Jazz Jackrabbit 2 Online

/* 
 * DataView.js:
 * An implementation of the DataView class on top of typed arrays.
 * Useful for Firefox 4 which implements TypedArrays but not DataView.
 *
 * Copyright 2011 by David Flanagan
 * http://creativecommons.org/licenses/by-nc-sa/3.0/
 */
"use strict";

(function(global) {
    // If DataView already exists, do nothing
    if (global.DataView) return;

    // If ArrayBuffer is not supported, fail with an error
    if (!global.ArrayBuffer) fail("ArrayBuffer not supported");

    // If ES5 is not supported, fail
    if (!Object.defineProperties) fail("This module requires ECMAScript 5");

    // Figure if the platform is natively little-endian.
    // If the integer 0x00000001 is arranged in memory as 01 00 00 00 then
    // we're on a little endian platform. On a big-endian platform we'd get
    // get bytes 00 00 00 01 instead.
    var nativele = new Int8Array(new Int32Array([1]).buffer)[0] === 1;

    // A temporary array for copying or reversing bytes into.
    // Since js is single-threaded, we only need this one static copy
    var temp = new Uint8Array(8);

    // The DataView() constructor
    global.DataView = function DataView(buffer, offset, length) {
        if (!(buffer instanceof ArrayBuffer)) fail("Bad ArrayBuffer");

        // Default values for omitted arguments
        offset = offset || 0;
        length = length || (buffer.byteLength - offset);

        if (offset < 0 || length < 0 || offset+length > buffer.byteLength)
            fail("Illegal offset and/or length");

        // Define the 3 read-only, non-enumerable ArrayBufferView properties
        Object.defineProperties(this, {
            buffer: {
                value: buffer,
                enumerable:false, writable: false, configurable: false
            },
            byteOffset: {
                value: offset,
                enumerable:false, writable: false, configurable: false
            },
            byteLength: {
                value: length,
                enumerable:false, writable: false, configurable: false
            },
            _bytes: {
                value: new Uint8Array(buffer, offset, length),
                enumerable:false, writable: false, configurable: false
            }
        });
    }

    // The DataView prototype object
    global.DataView.prototype = {
        constructor: DataView,
        
        getInt8: function getInt8(offset) {
            return get(this, Int8Array, 1, offset);
        },
        getUint8: function getUint8(offset) {
            return get(this, Uint8Array, 1, offset);
        },
        getInt16: function getInt16(offset, le) {
            return get(this, Int16Array, 2, offset, le);
        },
        getUint16: function getUint16(offset, le) {
            return get(this, Uint16Array, 2, offset, le);
        },
        getInt32: function getInt32(offset, le) {
            return get(this, Int32Array, 4, offset, le);
        },
        getUint32: function getUint32(offset, le) {
            return get(this, Uint32Array, 4, offset, le);
        },
        getFloat32: function getFloat32(offset, le) {
            return get(this, Float32Array, 4, offset, le);
        },
        getFloat64: function getFloat32(offset, le) {
            return get(this, Float64Array, 8, offset, le);
        },

        
        setInt8: function setInt8(offset, value) {
            set(this, Int8Array, 1, offset, value);
        },
        setUint8: function setUint8(offset, value) {
            set(this, Uint8Array, 1, offset, value);
        },
        setInt16: function setInt16(offset, value, le) {
            set(this, Int16Array, 2, offset, value, le);
        },
        setUint16: function setUint16(offset, value, le) {
            set(this, Uint16Array, 2, offset, value, le);
        },
        setInt32: function setInt32(offset, value, le) {
            set(this, Int32Array, 4, offset, value, le);
        },
        setUint32: function setUint32(offset, value, le) {
            set(this, Uint32Array, 4, offset, value, le);
        },
        setFloat32: function setFloat32(offset, value, le) {
            set(this, Float32Array, 4, offset, value, le);
        },
        setFloat64: function setFloat64(offset, value, le) {
            set(this, Float64Array, 8, offset, value, le);
        }
    };

    // The get() utility function used by the get methods
    function get(view, type, size, offset, le) {
        if (offset === undefined) fail("Missing required offset argument");

        if (offset < 0 || offset + size > view.byteLength)
            fail("Invalid index: " + offset);

        if (size === 1 || !!le === nativele) { 
            // This is the easy case: the desired endianness 
            // matches the native endianness.

            // Typed arrays require proper alignment.  DataView does not.
            if ((view.byteOffset + offset) % size === 0) 
                return (new type(view.buffer, view.byteOffset+offset, 1))[0];
            else {
                // Copy bytes into the temp array, to fix alignment
                for(var i = 0; i < size; i++) 
                    temp[i] = view._bytes[offset+i];
                // Now wrap that buffer with an array of the desired type
                return (new type(temp.buffer))[0];
            }
        }
        else {
            // If the native endianness doesn't match the desired, then
            // we have to reverse the bytes
            for(var i = 0; i < size; i++)
                temp[size-i-1] = view._bytes[offset+i];
            return (new type(temp.buffer))[0];
        }
    }

    // The set() utility function used by the set methods
    function set(view, type, size, offset, value, le) {
        if (offset === undefined) fail("Missing required offset argument");
        if (value === undefined) fail("Missing required value argument");

        if (offset < 0 || offset + size > view.byteLength)
            fail("Invalid index: " + offset);

        if (size === 1 || !!le === nativele) { 
            // This is the easy case: the desired endianness 
            // matches the native endianness.
            if ((view.byteOffset + offset) % size === 0) {
                (new type(view.buffer,view.byteOffset+offset, 1))[0] = value;
            }
            else {
                (new type(temp.buffer))[0] = value;
                // Now copy the bytes into the view's buffer
                for(var i = 0; i < size; i++)
                    view._bytes[i+offset] = temp[i];
            }
        }
        else {
            // If the native endianness doesn't match the desired, then
            // we have to reverse the bytes
            
            // Store the value into our temporary buffer
            (new type(temp.buffer))[0] = value;

            // Now copy the bytes, in reverse order, into the view's buffer
            for(var i = 0; i < size; i++)
                view._bytes[offset+i] = temp[size-1-i];
        }
    }

    function fail(msg) { throw new Error(msg); }
}(this));