if (start < current && !buffer.append(start.get(), current.get()))
	return token(OOM);

	if (current >= end)
	break;

	jschar c = *current++;
	if (c == '"') {
	JSFlatString *str = (ST == JSONParser::PropertyName)
	? buffer.finishAtom()
	: buffer.finishString();
	if (!str)
	return token(OOM);
	return stringToken(str);
	}

	if (c != '\\') {
	error("bad character in string literal");
	return token(Error);
	}

	if (current >= end)
	break;

	switch (*current++) {
	case '"': c = '"'; break;
	case '/': c = '/'; break;
	case '\\': c = '\\'; break;
	case 'b': c = '\b'; break;
	case 'f': c = '\f'; break;
	case 'n': c = '\n'; break;
	case 'r': c = '\r'; break;
	case 't': c = '\t'; break;

	case 'u':
	if (end - current < 4) {
	error("bad Unicode escape");
	return token(Error);
	}
	if (JS7_ISHEX(current[0]) &&
	JS7_ISHEX(current[1]) &&
	JS7_ISHEX(current[2]) &&
	JS7_ISHEX(current[3]))
	{
	c = (JS7_UNHEX(current[0]) << 12)
	\| (JS7_UNHEX(current[1]) << 8)
	\| (JS7_UNHEX(current[2]) << 4)
	\| (JS7_UNHEX(current[3]));
	current += 4;
	break;
	}
	/* FALL THROUGH */

	default:
	error("bad escaped character");
	return token(Error);
	}
	if (!buffer.append(c))
	return token(OOM);

	start = current;
	for (; current < end; current++) {
	if (current == '"' \|\| current == '\\' \|\| *current <= 0x001F)
	break;
	}
	} while (current < end);

	error("unterminated string");
	return token(Error);
	}

	JSONParser::Token
	JSONParser::readNumber()
	{
	JS_ASSERT(current < end);
	JS_ASSERT(JS7_ISDEC(current) \|\| current == '-');

	/*
	* JSONNumber:
	* /^-?(0\|[1-9][0-9]+)(\.[0-9]+)?([eE][\+\-]?[0-9]+)?$/
	*/

	bool negative = *current == '-';

	/* -? */
	if (negative && ++current == end) {
	error("no number after minus sign");
	return token(Error);
	}

	const RangedPtr<const jschar> digitStart = current;

	/* 0\|[1-9][0-9]+ */
	if (!JS7_ISDEC(*current)) {
	error("unexpected non-digit");
	return token(Error);
	}
	if (*current++ != '0') {
	for (; current < end; current++) {
	if (!JS7_ISDEC(*current))
	break;
	}
	}

	/* Fast path: no fractional or exponent part. */
	if (current == end \|\| (current != '.' && current != 'e' && *current != 'E')) {
	TwoByteChars chars(digitStart.get(), current - digitStart);
	if (chars.length() < strlen("9007199254740992")) {
	// If the decimal number is shorter than the length of 2**53, (the
	// largest number a double can represent with integral precision),
	// parse it using a decimal-only parser. This comparison is
	// conservative but faster than a fully-precise check.
	double d = ParseDecimalNumber(chars);
	return numberToken(negative ? -d : d);
	}

	double d;
	const jschar *dummy;
	if (!GetPrefixInteger(cx, digitStart.get(), current.get(), 10, &dummy, &d))
	return token(OOM);
	JS_ASSERT(current == dummy);
	return numberToken(negative ? -d : d);
	}

	/* (\.[0-9]+)? */
	if (current < end && *current == '.') {
	if (++current == end) {
	error("missing digits after decimal point");
	return token(Error);
	}
	if (!JS7_ISDEC(*current)) {
	error("unterminated fractional number");
	return token(Error);
	}
	while (++current < end) {
	if (!JS7_ISDEC(*current))
	break;
	}
	}

	/* ([eE][\+\-]?[0-9]+)? */
	if (current < end && (current == 'e' \|\| current == 'E')) {
	if (++current == end) {
	error("missing digits after exponent indicator");
	return token(Error);
	}
	if (current == '+' \|\| current == '-') {
	if (++current == end) {
	error("missing digits after exponent sign");
	return token(Error);
	}
	}
	if (!JS7_ISDEC(*current)) {
	error("exponent part is missing a number");
	return token(Error);
	}
	while (++current < end) {
	if (!JS7_ISDEC(*current))
	break;
	}
	}

	double d;
	const jschar *finish;
	if (!js_strtod(cx, digitStart.get(), current.get(), &finish, &d))
	return token(OOM);
	JS_ASSERT(current == finish);
	return numberToken(negative ? -d : d);
	}

	static inline bool
	IsJSONWhitespace(jschar c)
	{
	return c == '\t' \|\| c == '\r' \|\| c == '\n' \|\| c == ' ';
	}

	JSONParser::Token
	JSONParser::advance()
	{
	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("unexpected end of data");
	return token(Error);
	}

	switch (*current) {
	case '"':
	return readString<LiteralValue>();

	case '-':
	case '0':
	case '1':
	case '2':
	case '3':
	case '4':
	case '5':
	case '6':
	case '7':
	case '8':
	case '9':
	return readNumber();

	case 't':
	if (end - current < 4 \|\| current[1] != 'r' \|\| current[2] != 'u' \|\| current[3] != 'e') {
	error("unexpected keyword");
	return token(Error);
	}
	current += 4;
	return token(True);

	case 'f':
	if (end - current < 5 \|\|
	current[1] != 'a' \|\| current[2] != 'l' \|\| current[3] != 's' \|\| current[4] != 'e')
	{
	error("unexpected keyword");
	return token(Error);
	}
	current += 5;
	return token(False);

	case 'n':
	if (end - current < 4 \|\| current[1] != 'u' \|\| current[2] != 'l' \|\| current[3] != 'l') {
	error("unexpected keyword");
	return token(Error);
	}
	current += 4;
	return token(Null);

	case '[':
	current++;
	return token(ArrayOpen);
	case ']':
	current++;
	return token(ArrayClose);

	case '{':
	current++;
	return token(ObjectOpen);
	case '}':
	current++;
	return token(ObjectClose);

	case ',':
	current++;
	return token(Comma);

	case ':':
	current++;
	return token(Colon);

	default:
	error("unexpected character");
	return token(Error);
	}
	}

	JSONParser::Token
	JSONParser::advanceAfterObjectOpen()
	{
	JS_ASSERT(current[-1] == '{');

	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("end of data while reading object contents");
	return token(Error);
	}

	if (*current == '"')
	return readString<PropertyName>();

	if (*current == '}') {
	current++;
	return token(ObjectClose);
	}

	error("expected property name or '}'");
	return token(Error);
	}

	static inline void
	AssertPastValue(const RangedPtr<const jschar> current)
	{
	/*
	* We're past an arbitrary JSON value, so the previous character is
	* somewhat constrained, even if this assertion is pretty broad. Don't
	* knock it till you tried it: this assertion did catch a bug once.
	*/
	JS_ASSERT((current[-1] == 'l' &&
	current[-2] == 'l' &&
	current[-3] == 'u' &&
	current[-4] == 'n') \|\|
	(current[-1] == 'e' &&
	current[-2] == 'u' &&
	current[-3] == 'r' &&
	current[-4] == 't') \|\|
	(current[-1] == 'e' &&
	current[-2] == 's' &&
	current[-3] == 'l' &&
	current[-4] == 'a' &&
	current[-5] == 'f') \|\|
	current[-1] == '}' \|\|
	current[-1] == ']' \|\|
	current[-1] == '"' \|\|
	JS7_ISDEC(current[-1]));
	}

	JSONParser::Token
	JSONParser::advanceAfterArrayElement()
	{
	AssertPastValue(current);

	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("end of data when ',' or ']' was expected");
	return token(Error);
	}

	if (*current == ',') {
	current++;
	return token(Comma);
	}

	if (*current == ']') {
	current++;
	return token(ArrayClose);
	}

	error("expected ',' or ']' after array element");
	return token(Error);
	}

	JSONParser::Token
	JSONParser::advancePropertyName()
	{
	JS_ASSERT(current[-1] == ',');

	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("end of data when property name was expected");
	return token(Error);
	}

	if (*current == '"')
	return readString<PropertyName>();

	error("expected double-quoted property name");
	return token(Error);
	}

	JSONParser::Token
	JSONParser::advancePropertyColon()
	{
	JS_ASSERT(current[-1] == '"');

	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("end of data after property name when ':' was expected");
	return token(Error);
	}

	if (*current == ':') {
	current++;
	return token(Colon);
	}

	error("expected ':' after property name in object");
	return token(Error);
	}

	JSONParser::Token
	JSONParser::advanceAfterProperty()
	{
	AssertPastValue(current);

	while (current < end && IsJSONWhitespace(*current))
	current++;
	if (current >= end) {
	error("end of data after property value in object");
	return token(Error);
	}

	if (*current == ',') {
	current++;
	return token(Comma);
	}

	if (*current == '}') {
	current++;
	return token(ObjectClose);
	}

	error("expected ',' or '}' after property value in object");
	return token(Error);
	}

	JSObject *
	JSONParser::createFinishedObject(PropertyVector &properties)
	{
	/*
	* Look for an existing cached type and shape for objects with this set of
	* properties.
	*/
	if (cx->typeInferenceEnabled()) {
	JSObject *obj = cx->compartment()->types.newTypedObject(cx, properties.begin(),
	properties.length());
	if (obj)
	return obj;
	}

	/*
	* Make a new object sized for the given number of properties and fill its
	* shape in manually.
	*/
	gc::AllocKind allocKind = gc::GetGCObjectKind(properties.length());
	RootedObject obj(cx, NewBuiltinClassInstance(cx, &ObjectClass, allocKind));
	if (!obj)
	return NULL;

	RootedId propid(cx);
	RootedValue value(cx);

	for (size_t i = 0; i < properties.length(); i++) {
	propid = properties[i].id;
	value = properties[i].value;
	if (!DefineNativeProperty(cx, obj, propid, value,
	JS_PropertyStub, JS_StrictPropertyStub, JSPROP_ENUMERATE,
	0, 0))
	{
	return NULL;
	}
	}

	/*
	* Try to assign a new type to the object with type information for its
	* properties, and update the initializer type object cache with this
	* object's final shape.
	*/
	if (cx->typeInferenceEnabled())
	cx->compartment()->types.fixObjectType(cx, obj);

	return obj;
	}

	inline bool
	JSONParser::finishObject(MutableHandleValue vp, PropertyVector &properties)
	{
	JS_ASSERT(&properties == &stack.back().properties());

	JSObject *obj = createFinishedObject(properties);
	if (!obj)
	return false;

	vp.setObject(*obj);
	if (!freeProperties.append(&properties))
	return false;
	stack.popBack();
	return true;
	}

	inline bool
	JSONParser::finishArray(MutableHandleValue vp, ElementVector &elements)
	{
	JS_ASSERT(&elements == &stack.back().elements());

	JSObject *obj = NewDenseCopiedArray(cx, elements.length(), elements.begin());
	if (!obj)
	return false;

	/* Try to assign a new type to the array according to its elements. */
	if (cx->typeInferenceEnabled())
	cx->compartment()->types.fixArrayType(cx, obj);

	vp.setObject(*obj);
	if (!freeElements.append(&elements))
	return false;
	stack.popBack();
	return true;
	}

	bool
	JSONParser::parse(MutableHandleValue vp)
	{
	RootedValue value(cx);
	JS_ASSERT(stack.empty());

	vp.setUndefined();

	Token token;
	ParserState state = JSONValue;
	while (true) {
	switch (state) {
	case FinishObjectMember: {
	PropertyVector &properties = stack.back().properties();
	properties.back().value = value;

	token = advanceAfterProperty();
	if (token == ObjectClose) {
	if (!finishObject(&value, properties))
	return false;
	break;
	}
	if (token != Comma) {
	if (token == OOM)
	return false;
	if (token != Error)
	error("expected ',' or '}' after property-value pair in object literal");
	return errorReturn();
	}
	token = advancePropertyName();
	/* FALL THROUGH */
	}

	JSONMember:
	if (token == String) {
	jsid id = AtomToId(atomValue());
	PropertyVector &properties = stack.back().properties();
	if (!properties.append(IdValuePair(id)))
	return false;
	token = advancePropertyColon();
	if (token != Colon) {
	JS_ASSERT(token == Error);
	return errorReturn();
	}
	goto JSONValue;
	}
	if (token == OOM)
	return false;
	if (token != Error)
	error("property names must be double-quoted strings");
	return errorReturn();

	case FinishArrayElement: {
	ElementVector &elements = stack.back().elements();
	if (!elements.append(value.get()))
	return false;
	token = advanceAfterArrayElement();
	if (token == Comma)
	goto JSONValue;
	if (token == ArrayClose) {
	if (!finishArray(&value, elements))
	return false;
	break;
	}
	JS_ASSERT(token == Error);
	return errorReturn();
	}

	JSONValue:
	case JSONValue:
	token = advance();
	JSONValueSwitch:
	switch (token) {
	case String:
	value = stringValue();
	break;
	case Number:
	value = numberValue();
	break;
	case True:
	value = BooleanValue(true);
	break;
	case False:
	value = BooleanValue(false);
	break;
	case Null:
	value = NullValue();
	break;

	case ArrayOpen: {
	ElementVector *elements;
	if (!freeElements.empty()) {
	elements = freeElements.popCopy();
	elements->clear();
	} else {
	elements = cx->new_<ElementVector>(cx);
	if (!elements)
	return false;
	}
	if (!stack.append(elements))
	return false;

	token = advance();
	if (token == ArrayClose) {
	if (!finishArray(&value, *elements))
	return false;
	break;
	}
	goto JSONValueSwitch;
	}

	case ObjectOpen: {
	PropertyVector *properties;
	if (!freeProperties.empty()) {
	properties = freeProperties.popCopy();
	properties->clear();
	} else {
	properties = cx->new_<PropertyVector>(cx);
	if (!properties)
	return false;
	}
	if (!stack.append(properties))
	return false;

	token = advanceAfterObjectOpen();
	if (token == ObjectClose) {
	if (!finishObject(&value, *properties))
	return false;
	break;
	}
	goto JSONMember;
	}

	case ArrayClose:
	case ObjectClose:
	case Colon:
	case Comma:
	error("unexpected character");
	return errorReturn();

	case OOM:
	return false;

	case Error:
	return errorReturn();
	}
	break;
	}

	if (stack.empty())
	break;
	state = stack.back().state;
	}

	for (; current < end; current++) {
	if (!IsJSONWhitespace(*current)) {
	error("unexpected non-whitespace character after JSON data");
	return errorReturn();
	}
	}

	JS_ASSERT(end == current);
	JS_ASSERT(stack.empty());

	vp.set(value);
	return true;
	}