Move js library back into compiler directory.

sdk/lib/_internal/lib/native_typed_data.dart

Index: sdk/lib/_internal/lib/native_typed_data.dart
diff --git a/sdk/lib/_internal/lib/native_typed_data.dart b/sdk/lib/_internal/lib/native_typed_data.dart
deleted file mode 100644
index f1ebae51ff48fbcc88720d568957579bddd54366..0000000000000000000000000000000000000000
--- a/sdk/lib/_internal/lib/native_typed_data.dart
+++ /dev/null
@@ -1,1993 +0,0 @@
-// Copyright (c) 2013, 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.
-
-/**
- * Specialized integers and floating point numbers,
- * with SIMD support and efficient lists.
- */
-library dart.typed_data.implementation;
-
-import 'dart:collection';
-import 'dart:_internal';
-import 'dart:_interceptors' show JSIndexable, JSUInt32, JSUInt31;
-import 'dart:_js_helper'
-show Creates, JavaScriptIndexingBehavior, JSName, Native, Null, Returns;
-import 'dart:_foreign_helper' show JS;
-import 'dart:math' as Math;
-
-import 'dart:typed_data';
-
-@Native("ArrayBuffer")
-class NativeByteBuffer implements ByteBuffer {
-  @JSName('byteLength')
-  final int lengthInBytes;
-
-  Type get runtimeType => ByteBuffer;
-
-  Uint8List asUint8List([int offsetInBytes = 0, int length]) {
-    return new NativeUint8List.view(this, offsetInBytes, length);
-  }
-
-  Int8List asInt8List([int offsetInBytes = 0, int length]) {
-    return new NativeInt8List.view(this, offsetInBytes, length);
-  }
-
-  Uint8ClampedList asUint8ClampedList([int offsetInBytes = 0, int length]) {
-    return new NativeUint8ClampedList.view(this, offsetInBytes, length);
-  }
-
-  Uint16List asUint16List([int offsetInBytes = 0, int length]) {
-    return new NativeUint16List.view(this, offsetInBytes, length);
-  }
-  Int16List asInt16List([int offsetInBytes = 0, int length]) {
-    return new NativeInt16List.view(this, offsetInBytes, length);
-  }
-
-  Uint32List asUint32List([int offsetInBytes = 0, int length]) {
-    return new NativeUint32List.view(this, offsetInBytes, length);
-  }
-
-  Int32List asInt32List([int offsetInBytes = 0, int length]) {
-    return new NativeInt32List.view(this, offsetInBytes, length);
-  }
-
-  Uint64List asUint64List([int offsetInBytes = 0, int length]) {
-    throw new UnsupportedError("Uint64List not supported by dart2js.");
-  }
-
-  Int64List asInt64List([int offsetInBytes = 0, int length]) {
-    throw new UnsupportedError("Int64List not supported by dart2js.");
-  }
-
-  Int32x4List asInt32x4List([int offsetInBytes = 0, int length]) {
-    NativeInt32List storage =
-        this.asInt32List(offsetInBytes, length != null ? length * 4 : null);
-    return new NativeInt32x4List._externalStorage(storage);
-  }
-
-  Float32List asFloat32List([int offsetInBytes = 0, int length]) {
-    return new NativeFloat32List.view(this, offsetInBytes, length);
-  }
-
-  Float64List asFloat64List([int offsetInBytes = 0, int length]) {
-    return new NativeFloat64List.view(this, offsetInBytes, length);
-  }
-
-  Float32x4List asFloat32x4List([int offsetInBytes = 0, int length]) {
-    NativeFloat32List storage =
-        this.asFloat32List(offsetInBytes, length != null ? length * 4 : null);
-    return new NativeFloat32x4List._externalStorage(storage);
-  }
-
-  Float64x2List asFloat64x2List([int offsetInBytes = 0, int length]) {
-    NativeFloat64List storage =
-        this.asFloat64List(offsetInBytes, length != null ? length * 2 : null);
-    return new NativeFloat64x2List._externalStorage(storage);
-  }
-
-  ByteData asByteData([int offsetInBytes = 0, int length]) {
-    return new NativeByteData.view(this, offsetInBytes, length);
-  }
-}
-
-
-
-/**
- * A fixed-length list of Float32x4 numbers that is viewable as a
- * [TypedData]. For long lists, this implementation will be considerably more
- * space- and time-efficient than the default [List] implementation.
- */
-class NativeFloat32x4List
-    extends Object with ListMixin<Float32x4>, FixedLengthListMixin<Float32x4>
-    implements Float32x4List {
-
-  final NativeFloat32List _storage;
-
-  /**
-   * Creates a [Float32x4List] of the specified length (in elements),
-   * all of whose elements are initially zero.
-   */
-  NativeFloat32x4List(int length)
-      : _storage = new NativeFloat32List(length * 4);
-
-  NativeFloat32x4List._externalStorage(this._storage);
-
-  NativeFloat32x4List._slowFromList(List<Float32x4> list)
-      : _storage = new NativeFloat32List(list.length * 4) {
-    for (int i = 0; i < list.length; i++) {
-      var e = list[i];
-      _storage[(i * 4) + 0] = e.x;
-      _storage[(i * 4) + 1] = e.y;
-      _storage[(i * 4) + 2] = e.z;
-      _storage[(i * 4) + 3] = e.w;
-    }
-  }
-
-  Type get runtimeType => Float32x4List;
-
-  /**
-   * Creates a [Float32x4List] with the same size as the [elements] list
-   * and copies over the elements.
-   */
-  factory NativeFloat32x4List.fromList(List<Float32x4> list) {
-    if (list is NativeFloat32x4List) {
-      return new NativeFloat32x4List._externalStorage(
-          new NativeFloat32List.fromList(list._storage));
-    } else {
-      return new NativeFloat32x4List._slowFromList(list);
-    }
-  }
-
-  ByteBuffer get buffer => _storage.buffer;
-
-  int get lengthInBytes => _storage.lengthInBytes;
-
-  int get offsetInBytes => _storage.offsetInBytes;
-
-  int get elementSizeInBytes => Float32x4List.BYTES_PER_ELEMENT;
-
-  void _invalidIndex(int index, int length) {
-    if (index < 0 || index >= length) {
-      throw new RangeError.range(index, 0, length);
-    } else {
-      throw new ArgumentError('Invalid list index $index');
-    }
-  }
-
-  void _checkIndex(int index, int length) {
-    if (JS('bool', '(# >>> 0 != #)', index, index) || index >= length) {
-      _invalidIndex(index, length);
-    }
-  }
-
-  int _checkSublistArguments(int start, int end, int length) {
-    // For `sublist` the [start] and [end] indices are allowed to be equal to
-    // [length]. However, [_checkIndex] only allows indices in the range
-    // 0 .. length - 1. We therefore increment the [length] argument by one
-    // for the [_checkIndex] checks.
-    _checkIndex(start, length + 1);
-    if (end == null) return length;
-    _checkIndex(end, length + 1);
-    if (start > end) throw new RangeError.range(start, 0, end);
-    return end;
-  }
-
-  int get length => _storage.length ~/ 4;
-
-  Float32x4 operator[](int index) {
-    _checkIndex(index, length);
-    double _x = _storage[(index * 4) + 0];
-    double _y = _storage[(index * 4) + 1];
-    double _z = _storage[(index * 4) + 2];
-    double _w = _storage[(index * 4) + 3];
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  void operator[]=(int index, Float32x4 value) {
-    _checkIndex(index, length);
-    _storage[(index * 4) + 0] = value.x;
-    _storage[(index * 4) + 1] = value.y;
-    _storage[(index * 4) + 2] = value.z;
-    _storage[(index * 4) + 3] = value.w;
-  }
-
-  List<Float32x4> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    return new NativeFloat32x4List._externalStorage(
-        _storage.sublist(start * 4, end * 4));
-  }
-}
-
-
-/**
- * A fixed-length list of Int32x4 numbers that is viewable as a
- * [TypedData]. For long lists, this implementation will be considerably more
- * space- and time-efficient than the default [List] implementation.
- */
-class NativeInt32x4List
-    extends Object with ListMixin<Int32x4>, FixedLengthListMixin<Int32x4>
-    implements Int32x4List {
-
-  final Int32List _storage;
-
-  /**
-   * Creates a [Int32x4List] of the specified length (in elements),
-   * all of whose elements are initially zero.
-   */
-  NativeInt32x4List(int length) : _storage = new NativeInt32List(length * 4);
-
-  NativeInt32x4List._externalStorage(Int32List storage) : _storage = storage;
-
-  NativeInt32x4List._slowFromList(List<Int32x4> list)
-      : _storage = new NativeInt32List(list.length * 4) {
-    for (int i = 0; i < list.length; i++) {
-      var e = list[i];
-      _storage[(i * 4) + 0] = e.x;
-      _storage[(i * 4) + 1] = e.y;
-      _storage[(i * 4) + 2] = e.z;
-      _storage[(i * 4) + 3] = e.w;
-    }
-  }
-
-  Type get runtimeType => Int32x4List;
-
-  /**
-   * Creates a [Int32x4List] with the same size as the [elements] list
-   * and copies over the elements.
-   */
-  factory NativeInt32x4List.fromList(List<Int32x4> list) {
-    if (list is NativeInt32x4List) {
-      return new NativeInt32x4List._externalStorage(
-          new NativeInt32List.fromList(list._storage));
-    } else {
-      return new NativeInt32x4List._slowFromList(list);
-    }
-  }
-
-  ByteBuffer get buffer => _storage.buffer;
-
-  int get lengthInBytes => _storage.lengthInBytes;
-
-  int get offsetInBytes => _storage.offsetInBytes;
-
-  int get elementSizeInBytes => Int32x4List.BYTES_PER_ELEMENT;
-
-  void _invalidIndex(int index, int length) {
-    if (index < 0 || index >= length) {
-      throw new RangeError.range(index, 0, length);
-    } else {
-      throw new ArgumentError('Invalid list index $index');
-    }
-  }
-
-  void _checkIndex(int index, int length) {
-    if (JS('bool', '(# >>> 0 != #)', index, index)
-        || JS('bool', '# >= #', index, length)) {
-      _invalidIndex(index, length);
-    }
-  }
-
-  int _checkSublistArguments(int start, int end, int length) {
-    // For `sublist` the [start] and [end] indices are allowed to be equal to
-    // [length]. However, [_checkIndex] only allows indices in the range
-    // 0 .. length - 1. We therefore increment the [length] argument by one
-    // for the [_checkIndex] checks.
-    _checkIndex(start, length + 1);
-    if (end == null) return length;
-    _checkIndex(end, length + 1);
-    if (start > end) throw new RangeError.range(start, 0, end);
-    return end;
-  }
-
-  int get length => _storage.length ~/ 4;
-
-  Int32x4 operator[](int index) {
-    _checkIndex(index, length);
-    int _x = _storage[(index * 4) + 0];
-    int _y = _storage[(index * 4) + 1];
-    int _z = _storage[(index * 4) + 2];
-    int _w = _storage[(index * 4) + 3];
-    return new NativeInt32x4._truncated(_x, _y, _z, _w);
-  }
-
-  void operator[]=(int index, Int32x4 value) {
-    _checkIndex(index, length);
-    _storage[(index * 4) + 0] = value.x;
-    _storage[(index * 4) + 1] = value.y;
-    _storage[(index * 4) + 2] = value.z;
-    _storage[(index * 4) + 3] = value.w;
-  }
-
-  List<Int32x4> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    return new NativeInt32x4List._externalStorage(
-        _storage.sublist(start * 4, end * 4));
-  }
-}
-
-
-/**
- * A fixed-length list of Float64x2 numbers that is viewable as a
- * [TypedData]. For long lists, this implementation will be considerably more
- * space- and time-efficient than the default [List] implementation.
- */
-class NativeFloat64x2List
-    extends Object with ListMixin<Float64x2>, FixedLengthListMixin<Float64x2>
-    implements Float64x2List {
-
-  final NativeFloat64List _storage;
-
-  /**
-   * Creates a [Float64x2List] of the specified length (in elements),
-   * all of whose elements are initially zero.
-   */
-  NativeFloat64x2List(int length)
-      : _storage = new NativeFloat64List(length * 2);
-
-  NativeFloat64x2List._externalStorage(this._storage);
-
-  NativeFloat64x2List._slowFromList(List<Float64x2> list)
-      : _storage = new NativeFloat64List(list.length * 2) {
-    for (int i = 0; i < list.length; i++) {
-      var e = list[i];
-      _storage[(i * 2) + 0] = e.x;
-      _storage[(i * 2) + 1] = e.y;
-    }
-  }
-
-  /**
-   * Creates a [Float64x2List] with the same size as the [elements] list
-   * and copies over the elements.
-   */
-  factory NativeFloat64x2List.fromList(List<Float64x2> list) {
-    if (list is NativeFloat64x2List) {
-      return new NativeFloat64x2List._externalStorage(
-          new NativeFloat64List.fromList(list._storage));
-    } else {
-      return new NativeFloat64x2List._slowFromList(list);
-    }
-  }
-
-  Type get runtimeType => Float64x2List;
-
-  ByteBuffer get buffer => _storage.buffer;
-
-  int get lengthInBytes => _storage.lengthInBytes;
-
-  int get offsetInBytes => _storage.offsetInBytes;
-
-  int get elementSizeInBytes => Float64x2List.BYTES_PER_ELEMENT;
-
-  void _invalidIndex(int index, int length) {
-    if (index < 0 || index >= length) {
-      throw new RangeError.range(index, 0, length);
-    } else {
-      throw new ArgumentError('Invalid list index $index');
-    }
-  }
-
-  void _checkIndex(int index, int length) {
-    if (JS('bool', '(# >>> 0 != #)', index, index) || index >= length) {
-      _invalidIndex(index, length);
-    }
-  }
-
-  int _checkSublistArguments(int start, int end, int length) {
-    // For `sublist` the [start] and [end] indices are allowed to be equal to
-    // [length]. However, [_checkIndex] only allows indices in the range
-    // 0 .. length - 1. We therefore increment the [length] argument by one
-    // for the [_checkIndex] checks.
-    _checkIndex(start, length + 1);
-    if (end == null) return length;
-    _checkIndex(end, length + 1);
-    if (start > end) throw new RangeError.range(start, 0, end);
-    return end;
-  }
-
-  int get length => _storage.length ~/ 2;
-
-  Float64x2 operator[](int index) {
-    _checkIndex(index, length);
-    double _x = _storage[(index * 2) + 0];
-    double _y = _storage[(index * 2) + 1];
-    return new Float64x2(_x, _y);
-  }
-
-  void operator[]=(int index, Float64x2 value) {
-    _checkIndex(index, length);
-    _storage[(index * 2) + 0] = value.x;
-    _storage[(index * 2) + 1] = value.y;
-  }
-
-  List<Float64x2> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    return new NativeFloat64x2List._externalStorage(
-        _storage.sublist(start * 2, end * 2));
-  }
-}
-
-@Native("ArrayBufferView")
-class NativeTypedData implements TypedData {
-  /**
-   * Returns the byte buffer associated with this object.
-   */
-  @Creates('NativeByteBuffer')
-  // May be Null for IE's CanvasPixelArray.
-  @Returns('NativeByteBuffer|Null')
-  final ByteBuffer buffer;
-
-  /**
-   * Returns the length of this view, in bytes.
-   */
-  @JSName('byteLength')
-  final int lengthInBytes;
-
-  /**
-   * Returns the offset in bytes into the underlying byte buffer of this view.
-   */
-  @JSName('byteOffset')
-  final int offsetInBytes;
-
-  /**
-   * Returns the number of bytes in the representation of each element in this
-   * list.
-   */
-  @JSName('BYTES_PER_ELEMENT')
-  final int elementSizeInBytes;
-
-  void _invalidIndex(int index, int length) {
-    if (index < 0 || index >= length) {
-      throw new RangeError.range(index, 0, length);
-    } else {
-      throw new ArgumentError('Invalid list index $index');
-    }
-  }
-
-  void _checkIndex(int index, int length) {
-    if (JS('bool', '(# >>> 0) !== #', index, index) ||
-        JS('int', '#', index) >= length) {  // 'int' guaranteed by above test.
-      _invalidIndex(index, length);
-    }
-  }
-
-  int _checkSublistArguments(int start, int end, int length) {
-    // For `sublist` the [start] and [end] indices are allowed to be equal to
-    // [length]. However, [_checkIndex] only allows indices in the range
-    // 0 .. length - 1. We therefore increment the [length] argument by one
-    // for the [_checkIndex] checks.
-    _checkIndex(start, length + 1);
-    if (end == null) return length;
-    _checkIndex(end, length + 1);
-    if (start > end) throw new RangeError.range(start, 0, end);
-    return end;
-  }
-}
-
-
-// Validates the unnamed constructor length argument.  Checking is necessary
-// because passing unvalidated values to the native constructors can cause
-// conversions or create views.
-int _checkLength(length) {
-  if (length is! int) throw new ArgumentError('Invalid length $length');
-  return length;
-}
-
-// Validates `.view` constructor arguments.  Checking is necessary because
-// passing unvalidated values to the native constructors can cause conversions
-// (e.g. String arguments) or create typed data objects that are not actually
-// views of the input.
-void _checkViewArguments(buffer, offsetInBytes, length) {
-  if (buffer is! NativeByteBuffer) {
-    throw new ArgumentError('Invalid view buffer');
-  }
-  if (offsetInBytes is! int) {
-    throw new ArgumentError('Invalid view offsetInBytes $offsetInBytes');
-  }
-  if (length != null && length is! int) {
-    throw new ArgumentError('Invalid view length $length');
-  }
-}
-
-// Ensures that [list] is a JavaScript Array or a typed array.  If necessary,
-// returns a copy of the list.
-List _ensureNativeList(List list) {
-  if (list is JSIndexable) return list;
-  List result = new List(list.length);
-  for (int i = 0; i < list.length; i++) {
-    result[i] = list[i];
-  }
-  return result;
-}
-
-
-@Native("DataView")
-class NativeByteData extends NativeTypedData implements ByteData {
-  /**
-   * Creates a [ByteData] of the specified length (in elements), all of
-   * whose elements are initially zero.
-   */
-  factory NativeByteData(int length) => _create1(_checkLength(length));
-
-  /**
-   * Creates an [ByteData] _view_ of the specified region in the specified
-   * byte buffer. Changes in the [ByteData] will be visible in the byte
-   * buffer and vice versa. If the [offsetInBytes] index of the region is not
-   * specified, it defaults to zero (the first byte in the byte buffer).
-   * If the length is not specified, it defaults to null, which indicates
-   * that the view extends to the end of the byte buffer.
-   *
-   * Throws [RangeError] if [offsetInBytes] or [length] are negative, or
-   * if [offsetInBytes] + ([length] * elementSizeInBytes) is greater than
-   * the length of [buffer].
-   */
-  factory NativeByteData.view(ByteBuffer buffer,
-                              int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => ByteData;
-
-  int get elementSizeInBytes => 1;
-
-  /**
-   * Returns the floating point number represented by the four bytes at
-   * the specified [byteOffset] in this object, in IEEE 754
-   * single-precision binary floating-point format (binary32).
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  num getFloat32(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getFloat32(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getFloat32')
-  @Returns('num')
-  num _getFloat32(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the floating point number represented by the eight bytes at
-   * the specified [byteOffset] in this object, in IEEE 754
-   * double-precision binary floating-point format (binary64).
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  num getFloat64(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getFloat64(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getFloat64')
-  @Returns('num')
-  num _getFloat64(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the (possibly negative) integer represented by the two bytes at
-   * the specified [byteOffset] in this object, in two's complement binary
-   * form.
-   * The return value will be between 2<sup>15</sup> and 2<sup>15</sup> - 1,
-   * inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 2` is greater than the length of this object.
-   */
-  int getInt16(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getInt16(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getInt16')
-  @Returns('int')
-  int _getInt16(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the (possibly negative) integer represented by the four bytes at
-   * the specified [byteOffset] in this object, in two's complement binary
-   * form.
-   * The return value will be between 2<sup>31</sup> and 2<sup>31</sup> - 1,
-   * inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  int getInt32(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getInt32(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getInt32')
-  @Returns('int')
-  int _getInt32(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the (possibly negative) integer represented by the eight bytes at
-   * the specified [byteOffset] in this object, in two's complement binary
-   * form.
-   * The return value will be between 2<sup>63</sup> and 2<sup>63</sup> - 1,
-   * inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  int getInt64(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) {
-    throw new UnsupportedError('Int64 accessor not supported by dart2js.');
-  }
-
-  /**
-   * Returns the (possibly negative) integer represented by the byte at the
-   * specified [byteOffset] in this object, in two's complement binary
-   * representation. The return value will be between -128 and 127, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * greater than or equal to the length of this object.
-   */
-  int getInt8(int byteOffset) native;
-
-  /**
-   * Returns the positive integer represented by the two bytes starting
-   * at the specified [byteOffset] in this object, in unsigned binary
-   * form.
-   * The return value will be between 0 and  2<sup>16</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 2` is greater than the length of this object.
-   */
-  int getUint16(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getUint16(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getUint16')
-  @Returns('JSUInt31')
-  int _getUint16(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the positive integer represented by the four bytes starting
-   * at the specified [byteOffset] in this object, in unsigned binary
-   * form.
-   * The return value will be between 0 and  2<sup>32</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  int getUint32(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _getUint32(byteOffset, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('getUint32')
-  @Returns('JSUInt32')
-  int _getUint32(int byteOffset, [bool littleEndian]) native;
-
-  /**
-   * Returns the positive integer represented by the eight bytes starting
-   * at the specified [byteOffset] in this object, in unsigned binary
-   * form.
-   * The return value will be between 0 and  2<sup>64</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  int getUint64(int byteOffset, [Endianness endian=Endianness.BIG_ENDIAN]) {
-    throw new UnsupportedError('Uint64 accessor not supported by dart2js.');
-  }
-
-  /**
-   * Returns the positive integer represented by the byte at the specified
-   * [byteOffset] in this object, in unsigned binary form. The
-   * return value will be between 0 and 255, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * greater than or equal to the length of this object.
-   */
-  int getUint8(int byteOffset) native;
-
-  /**
-   * Sets the four bytes starting at the specified [byteOffset] in this
-   * object to the IEEE 754 single-precision binary floating-point
-   * (binary32) representation of the specified [value].
-   *
-   * **Note that this method can lose precision.** The input [value] is
-   * a 64-bit floating point value, which will be converted to 32-bit
-   * floating point value by IEEE 754 rounding rules before it is stored.
-   * If [value] cannot be represented exactly as a binary32, it will be
-   * converted to the nearest binary32 value.  If two binary32 values are
-   * equally close, the one whose least significant bit is zero will be used.
-   * Note that finite (but large) values can be converted to infinity, and
-   * small non-zero values can be converted to zero.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  void setFloat32(int byteOffset, num value,
-                  [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setFloat32(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setFloat32')
-  void _setFloat32(int byteOffset, num value, [bool littleEndian]) native;
-
-  /**
-   * Sets the eight bytes starting at the specified [byteOffset] in this
-   * object to the IEEE 754 double-precision binary floating-point
-   * (binary64) representation of the specified [value].
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  void setFloat64(int byteOffset, num value,
-                  [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setFloat64(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setFloat64')
-  void _setFloat64(int byteOffset, num value, [bool littleEndian]) native;
-
-  /**
-   * Sets the two bytes starting at the specified [byteOffset] in this
-   * object to the two's complement binary representation of the specified
-   * [value], which must fit in two bytes. In other words, [value] must lie
-   * between 2<sup>15</sup> and 2<sup>15</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 2` is greater than the length of this object.
-   */
-  void setInt16(int byteOffset, int value,
-                [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setInt16(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setInt16')
-  void _setInt16(int byteOffset, int value, [bool littleEndian]) native;
-
-  /**
-   * Sets the four bytes starting at the specified [byteOffset] in this
-   * object to the two's complement binary representation of the specified
-   * [value], which must fit in four bytes. In other words, [value] must lie
-   * between 2<sup>31</sup> and 2<sup>31</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  void setInt32(int byteOffset, int value,
-                [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setInt32(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setInt32')
-  void _setInt32(int byteOffset, int value, [bool littleEndian]) native;
-
-  /**
-   * Sets the eight bytes starting at the specified [byteOffset] in this
-   * object to the two's complement binary representation of the specified
-   * [value], which must fit in eight bytes. In other words, [value] must lie
-   * between 2<sup>63</sup> and 2<sup>63</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  void setInt64(int byteOffset, int value,
-                [Endianness endian=Endianness.BIG_ENDIAN]) {
-    throw new UnsupportedError('Int64 accessor not supported by dart2js.');
-  }
-
-  /**
-   * Sets the byte at the specified [byteOffset] in this object to the
-   * two's complement binary representation of the specified [value], which
-   * must fit in a single byte. In other words, [value] must be between
-   * -128 and 127, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * greater than or equal to the length of this object.
-   */
-  void setInt8(int byteOffset, int value) native;
-
-  /**
-   * Sets the two bytes starting at the specified [byteOffset] in this object
-   * to the unsigned binary representation of the specified [value],
-   * which must fit in two bytes. in other words, [value] must be between
-   * 0 and 2<sup>16</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 2` is greater than the length of this object.
-   */
-  void setUint16(int byteOffset, int value,
-                 [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setUint16(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setUint16')
-  void _setUint16(int byteOffset, int value, [bool littleEndian]) native;
-
-  /**
-   * Sets the four bytes starting at the specified [byteOffset] in this object
-   * to the unsigned binary representation of the specified [value],
-   * which must fit in four bytes. in other words, [value] must be between
-   * 0 and 2<sup>32</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 4` is greater than the length of this object.
-   */
-  void setUint32(int byteOffset, int value,
-                 [Endianness endian=Endianness.BIG_ENDIAN]) =>
-      _setUint32(byteOffset, value, Endianness.LITTLE_ENDIAN == endian);
-
-  @JSName('setUint32')
-  void _setUint32(int byteOffset, int value, [bool littleEndian]) native;
-
-  /**
-   * Sets the eight bytes starting at the specified [byteOffset] in this object
-   * to the unsigned binary representation of the specified [value],
-   * which must fit in eight bytes. in other words, [value] must be between
-   * 0 and 2<sup>64</sup> - 1, inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative, or
-   * `byteOffset + 8` is greater than the length of this object.
-   */
-  void setUint64(int byteOffset, int value,
-                 [Endianness endian=Endianness.BIG_ENDIAN]) {
-    throw new UnsupportedError('Uint64 accessor not supported by dart2js.');
-  }
-
-  /**
-   * Sets the byte at the specified [byteOffset] in this object to the
-   * unsigned binary representation of the specified [value], which must fit
-   * in a single byte. in other words, [value] must be between 0 and 255,
-   * inclusive.
-   *
-   * Throws [RangeError] if [byteOffset] is negative,
-   * or greater than or equal to the length of this object.
-   */
-  void setUint8(int byteOffset, int value) native;
-
-  static NativeByteData _create1(arg) =>
-      JS('NativeByteData', 'new DataView(new ArrayBuffer(#))', arg);
-
-  static NativeByteData _create2(arg1, arg2) =>
-      JS('NativeByteData', 'new DataView(#, #)', arg1, arg2);
-
-  static NativeByteData _create3(arg1, arg2, arg3) =>
-      JS('NativeByteData', 'new DataView(#, #, #)', arg1, arg2, arg3);
-}
-
-
-abstract class NativeTypedArray extends NativeTypedData
-    implements JavaScriptIndexingBehavior {
-  int get length => JS('JSUInt32', '#.length', this);
-
-  void _setRangeFast(int start, int end,
-      NativeTypedArray source, int skipCount) {
-    int targetLength = this.length;
-    _checkIndex(start, targetLength + 1);
-    _checkIndex(end, targetLength + 1);
-    if (start > end) throw new RangeError.range(start, 0, end);
-    int count = end - start;
-
-    if (skipCount < 0) throw new ArgumentError(skipCount);
-
-    int sourceLength = source.length;
-    if (sourceLength - skipCount < count)  {
-      throw new StateError('Not enough elements');
-    }
-
-    if (skipCount != 0 || sourceLength != count) {
-      // Create a view of the exact subrange that is copied from the source.
-      source = JS('', '#.subarray(#, #)',
-          source, skipCount, skipCount + count);
-    }
-    JS('void', '#.set(#, #)', this, source, start);
-  }
-}
-
-abstract class NativeTypedArrayOfDouble
-    extends NativeTypedArray
-        with ListMixin<double>, FixedLengthListMixin<double> {
-
-  num operator[](int index) {
-    _checkIndex(index, length);
-    return JS('num', '#[#]', this, index);
-  }
-
-  void operator[]=(int index, num value) {
-    _checkIndex(index, length);
-    JS('void', '#[#] = #', this, index, value);
-  }
-
-  void setRange(int start, int end, Iterable<double> iterable,
-                [int skipCount = 0]) {
-    if (iterable is NativeTypedArrayOfDouble) {
-      _setRangeFast(start, end, iterable, skipCount);
-      return;
-    }
-    super.setRange(start, end, iterable, skipCount);
-  }
-}
-
-abstract class NativeTypedArrayOfInt
-    extends NativeTypedArray
-        with ListMixin<int>, FixedLengthListMixin<int>
-    implements List<int> {
-
-  // operator[]() is not here since different versions have different return
-  // types
-
-  void operator[]=(int index, int value) {
-    _checkIndex(index, length);
-    JS('void', '#[#] = #', this, index, value);
-  }
-
-  void setRange(int start, int end, Iterable<int> iterable,
-                [int skipCount = 0]) {
-    if (iterable is NativeTypedArrayOfInt) {
-      _setRangeFast(start, end, iterable, skipCount);
-      return;
-    }
-    super.setRange(start, end, iterable, skipCount);
-  }
-}
-
-
-@Native("Float32Array")
-class NativeFloat32List
-    extends NativeTypedArrayOfDouble
-    implements Float32List {
-
-  factory NativeFloat32List(int length) => _create1(_checkLength(length));
-
-  factory NativeFloat32List.fromList(List<double> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeFloat32List.view(ByteBuffer buffer,
-                                 int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Float32List;
-
-  List<double> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeFloat32List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeFloat32List _create1(arg) =>
-      JS('NativeFloat32List', 'new Float32Array(#)', arg);
-
-  static NativeFloat32List _create2(arg1, arg2) =>
-      JS('NativeFloat32List', 'new Float32Array(#, #)', arg1, arg2);
-
-  static NativeFloat32List _create3(arg1, arg2, arg3) =>
-      JS('NativeFloat32List', 'new Float32Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Float64Array")
-class NativeFloat64List
-    extends NativeTypedArrayOfDouble
-    implements Float64List {
-
-  factory NativeFloat64List(int length) => _create1(_checkLength(length));
-
-  factory NativeFloat64List.fromList(List<double> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeFloat64List.view(ByteBuffer buffer,
-                                 int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Float64List;
-
-  List<double> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeFloat64List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeFloat64List _create1(arg) =>
-      JS('NativeFloat64List', 'new Float64Array(#)', arg);
-
-  static NativeFloat64List _create2(arg1, arg2) =>
-      JS('NativeFloat64List', 'new Float64Array(#, #)', arg1, arg2);
-
-  static NativeFloat64List _create3(arg1, arg2, arg3) =>
-      JS('NativeFloat64List', 'new Float64Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Int16Array")
-class NativeInt16List
-    extends NativeTypedArrayOfInt
-    implements Int16List {
-
-  factory NativeInt16List(int length) => _create1(_checkLength(length));
-
-  factory NativeInt16List.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeInt16List.view(NativeByteBuffer buffer,
-                               int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Int16List;
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('int', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeInt16List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeInt16List _create1(arg) =>
-      JS('NativeInt16List', 'new Int16Array(#)', arg);
-
-  static NativeInt16List _create2(arg1, arg2) =>
-      JS('NativeInt16List', 'new Int16Array(#, #)', arg1, arg2);
-
-  static NativeInt16List _create3(arg1, arg2, arg3) =>
-      JS('NativeInt16List', 'new Int16Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Int32Array")
-class NativeInt32List extends NativeTypedArrayOfInt implements Int32List {
-
-  factory NativeInt32List(int length) => _create1(_checkLength(length));
-
-  factory NativeInt32List.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeInt32List.view(ByteBuffer buffer,
-                               int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Int32List;
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('int', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeInt32List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeInt32List _create1(arg) =>
-      JS('NativeInt32List', 'new Int32Array(#)', arg);
-
-  static NativeInt32List _create2(arg1, arg2) =>
-      JS('NativeInt32List', 'new Int32Array(#, #)', arg1, arg2);
-
-  static NativeInt32List _create3(arg1, arg2, arg3) =>
-      JS('NativeInt32List', 'new Int32Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Int8Array")
-class NativeInt8List extends NativeTypedArrayOfInt implements Int8List {
-
-  factory NativeInt8List(int length) => _create1(_checkLength(length));
-
-  factory NativeInt8List.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeInt8List.view(ByteBuffer buffer,
-                               int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Int8List;
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('int', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeInt8List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeInt8List _create1(arg) =>
-      JS('NativeInt8List', 'new Int8Array(#)', arg);
-
-  static NativeInt8List _create2(arg1, arg2) =>
-      JS('NativeInt8List', 'new Int8Array(#, #)', arg1, arg2);
-
-  static Int8List _create3(arg1, arg2, arg3) =>
-      JS('NativeInt8List', 'new Int8Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Uint16Array")
-class NativeUint16List extends NativeTypedArrayOfInt implements Uint16List {
-
-  factory NativeUint16List(int length) => _create1(_checkLength(length));
-
-  factory NativeUint16List.fromList(List<int> list) =>
-      _create1(_ensureNativeList(list));
-
-  factory NativeUint16List.view(ByteBuffer buffer,
-                                int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Uint16List;
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('JSUInt31', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeUint16List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeUint16List _create1(arg) =>
-      JS('NativeUint16List', 'new Uint16Array(#)', arg);
-
-  static NativeUint16List _create2(arg1, arg2) =>
-      JS('NativeUint16List', 'new Uint16Array(#, #)', arg1, arg2);
-
-  static NativeUint16List _create3(arg1, arg2, arg3) =>
-      JS('NativeUint16List', 'new Uint16Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Uint32Array")
-class NativeUint32List extends NativeTypedArrayOfInt implements Uint32List {
-
-  factory NativeUint32List(int length) => _create1(_checkLength(length));
-
-  factory NativeUint32List.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeUint32List.view(ByteBuffer buffer,
-                                int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Uint32List;
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('JSUInt32', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeUint32List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeUint32List _create1(arg) =>
-      JS('NativeUint32List', 'new Uint32Array(#)', arg);
-
-  static NativeUint32List _create2(arg1, arg2) =>
-      JS('NativeUint32List', 'new Uint32Array(#, #)', arg1, arg2);
-
-  static NativeUint32List _create3(arg1, arg2, arg3) =>
-      JS('NativeUint32List', 'new Uint32Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-@Native("Uint8ClampedArray,CanvasPixelArray")
-class NativeUint8ClampedList
-    extends NativeTypedArrayOfInt
-    implements Uint8ClampedList {
-
-  factory NativeUint8ClampedList(int length) => _create1(_checkLength(length));
-
-  factory NativeUint8ClampedList.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeUint8ClampedList.view(ByteBuffer buffer,
-                                      int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Uint8ClampedList;
-
-  int get length => JS('JSUInt32', '#.length', this);
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('JSUInt31', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeUint8ClampedList', '#.subarray(#, #)',
-        this, start, end);
-    return _create1(source);
-  }
-
-  static NativeUint8ClampedList _create1(arg) =>
-      JS('NativeUint8ClampedList', 'new Uint8ClampedArray(#)', arg);
-
-  static NativeUint8ClampedList _create2(arg1, arg2) =>
-      JS('NativeUint8ClampedList', 'new Uint8ClampedArray(#, #)', arg1, arg2);
-
-  static NativeUint8ClampedList _create3(arg1, arg2, arg3) =>
-      JS('NativeUint8ClampedList', 'new Uint8ClampedArray(#, #, #)',
-         arg1, arg2, arg3);
-}
-
-
-// On some browsers Uint8ClampedArray is a subtype of Uint8Array.  Marking
-// Uint8List as !nonleaf ensures that the native dispatch correctly handles
-// the potential for Uint8ClampedArray to 'accidentally' pick up the
-// dispatch record for Uint8List.
-@Native("Uint8Array,!nonleaf")
-class NativeUint8List extends NativeTypedArrayOfInt implements Uint8List {
-
-  factory NativeUint8List(int length) => _create1(_checkLength(length));
-
-  factory NativeUint8List.fromList(List<int> elements) =>
-      _create1(_ensureNativeList(elements));
-
-  factory NativeUint8List.view(ByteBuffer buffer,
-                               int offsetInBytes, int length) {
-    _checkViewArguments(buffer, offsetInBytes, length);
-    return length == null
-        ? _create2(buffer, offsetInBytes)
-        : _create3(buffer, offsetInBytes, length);
-  }
-
-  Type get runtimeType => Uint8List;
-
-  int get length => JS('JSUInt32', '#.length', this);
-
-  int operator[](int index) {
-    _checkIndex(index, length);
-    return JS('JSUInt31', '#[#]', this, index);
-  }
-
-  List<int> sublist(int start, [int end]) {
-    end = _checkSublistArguments(start, end, length);
-    var source = JS('NativeUint8List', '#.subarray(#, #)', this, start, end);
-    return _create1(source);
-  }
-
-  static NativeUint8List _create1(arg) =>
-      JS('NativeUint8List', 'new Uint8Array(#)', arg);
-
-  static NativeUint8List _create2(arg1, arg2) =>
-      JS('NativeUint8List', 'new Uint8Array(#, #)', arg1, arg2);
-
-  static NativeUint8List _create3(arg1, arg2, arg3) =>
-      JS('NativeUint8List', 'new Uint8Array(#, #, #)', arg1, arg2, arg3);
-}
-
-
-/**
- * Implementation of Dart Float32x4 immutable value type and operations.
- * Float32x4 stores 4 32-bit floating point values in "lanes".
- * The lanes are "x", "y", "z", and "w" respectively.
- */
-class NativeFloat32x4 implements Float32x4 {
-  final double x;
-  final double y;
-  final double z;
-  final double w;
-
-  static final NativeFloat32List _list = new NativeFloat32List(4);
-  static final Uint32List _uint32view = _list.buffer.asUint32List();
-
-  static _truncate(x) {
-    _list[0] = x;
-    return _list[0];
-  }
-
-  NativeFloat32x4(double x, double y, double z, double w)
-    : this.x = _truncate(x),
-      this.y = _truncate(y),
-      this.z = _truncate(z),
-      this.w = _truncate(w) {
-    // We would prefer to check for `double` but in dart2js we can't see the
-    // difference anyway.
-    if (x is! num) throw new ArgumentError(x);
-    if (y is! num) throw new ArgumentError(y);
-    if (z is! num) throw new ArgumentError(z);
-    if (w is! num) throw new ArgumentError(w);
-  }
-
-  NativeFloat32x4.splat(double v) : this(v, v, v, v);
-  NativeFloat32x4.zero() : this._truncated(0.0, 0.0, 0.0, 0.0);
-
-  /// Returns a bit-wise copy of [i] as a Float32x4.
-  factory NativeFloat32x4.fromInt32x4Bits(Int32x4 i) {
-    _uint32view[0] = i.x;
-    _uint32view[1] = i.y;
-    _uint32view[2] = i.z;
-    _uint32view[3] = i.w;
-    return new NativeFloat32x4._truncated(_list[0], _list[1], _list[2], _list[3]);
-  }
-
-  NativeFloat32x4.fromFloat64x2(Float64x2 v)
-    : this._truncated(_truncate(v.x), _truncate(v.y), 0.0, 0.0);
-
-  /// Creates a new NativeFloat32x4.
-  ///
-  /// Does not verify if the given arguments are non-null.
-  NativeFloat32x4._doubles(double x, double y, double z, double w)
-    : this.x = _truncate(x),
-      this.y = _truncate(y),
-      this.z = _truncate(z),
-      this.w = _truncate(w);
-
-  /// Creates a new NativeFloat32x4.
-  ///
-  /// The constructor does not truncate the arguments. They must already be in
-  /// the correct range. It does not verify the type of the given arguments,
-  /// either.
-  NativeFloat32x4._truncated(this.x, this.y, this.z, this.w);
-
-  String toString() {
-    return '[$x, $y, $z, $w]';
-  }
-
-   /// Addition operator.
-  Float32x4 operator+(Float32x4 other) {
-    double _x = x + other.x;
-    double _y = y + other.y;
-    double _z = z + other.z;
-    double _w = w + other.w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Negate operator.
-  Float32x4 operator-() {
-    return new NativeFloat32x4._truncated(-x, -y, -z, -w);
-  }
-
-  /// Subtraction operator.
-  Float32x4 operator-(Float32x4 other) {
-    double _x = x - other.x;
-    double _y = y - other.y;
-    double _z = z - other.z;
-    double _w = w - other.w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Multiplication operator.
-  Float32x4 operator*(Float32x4 other) {
-    double _x = x * other.x;
-    double _y = y * other.y;
-    double _z = z * other.z;
-    double _w = w * other.w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Division operator.
-  Float32x4 operator/(Float32x4 other) {
-    double _x = x / other.x;
-    double _y = y / other.y;
-    double _z = z / other.z;
-    double _w = w / other.w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Relational less than.
-  Int32x4 lessThan(Float32x4 other) {
-    bool _cx = x < other.x;
-    bool _cy = y < other.y;
-    bool _cz = z < other.z;
-    bool _cw = w < other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Relational less than or equal.
-  Int32x4 lessThanOrEqual(Float32x4 other) {
-    bool _cx = x <= other.x;
-    bool _cy = y <= other.y;
-    bool _cz = z <= other.z;
-    bool _cw = w <= other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Relational greater than.
-  Int32x4 greaterThan(Float32x4 other) {
-    bool _cx = x > other.x;
-    bool _cy = y > other.y;
-    bool _cz = z > other.z;
-    bool _cw = w > other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Relational greater than or equal.
-  Int32x4 greaterThanOrEqual(Float32x4 other) {
-    bool _cx = x >= other.x;
-    bool _cy = y >= other.y;
-    bool _cz = z >= other.z;
-    bool _cw = w >= other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Relational equal.
-  Int32x4 equal(Float32x4 other) {
-    bool _cx = x == other.x;
-    bool _cy = y == other.y;
-    bool _cz = z == other.z;
-    bool _cw = w == other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Relational not-equal.
-  Int32x4 notEqual(Float32x4 other) {
-    bool _cx = x != other.x;
-    bool _cy = y != other.y;
-    bool _cz = z != other.z;
-    bool _cw = w != other.w;
-    return new NativeInt32x4._truncated(_cx ? -1 : 0,
-                                        _cy ? -1 : 0,
-                                        _cz ? -1 : 0,
-                                        _cw ? -1 : 0);
-  }
-
-  /// Returns a copy of [this] each lane being scaled by [s].
-  Float32x4 scale(double s) {
-    double _x = s * x;
-    double _y = s * y;
-    double _z = s * z;
-    double _w = s * w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Returns the absolute value of this [Float32x4].
-  Float32x4 abs() {
-    double _x = x.abs();
-    double _y = y.abs();
-    double _z = z.abs();
-    double _w = w.abs();
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Clamps [this] to be in the range [lowerLimit]-[upperLimit].
-  Float32x4 clamp(Float32x4 lowerLimit, Float32x4 upperLimit) {
-    double _lx = lowerLimit.x;
-    double _ly = lowerLimit.y;
-    double _lz = lowerLimit.z;
-    double _lw = lowerLimit.w;
-    double _ux = upperLimit.x;
-    double _uy = upperLimit.y;
-    double _uz = upperLimit.z;
-    double _uw = upperLimit.w;
-    double _x = x;
-    double _y = y;
-    double _z = z;
-    double _w = w;
-    // MAX(MIN(self, upper), lower).
-    _x = _x > _ux ? _ux : _x;
-    _y = _y > _uy ? _uy : _y;
-    _z = _z > _uz ? _uz : _z;
-    _w = _w > _uw ? _uw : _w;
-    _x = _x < _lx ? _lx : _x;
-    _y = _y < _ly ? _ly : _y;
-    _z = _z < _lz ? _lz : _z;
-    _w = _w < _lw ? _lw : _w;
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Extract the sign bit from each lane return them in the first 4 bits.
-  int get signMask {
-    var view = _uint32view;
-    var mx, my, mz, mw;
-    _list[0] = x;
-    _list[1] = y;
-    _list[2] = z;
-    _list[3] = w;
-    // This is correct because dart2js uses the unsigned right shift.
-    mx = (view[0] & 0x80000000) >> 31;
-    my = (view[1] & 0x80000000) >> 30;
-    mz = (view[2] & 0x80000000) >> 29;
-    mw = (view[3] & 0x80000000) >> 28;
-    return mx | my | mz | mw;
-  }
-
-  /// Shuffle the lane values. [mask] must be one of the 256 shuffle constants.
-  Float32x4 shuffle(int m) {
-    if ((m < 0) || (m > 255)) {
-      throw new RangeError('mask $m must be in the range [0..256)');
-    }
-    _list[0] = x;
-    _list[1] = y;
-    _list[2] = z;
-    _list[3] = w;
-
-    double _x = _list[m & 0x3];
-    double _y = _list[(m >> 2) & 0x3];
-    double _z = _list[(m >> 4) & 0x3];
-    double _w = _list[(m >> 6) & 0x3];
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Shuffle the lane values in [this] and [other]. The returned
-  /// Float32x4 will have XY lanes from [this] and ZW lanes from [other].
-  /// Uses the same [mask] as [shuffle].
-  Float32x4 shuffleMix(Float32x4 other, int m) {
-    if ((m < 0) || (m > 255)) {
-      throw new RangeError('mask $m must be in the range [0..256)');
-    }
-    _list[0] = x;
-    _list[1] = y;
-    _list[2] = z;
-    _list[3] = w;
-    double _x = _list[m & 0x3];
-    double _y = _list[(m >> 2) & 0x3];
-
-    _list[0] = other.x;
-    _list[1] = other.y;
-    _list[2] = other.z;
-    _list[3] = other.w;
-    double _z = _list[(m >> 4) & 0x3];
-    double _w = _list[(m >> 6) & 0x3];
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Copy [this] and replace the [x] lane.
-  Float32x4 withX(double newX) {
-    return new NativeFloat32x4._truncated(_truncate(newX), y, z, w);
-  }
-
-  /// Copy [this] and replace the [y] lane.
-  Float32x4 withY(double newY) {
-    return new NativeFloat32x4._truncated(x, _truncate(newY), z, w);
-  }
-
-  /// Copy [this] and replace the [z] lane.
-  Float32x4 withZ(double newZ) {
-    return new NativeFloat32x4._truncated(x, y, _truncate(newZ), w);
-  }
-
-  /// Copy [this] and replace the [w] lane.
-  Float32x4 withW(double newW) {
-    return new NativeFloat32x4._truncated(x, y, z, _truncate(newW));
-  }
-
-  /// Returns the lane-wise minimum value in [this] or [other].
-  Float32x4 min(Float32x4 other) {
-    double _x = x < other.x ? x : other.x;
-    double _y = y < other.y ? y : other.y;
-    double _z = z < other.z ? z : other.z;
-    double _w = w < other.w ? w : other.w;
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Returns the lane-wise maximum value in [this] or [other].
-  Float32x4 max(Float32x4 other) {
-    double _x = x > other.x ? x : other.x;
-    double _y = y > other.y ? y : other.y;
-    double _z = z > other.z ? z : other.z;
-    double _w = w > other.w ? w : other.w;
-    return new NativeFloat32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Returns the square root of [this].
-  Float32x4 sqrt() {
-    double _x = Math.sqrt(x);
-    double _y = Math.sqrt(y);
-    double _z = Math.sqrt(z);
-    double _w = Math.sqrt(w);
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Returns the reciprocal of [this].
-  Float32x4 reciprocal() {
-    double _x = 1.0 / x;
-    double _y = 1.0 / y;
-    double _z = 1.0 / z;
-    double _w = 1.0 / w;
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-
-  /// Returns the square root of the reciprocal of [this].
-  Float32x4 reciprocalSqrt() {
-    double _x = Math.sqrt(1.0 / x);
-    double _y = Math.sqrt(1.0 / y);
-    double _z = Math.sqrt(1.0 / z);
-    double _w = Math.sqrt(1.0 / w);
-    return new NativeFloat32x4._doubles(_x, _y, _z, _w);
-  }
-}
-
-
-/**
- * Interface of Dart Int32x4 and operations.
- * Int32x4 stores 4 32-bit bit-masks in "lanes".
- * The lanes are "x", "y", "z", and "w" respectively.
- */
-class NativeInt32x4 implements Int32x4 {
-  final int x;
-  final int y;
-  final int z;
-  final int w;
-
-  static final _list = new NativeInt32List(4);
-
-  static _truncate(x) {
-    _list[0] = x;
-    return _list[0];
-  }
-
-  NativeInt32x4(int x, int y, int z, int w)
-    : this.x = _truncate(x),
-      this.y = _truncate(y),
-      this.z = _truncate(z),
-      this.w = _truncate(w) {
-    if (x != this.x && x is! int) throw new ArgumentError(x);
-    if (y != this.y && y is! int) throw new ArgumentError(y);
-    if (z != this.z && z is! int) throw new ArgumentError(z);
-    if (w != this.w && w is! int) throw new ArgumentError(w);
-  }
-
-  NativeInt32x4.bool(bool x, bool y, bool z, bool w)
-    : this.x = x ? -1 : 0,
-      this.y = y ? -1 : 0,
-      this.z = z ? -1 : 0,
-      this.w = w ? -1 : 0;
-
-  /// Returns a bit-wise copy of [f] as a Int32x4.
-  factory NativeInt32x4.fromFloat32x4Bits(Float32x4 f) {
-    NativeFloat32List floatList = NativeFloat32x4._list;
-    floatList[0] = f.x;
-    floatList[1] = f.y;
-    floatList[2] = f.z;
-    floatList[3] = f.w;
-    NativeInt32List view = floatList.buffer.asInt32List();
-    return new NativeInt32x4._truncated(view[0], view[1], view[2], view[3]);
-  }
-
-  NativeInt32x4._truncated(this.x, this.y, this.z, this.w);
-
-  String toString() => '[$x, $y, $z, $w]';
-
-
-  /// The bit-wise or operator.
-  Int32x4 operator|(Int32x4 other) {
-    // Dart2js uses unsigned results for bit-operations.
-    // We use "JS" to fall back to the signed versions.
-    return new NativeInt32x4._truncated(JS("int", "# | #", x, other.x),
-                                        JS("int", "# | #", y, other.y),
-                                        JS("int", "# | #", z, other.z),
-                                        JS("int", "# | #", w, other.w));
-  }
-
-  /// The bit-wise and operator.
-  Int32x4 operator&(Int32x4 other) {
-    // Dart2js uses unsigned results for bit-operations.
-    // We use "JS" to fall back to the signed versions.
-    return new NativeInt32x4._truncated(JS("int", "# & #", x, other.x),
-                                        JS("int", "# & #", y, other.y),
-                                        JS("int", "# & #", z, other.z),
-                                        JS("int", "# & #", w, other.w));
-  }
-
-  /// The bit-wise xor operator.
-  Int32x4 operator^(Int32x4 other) {
-    // Dart2js uses unsigned results for bit-operations.
-    // We use "JS" to fall back to the signed versions.
-    return new NativeInt32x4._truncated(JS("int", "# ^ #", x, other.x),
-                                        JS("int", "# ^ #", y, other.y),
-                                        JS("int", "# ^ #", z, other.z),
-                                        JS("int", "# ^ #", w, other.w));
-  }
-
-  Int32x4 operator+(Int32x4 other) {
-    // Avoid going through the typed array by "| 0" the result.
-    return new NativeInt32x4._truncated(JS("int", "(# + #) | 0", x, other.x),
-                                        JS("int", "(# + #) | 0", y, other.y),
-                                        JS("int", "(# + #) | 0", z, other.z),
-                                        JS("int", "(# + #) | 0", w, other.w));
-  }
-
-  Int32x4 operator-(Int32x4 other) {
-    // Avoid going through the typed array by "| 0" the result.
-    return new NativeInt32x4._truncated(JS("int", "(# - #) | 0", x, other.x),
-                                        JS("int", "(# - #) | 0", y, other.y),
-                                        JS("int", "(# - #) | 0", z, other.z),
-                                        JS("int", "(# - #) | 0", w, other.w));
-  }
-
-  Int32x4 operator-() {
-    // Avoid going through the typed array by "| 0" the result.
-    return new NativeInt32x4._truncated(JS("int", "(-#) | 0", x),
-                                        JS("int", "(-#) | 0", y),
-                                        JS("int", "(-#) | 0", z),
-                                        JS("int", "(-#) | 0", w));
-  }
-
-  /// Extract the top bit from each lane return them in the first 4 bits.
-  int get signMask {
-    int mx = (x & 0x80000000) >> 31;
-    int my = (y & 0x80000000) >> 31;
-    int mz = (z & 0x80000000) >> 31;
-    int mw = (w & 0x80000000) >> 31;
-    return mx | my << 1 | mz << 2 | mw << 3;
-  }
-
-  /// Shuffle the lane values. [mask] must be one of the 256 shuffle constants.
-  Int32x4 shuffle(int mask) {
-    if ((mask < 0) || (mask > 255)) {
-      throw new RangeError('mask $mask must be in the range [0..256)');
-    }
-    _list[0] = x;
-    _list[1] = y;
-    _list[2] = z;
-    _list[3] = w;
-    int _x = _list[mask & 0x3];
-    int _y = _list[(mask >> 2) & 0x3];
-    int _z = _list[(mask >> 4) & 0x3];
-    int _w = _list[(mask >> 6) & 0x3];
-    return new NativeInt32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Shuffle the lane values in [this] and [other]. The returned
-  /// Int32x4 will have XY lanes from [this] and ZW lanes from [other].
-  /// Uses the same [mask] as [shuffle].
-  Int32x4 shuffleMix(Int32x4 other, int mask) {
-    if ((mask < 0) || (mask > 255)) {
-      throw new RangeError('mask $mask must be in the range [0..256)');
-    }
-    _list[0] = x;
-    _list[1] = y;
-    _list[2] = z;
-    _list[3] = w;
-    int _x = _list[mask & 0x3];
-    int _y = _list[(mask >> 2) & 0x3];
-
-    _list[0] = other.x;
-    _list[1] = other.y;
-    _list[2] = other.z;
-    _list[3] = other.w;
-    int _z = _list[(mask >> 4) & 0x3];
-    int _w = _list[(mask >> 6) & 0x3];
-    return new NativeInt32x4._truncated(_x, _y, _z, _w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new x value.
-  Int32x4 withX(int x) {
-    int _x = _truncate(x);
-    return new NativeInt32x4._truncated(_x, y, z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new y value.
-  Int32x4 withY(int y) {
-    int _y = _truncate(y);
-    return new NativeInt32x4._truncated(x, _y, z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new z value.
-  Int32x4 withZ(int z) {
-    int _z = _truncate(z);
-    return new NativeInt32x4._truncated(x, y, _z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new w value.
-  Int32x4 withW(int w) {
-    int _w = _truncate(w);
-    return new NativeInt32x4._truncated(x, y, z, _w);
-  }
-
-  /// Extracted x value. Returns `false` for 0, `true` for any other value.
-  bool get flagX => x != 0;
-  /// Extracted y value. Returns `false` for 0, `true` for any other value.
-  bool get flagY => y != 0;
-  /// Extracted z value. Returns `false` for 0, `true` for any other value.
-  bool get flagZ => z != 0;
-  /// Extracted w value. Returns `false` for 0, `true` for any other value.
-  bool get flagW => w != 0;
-
-  /// Returns a new [Int32x4] copied from [this] with a new x value.
-  Int32x4 withFlagX(bool flagX) {
-    int _x = flagX ? -1 : 0;
-    return new NativeInt32x4._truncated(_x, y, z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new y value.
-  Int32x4 withFlagY(bool flagY) {
-    int _y = flagY ? -1 : 0;
-    return new NativeInt32x4._truncated(x, _y, z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new z value.
-  Int32x4 withFlagZ(bool flagZ) {
-    int _z = flagZ ? -1 : 0;
-    return new NativeInt32x4._truncated(x, y, _z, w);
-  }
-
-  /// Returns a new [Int32x4] copied from [this] with a new w value.
-  Int32x4 withFlagW(bool flagW) {
-    int _w = flagW ? -1 : 0;
-    return new NativeInt32x4._truncated(x, y, z, _w);
-  }
-
-  /// Merge [trueValue] and [falseValue] based on [this]' bit mask:
-  /// Select bit from [trueValue] when bit in [this] is on.
-  /// Select bit from [falseValue] when bit in [this] is off.
-  Float32x4 select(Float32x4 trueValue, Float32x4 falseValue) {
-    var floatList = NativeFloat32x4._list;
-    var intView = NativeFloat32x4._uint32view;
-
-    floatList[0] = trueValue.x;
-    floatList[1] = trueValue.y;
-    floatList[2] = trueValue.z;
-    floatList[3] = trueValue.w;
-    int stx = intView[0];
-    int sty = intView[1];
-    int stz = intView[2];
-    int stw = intView[3];
-
-    floatList[0] = falseValue.x;
-    floatList[1] = falseValue.y;
-    floatList[2] = falseValue.z;
-    floatList[3] = falseValue.w;
-    int sfx = intView[0];
-    int sfy = intView[1];
-    int sfz = intView[2];
-    int sfw = intView[3];
-    int _x = (x & stx) | (~x & sfx);
-    int _y = (y & sty) | (~y & sfy);
-    int _z = (z & stz) | (~z & sfz);
-    int _w = (w & stw) | (~w & sfw);
-    intView[0] = _x;
-    intView[1] = _y;
-    intView[2] = _z;
-    intView[3] = _w;
-    return new NativeFloat32x4._truncated(
-        floatList[0], floatList[1], floatList[2], floatList[3]);
-  }
-}
-
-class NativeFloat64x2 implements Float64x2 {
-  final double x;
-  final double y;
-
-  static NativeFloat64List _list = new NativeFloat64List(2);
-  static NativeUint32List _uint32View = _list.buffer.asUint32List();
-
-  NativeFloat64x2(this.x, this.y) {
-    if (x is! num) throw new ArgumentError(x);
-    if (y is! num) throw new ArgumentError(y);
-  }
-
-  NativeFloat64x2.splat(double v) : this(v, v);
-
-  NativeFloat64x2.zero() : this.splat(0.0);
-
-  NativeFloat64x2.fromFloat32x4(Float32x4 v) : this(v.x, v.y);
-
-  /// Arguments [x] and [y] must be doubles.
-  NativeFloat64x2._doubles(this.x, this.y);
-
-  String toString() => '[$x, $y]';
-
-  /// Addition operator.
-  Float64x2 operator+(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x + other.x, y + other.y);
-  }
-
-  /// Negate operator.
-  Float64x2 operator-() {
-    return new NativeFloat64x2._doubles(-x, -y);
-  }
-
-  /// Subtraction operator.
-  Float64x2 operator-(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x - other.x, y - other.y);
-  }
-  /// Multiplication operator.
-  Float64x2 operator*(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x * other.x, y * other.y);
-  }
-  /// Division operator.
-  Float64x2 operator/(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x / other.x, y / other.y);
-  }
-
-  /// Returns a copy of [this] each lane being scaled by [s].
-  Float64x2 scale(double s) {
-    return new NativeFloat64x2._doubles(x * s, y * s);
-  }
-
-  /// Returns the absolute value of this [Float64x2].
-  Float64x2 abs() {
-    return new NativeFloat64x2._doubles(x.abs(), y.abs());
-  }
-
-  /// Clamps [this] to be in the range [lowerLimit]-[upperLimit].
-  Float64x2 clamp(Float64x2 lowerLimit,
-                  Float64x2 upperLimit) {
-    double _lx = lowerLimit.x;
-    double _ly = lowerLimit.y;
-    double _ux = upperLimit.x;
-    double _uy = upperLimit.y;
-    double _x = x;
-    double _y = y;
-    // MAX(MIN(self, upper), lower).
-    _x = _x > _ux ? _ux : _x;
-    _y = _y > _uy ? _uy : _y;
-    _x = _x < _lx ? _lx : _x;
-    _y = _y < _ly ? _ly : _y;
-    return new NativeFloat64x2._doubles(_x, _y);
-  }
-
-  /// Extract the sign bits from each lane return them in the first 2 bits.
-  int get signMask {
-    var view = _uint32View;
-    _list[0] = x;
-    _list[1] = y;
-    var mx = (view[1] & 0x80000000) >> 31;
-    var my = (view[3] & 0x80000000) >> 31;
-    return mx | my << 1;
-  }
-
-  /// Returns a new [Float64x2] copied from [this] with a new x value.
-  Float64x2 withX(double x) {
-    if (x is! num) throw new ArgumentError(x);
-    return new NativeFloat64x2._doubles(x, y);
-  }
-
-  /// Returns a new [Float64x2] copied from [this] with a new y value.
-  Float64x2 withY(double y) {
-    if (y is! num) throw new ArgumentError(y);
-    return new NativeFloat64x2._doubles(x, y);
-  }
-
-  /// Returns the lane-wise minimum value in [this] or [other].
-  Float64x2 min(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x < other.x ? x : other.x,
-                                        y < other.y ? y : other.y);
-
-  }
-
-  /// Returns the lane-wise maximum value in [this] or [other].
-  Float64x2 max(Float64x2 other) {
-    return new NativeFloat64x2._doubles(x > other.x ? x : other.x,
-                                        y > other.y ? y : other.y);
-  }
-
-  /// Returns the lane-wise square root of [this].
-  Float64x2 sqrt() {
-      return new NativeFloat64x2._doubles(Math.sqrt(x), Math.sqrt(y));
-  }
-}