src/third_party/devtools/node_modules/typedarray/index.js - cobalt - Git at Google

 var undefined = (void 0); // Paranoia

 // Beyond this value, index getters/setters (i.e. array[0], array[1]) are so slow to
 // create, and consume so much memory, that the browser appears frozen.
 var MAX_ARRAY_LENGTH = 1e5;

 // Approximations of internal ECMAScript conversion functions
 var ECMAScript = (function() {
   // Stash a copy in case other scripts modify these
   var opts = Object.prototype.toString,
       ophop = Object.prototype.hasOwnProperty;

   return {
     // Class returns internal [[Class]] property, used to avoid cross-frame instanceof issues:
     Class: function(v) { return opts.call(v).replace(/^\[object *|\]$/g, ''); },
     HasProperty: function(o, p) { return p in o; },
     HasOwnProperty: function(o, p) { return ophop.call(o, p); },
     IsCallable: function(o) { return typeof o === 'function'; },
     ToInt32: function(v) { return v >> 0; },
     ToUint32: function(v) { return v >>> 0; }
   };
 }());

 // Snapshot intrinsics
 var LN2 = Math.LN2,
     abs = Math.abs,
     floor = Math.floor,
     log = Math.log,
     min = Math.min,
     pow = Math.pow,
     round = Math.round;

 // ES5: lock down object properties
 function configureProperties(obj) {
   if (getOwnPropNames && defineProp) {
     var props = getOwnPropNames(obj), i;
     for (i = 0; i < props.length; i += 1) {
       defineProp(obj, props[i], {
         value: obj[props[i]],
         writable: false,
         enumerable: false,
         configurable: false
       });
     }
   }
 }

 // emulate ES5 getter/setter API using legacy APIs
 // http://blogs.msdn.com/b/ie/archive/2010/09/07/transitioning-existing-code-to-the-es5-getter-setter-apis.aspx
 // (second clause tests for Object.defineProperty() in IE<9 that only supports extending DOM prototypes, but
 // note that IE<9 does not support __defineGetter__ or __defineSetter__ so it just renders the method harmless)
 var defineProp
 if (Object.defineProperty && (function() {
       try {
         Object.defineProperty({}, 'x', {});
         return true;
       } catch (e) {
         return false;
       }
     })()) {
   defineProp = Object.defineProperty;
 } else {
   defineProp = function(o, p, desc) {
     if (!o === Object(o)) throw new TypeError("Object.defineProperty called on non-object");
     if (ECMAScript.HasProperty(desc, 'get') && Object.prototype.__defineGetter__) { Object.prototype.__defineGetter__.call(o, p, desc.get); }
     if (ECMAScript.HasProperty(desc, 'set') && Object.prototype.__defineSetter__) { Object.prototype.__defineSetter__.call(o, p, desc.set); }
     if (ECMAScript.HasProperty(desc, 'value')) { o[p] = desc.value; }
     return o;
   };
 }

 var getOwnPropNames = Object.getOwnPropertyNames || function (o) {
   if (o !== Object(o)) throw new TypeError("Object.getOwnPropertyNames called on non-object");
   var props = [], p;
   for (p in o) {
     if (ECMAScript.HasOwnProperty(o, p)) {
       props.push(p);
     }
   }
   return props;
 };

 // ES5: Make obj[index] an alias for obj._getter(index)/obj._setter(index, value)
 // for index in 0 ... obj.length
 function makeArrayAccessors(obj) {
   if (!defineProp) { return; }

   if (obj.length > MAX_ARRAY_LENGTH) throw new RangeError("Array too large for polyfill");

   function makeArrayAccessor(index) {
     defineProp(obj, index, {
       'get': function() { return obj._getter(index); },
       'set': function(v) { obj._setter(index, v); },
       enumerable: true,
       configurable: false
     });
   }

   var i;
   for (i = 0; i < obj.length; i += 1) {
     makeArrayAccessor(i);
   }
 }

 // Internal conversion functions:
 //    pack<Type>()   - take a number (interpreted as Type), output a byte array
 //    unpack<Type>() - take a byte array, output a Type-like number

 function as_signed(value, bits) { var s = 32 - bits; return (value << s) >> s; }
 function as_unsigned(value, bits) { var s = 32 - bits; return (value << s) >>> s; }

 function packI8(n) { return [n & 0xff]; }
 function unpackI8(bytes) { return as_signed(bytes[0], 8); }

 function packU8(n) { return [n & 0xff]; }
 function unpackU8(bytes) { return as_unsigned(bytes[0], 8); }

 function packU8Clamped(n) { n = round(Number(n)); return [n < 0 ? 0 : n > 0xff ? 0xff : n & 0xff]; }

 function packI16(n) { return [(n >> 8) & 0xff, n & 0xff]; }
 function unpackI16(bytes) { return as_signed(bytes[0] << 8 | bytes[1], 16); }

 function packU16(n) { return [(n >> 8) & 0xff, n & 0xff]; }
 function unpackU16(bytes) { return as_unsigned(bytes[0] << 8 | bytes[1], 16); }

 function packI32(n) { return [(n >> 24) & 0xff, (n >> 16) & 0xff, (n >> 8) & 0xff, n & 0xff]; }
 function unpackI32(bytes) { return as_signed(bytes[0] << 24 | bytes[1] << 16 | bytes[2] << 8 | bytes[3], 32); }

 function packU32(n) { return [(n >> 24) & 0xff, (n >> 16) & 0xff, (n >> 8) & 0xff, n & 0xff]; }
 function unpackU32(bytes) { return as_unsigned(bytes[0] << 24 | bytes[1] << 16 | bytes[2] << 8 | bytes[3], 32); }

 function packIEEE754(v, ebits, fbits) {

   var bias = (1 << (ebits - 1)) - 1,
       s, e, f, ln,
       i, bits, str, bytes;

   function roundToEven(n) {
     var w = floor(n), f = n - w;
     if (f < 0.5)
       return w;
     if (f > 0.5)
       return w + 1;
     return w % 2 ? w + 1 : w;
   }

   // Compute sign, exponent, fraction
   if (v !== v) {
     // NaN
     // http://dev.w3.org/2006/webapi/WebIDL/#es-type-mapping
     e = (1 << ebits) - 1; f = pow(2, fbits - 1); s = 0;
   } else if (v === Infinity || v === -Infinity) {
     e = (1 << ebits) - 1; f = 0; s = (v < 0) ? 1 : 0;
   } else if (v === 0) {
     e = 0; f = 0; s = (1 / v === -Infinity) ? 1 : 0;
   } else {
     s = v < 0;
     v = abs(v);

     if (v >= pow(2, 1 - bias)) {
       e = min(floor(log(v) / LN2), 1023);
       f = roundToEven(v / pow(2, e) * pow(2, fbits));
       if (f / pow(2, fbits) >= 2) {
         e = e + 1;
         f = 1;
       }
       if (e > bias) {
         // Overflow
         e = (1 << ebits) - 1;
         f = 0;
       } else {
         // Normalized
         e = e + bias;
         f = f - pow(2, fbits);
       }
     } else {
       // Denormalized
       e = 0;
       f = roundToEven(v / pow(2, 1 - bias - fbits));
     }
   }

   // Pack sign, exponent, fraction
   bits = [];
   for (i = fbits; i; i -= 1) { bits.push(f % 2 ? 1 : 0); f = floor(f / 2); }
   for (i = ebits; i; i -= 1) { bits.push(e % 2 ? 1 : 0); e = floor(e / 2); }
   bits.push(s ? 1 : 0);
   bits.reverse();
   str = bits.join('');

   // Bits to bytes
   bytes = [];
   while (str.length) {
     bytes.push(parseInt(str.substring(0, 8), 2));
     str = str.substring(8);
   }
   return bytes;
 }

 function unpackIEEE754(bytes, ebits, fbits) {

   // Bytes to bits
   var bits = [], i, j, b, str,
       bias, s, e, f;

   for (i = bytes.length; i; i -= 1) {
     b = bytes[i - 1];
     for (j = 8; j; j -= 1) {
       bits.push(b % 2 ? 1 : 0); b = b >> 1;
     }
   }
   bits.reverse();
   str = bits.join('');

   // Unpack sign, exponent, fraction
   bias = (1 << (ebits - 1)) - 1;
   s = parseInt(str.substring(0, 1), 2) ? -1 : 1;
   e = parseInt(str.substring(1, 1 + ebits), 2);
   f = parseInt(str.substring(1 + ebits), 2);

   // Produce number
   if (e === (1 << ebits) - 1) {
     return f !== 0 ? NaN : s * Infinity;
   } else if (e > 0) {
     // Normalized
     return s * pow(2, e - bias) * (1 + f / pow(2, fbits));
   } else if (f !== 0) {
     // Denormalized
     return s * pow(2, -(bias - 1)) * (f / pow(2, fbits));
   } else {
     return s < 0 ? -0 : 0;
   }
 }

 function unpackF64(b) { return unpackIEEE754(b, 11, 52); }
 function packF64(v) { return packIEEE754(v, 11, 52); }
 function unpackF32(b) { return unpackIEEE754(b, 8, 23); }
 function packF32(v) { return packIEEE754(v, 8, 23); }


 //
 // 3 The ArrayBuffer Type
 //

 (function() {

   /** @constructor */
   var ArrayBuffer = function ArrayBuffer(length) {
     length = ECMAScript.ToInt32(length);
     if (length < 0) throw new RangeError('ArrayBuffer size is not a small enough positive integer');

     this.byteLength = length;
     this._bytes = [];
     this._bytes.length = length;

     var i;
     for (i = 0; i < this.byteLength; i += 1) {
       this._bytes[i] = 0;
     }

     configureProperties(this);
   };

   exports.ArrayBuffer = exports.ArrayBuffer || ArrayBuffer;

   //
   // 4 The ArrayBufferView Type
   //

   // NOTE: this constructor is not exported
   /** @constructor */
   var ArrayBufferView = function ArrayBufferView() {
     //this.buffer = null;
     //this.byteOffset = 0;
     //this.byteLength = 0;
   };

   //
   // 5 The Typed Array View Types
   //

   function makeConstructor(bytesPerElement, pack, unpack) {
     // Each TypedArray type requires a distinct constructor instance with
     // identical logic, which this produces.

     var ctor;
     ctor = function(buffer, byteOffset, length) {
       var array, sequence, i, s;

       if (!arguments.length || typeof arguments[0] === 'number') {
         // Constructor(unsigned long length)
         this.length = ECMAScript.ToInt32(arguments[0]);
         if (length < 0) throw new RangeError('ArrayBufferView size is not a small enough positive integer');

         this.byteLength = this.length * this.BYTES_PER_ELEMENT;
         this.buffer = new ArrayBuffer(this.byteLength);
         this.byteOffset = 0;
       } else if (typeof arguments[0] === 'object' && arguments[0].constructor === ctor) {
         // Constructor(TypedArray array)
         array = arguments[0];

         this.length = array.length;
         this.byteLength = this.length * this.BYTES_PER_ELEMENT;
         this.buffer = new ArrayBuffer(this.byteLength);
         this.byteOffset = 0;

         for (i = 0; i < this.length; i += 1) {
           this._setter(i, array._getter(i));
         }
       } else if (typeof arguments[0] === 'object' &&
                  !(arguments[0] instanceof ArrayBuffer || ECMAScript.Class(arguments[0]) === 'ArrayBuffer')) {
         // Constructor(sequence<type> array)
         sequence = arguments[0];

         this.length = ECMAScript.ToUint32(sequence.length);
         this.byteLength = this.length * this.BYTES_PER_ELEMENT;
         this.buffer = new ArrayBuffer(this.byteLength);
         this.byteOffset = 0;

         for (i = 0; i < this.length; i += 1) {
           s = sequence[i];
           this._setter(i, Number(s));
         }
       } else if (typeof arguments[0] === 'object' &&
                  (arguments[0] instanceof ArrayBuffer || ECMAScript.Class(arguments[0]) === 'ArrayBuffer')) {
         // Constructor(ArrayBuffer buffer,
         //             optional unsigned long byteOffset, optional unsigned long length)
         this.buffer = buffer;

         this.byteOffset = ECMAScript.ToUint32(byteOffset);
         if (this.byteOffset > this.buffer.byteLength) {
           throw new RangeError("byteOffset out of range");
         }

         if (this.byteOffset % this.BYTES_PER_ELEMENT) {
           // The given byteOffset must be a multiple of the element
           // size of the specific type, otherwise an exception is raised.
           throw new RangeError("ArrayBuffer length minus the byteOffset is not a multiple of the element size.");
         }

         if (arguments.length < 3) {
           this.byteLength = this.buffer.byteLength - this.byteOffset;

           if (this.byteLength % this.BYTES_PER_ELEMENT) {
             throw new RangeError("length of buffer minus byteOffset not a multiple of the element size");
           }
           this.length = this.byteLength / this.BYTES_PER_ELEMENT;
         } else {
           this.length = ECMAScript.ToUint32(length);
           this.byteLength = this.length * this.BYTES_PER_ELEMENT;
         }

         if ((this.byteOffset + this.byteLength) > this.buffer.byteLength) {
           throw new RangeError("byteOffset and length reference an area beyond the end of the buffer");
         }
       } else {
         throw new TypeError("Unexpected argument type(s)");
       }

       this.constructor = ctor;

       configureProperties(this);
       makeArrayAccessors(this);
     };

     ctor.prototype = new ArrayBufferView();
     ctor.prototype.BYTES_PER_ELEMENT = bytesPerElement;
     ctor.prototype._pack = pack;
     ctor.prototype._unpack = unpack;
     ctor.BYTES_PER_ELEMENT = bytesPerElement;

     // getter type (unsigned long index);
     ctor.prototype._getter = function(index) {
       if (arguments.length < 1) throw new SyntaxError("Not enough arguments");

       index = ECMAScript.ToUint32(index);
       if (index >= this.length) {
         return undefined;
       }

       var bytes = [], i, o;
       for (i = 0, o = this.byteOffset + index * this.BYTES_PER_ELEMENT;
            i < this.BYTES_PER_ELEMENT;
            i += 1, o += 1) {
         bytes.push(this.buffer._bytes[o]);
       }
       return this._unpack(bytes);
     };

     // NONSTANDARD: convenience alias for getter: type get(unsigned long index);
     ctor.prototype.get = ctor.prototype._getter;

     // setter void (unsigned long index, type value);
     ctor.prototype._setter = function(index, value) {
       if (arguments.length < 2) throw new SyntaxError("Not enough arguments");

       index = ECMAScript.ToUint32(index);
       if (index >= this.length) {
         return undefined;
       }

       var bytes = this._pack(value), i, o;
       for (i = 0, o = this.byteOffset + index * this.BYTES_PER_ELEMENT;
            i < this.BYTES_PER_ELEMENT;
            i += 1, o += 1) {
         this.buffer._bytes[o] = bytes[i];
       }
     };

     // void set(TypedArray array, optional unsigned long offset);
     // void set(sequence<type> array, optional unsigned long offset);
     ctor.prototype.set = function(index, value) {
       if (arguments.length < 1) throw new SyntaxError("Not enough arguments");
       var array, sequence, offset, len,
           i, s, d,
           byteOffset, byteLength, tmp;

       if (typeof arguments[0] === 'object' && arguments[0].constructor === this.constructor) {
         // void set(TypedArray array, optional unsigned long offset);
         array = arguments[0];
         offset = ECMAScript.ToUint32(arguments[1]);

         if (offset + array.length > this.length) {
           throw new RangeError("Offset plus length of array is out of range");
         }

         byteOffset = this.byteOffset + offset * this.BYTES_PER_ELEMENT;
         byteLength = array.length * this.BYTES_PER_ELEMENT;

         if (array.buffer === this.buffer) {
           tmp = [];
           for (i = 0, s = array.byteOffset; i < byteLength; i += 1, s += 1) {
             tmp[i] = array.buffer._bytes[s];
           }
           for (i = 0, d = byteOffset; i < byteLength; i += 1, d += 1) {
             this.buffer._bytes[d] = tmp[i];
           }
         } else {
           for (i = 0, s = array.byteOffset, d = byteOffset;
                i < byteLength; i += 1, s += 1, d += 1) {
             this.buffer._bytes[d] = array.buffer._bytes[s];
           }
         }
       } else if (typeof arguments[0] === 'object' && typeof arguments[0].length !== 'undefined') {
         // void set(sequence<type> array, optional unsigned long offset);
         sequence = arguments[0];
         len = ECMAScript.ToUint32(sequence.length);
         offset = ECMAScript.ToUint32(arguments[1]);

         if (offset + len > this.length) {
           throw new RangeError("Offset plus length of array is out of range");
         }

         for (i = 0; i < len; i += 1) {
           s = sequence[i];
           this._setter(offset + i, Number(s));
         }
       } else {
         throw new TypeError("Unexpected argument type(s)");
       }
     };

     // TypedArray subarray(long begin, optional long end);
     ctor.prototype.subarray = function(start, end) {
       function clamp(v, min, max) { return v < min ? min : v > max ? max : v; }

       start = ECMAScript.ToInt32(start);
       end = ECMAScript.ToInt32(end);

       if (arguments.length < 1) { start = 0; }
       if (arguments.length < 2) { end = this.length; }

       if (start < 0) { start = this.length + start; }
       if (end < 0) { end = this.length + end; }

       start = clamp(start, 0, this.length);
       end = clamp(end, 0, this.length);

       var len = end - start;
       if (len < 0) {
         len = 0;
       }

       return new this.constructor(
         this.buffer, this.byteOffset + start * this.BYTES_PER_ELEMENT, len);
     };

     return ctor;
   }

   var Int8Array = makeConstructor(1, packI8, unpackI8);
   var Uint8Array = makeConstructor(1, packU8, unpackU8);
   var Uint8ClampedArray = makeConstructor(1, packU8Clamped, unpackU8);
   var Int16Array = makeConstructor(2, packI16, unpackI16);
   var Uint16Array = makeConstructor(2, packU16, unpackU16);
   var Int32Array = makeConstructor(4, packI32, unpackI32);
   var Uint32Array = makeConstructor(4, packU32, unpackU32);
   var Float32Array = makeConstructor(4, packF32, unpackF32);
   var Float64Array = makeConstructor(8, packF64, unpackF64);

   exports.Int8Array = exports.Int8Array || Int8Array;
   exports.Uint8Array = exports.Uint8Array || Uint8Array;
   exports.Uint8ClampedArray = exports.Uint8ClampedArray || Uint8ClampedArray;
   exports.Int16Array = exports.Int16Array || Int16Array;
   exports.Uint16Array = exports.Uint16Array || Uint16Array;
   exports.Int32Array = exports.Int32Array || Int32Array;
   exports.Uint32Array = exports.Uint32Array || Uint32Array;
   exports.Float32Array = exports.Float32Array || Float32Array;
   exports.Float64Array = exports.Float64Array || Float64Array;
 }());

 //
 // 6 The DataView View Type
 //

 (function() {
   function r(array, index) {
     return ECMAScript.IsCallable(array.get) ? array.get(index) : array[index];
   }

   var IS_BIG_ENDIAN = (function() {
     var u16array = new(exports.Uint16Array)([0x1234]),
         u8array = new(exports.Uint8Array)(u16array.buffer);
     return r(u8array, 0) === 0x12;
   }());

   // Constructor(ArrayBuffer buffer,
   //             optional unsigned long byteOffset,
   //             optional unsigned long byteLength)
   /** @constructor */
   var DataView = function DataView(buffer, byteOffset, byteLength) {
     if (arguments.length === 0) {
       buffer = new exports.ArrayBuffer(0);
     } else if (!(buffer instanceof exports.ArrayBuffer || ECMAScript.Class(buffer) === 'ArrayBuffer')) {
       throw new TypeError("TypeError");
     }

     this.buffer = buffer || new exports.ArrayBuffer(0);

     this.byteOffset = ECMAScript.ToUint32(byteOffset);
     if (this.byteOffset > this.buffer.byteLength) {
       throw new RangeError("byteOffset out of range");
     }

     if (arguments.length < 3) {
       this.byteLength = this.buffer.byteLength - this.byteOffset;
     } else {
       this.byteLength = ECMAScript.ToUint32(byteLength);
     }

     if ((this.byteOffset + this.byteLength) > this.buffer.byteLength) {
       throw new RangeError("byteOffset and length reference an area beyond the end of the buffer");
     }

     configureProperties(this);
   };

   function makeGetter(arrayType) {
     return function(byteOffset, littleEndian) {

       byteOffset = ECMAScript.ToUint32(byteOffset);

       if (byteOffset + arrayType.BYTES_PER_ELEMENT > this.byteLength) {
         throw new RangeError("Array index out of range");
       }
       byteOffset += this.byteOffset;

       var uint8Array = new exports.Uint8Array(this.buffer, byteOffset, arrayType.BYTES_PER_ELEMENT),
           bytes = [], i;
       for (i = 0; i < arrayType.BYTES_PER_ELEMENT; i += 1) {
         bytes.push(r(uint8Array, i));
       }

       if (Boolean(littleEndian) === Boolean(IS_BIG_ENDIAN)) {
         bytes.reverse();
       }

       return r(new arrayType(new exports.Uint8Array(bytes).buffer), 0);
     };
   }

   DataView.prototype.getUint8 = makeGetter(exports.Uint8Array);
   DataView.prototype.getInt8 = makeGetter(exports.Int8Array);
   DataView.prototype.getUint16 = makeGetter(exports.Uint16Array);
   DataView.prototype.getInt16 = makeGetter(exports.Int16Array);
   DataView.prototype.getUint32 = makeGetter(exports.Uint32Array);
   DataView.prototype.getInt32 = makeGetter(exports.Int32Array);
   DataView.prototype.getFloat32 = makeGetter(exports.Float32Array);
   DataView.prototype.getFloat64 = makeGetter(exports.Float64Array);

   function makeSetter(arrayType) {
     return function(byteOffset, value, littleEndian) {

       byteOffset = ECMAScript.ToUint32(byteOffset);
       if (byteOffset + arrayType.BYTES_PER_ELEMENT > this.byteLength) {
         throw new RangeError("Array index out of range");
       }

       // Get bytes
       var typeArray = new arrayType([value]),
           byteArray = new exports.Uint8Array(typeArray.buffer),
           bytes = [], i, byteView;

       for (i = 0; i < arrayType.BYTES_PER_ELEMENT; i += 1) {
         bytes.push(r(byteArray, i));
       }

       // Flip if necessary
       if (Boolean(littleEndian) === Boolean(IS_BIG_ENDIAN)) {
         bytes.reverse();
       }

       // Write them
       byteView = new exports.Uint8Array(this.buffer, byteOffset, arrayType.BYTES_PER_ELEMENT);
       byteView.set(bytes);
     };
   }

   DataView.prototype.setUint8 = makeSetter(exports.Uint8Array);
   DataView.prototype.setInt8 = makeSetter(exports.Int8Array);
   DataView.prototype.setUint16 = makeSetter(exports.Uint16Array);
   DataView.prototype.setInt16 = makeSetter(exports.Int16Array);
   DataView.prototype.setUint32 = makeSetter(exports.Uint32Array);
   DataView.prototype.setInt32 = makeSetter(exports.Int32Array);
   DataView.prototype.setFloat32 = makeSetter(exports.Float32Array);
   DataView.prototype.setFloat64 = makeSetter(exports.Float64Array);

   exports.DataView = exports.DataView || DataView;

 }());
	var undefined = (void 0); // Paranoia

	// Beyond this value, index getters/setters (i.e. array[0], array[1]) are so slow to
	// create, and consume so much memory, that the browser appears frozen.
	var MAX_ARRAY_LENGTH = 1e5;

	// Approximations of internal ECMAScript conversion functions
	var ECMAScript = (function() {
	// Stash a copy in case other scripts modify these
	var opts = Object.prototype.toString,
	ophop = Object.prototype.hasOwnProperty;

	return {
	// Class returns internal [[Class]] property, used to avoid cross-frame instanceof issues:
	Class: function(v) { return opts.call(v).replace(/^\[object *\|\]$/g, ''); },
	HasProperty: function(o, p) { return p in o; },
	HasOwnProperty: function(o, p) { return ophop.call(o, p); },
	IsCallable: function(o) { return typeof o === 'function'; },
	ToInt32: function(v) { return v >> 0; },
	ToUint32: function(v) { return v >>> 0; }
	};
	}());

	// Snapshot intrinsics
	var LN2 = Math.LN2,
	abs = Math.abs,
	floor = Math.floor,
	log = Math.log,
	min = Math.min,
	pow = Math.pow,
	round = Math.round;

	// ES5: lock down object properties
	function configureProperties(obj) {
	if (getOwnPropNames && defineProp) {
	var props = getOwnPropNames(obj), i;
	for (i = 0; i < props.length; i += 1) {
	defineProp(obj, props[i], {
	value: obj[props[i]],
	writable: false,
	enumerable: false,
	configurable: false
	});
	}
	}
	}

	// emulate ES5 getter/setter API using legacy APIs
	// http://blogs.msdn.com/b/ie/archive/2010/09/07/transitioning-existing-code-to-the-es5-getter-setter-apis.aspx
	// (second clause tests for Object.defineProperty() in IE<9 that only supports extending DOM prototypes, but
	// note that IE<9 does not support __defineGetter__ or __defineSetter__ so it just renders the method harmless)
	var defineProp
	if (Object.defineProperty && (function() {
	try {
	Object.defineProperty({}, 'x', {});
	return true;
	} catch (e) {
	return false;
	}
	})()) {
	defineProp = Object.defineProperty;
	} else {
	defineProp = function(o, p, desc) {
	if (!o === Object(o)) throw new TypeError("Object.defineProperty called on non-object");
	if (ECMAScript.HasProperty(desc, 'get') && Object.prototype.__defineGetter__) { Object.prototype.__defineGetter__.call(o, p, desc.get); }
	if (ECMAScript.HasProperty(desc, 'set') && Object.prototype.__defineSetter__) { Object.prototype.__defineSetter__.call(o, p, desc.set); }
	if (ECMAScript.HasProperty(desc, 'value')) { o[p] = desc.value; }
	return o;
	};
	}

	var getOwnPropNames = Object.getOwnPropertyNames \|\| function (o) {
	if (o !== Object(o)) throw new TypeError("Object.getOwnPropertyNames called on non-object");
	var props = [], p;
	for (p in o) {
	if (ECMAScript.HasOwnProperty(o, p)) {
	props.push(p);
	}
	}
	return props;
	};

	// ES5: Make obj[index] an alias for obj._getter(index)/obj._setter(index, value)
	// for index in 0 ... obj.length
	function makeArrayAccessors(obj) {
	if (!defineProp) { return; }

	if (obj.length > MAX_ARRAY_LENGTH) throw new RangeError("Array too large for polyfill");

	function makeArrayAccessor(index) {
	defineProp(obj, index, {
	'get': function() { return obj._getter(index); },
	'set': function(v) { obj._setter(index, v); },
	enumerable: true,
	configurable: false
	});
	}

	var i;
	for (i = 0; i < obj.length; i += 1) {
	makeArrayAccessor(i);
	}
	}

	// Internal conversion functions:
	// pack<Type>() - take a number (interpreted as Type), output a byte array
	// unpack<Type>() - take a byte array, output a Type-like number

	function as_signed(value, bits) { var s = 32 - bits; return (value << s) >> s; }
	function as_unsigned(value, bits) { var s = 32 - bits; return (value << s) >>> s; }

	function packI8(n) { return [n & 0xff]; }
	function unpackI8(bytes) { return as_signed(bytes[0], 8); }

	function packU8(n) { return [n & 0xff]; }
	function unpackU8(bytes) { return as_unsigned(bytes[0], 8); }

	function packU8Clamped(n) { n = round(Number(n)); return [n < 0 ? 0 : n > 0xff ? 0xff : n & 0xff]; }

	function packI16(n) { return [(n >> 8) & 0xff, n & 0xff]; }
	function unpackI16(bytes) { return as_signed(bytes[0] << 8 \| bytes[1], 16); }

	function packU16(n) { return [(n >> 8) & 0xff, n & 0xff]; }
	function unpackU16(bytes) { return as_unsigned(bytes[0] << 8 \| bytes[1], 16); }

	function packI32(n) { return [(n >> 24) & 0xff, (n >> 16) & 0xff, (n >> 8) & 0xff, n & 0xff]; }
	function unpackI32(bytes) { return as_signed(bytes[0] << 24 \| bytes[1] << 16 \| bytes[2] << 8 \| bytes[3], 32); }

	function packU32(n) { return [(n >> 24) & 0xff, (n >> 16) & 0xff, (n >> 8) & 0xff, n & 0xff]; }
	function unpackU32(bytes) { return as_unsigned(bytes[0] << 24 \| bytes[1] << 16 \| bytes[2] << 8 \| bytes[3], 32); }

	function packIEEE754(v, ebits, fbits) {

	var bias = (1 << (ebits - 1)) - 1,
	s, e, f, ln,
	i, bits, str, bytes;

	function roundToEven(n) {
	var w = floor(n), f = n - w;
	if (f < 0.5)
	return w;
	if (f > 0.5)
	return w + 1;
	return w % 2 ? w + 1 : w;
	}

	// Compute sign, exponent, fraction
	if (v !== v) {
	// NaN
	// http://dev.w3.org/2006/webapi/WebIDL/#es-type-mapping
	e = (1 << ebits) - 1; f = pow(2, fbits - 1); s = 0;
	} else if (v === Infinity \|\| v === -Infinity) {
	e = (1 << ebits) - 1; f = 0; s = (v < 0) ? 1 : 0;
	} else if (v === 0) {
	e = 0; f = 0; s = (1 / v === -Infinity) ? 1 : 0;
	} else {
	s = v < 0;
	v = abs(v);

	if (v >= pow(2, 1 - bias)) {
	e = min(floor(log(v) / LN2), 1023);
	f = roundToEven(v / pow(2, e) * pow(2, fbits));
	if (f / pow(2, fbits) >= 2) {
	e = e + 1;
	f = 1;
	}
	if (e > bias) {
	// Overflow
	e = (1 << ebits) - 1;
	f = 0;
	} else {
	// Normalized
	e = e + bias;
	f = f - pow(2, fbits);
	}
	} else {
	// Denormalized
	e = 0;
	f = roundToEven(v / pow(2, 1 - bias - fbits));
	}
	}

	// Pack sign, exponent, fraction
	bits = [];
	for (i = fbits; i; i -= 1) { bits.push(f % 2 ? 1 : 0); f = floor(f / 2); }
	for (i = ebits; i; i -= 1) { bits.push(e % 2 ? 1 : 0); e = floor(e / 2); }
	bits.push(s ? 1 : 0);
	bits.reverse();
	str = bits.join('');

	// Bits to bytes
	bytes = [];
	while (str.length) {
	bytes.push(parseInt(str.substring(0, 8), 2));
	str = str.substring(8);
	}
	return bytes;
	}

	function unpackIEEE754(bytes, ebits, fbits) {

	// Bytes to bits
	var bits = [], i, j, b, str,
	bias, s, e, f;

	for (i = bytes.length; i; i -= 1) {
	b = bytes[i - 1];
	for (j = 8; j; j -= 1) {
	bits.push(b % 2 ? 1 : 0); b = b >> 1;
	}
	}
	bits.reverse();
	str = bits.join('');

	// Unpack sign, exponent, fraction
	bias = (1 << (ebits - 1)) - 1;
	s = parseInt(str.substring(0, 1), 2) ? -1 : 1;
	e = parseInt(str.substring(1, 1 + ebits), 2);
	f = parseInt(str.substring(1 + ebits), 2);

	// Produce number
	if (e === (1 << ebits) - 1) {
	return f !== 0 ? NaN : s * Infinity;
	} else if (e > 0) {
	// Normalized
	return s * pow(2, e - bias) * (1 + f / pow(2, fbits));
	} else if (f !== 0) {
	// Denormalized
	return s * pow(2, -(bias - 1)) * (f / pow(2, fbits));
	} else {
	return s < 0 ? -0 : 0;
	}
	}

	function unpackF64(b) { return unpackIEEE754(b, 11, 52); }
	function packF64(v) { return packIEEE754(v, 11, 52); }
	function unpackF32(b) { return unpackIEEE754(b, 8, 23); }
	function packF32(v) { return packIEEE754(v, 8, 23); }


	//
	// 3 The ArrayBuffer Type
	//

	(function() {

	/** @constructor */
	var ArrayBuffer = function ArrayBuffer(length) {
	length = ECMAScript.ToInt32(length);
	if (length < 0) throw new RangeError('ArrayBuffer size is not a small enough positive integer');

	this.byteLength = length;
	this._bytes = [];
	this._bytes.length = length;

	var i;
	for (i = 0; i < this.byteLength; i += 1) {
	this._bytes[i] = 0;
	}

	configureProperties(this);
	};

	exports.ArrayBuffer = exports.ArrayBuffer \|\| ArrayBuffer;

	//
	// 4 The ArrayBufferView Type
	//

	// NOTE: this constructor is not exported
	/** @constructor */
	var ArrayBufferView = function ArrayBufferView() {
	//this.buffer = null;
	//this.byteOffset = 0;
	//this.byteLength = 0;
	};

	//
	// 5 The Typed Array View Types
	//

	function makeConstructor(bytesPerElement, pack, unpack) {
	// Each TypedArray type requires a distinct constructor instance with
	// identical logic, which this produces.

	var ctor;
	ctor = function(buffer, byteOffset, length) {
	var array, sequence, i, s;

	if (!arguments.length \|\| typeof arguments[0] === 'number') {
	// Constructor(unsigned long length)
	this.length = ECMAScript.ToInt32(arguments[0]);
	if (length < 0) throw new RangeError('ArrayBufferView size is not a small enough positive integer');

	this.byteLength = this.length * this.BYTES_PER_ELEMENT;
	this.buffer = new ArrayBuffer(this.byteLength);
	this.byteOffset = 0;
	} else if (typeof arguments[0] === 'object' && arguments[0].constructor === ctor) {
	// Constructor(TypedArray array)
	array = arguments[0];

	this.length = array.length;
	this.byteLength = this.length * this.BYTES_PER_ELEMENT;
	this.buffer = new ArrayBuffer(this.byteLength);
	this.byteOffset = 0;

	for (i = 0; i < this.length; i += 1) {
	this._setter(i, array._getter(i));
	}
	} else if (typeof arguments[0] === 'object' &&
	!(arguments[0] instanceof ArrayBuffer \|\| ECMAScript.Class(arguments[0]) === 'ArrayBuffer')) {
	// Constructor(sequence<type> array)
	sequence = arguments[0];

	this.length = ECMAScript.ToUint32(sequence.length);
	this.byteLength = this.length * this.BYTES_PER_ELEMENT;
	this.buffer = new ArrayBuffer(this.byteLength);
	this.byteOffset = 0;

	for (i = 0; i < this.length; i += 1) {
	s = sequence[i];
	this._setter(i, Number(s));
	}
	} else if (typeof arguments[0] === 'object' &&
	(arguments[0] instanceof ArrayBuffer \|\| ECMAScript.Class(arguments[0]) === 'ArrayBuffer')) {
	// Constructor(ArrayBuffer buffer,
	// optional unsigned long byteOffset, optional unsigned long length)
	this.buffer = buffer;

	this.byteOffset = ECMAScript.ToUint32(byteOffset);
	if (this.byteOffset > this.buffer.byteLength) {
	throw new RangeError("byteOffset out of range");
	}

	if (this.byteOffset % this.BYTES_PER_ELEMENT) {
	// The given byteOffset must be a multiple of the element
	// size of the specific type, otherwise an exception is raised.
	throw new RangeError("ArrayBuffer length minus the byteOffset is not a multiple of the element size.");
	}

	if (arguments.length < 3) {
	this.byteLength = this.buffer.byteLength - this.byteOffset;

	if (this.byteLength % this.BYTES_PER_ELEMENT) {
	throw new RangeError("length of buffer minus byteOffset not a multiple of the element size");
	}
	this.length = this.byteLength / this.BYTES_PER_ELEMENT;
	} else {
	this.length = ECMAScript.ToUint32(length);
	this.byteLength = this.length * this.BYTES_PER_ELEMENT;
	}

	if ((this.byteOffset + this.byteLength) > this.buffer.byteLength) {
	throw new RangeError("byteOffset and length reference an area beyond the end of the buffer");
	}
	} else {
	throw new TypeError("Unexpected argument type(s)");
	}

	this.constructor = ctor;

	configureProperties(this);
	makeArrayAccessors(this);
	};

	ctor.prototype = new ArrayBufferView();
	ctor.prototype.BYTES_PER_ELEMENT = bytesPerElement;
	ctor.prototype._pack = pack;
	ctor.prototype._unpack = unpack;
	ctor.BYTES_PER_ELEMENT = bytesPerElement;

	// getter type (unsigned long index);
	ctor.prototype._getter = function(index) {
	if (arguments.length < 1) throw new SyntaxError("Not enough arguments");

	index = ECMAScript.ToUint32(index);
	if (index >= this.length) {
	return undefined;
	}

	var bytes = [], i, o;
	for (i = 0, o = this.byteOffset + index * this.BYTES_PER_ELEMENT;
	i < this.BYTES_PER_ELEMENT;
	i += 1, o += 1) {
	bytes.push(this.buffer._bytes[o]);
	}
	return this._unpack(bytes);
	};

	// NONSTANDARD: convenience alias for getter: type get(unsigned long index);
	ctor.prototype.get = ctor.prototype._getter;

	// setter void (unsigned long index, type value);
	ctor.prototype._setter = function(index, value) {
	if (arguments.length < 2) throw new SyntaxError("Not enough arguments");

	index = ECMAScript.ToUint32(index);
	if (index >= this.length) {
	return undefined;
	}

	var bytes = this._pack(value), i, o;
	for (i = 0, o = this.byteOffset + index * this.BYTES_PER_ELEMENT;
	i < this.BYTES_PER_ELEMENT;
	i += 1, o += 1) {
	this.buffer._bytes[o] = bytes[i];
	}
	};

	// void set(TypedArray array, optional unsigned long offset);
	// void set(sequence<type> array, optional unsigned long offset);
	ctor.prototype.set = function(index, value) {
	if (arguments.length < 1) throw new SyntaxError("Not enough arguments");
	var array, sequence, offset, len,
	i, s, d,
	byteOffset, byteLength, tmp;

	if (typeof arguments[0] === 'object' && arguments[0].constructor === this.constructor) {
	// void set(TypedArray array, optional unsigned long offset);
	array = arguments[0];
	offset = ECMAScript.ToUint32(arguments[1]);

	if (offset + array.length > this.length) {
	throw new RangeError("Offset plus length of array is out of range");
	}

	byteOffset = this.byteOffset + offset * this.BYTES_PER_ELEMENT;
	byteLength = array.length * this.BYTES_PER_ELEMENT;

	if (array.buffer === this.buffer) {
	tmp = [];
	for (i = 0, s = array.byteOffset; i < byteLength; i += 1, s += 1) {
	tmp[i] = array.buffer._bytes[s];
	}
	for (i = 0, d = byteOffset; i < byteLength; i += 1, d += 1) {
	this.buffer._bytes[d] = tmp[i];
	}
	} else {
	for (i = 0, s = array.byteOffset, d = byteOffset;
	i < byteLength; i += 1, s += 1, d += 1) {
	this.buffer._bytes[d] = array.buffer._bytes[s];
	}
	}
	} else if (typeof arguments[0] === 'object' && typeof arguments[0].length !== 'undefined') {
	// void set(sequence<type> array, optional unsigned long offset);
	sequence = arguments[0];
	len = ECMAScript.ToUint32(sequence.length);
	offset = ECMAScript.ToUint32(arguments[1]);

	if (offset + len > this.length) {
	throw new RangeError("Offset plus length of array is out of range");
	}

	for (i = 0; i < len; i += 1) {
	s = sequence[i];
	this._setter(offset + i, Number(s));
	}
	} else {
	throw new TypeError("Unexpected argument type(s)");
	}
	};

	// TypedArray subarray(long begin, optional long end);
	ctor.prototype.subarray = function(start, end) {
	function clamp(v, min, max) { return v < min ? min : v > max ? max : v; }

	start = ECMAScript.ToInt32(start);
	end = ECMAScript.ToInt32(end);

	if (arguments.length < 1) { start = 0; }
	if (arguments.length < 2) { end = this.length; }

	if (start < 0) { start = this.length + start; }
	if (end < 0) { end = this.length + end; }

	start = clamp(start, 0, this.length);
	end = clamp(end, 0, this.length);

	var len = end - start;
	if (len < 0) {
	len = 0;
	}

	return new this.constructor(
	this.buffer, this.byteOffset + start * this.BYTES_PER_ELEMENT, len);
	};

	return ctor;
	}

	var Int8Array = makeConstructor(1, packI8, unpackI8);
	var Uint8Array = makeConstructor(1, packU8, unpackU8);
	var Uint8ClampedArray = makeConstructor(1, packU8Clamped, unpackU8);
	var Int16Array = makeConstructor(2, packI16, unpackI16);
	var Uint16Array = makeConstructor(2, packU16, unpackU16);
	var Int32Array = makeConstructor(4, packI32, unpackI32);
	var Uint32Array = makeConstructor(4, packU32, unpackU32);
	var Float32Array = makeConstructor(4, packF32, unpackF32);
	var Float64Array = makeConstructor(8, packF64, unpackF64);

	exports.Int8Array = exports.Int8Array \|\| Int8Array;
	exports.Uint8Array = exports.Uint8Array \|\| Uint8Array;
	exports.Uint8ClampedArray = exports.Uint8ClampedArray \|\| Uint8ClampedArray;
	exports.Int16Array = exports.Int16Array \|\| Int16Array;
	exports.Uint16Array = exports.Uint16Array \|\| Uint16Array;
	exports.Int32Array = exports.Int32Array \|\| Int32Array;
	exports.Uint32Array = exports.Uint32Array \|\| Uint32Array;
	exports.Float32Array = exports.Float32Array \|\| Float32Array;
	exports.Float64Array = exports.Float64Array \|\| Float64Array;
	}());

	//
	// 6 The DataView View Type
	//

	(function() {
	function r(array, index) {
	return ECMAScript.IsCallable(array.get) ? array.get(index) : array[index];
	}

	var IS_BIG_ENDIAN = (function() {
	var u16array = new(exports.Uint16Array)([0x1234]),
	u8array = new(exports.Uint8Array)(u16array.buffer);
	return r(u8array, 0) === 0x12;
	}());

	// Constructor(ArrayBuffer buffer,
	// optional unsigned long byteOffset,
	// optional unsigned long byteLength)
	/** @constructor */
	var DataView = function DataView(buffer, byteOffset, byteLength) {
	if (arguments.length === 0) {
	buffer = new exports.ArrayBuffer(0);
	} else if (!(buffer instanceof exports.ArrayBuffer \|\| ECMAScript.Class(buffer) === 'ArrayBuffer')) {
	throw new TypeError("TypeError");
	}

	this.buffer = buffer \|\| new exports.ArrayBuffer(0);

	this.byteOffset = ECMAScript.ToUint32(byteOffset);
	if (this.byteOffset > this.buffer.byteLength) {
	throw new RangeError("byteOffset out of range");
	}

	if (arguments.length < 3) {
	this.byteLength = this.buffer.byteLength - this.byteOffset;
	} else {
	this.byteLength = ECMAScript.ToUint32(byteLength);
	}

	if ((this.byteOffset + this.byteLength) > this.buffer.byteLength) {
	throw new RangeError("byteOffset and length reference an area beyond the end of the buffer");
	}

	configureProperties(this);
	};

	function makeGetter(arrayType) {
	return function(byteOffset, littleEndian) {

	byteOffset = ECMAScript.ToUint32(byteOffset);

	if (byteOffset + arrayType.BYTES_PER_ELEMENT > this.byteLength) {
	throw new RangeError("Array index out of range");
	}
	byteOffset += this.byteOffset;

	var uint8Array = new exports.Uint8Array(this.buffer, byteOffset, arrayType.BYTES_PER_ELEMENT),
	bytes = [], i;
	for (i = 0; i < arrayType.BYTES_PER_ELEMENT; i += 1) {
	bytes.push(r(uint8Array, i));
	}

	if (Boolean(littleEndian) === Boolean(IS_BIG_ENDIAN)) {
	bytes.reverse();
	}

	return r(new arrayType(new exports.Uint8Array(bytes).buffer), 0);
	};
	}

	DataView.prototype.getUint8 = makeGetter(exports.Uint8Array);
	DataView.prototype.getInt8 = makeGetter(exports.Int8Array);
	DataView.prototype.getUint16 = makeGetter(exports.Uint16Array);
	DataView.prototype.getInt16 = makeGetter(exports.Int16Array);
	DataView.prototype.getUint32 = makeGetter(exports.Uint32Array);
	DataView.prototype.getInt32 = makeGetter(exports.Int32Array);
	DataView.prototype.getFloat32 = makeGetter(exports.Float32Array);
	DataView.prototype.getFloat64 = makeGetter(exports.Float64Array);

	function makeSetter(arrayType) {
	return function(byteOffset, value, littleEndian) {

	byteOffset = ECMAScript.ToUint32(byteOffset);
	if (byteOffset + arrayType.BYTES_PER_ELEMENT > this.byteLength) {
	throw new RangeError("Array index out of range");
	}

	// Get bytes
	var typeArray = new arrayType([value]),
	byteArray = new exports.Uint8Array(typeArray.buffer),
	bytes = [], i, byteView;

	for (i = 0; i < arrayType.BYTES_PER_ELEMENT; i += 1) {
	bytes.push(r(byteArray, i));
	}

	// Flip if necessary
	if (Boolean(littleEndian) === Boolean(IS_BIG_ENDIAN)) {
	bytes.reverse();
	}

	// Write them
	byteView = new exports.Uint8Array(this.buffer, byteOffset, arrayType.BYTES_PER_ELEMENT);
	byteView.set(bytes);
	};
	}

	DataView.prototype.setUint8 = makeSetter(exports.Uint8Array);
	DataView.prototype.setInt8 = makeSetter(exports.Int8Array);
	DataView.prototype.setUint16 = makeSetter(exports.Uint16Array);
	DataView.prototype.setInt16 = makeSetter(exports.Int16Array);
	DataView.prototype.setUint32 = makeSetter(exports.Uint32Array);
	DataView.prototype.setInt32 = makeSetter(exports.Int32Array);
	DataView.prototype.setFloat32 = makeSetter(exports.Float32Array);
	DataView.prototype.setFloat64 = makeSetter(exports.Float64Array);

	exports.DataView = exports.DataView \|\| DataView;

	}());