pkg/dev_compiler/tool/input_sdk/patch/core_patch.dart - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // Patch file for dart:core classes.
 import "dart:_internal" as _symbol_dev;
 import 'dart:_interceptors';
 import 'dart:_js_helper'
     show
         patch,
         checkInt,
         getRuntimeType,
         jsonEncodeNative,
         JsLinkedHashMap,
         JSSyntaxRegExp,
         Primitives,
         stringJoinUnchecked,
         objectHashCode,
         getTraceFromException;

 import 'dart:_foreign_helper' show JS;

 import 'dart:_native_typed_data' show NativeUint8List;

 String _symbolToString(Symbol symbol) => _symbol_dev.Symbol.getName(symbol);

 @patch
 int identityHashCode(Object object) => objectHashCode(object);

 // Patch for Object implementation.
 @patch
 class Object {
   @patch
   bool operator ==(other) => identical(this, other);

   @patch
   int get hashCode => Primitives.objectHashCode(this);

   @patch
   String toString() => Primitives.objectToString(this);

   @patch
   dynamic noSuchMethod(Invocation invocation) {
     throw new NoSuchMethodError(this, invocation.memberName,
         invocation.positionalArguments, invocation.namedArguments);
   }

   @patch
   Type get runtimeType =>
       JS('Type', 'dart.wrapType(dart.getReifiedType(#))', this);
 }

 @patch
 class Null {
   @patch
   int get hashCode => super.hashCode;
 }

 // Patch for Function implementation.
 @patch
 class Function {
   @patch
   static apply(Function f, List positionalArguments,
       [Map<Symbol, dynamic> namedArguments]) {
     positionalArguments ??= [];
     // dcall expects the namedArguments as a JS map in the last slot.
     if (namedArguments != null && namedArguments.isNotEmpty) {
       var map = JS('', '{}');
       namedArguments.forEach((symbol, arg) {
         JS('', '#[#] = #', map, _symbolToString(symbol), arg);
       });
       positionalArguments = new List.from(positionalArguments)..add(map);
     }
     return JS(
         '', 'dart.dcall.apply(null, [#].concat(#))', f, positionalArguments);
   }

   static Map<String, dynamic> _toMangledNames(
       Map<Symbol, dynamic> namedArguments) {
     Map<String, dynamic> result = {};
     namedArguments.forEach((symbol, value) {
       result[_symbolToString(symbol)] = value;
     });
     return result;
   }
 }

 // TODO(jmesserly): switch to WeakMap
 // Patch for Expando implementation.
 @patch
 class Expando<T> {
   @patch
   Expando([String name]) : this.name = name;

   @patch
   T operator [](Object object) {
     var values = Primitives.getProperty(object, _EXPANDO_PROPERTY_NAME);
     return (values == null) ? null : Primitives.getProperty(values, _getKey());
   }

   @patch
   void operator []=(Object object, T value) {
     var values = Primitives.getProperty(object, _EXPANDO_PROPERTY_NAME);
     if (values == null) {
       values = new Object();
       Primitives.setProperty(object, _EXPANDO_PROPERTY_NAME, values);
     }
     Primitives.setProperty(values, _getKey(), value);
   }

   String _getKey() {
     String key = Primitives.getProperty(this, _KEY_PROPERTY_NAME);
     if (key == null) {
       key = "expando\$key\$${_keyCount++}";
       Primitives.setProperty(this, _KEY_PROPERTY_NAME, key);
     }
     return key;
   }

   static const String _KEY_PROPERTY_NAME = 'expando\$key';
   static const String _EXPANDO_PROPERTY_NAME = 'expando\$values';
   static int _keyCount = 0;
 }

 @patch
 class int {
   @patch
   static int parse(String source, {int radix, int onError(String source)}) {
     return Primitives.parseInt(source, radix, onError);
   }

   @patch
   factory int.fromEnvironment(String name, {int defaultValue}) {
     throw new UnsupportedError(
         'int.fromEnvironment can only be used as a const constructor');
   }
 }

 @patch
 class double {
   @patch
   static double parse(String source, [double onError(String source)]) {
     return Primitives.parseDouble(source, onError);
   }
 }

 @patch
 class Error {
   @patch
   static String _objectToString(Object object) {
     return Primitives.objectToString(object);
   }

   @patch
   static String _stringToSafeString(String string) {
     return jsonEncodeNative(string);
   }

   @patch
   StackTrace get stackTrace => Primitives.extractStackTrace(this);
 }

 @patch
 class FallThroughError {
   @patch
   String toString() => super.toString();
 }

 @patch
 class AbstractClassInstantiationError {
   @patch
   String toString() => "Cannot instantiate abstract class: '$_className'";
 }

 /// An interface type for all Strong-mode errors.
 class StrongModeError extends Error {}

 // Patch for DateTime implementation.
 @patch
 class DateTime {
   @patch
   DateTime.fromMillisecondsSinceEpoch(int millisecondsSinceEpoch,
       {bool isUtc: false})
       : this._withValue(millisecondsSinceEpoch, isUtc: isUtc);

   @patch
   DateTime.fromMicrosecondsSinceEpoch(int microsecondsSinceEpoch,
       {bool isUtc: false})
       : this._withValue(
             _microsecondInRoundedMilliseconds(microsecondsSinceEpoch),
             isUtc: isUtc);

   @patch
   DateTime._internal(int year, int month, int day, int hour, int minute,
       int second, int millisecond, int microsecond, bool isUtc)
       // checkBool is manually inlined here because dart2js doesn't inline it
       // and [isUtc] is usually a constant.
       : this.isUtc = isUtc is bool
             ? isUtc
             : throw new ArgumentError.value(isUtc, 'isUtc'),
         _value = checkInt(Primitives.valueFromDecomposedDate(
             year,
             month,
             day,
             hour,
             minute,
             second,
             millisecond + _microsecondInRoundedMilliseconds(microsecond),
             isUtc));

   @patch
   DateTime._now()
       : isUtc = false,
         _value = Primitives.dateNow();

   /// Rounds the given [microsecond] to the nearest milliseconds value.
   ///
   /// For example, invoked with argument `2600` returns `3`.
   static int _microsecondInRoundedMilliseconds(int microsecond) {
     return (microsecond / 1000).round();
   }

   @patch
   static int _brokenDownDateToValue(int year, int month, int day, int hour,
       int minute, int second, int millisecond, int microsecond, bool isUtc) {
     return Primitives.valueFromDecomposedDate(
         year,
         month,
         day,
         hour,
         minute,
         second,
         millisecond + _microsecondInRoundedMilliseconds(microsecond),
         isUtc);
   }

   @patch
   String get timeZoneName {
     if (isUtc) return "UTC";
     return Primitives.getTimeZoneName(this);
   }

   @patch
   Duration get timeZoneOffset {
     if (isUtc) return new Duration();
     return new Duration(minutes: Primitives.getTimeZoneOffsetInMinutes(this));
   }

   @patch
   DateTime add(Duration duration) {
     return new DateTime._withValue(_value + duration.inMilliseconds,
         isUtc: isUtc);
   }

   @patch
   DateTime subtract(Duration duration) {
     return new DateTime._withValue(_value - duration.inMilliseconds,
         isUtc: isUtc);
   }

   @patch
   Duration difference(DateTime other) {
     return new Duration(milliseconds: _value - other._value);
   }

   @patch
   int get millisecondsSinceEpoch => _value;

   @patch
   int get microsecondsSinceEpoch => _value * 1000;

   @patch
   int get year => Primitives.getYear(this);

   @patch
   int get month => Primitives.getMonth(this);

   @patch
   int get day => Primitives.getDay(this);

   @patch
   int get hour => Primitives.getHours(this);

   @patch
   int get minute => Primitives.getMinutes(this);

   @patch
   int get second => Primitives.getSeconds(this);

   @patch
   int get millisecond => Primitives.getMilliseconds(this);

   @patch
   int get microsecond => 0;

   @patch
   int get weekday => Primitives.getWeekday(this);
 }

 // Patch for Stopwatch implementation.
 @patch
 class Stopwatch {
   @patch
   static void _initTicker() {
     Primitives.initTicker();
     _frequency = Primitives.timerFrequency;
   }

   @patch
   static int _now() => Primitives.timerTicks();
 }

 // Patch for List implementation.
 @patch
 class List<E> {
   @patch
   factory List([int length]) {
     dynamic list;
     if (length == null) {
       list = JS('', '[]');
     } else {
       // Explicit type test is necessary to guard against JavaScript conversions
       // in unchecked mode.
       if ((length is! int) || (length < 0)) {
         throw new ArgumentError(
             "Length must be a non-negative integer: $length");
       }
       list = JSArray.markFixedList(JS('', 'new Array(#)', length));
     }
     return new JSArray<E>.typed(list);
   }

   @patch
   factory List.filled(int length, E fill) {
     List<E> result = new List<E>(length);
     if (length != 0 && fill != null) {
       for (int i = 0; i < result.length; i++) {
         result[i] = fill;
       }
     }
     return result;
   }

   @patch
   factory List.from(Iterable elements, {bool growable: true}) {
     List<E> list = new List<E>();
     for (var e in elements) {
       list.add(e);
     }
     if (growable) return list;
     return makeListFixedLength/*<E>*/(list);
   }

   @patch
   factory List.unmodifiable(Iterable elements) {
     var result = new List<E>.from(elements, growable: false);
     return makeFixedListUnmodifiable/*<E>*/(result);
   }
 }

 @patch
 class Map<K, V> {
   @patch
   factory Map.unmodifiable(Map other) {
     return new UnmodifiableMapView<K, V>(new Map<K, V>.from(other));
   }

   @patch
   factory Map() = JsLinkedHashMap<K, V>.es6;
 }

 @patch
 class String {
   @patch
   factory String.fromCharCodes(Iterable<int> charCodes,
       [int start = 0, int end]) {
     if (charCodes is JSArray) {
       return _stringFromJSArray(charCodes, start, end);
     }
     if (charCodes is NativeUint8List) {
       return _stringFromUint8List(charCodes, start, end);
     }
     return _stringFromIterable(charCodes, start, end);
   }

   @patch
   factory String.fromCharCode(int charCode) {
     return Primitives.stringFromCharCode(charCode);
   }

   @patch
   factory String.fromEnvironment(String name, {String defaultValue}) {
     throw new UnsupportedError(
         'String.fromEnvironment can only be used as a const constructor');
   }

   static String _stringFromJSArray(
       /*=JSArray<int>*/ list,
       int start,
       int endOrNull) {
     int len = list.length;
     int end = RangeError.checkValidRange(start, endOrNull, len);
     if (start > 0 || end < len) {
       list = list.sublist(start, end);
     }
     return Primitives.stringFromCharCodes(list);
   }

   static String _stringFromUint8List(
       NativeUint8List charCodes, int start, int endOrNull) {
     int len = charCodes.length;
     int end = RangeError.checkValidRange(start, endOrNull, len);
     return Primitives.stringFromNativeUint8List(charCodes, start, end);
   }

   static String _stringFromIterable(
       Iterable<int> charCodes, int start, int end) {
     if (start < 0) throw new RangeError.range(start, 0, charCodes.length);
     if (end != null && end < start) {
       throw new RangeError.range(end, start, charCodes.length);
     }
     var it = charCodes.iterator;
     for (int i = 0; i < start; i++) {
       if (!it.moveNext()) {
         throw new RangeError.range(start, 0, i);
       }
     }
     var list = <int>[];
     if (end == null) {
       while (it.moveNext()) list.add(it.current);
     } else {
       for (int i = start; i < end; i++) {
         if (!it.moveNext()) {
           throw new RangeError.range(end, start, i);
         }
         list.add(it.current);
       }
     }
     return Primitives.stringFromCharCodes(list);
   }
 }

 @patch
 class bool {
   @patch
   factory bool.fromEnvironment(String name, {bool defaultValue: false}) {
     throw new UnsupportedError(
         'bool.fromEnvironment can only be used as a const constructor');
   }

   @patch
   int get hashCode => super.hashCode;
 }

 @patch
 class RegExp {
   @patch
   factory RegExp(String source,
           {bool multiLine: false, bool caseSensitive: true}) =>
       new JSSyntaxRegExp(source,
           multiLine: multiLine, caseSensitive: caseSensitive);
 }

 // Patch for 'identical' function.
 @patch
 bool identical(Object a, Object b) {
   return JS('bool', '(# == null ? # == null : # === #)', a, b, a, b);
 }

 @patch
 class StringBuffer {
   String _contents;

   @patch
   StringBuffer([Object content = ""]) : _contents = '$content';

   @patch
   int get length => _contents.length;

   @patch
   void write(Object obj) {
     _writeString('$obj');
   }

   @patch
   void writeCharCode(int charCode) {
     _writeString(new String.fromCharCode(charCode));
   }

   @patch
   void writeAll(Iterable objects, [String separator = ""]) {
     _contents = _writeAll(_contents, objects, separator);
   }

   @patch
   void writeln([Object obj = ""]) {
     _writeString('$obj\n');
   }

   @patch
   void clear() {
     _contents = "";
   }

   @patch
   String toString() => Primitives.flattenString(_contents);

   void _writeString(str) {
     _contents = Primitives.stringConcatUnchecked(_contents, str);
   }

   static String _writeAll(String string, Iterable objects, String separator) {
     Iterator iterator = objects.iterator;
     if (!iterator.moveNext()) return string;
     if (separator.isEmpty) {
       do {
         string = _writeOne(string, iterator.current);
       } while (iterator.moveNext());
     } else {
       string = _writeOne(string, iterator.current);
       while (iterator.moveNext()) {
         string = _writeOne(string, separator);
         string = _writeOne(string, iterator.current);
       }
     }
     return string;
   }

   static String _writeOne(String string, Object obj) {
     return Primitives.stringConcatUnchecked(string, '$obj');
   }
 }

 @patch
 class NoSuchMethodError {
   @patch
   NoSuchMethodError(Object receiver, Symbol memberName,
       List positionalArguments, Map<Symbol, dynamic> namedArguments,
       [List existingArgumentNames = null])
       : _receiver = receiver,
         _memberName = memberName,
         _arguments = positionalArguments,
         _namedArguments = namedArguments,
         _existingArgumentNames = existingArgumentNames;

   @patch
   String toString() {
     StringBuffer sb = new StringBuffer();
     int i = 0;
     if (_arguments != null) {
       for (; i < _arguments.length; i++) {
         if (i > 0) {
           sb.write(", ");
         }
         sb.write(Error.safeToString(_arguments[i]));
       }
     }
     if (_namedArguments != null) {
       _namedArguments.forEach((Symbol key, var value) {
         if (i > 0) {
           sb.write(", ");
         }
         sb.write(_symbolToString(key));
         sb.write(": ");
         sb.write(Error.safeToString(value));
         i++;
       });
     }
     if (_existingArgumentNames == null) {
       return "NoSuchMethodError : method not found: '$_memberName'\n"
           "Receiver: ${Error.safeToString(_receiver)}\n"
           "Arguments: [$sb]";
     } else {
       String actualParameters = sb.toString();
       sb = new StringBuffer();
       for (int i = 0; i < _existingArgumentNames.length; i++) {
         if (i > 0) {
           sb.write(", ");
         }
         sb.write(_existingArgumentNames[i]);
       }
       String formalParameters = sb.toString();
       return "NoSuchMethodError: incorrect number of arguments passed to "
           "method named '$_memberName'\n"
           "Receiver: ${Error.safeToString(_receiver)}\n"
           "Tried calling: $_memberName($actualParameters)\n"
           "Found: $_memberName($formalParameters)";
     }
   }
 }

 @patch
 class Uri {
   @patch
   static Uri get base {
     String uri = Primitives.currentUri();
     if (uri != null) return Uri.parse(uri);
     throw new UnsupportedError("'Uri.base' is not supported");
   }
 }

 @patch
 class _Uri {
   @patch
   static bool get _isWindows => false;

   // Matches a String that _uriEncodes to itself regardless of the kind of
   // component.  This corresponds to [_unreservedTable], i.e. characters that
   // are not encoded by any encoding table.
   static final RegExp _needsNoEncoding = new RegExp(r'^[\-\.0-9A-Z_a-z~]*$');

   /**
    * This is the internal implementation of JavaScript's encodeURI function.
    * It encodes all characters in the string [text] except for those
    * that appear in [canonicalTable], and returns the escaped string.
    */
   @patch
   static String _uriEncode(List<int> canonicalTable, String text,
       Encoding encoding, bool spaceToPlus) {
     if (identical(encoding, UTF8) && _needsNoEncoding.hasMatch(text)) {
       return text;
     }

     // Encode the string into bytes then generate an ASCII only string
     // by percent encoding selected bytes.
     StringBuffer result = new StringBuffer('');
     var bytes = encoding.encode(text);
     for (int i = 0; i < bytes.length; i++) {
       int byte = bytes[i];
       if (byte < 128 &&
           ((canonicalTable[byte >> 4] & (1 << (byte & 0x0f))) != 0)) {
         result.writeCharCode(byte);
       } else if (spaceToPlus && byte == _SPACE) {
         result.write('+');
       } else {
         const String hexDigits = '0123456789ABCDEF';
         result.write('%');
         result.write(hexDigits[(byte >> 4) & 0x0f]);
         result.write(hexDigits[byte & 0x0f]);
       }
     }
     return result.toString();
   }
 }

 @patch
 class StackTrace {
   @patch
   @NoInline()
   static StackTrace get current {
     return getTraceFromException(JS('', 'new Error()'));
   }
 }
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// Patch file for dart:core classes.
	import "dart:_internal" as _symbol_dev;
	import 'dart:_interceptors';
	import 'dart:_js_helper'
	show
	patch,
	checkInt,
	getRuntimeType,
	jsonEncodeNative,
	JsLinkedHashMap,
	JSSyntaxRegExp,
	Primitives,
	stringJoinUnchecked,
	objectHashCode,
	getTraceFromException;

	import 'dart:_foreign_helper' show JS;

	import 'dart:_native_typed_data' show NativeUint8List;

	String _symbolToString(Symbol symbol) => _symbol_dev.Symbol.getName(symbol);

	@patch
	int identityHashCode(Object object) => objectHashCode(object);

	// Patch for Object implementation.
	@patch
	class Object {
	@patch
	bool operator ==(other) => identical(this, other);

	@patch
	int get hashCode => Primitives.objectHashCode(this);

	@patch
	String toString() => Primitives.objectToString(this);

	@patch
	dynamic noSuchMethod(Invocation invocation) {
	throw new NoSuchMethodError(this, invocation.memberName,
	invocation.positionalArguments, invocation.namedArguments);
	}

	@patch
	Type get runtimeType =>
	JS('Type', 'dart.wrapType(dart.getReifiedType(#))', this);
	}

	@patch
	class Null {
	@patch
	int get hashCode => super.hashCode;
	}

	// Patch for Function implementation.
	@patch
	class Function {
	@patch
	static apply(Function f, List positionalArguments,
	[Map<Symbol, dynamic> namedArguments]) {
	positionalArguments ??= [];
	// dcall expects the namedArguments as a JS map in the last slot.
	if (namedArguments != null && namedArguments.isNotEmpty) {
	var map = JS('', '{}');
	namedArguments.forEach((symbol, arg) {
	JS('', '#[#] = #', map, _symbolToString(symbol), arg);
	});
	positionalArguments = new List.from(positionalArguments)..add(map);
	}
	return JS(
	'', 'dart.dcall.apply(null, [#].concat(#))', f, positionalArguments);
	}

	static Map<String, dynamic> _toMangledNames(
	Map<Symbol, dynamic> namedArguments) {
	Map<String, dynamic> result = {};
	namedArguments.forEach((symbol, value) {
	result[_symbolToString(symbol)] = value;
	});
	return result;
	}
	}

	// TODO(jmesserly): switch to WeakMap
	// Patch for Expando implementation.
	@patch
	class Expando<T> {
	@patch
	Expando([String name]) : this.name = name;

	@patch
	T operator [](Object object) {
	var values = Primitives.getProperty(object, _EXPANDO_PROPERTY_NAME);
	return (values == null) ? null : Primitives.getProperty(values, _getKey());
	}

	@patch
	void operator []=(Object object, T value) {
	var values = Primitives.getProperty(object, _EXPANDO_PROPERTY_NAME);
	if (values == null) {
	values = new Object();
	Primitives.setProperty(object, _EXPANDO_PROPERTY_NAME, values);
	}
	Primitives.setProperty(values, _getKey(), value);
	}

	String _getKey() {
	String key = Primitives.getProperty(this, _KEY_PROPERTY_NAME);
	if (key == null) {
	key = "expando\$key\$${_keyCount++}";
	Primitives.setProperty(this, _KEY_PROPERTY_NAME, key);
	}
	return key;
	}

	static const String _KEY_PROPERTY_NAME = 'expando\$key';
	static const String _EXPANDO_PROPERTY_NAME = 'expando\$values';
	static int _keyCount = 0;
	}

	@patch
	class int {
	@patch
	static int parse(String source, {int radix, int onError(String source)}) {
	return Primitives.parseInt(source, radix, onError);
	}

	@patch
	factory int.fromEnvironment(String name, {int defaultValue}) {
	throw new UnsupportedError(
	'int.fromEnvironment can only be used as a const constructor');
	}
	}

	@patch
	class double {
	@patch
	static double parse(String source, [double onError(String source)]) {
	return Primitives.parseDouble(source, onError);
	}
	}

	@patch
	class Error {
	@patch
	static String _objectToString(Object object) {
	return Primitives.objectToString(object);
	}

	@patch
	static String _stringToSafeString(String string) {
	return jsonEncodeNative(string);
	}

	@patch
	StackTrace get stackTrace => Primitives.extractStackTrace(this);
	}

	@patch
	class FallThroughError {
	@patch
	String toString() => super.toString();
	}

	@patch
	class AbstractClassInstantiationError {
	@patch
	String toString() => "Cannot instantiate abstract class: '$_className'";
	}

	/// An interface type for all Strong-mode errors.
	class StrongModeError extends Error {}

	// Patch for DateTime implementation.
	@patch
	class DateTime {
	@patch
	DateTime.fromMillisecondsSinceEpoch(int millisecondsSinceEpoch,
	{bool isUtc: false})
	: this._withValue(millisecondsSinceEpoch, isUtc: isUtc);

	@patch
	DateTime.fromMicrosecondsSinceEpoch(int microsecondsSinceEpoch,
	{bool isUtc: false})
	: this._withValue(
	_microsecondInRoundedMilliseconds(microsecondsSinceEpoch),
	isUtc: isUtc);

	@patch
	DateTime._internal(int year, int month, int day, int hour, int minute,
	int second, int millisecond, int microsecond, bool isUtc)
	// checkBool is manually inlined here because dart2js doesn't inline it
	// and [isUtc] is usually a constant.
	: this.isUtc = isUtc is bool
	? isUtc
	: throw new ArgumentError.value(isUtc, 'isUtc'),
	_value = checkInt(Primitives.valueFromDecomposedDate(
	year,
	month,
	day,
	hour,
	minute,
	second,
	millisecond + _microsecondInRoundedMilliseconds(microsecond),
	isUtc));

	@patch
	DateTime._now()
	: isUtc = false,
	_value = Primitives.dateNow();

	/// Rounds the given [microsecond] to the nearest milliseconds value.
	///
	/// For example, invoked with argument `2600` returns `3`.
	static int _microsecondInRoundedMilliseconds(int microsecond) {
	return (microsecond / 1000).round();
	}

	@patch
	static int _brokenDownDateToValue(int year, int month, int day, int hour,
	int minute, int second, int millisecond, int microsecond, bool isUtc) {
	return Primitives.valueFromDecomposedDate(
	year,
	month,
	day,
	hour,
	minute,
	second,
	millisecond + _microsecondInRoundedMilliseconds(microsecond),
	isUtc);
	}

	@patch
	String get timeZoneName {
	if (isUtc) return "UTC";
	return Primitives.getTimeZoneName(this);
	}

	@patch
	Duration get timeZoneOffset {
	if (isUtc) return new Duration();
	return new Duration(minutes: Primitives.getTimeZoneOffsetInMinutes(this));
	}

	@patch
	DateTime add(Duration duration) {
	return new DateTime._withValue(_value + duration.inMilliseconds,
	isUtc: isUtc);
	}

	@patch
	DateTime subtract(Duration duration) {
	return new DateTime._withValue(_value - duration.inMilliseconds,
	isUtc: isUtc);
	}

	@patch
	Duration difference(DateTime other) {
	return new Duration(milliseconds: _value - other._value);
	}

	@patch
	int get millisecondsSinceEpoch => _value;

	@patch
	int get microsecondsSinceEpoch => _value * 1000;

	@patch
	int get year => Primitives.getYear(this);

	@patch
	int get month => Primitives.getMonth(this);

	@patch
	int get day => Primitives.getDay(this);

	@patch
	int get hour => Primitives.getHours(this);

	@patch
	int get minute => Primitives.getMinutes(this);

	@patch
	int get second => Primitives.getSeconds(this);

	@patch
	int get millisecond => Primitives.getMilliseconds(this);

	@patch
	int get microsecond => 0;

	@patch
	int get weekday => Primitives.getWeekday(this);
	}

	// Patch for Stopwatch implementation.
	@patch
	class Stopwatch {
	@patch
	static void _initTicker() {
	Primitives.initTicker();
	_frequency = Primitives.timerFrequency;
	}

	@patch
	static int _now() => Primitives.timerTicks();
	}

	// Patch for List implementation.
	@patch
	class List<E> {
	@patch
	factory List([int length]) {
	dynamic list;
	if (length == null) {
	list = JS('', '[]');
	} else {
	// Explicit type test is necessary to guard against JavaScript conversions
	// in unchecked mode.
	if ((length is! int) \|\| (length < 0)) {
	throw new ArgumentError(
	"Length must be a non-negative integer: $length");
	}
	list = JSArray.markFixedList(JS('', 'new Array(#)', length));
	}
	return new JSArray<E>.typed(list);
	}

	@patch
	factory List.filled(int length, E fill) {
	List<E> result = new List<E>(length);
	if (length != 0 && fill != null) {
	for (int i = 0; i < result.length; i++) {
	result[i] = fill;
	}
	}
	return result;
	}

	@patch
	factory List.from(Iterable elements, {bool growable: true}) {
	List<E> list = new List<E>();
	for (var e in elements) {
	list.add(e);
	}
	if (growable) return list;
	return makeListFixedLength/<E>/(list);
	}

	@patch
	factory List.unmodifiable(Iterable elements) {
	var result = new List<E>.from(elements, growable: false);
	return makeFixedListUnmodifiable/<E>/(result);
	}
	}

	@patch
	class Map<K, V> {
	@patch
	factory Map.unmodifiable(Map other) {
	return new UnmodifiableMapView<K, V>(new Map<K, V>.from(other));
	}

	@patch
	factory Map() = JsLinkedHashMap<K, V>.es6;
	}

	@patch
	class String {
	@patch
	factory String.fromCharCodes(Iterable<int> charCodes,
	[int start = 0, int end]) {
	if (charCodes is JSArray) {
	return _stringFromJSArray(charCodes, start, end);
	}
	if (charCodes is NativeUint8List) {
	return _stringFromUint8List(charCodes, start, end);
	}
	return _stringFromIterable(charCodes, start, end);
	}

	@patch
	factory String.fromCharCode(int charCode) {
	return Primitives.stringFromCharCode(charCode);
	}

	@patch
	factory String.fromEnvironment(String name, {String defaultValue}) {
	throw new UnsupportedError(
	'String.fromEnvironment can only be used as a const constructor');
	}

	static String _stringFromJSArray(
	/=JSArray<int>/ list,
	int start,
	int endOrNull) {
	int len = list.length;
	int end = RangeError.checkValidRange(start, endOrNull, len);
	if (start > 0 \|\| end < len) {
	list = list.sublist(start, end);
	}
	return Primitives.stringFromCharCodes(list);
	}

	static String _stringFromUint8List(
	NativeUint8List charCodes, int start, int endOrNull) {
	int len = charCodes.length;
	int end = RangeError.checkValidRange(start, endOrNull, len);
	return Primitives.stringFromNativeUint8List(charCodes, start, end);
	}

	static String _stringFromIterable(
	Iterable<int> charCodes, int start, int end) {
	if (start < 0) throw new RangeError.range(start, 0, charCodes.length);
	if (end != null && end < start) {
	throw new RangeError.range(end, start, charCodes.length);
	}
	var it = charCodes.iterator;
	for (int i = 0; i < start; i++) {
	if (!it.moveNext()) {
	throw new RangeError.range(start, 0, i);
	}
	}
	var list = <int>[];
	if (end == null) {
	while (it.moveNext()) list.add(it.current);
	} else {
	for (int i = start; i < end; i++) {
	if (!it.moveNext()) {
	throw new RangeError.range(end, start, i);
	}
	list.add(it.current);
	}
	}
	return Primitives.stringFromCharCodes(list);
	}
	}

	@patch
	class bool {
	@patch
	factory bool.fromEnvironment(String name, {bool defaultValue: false}) {
	throw new UnsupportedError(
	'bool.fromEnvironment can only be used as a const constructor');
	}

	@patch
	int get hashCode => super.hashCode;
	}

	@patch
	class RegExp {
	@patch
	factory RegExp(String source,
	{bool multiLine: false, bool caseSensitive: true}) =>
	new JSSyntaxRegExp(source,
	multiLine: multiLine, caseSensitive: caseSensitive);
	}

	// Patch for 'identical' function.
	@patch
	bool identical(Object a, Object b) {
	return JS('bool', '(# == null ? # == null : # === #)', a, b, a, b);
	}

	@patch
	class StringBuffer {
	String _contents;

	@patch
	StringBuffer([Object content = ""]) : _contents = '$content';

	@patch
	int get length => _contents.length;

	@patch
	void write(Object obj) {
	_writeString('$obj');
	}

	@patch
	void writeCharCode(int charCode) {
	_writeString(new String.fromCharCode(charCode));
	}

	@patch
	void writeAll(Iterable objects, [String separator = ""]) {
	_contents = _writeAll(_contents, objects, separator);
	}

	@patch
	void writeln([Object obj = ""]) {
	_writeString('$obj\n');
	}

	@patch
	void clear() {
	_contents = "";
	}

	@patch
	String toString() => Primitives.flattenString(_contents);

	void _writeString(str) {
	_contents = Primitives.stringConcatUnchecked(_contents, str);
	}

	static String _writeAll(String string, Iterable objects, String separator) {
	Iterator iterator = objects.iterator;
	if (!iterator.moveNext()) return string;
	if (separator.isEmpty) {
	do {
	string = _writeOne(string, iterator.current);
	} while (iterator.moveNext());
	} else {
	string = _writeOne(string, iterator.current);
	while (iterator.moveNext()) {
	string = _writeOne(string, separator);
	string = _writeOne(string, iterator.current);
	}
	}
	return string;
	}

	static String _writeOne(String string, Object obj) {
	return Primitives.stringConcatUnchecked(string, '$obj');
	}
	}

	@patch
	class NoSuchMethodError {
	@patch
	NoSuchMethodError(Object receiver, Symbol memberName,
	List positionalArguments, Map<Symbol, dynamic> namedArguments,
	[List existingArgumentNames = null])
	: _receiver = receiver,
	_memberName = memberName,
	_arguments = positionalArguments,
	_namedArguments = namedArguments,
	_existingArgumentNames = existingArgumentNames;

	@patch
	String toString() {
	StringBuffer sb = new StringBuffer();
	int i = 0;
	if (_arguments != null) {
	for (; i < _arguments.length; i++) {
	if (i > 0) {
	sb.write(", ");
	}
	sb.write(Error.safeToString(_arguments[i]));
	}
	}
	if (_namedArguments != null) {
	_namedArguments.forEach((Symbol key, var value) {
	if (i > 0) {
	sb.write(", ");
	}
	sb.write(_symbolToString(key));
	sb.write(": ");
	sb.write(Error.safeToString(value));
	i++;
	});
	}
	if (_existingArgumentNames == null) {
	return "NoSuchMethodError : method not found: '$_memberName'\n"
	"Receiver: ${Error.safeToString(_receiver)}\n"
	"Arguments: [$sb]";
	} else {
	String actualParameters = sb.toString();
	sb = new StringBuffer();
	for (int i = 0; i < _existingArgumentNames.length; i++) {
	if (i > 0) {
	sb.write(", ");
	}
	sb.write(_existingArgumentNames[i]);
	}
	String formalParameters = sb.toString();
	return "NoSuchMethodError: incorrect number of arguments passed to "
	"method named '$_memberName'\n"
	"Receiver: ${Error.safeToString(_receiver)}\n"
	"Tried calling: $_memberName($actualParameters)\n"
	"Found: $_memberName($formalParameters)";
	}
	}
	}

	@patch
	class Uri {
	@patch
	static Uri get base {
	String uri = Primitives.currentUri();
	if (uri != null) return Uri.parse(uri);
	throw new UnsupportedError("'Uri.base' is not supported");
	}
	}

	@patch
	class _Uri {
	@patch
	static bool get _isWindows => false;

	// Matches a String that _uriEncodes to itself regardless of the kind of
	// component. This corresponds to [_unreservedTable], i.e. characters that
	// are not encoded by any encoding table.
	static final RegExp _needsNoEncoding = new RegExp(r'^[\-\.0-9A-Z_a-z~]*$');

	/**
	* This is the internal implementation of JavaScript's encodeURI function.
	* It encodes all characters in the string [text] except for those
	* that appear in [canonicalTable], and returns the escaped string.
	*/
	@patch
	static String _uriEncode(List<int> canonicalTable, String text,
	Encoding encoding, bool spaceToPlus) {
	if (identical(encoding, UTF8) && _needsNoEncoding.hasMatch(text)) {
	return text;
	}

	// Encode the string into bytes then generate an ASCII only string
	// by percent encoding selected bytes.
	StringBuffer result = new StringBuffer('');
	var bytes = encoding.encode(text);
	for (int i = 0; i < bytes.length; i++) {
	int byte = bytes[i];
	if (byte < 128 &&
	((canonicalTable[byte >> 4] & (1 << (byte & 0x0f))) != 0)) {
	result.writeCharCode(byte);
	} else if (spaceToPlus && byte == _SPACE) {
	result.write('+');
	} else {
	const String hexDigits = '0123456789ABCDEF';
	result.write('%');
	result.write(hexDigits[(byte >> 4) & 0x0f]);
	result.write(hexDigits[byte & 0x0f]);
	}
	}
	return result.toString();
	}
	}

	@patch
	class StackTrace {
	@patch
	@NoInline()
	static StackTrace get current {
	return getTraceFromException(JS('', 'new Error()'));
	}
	}