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gbemu-part1.js
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gbemu-part1.js
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// Portions copyright 2013 Google, Inc
// Copyright (C) 2010 - 2012 Grant Galitz
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation.
// The full license is available at http://www.gnu.org/licenses/gpl.html
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
// The code has been adapted for use as a benchmark by Google.
var GameboyBenchmark = new BenchmarkSuite('Gameboy', [26288412],
[new Benchmark('Gameboy',
false,
false,
20,
runGameboy,
setupGameboy,
tearDownGameboy,
null,
4)]);
var decoded_gameboy_rom = null;
function setupGameboy() {
// Check if all the types required by the code are supported.
// If not, throw exception and quit.
if (!(typeof Uint8Array != "undefined" &&
typeof Int8Array != "undefined" &&
typeof Float32Array != "undefined" &&
typeof Int32Array != "undefined") ) {
throw "TypedArrayUnsupported";
}
decoded_gameboy_rom = base64_decode(gameboy_rom);
rom = null;
}
function runGameboy() {
start(new GameBoyCanvas(), decoded_gameboy_rom);
gameboy.instructions = 0;
gameboy.totalInstructions = 250000;
while (gameboy.instructions <= gameboy.totalInstructions) {
gameboy.run();
GameBoyAudioNode.run();
}
resetGlobalVariables();
}
function tearDownGameboy() {
decoded_gameboy_rom = null;
expectedGameboyStateStr = null;
}
var expectedGameboyStateStr =
'{"registerA":160,"registerB":255,"registerC":255,"registerE":11,' +
'"registersHL":51600,"programCounter":24309,"stackPointer":49706,' +
'"sumROM":10171578,"sumMemory":3435856,"sumMBCRam":234598,"sumVRam":0}';
// Start of browser emulation.
var GameBoyWindow = { };
function GameBoyContext() {
this.createBuffer = function() {
return new Buffer();
}
this.createImageData = function (w, h) {
var result = {};
// The following line was updated since Octane 1.0 to avoid OOB access.
result.data = new Uint8Array(w * h * 4);
return result;
}
this.putImageData = function (buffer, x, y) {
var sum = 0;
for (var i = 0; i < buffer.data.length; i++) {
sum += i * buffer.data[i];
sum = sum % 1000;
}
}
this.drawImage = function () { }
};
function GameBoyCanvas() {
this.getContext = function() {
return new GameBoyContext();
}
this.width = 160;
this.height = 144;
this.style = { visibility: "visibile" };
}
function cout(message, colorIndex) {
}
function clear_terminal() {
}
var GameBoyAudioNode = {
bufferSize : 0,
onaudioprocess : null ,
connect : function () {},
run: function() {
var event = {outputBuffer : this.outputBuffer};
this.onaudioprocess(event);
}
};
function GameBoyAudioContext () {
this.createBufferSource = function() {
return { noteOn : function () {}, connect : function() {}};
}
this.sampleRate = 48000;
this.destination = {}
this.createBuffer = function (channels, len, sampleRate) {
return { gain : 1,
numberOfChannels : 1,
length : 1,
duration : 0.000020833333110203966,
sampleRate : 48000}
}
this.createJavaScriptNode = function (bufferSize, inputChannels, outputChannels) {
GameBoyAudioNode.bufferSize = bufferSize;
GameBoyAudioNode.outputBuffer = {
getChannelData : function (i) {return this.channelData[i];},
channelData : []
};
for (var i = 0; i < outputChannels; i++) {
GameBoyAudioNode.outputBuffer.channelData[i] = new Float32Array(bufferSize);
}
return GameBoyAudioNode;
}
}
var mock_date_time_counter = 0;
function new_Date() {
return {
getTime: function() {
mock_date_time_counter += 16;
return mock_date_time_counter;
}
};
}
// End of browser emulation.
// Start of helper functions.
function checkFinalState() {
function sum(a) {
var result = 0;
for (var i = 0; i < a.length; i++) {
result += a[i];
}
return result;
}
var state = {
registerA: gameboy.registerA,
registerB: gameboy.registerB,
registerC: gameboy.registerC,
registerE: gameboy.registerE,
registerF: gameboy.registerF,
registersHL: gameboy.registersHL,
programCounter: gameboy.programCounter,
stackPointer: gameboy.stackPointer,
sumROM : sum(gameboy.fromTypedArray(gameboy.ROM)),
sumMemory: sum(gameboy.fromTypedArray(gameboy.memory)),
sumMBCRam: sum(gameboy.fromTypedArray(gameboy.MBCRam)),
sumVRam: sum(gameboy.fromTypedArray(gameboy.VRam))
}
var stateStr = JSON.stringify(state);
if (typeof expectedGameboyStateStr != "undefined") {
if (stateStr != expectedGameboyStateStr) {
alert("Incorrect final state of processor:\n" +
" actual " + stateStr + "\n" +
" expected " + expectedGameboyStateStr);
}
} else {
alert(stateStr);
}
}
function resetGlobalVariables () {
//Audio API Event Handler:
audioContextHandle = null;
audioNode = null;
audioSource = null;
launchedContext = false;
audioContextSampleBuffer = [];
resampled = [];
webAudioMinBufferSize = 15000;
webAudioMaxBufferSize = 25000;
webAudioActualSampleRate = 44100;
XAudioJSSampleRate = 0;
webAudioMono = false;
XAudioJSVolume = 1;
resampleControl = null;
audioBufferSize = 0;
resampleBufferStart = 0;
resampleBufferEnd = 0;
resampleBufferSize = 2;
gameboy = null; //GameBoyCore object.
gbRunInterval = null; //GameBoyCore Timer
}
// End of helper functions.
// Original code from Grant Galitz follows.
// Modifications by Google are marked in comments.
// Start of js/other/base64.js file.
var toBase64 = ["A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z",
"a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z",
"0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "+" , "/", "="];
var fromBase64 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
function base64(data) {
try {
// The following line was modified for benchmarking:
var base64 = GameBoyWindow.btoa(data); //Use this native function when it's available, as it's a magnitude faster than the non-native code below.
}
catch (error) {
//Defaulting to non-native base64 encoding...
var base64 = "";
var dataLength = data.length;
if (dataLength > 0) {
var bytes = [0, 0, 0];
var index = 0;
var remainder = dataLength % 3;
while (data.length % 3 > 0) {
//Make sure we don't do fuzzy math in the next loop...
data[data.length] = " ";
}
while (index < dataLength) {
//Keep this loop small for speed.
bytes = [data.charCodeAt(index++) & 0xFF, data.charCodeAt(index++) & 0xFF, data.charCodeAt(index++) & 0xFF];
base64 += toBase64[bytes[0] >> 2] + toBase64[((bytes[0] & 0x3) << 4) | (bytes[1] >> 4)] + toBase64[((bytes[1] & 0xF) << 2) | (bytes[2] >> 6)] + toBase64[bytes[2] & 0x3F];
}
if (remainder > 0) {
//Fill in the padding and recalulate the trailing six-bit group...
base64[base64.length - 1] = "=";
if (remainder == 2) {
base64[base64.length - 2] = "=";
base64[base64.length - 3] = toBase64[(bytes[0] & 0x3) << 4];
}
else {
base64[base64.length - 2] = toBase64[(bytes[1] & 0xF) << 2];
}
}
}
}
return base64;
}
function base64_decode(data) {
try {
// The following line was modified for benchmarking:
var decode64 = GameBoyWindow.atob(data); //Use this native function when it's available, as it's a magnitude faster than the non-native code below.
}
catch (error) {
//Defaulting to non-native base64 decoding...
var decode64 = "";
var dataLength = data.length;
if (dataLength > 3 && dataLength % 4 == 0) {
var sixbits = [0, 0, 0, 0]; //Declare this out of the loop, to speed up the ops.
var index = 0;
while (index < dataLength) {
//Keep this loop small for speed.
sixbits = [fromBase64.indexOf(data.charAt(index++)), fromBase64.indexOf(data.charAt(index++)), fromBase64.indexOf(data.charAt(index++)), fromBase64.indexOf(data.charAt(index++))];
decode64 += String.fromCharCode((sixbits[0] << 2) | (sixbits[1] >> 4)) + String.fromCharCode(((sixbits[1] & 0x0F) << 4) | (sixbits[2] >> 2)) + String.fromCharCode(((sixbits[2] & 0x03) << 6) | sixbits[3]);
}
//Check for the '=' character after the loop, so we don't hose it up.
if (sixbits[3] >= 0x40) {
decode64.length -= 1;
if (sixbits[2] >= 0x40) {
decode64.length -= 1;
}
}
}
}
return decode64;
}
function to_little_endian_dword(str) {
return to_little_endian_word(str) + String.fromCharCode((str >> 16) & 0xFF, (str >> 24) & 0xFF);
}
function to_little_endian_word(str) {
return to_byte(str) + String.fromCharCode((str >> 8) & 0xFF);
}
function to_byte(str) {
return String.fromCharCode(str & 0xFF);
}
function arrayToBase64(arrayIn) {
var binString = "";
var length = arrayIn.length;
for (var index = 0; index < length; ++index) {
if (typeof arrayIn[index] == "number") {
binString += String.fromCharCode(arrayIn[index]);
}
}
return base64(binString);
}
function base64ToArray(b64String) {
var binString = base64_decode(b64String);
var outArray = [];
var length = binString.length;
for (var index = 0; index < length;) {
outArray.push(binString.charCodeAt(index++) & 0xFF);
}
return outArray;
}
// End of js/other/base64.js file.
// Start of js/other/resampler.js file.
//JavaScript Audio Resampler (c) 2011 - Grant Galitz
function Resampler(fromSampleRate, toSampleRate, channels, outputBufferSize, noReturn) {
this.fromSampleRate = fromSampleRate;
this.toSampleRate = toSampleRate;
this.channels = channels | 0;
this.outputBufferSize = outputBufferSize;
this.noReturn = !!noReturn;
this.initialize();
}
Resampler.prototype.initialize = function () {
//Perform some checks:
if (this.fromSampleRate > 0 && this.toSampleRate > 0 && this.channels > 0) {
if (this.fromSampleRate == this.toSampleRate) {
//Setup a resampler bypass:
this.resampler = this.bypassResampler; //Resampler just returns what was passed through.
this.ratioWeight = 1;
}
else {
//Setup the interpolation resampler:
this.compileInterpolationFunction();
this.resampler = this.interpolate; //Resampler is a custom quality interpolation algorithm.
this.ratioWeight = this.fromSampleRate / this.toSampleRate;
this.tailExists = false;
this.lastWeight = 0;
this.initializeBuffers();
}
}
else {
throw(new Error("Invalid settings specified for the resampler."));
}
}
Resampler.prototype.compileInterpolationFunction = function () {
var toCompile = "var bufferLength = Math.min(buffer.length, this.outputBufferSize);\
if ((bufferLength % " + this.channels + ") == 0) {\
if (bufferLength > 0) {\
var ratioWeight = this.ratioWeight;\
var weight = 0;";
for (var channel = 0; channel < this.channels; ++channel) {
toCompile += "var output" + channel + " = 0;"
}
toCompile += "var actualPosition = 0;\
var amountToNext = 0;\
var alreadyProcessedTail = !this.tailExists;\
this.tailExists = false;\
var outputBuffer = this.outputBuffer;\
var outputOffset = 0;\
var currentPosition = 0;\
do {\
if (alreadyProcessedTail) {\
weight = ratioWeight;";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "output" + channel + " = 0;"
}
toCompile += "}\
else {\
weight = this.lastWeight;";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "output" + channel + " = this.lastOutput[" + channel + "];"
}
toCompile += "alreadyProcessedTail = true;\
}\
while (weight > 0 && actualPosition < bufferLength) {\
amountToNext = 1 + actualPosition - currentPosition;\
if (weight >= amountToNext) {";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "output" + channel + " += buffer[actualPosition++] * amountToNext;"
}
toCompile += "currentPosition = actualPosition;\
weight -= amountToNext;\
}\
else {";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "output" + channel + " += buffer[actualPosition" + ((channel > 0) ? (" + " + channel) : "") + "] * weight;"
}
toCompile += "currentPosition += weight;\
weight = 0;\
break;\
}\
}\
if (weight == 0) {";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "outputBuffer[outputOffset++] = output" + channel + " / ratioWeight;"
}
toCompile += "}\
else {\
this.lastWeight = weight;";
for (channel = 0; channel < this.channels; ++channel) {
toCompile += "this.lastOutput[" + channel + "] = output" + channel + ";"
}
toCompile += "this.tailExists = true;\
break;\
}\
} while (actualPosition < bufferLength);\
return this.bufferSlice(outputOffset);\
}\
else {\
return (this.noReturn) ? 0 : [];\
}\
}\
else {\
throw(new Error(\"Buffer was of incorrect sample length.\"));\
}";
this.interpolate = Function("buffer", toCompile);
}
Resampler.prototype.bypassResampler = function (buffer) {
if (this.noReturn) {
//Set the buffer passed as our own, as we don't need to resample it:
this.outputBuffer = buffer;
return buffer.length;
}
else {
//Just return the buffer passsed:
return buffer;
}
}
Resampler.prototype.bufferSlice = function (sliceAmount) {
if (this.noReturn) {
//If we're going to access the properties directly from this object:
return sliceAmount;
}
else {
//Typed array and normal array buffer section referencing:
try {
return this.outputBuffer.subarray(0, sliceAmount);
}
catch (error) {
try {
//Regular array pass:
this.outputBuffer.length = sliceAmount;
return this.outputBuffer;
}
catch (error) {
//Nightly Firefox 4 used to have the subarray function named as slice:
return this.outputBuffer.slice(0, sliceAmount);
}
}
}
}
Resampler.prototype.initializeBuffers = function () {
//Initialize the internal buffer:
try {
this.outputBuffer = new Float32Array(this.outputBufferSize);
this.lastOutput = new Float32Array(this.channels);
}
catch (error) {
this.outputBuffer = [];
this.lastOutput = [];
}
}
// End of js/other/resampler.js file.
// Start of js/other/XAudioServer.js file.
/*Initialize here first:
Example:
Stereo audio with a sample rate of 70 khz, a minimum buffer of 15000 samples total, a maximum buffer of 25000 samples total and a starting volume level of 1.
var parentObj = this;
this.audioHandle = new XAudioServer(2, 70000, 15000, 25000, function (sampleCount) {
return parentObj.audioUnderRun(sampleCount);
}, 1);
The callback is passed the number of samples requested, while it can return any number of samples it wants back.
*/
function XAudioServer(channels, sampleRate, minBufferSize, maxBufferSize, underRunCallback, volume) {
this.audioChannels = (channels == 2) ? 2 : 1;
webAudioMono = (this.audioChannels == 1);
XAudioJSSampleRate = (sampleRate > 0 && sampleRate <= 0xFFFFFF) ? sampleRate : 44100;
webAudioMinBufferSize = (minBufferSize >= (samplesPerCallback << 1) && minBufferSize < maxBufferSize) ? (minBufferSize & ((webAudioMono) ? 0xFFFFFFFF : 0xFFFFFFFE)) : (samplesPerCallback << 1);
webAudioMaxBufferSize = (Math.floor(maxBufferSize) > webAudioMinBufferSize + this.audioChannels) ? (maxBufferSize & ((webAudioMono) ? 0xFFFFFFFF : 0xFFFFFFFE)) : (minBufferSize << 1);
this.underRunCallback = (typeof underRunCallback == "function") ? underRunCallback : function () {};
XAudioJSVolume = (volume >= 0 && volume <= 1) ? volume : 1;
this.audioType = -1;
this.mozAudioTail = [];
this.audioHandleMoz = null;
this.audioHandleFlash = null;
this.flashInitialized = false;
this.mozAudioFound = false;
this.initializeAudio();
}
XAudioServer.prototype.MOZWriteAudio = function (buffer) {
//mozAudio:
this.MOZWriteAudioNoCallback(buffer);
this.MOZExecuteCallback();
}
XAudioServer.prototype.MOZWriteAudioNoCallback = function (buffer) {
//mozAudio:
this.writeMozAudio(buffer);
}
XAudioServer.prototype.callbackBasedWriteAudio = function (buffer) {
//Callback-centered audio APIs:
this.callbackBasedWriteAudioNoCallback(buffer);
this.callbackBasedExecuteCallback();
}
XAudioServer.prototype.callbackBasedWriteAudioNoCallback = function (buffer) {
//Callback-centered audio APIs:
var length = buffer.length;
for (var bufferCounter = 0; bufferCounter < length && audioBufferSize < webAudioMaxBufferSize;) {
audioContextSampleBuffer[audioBufferSize++] = buffer[bufferCounter++];
}
}
/*Pass your samples into here!
Pack your samples as a one-dimenional array
With the channel samplea packed uniformly.
examples:
mono - [left, left, left, left]
stereo - [left, right, left, right, left, right, left, right]
*/
XAudioServer.prototype.writeAudio = function (buffer) {
if (this.audioType == 0) {
this.MOZWriteAudio(buffer);
}
else if (this.audioType == 1) {
this.callbackBasedWriteAudio(buffer);
}
else if (this.audioType == 2) {
if (this.checkFlashInit() || launchedContext) {
this.callbackBasedWriteAudio(buffer);
}
else if (this.mozAudioFound) {
this.MOZWriteAudio(buffer);
}
}
}
/*Pass your samples into here if you don't want automatic callback calling:
Pack your samples as a one-dimenional array
With the channel samplea packed uniformly.
examples:
mono - [left, left, left, left]
stereo - [left, right, left, right, left, right, left, right]
Useful in preventing infinite recursion issues with calling writeAudio inside your callback.
*/
XAudioServer.prototype.writeAudioNoCallback = function (buffer) {
if (this.audioType == 0) {
this.MOZWriteAudioNoCallback(buffer);
}
else if (this.audioType == 1) {
this.callbackBasedWriteAudioNoCallback(buffer);
}
else if (this.audioType == 2) {
if (this.checkFlashInit() || launchedContext) {
this.callbackBasedWriteAudioNoCallback(buffer);
}
else if (this.mozAudioFound) {
this.MOZWriteAudioNoCallback(buffer);
}
}
}
//Developer can use this to see how many samples to write (example: minimum buffer allotment minus remaining samples left returned from this function to make sure maximum buffering is done...)
//If -1 is returned, then that means metric could not be done.
XAudioServer.prototype.remainingBuffer = function () {
if (this.audioType == 0) {
//mozAudio:
return this.samplesAlreadyWritten - this.audioHandleMoz.mozCurrentSampleOffset();
}
else if (this.audioType == 1) {
//WebKit Audio:
return (((resampledSamplesLeft() * resampleControl.ratioWeight) >> (this.audioChannels - 1)) << (this.audioChannels - 1)) + audioBufferSize;
}
else if (this.audioType == 2) {
if (this.checkFlashInit() || launchedContext) {
//Webkit Audio / Flash Plugin Audio:
return (((resampledSamplesLeft() * resampleControl.ratioWeight) >> (this.audioChannels - 1)) << (this.audioChannels - 1)) + audioBufferSize;
}
else if (this.mozAudioFound) {
//mozAudio:
return this.samplesAlreadyWritten - this.audioHandleMoz.mozCurrentSampleOffset();
}
}
//Default return:
return 0;
}
XAudioServer.prototype.MOZExecuteCallback = function () {
//mozAudio:
var samplesRequested = webAudioMinBufferSize - this.remainingBuffer();
if (samplesRequested > 0) {
this.writeMozAudio(this.underRunCallback(samplesRequested));
}
}
XAudioServer.prototype.callbackBasedExecuteCallback = function () {
//WebKit /Flash Audio:
var samplesRequested = webAudioMinBufferSize - this.remainingBuffer();
if (samplesRequested > 0) {
this.callbackBasedWriteAudioNoCallback(this.underRunCallback(samplesRequested));
}
}
//If you just want your callback called for any possible refill (Execution of callback is still conditional):
XAudioServer.prototype.executeCallback = function () {
if (this.audioType == 0) {
this.MOZExecuteCallback();
}
else if (this.audioType == 1) {
this.callbackBasedExecuteCallback();
}
else if (this.audioType == 2) {
if (this.checkFlashInit() || launchedContext) {
this.callbackBasedExecuteCallback();
}
else if (this.mozAudioFound) {
this.MOZExecuteCallback();
}
}
}
//DO NOT CALL THIS, the lib calls this internally!
XAudioServer.prototype.initializeAudio = function () {
try {
throw (new Error("Select initializeWebAudio case")); // Line added for benchmarking.
this.preInitializeMozAudio();
if (navigator.platform == "Linux i686") {
//Block out mozaudio usage for Linux Firefox due to moz bugs:
throw(new Error(""));
}
this.initializeMozAudio();
}
catch (error) {
try {
this.initializeWebAudio();
}
catch (error) {
try {
this.initializeFlashAudio();
}
catch (error) {
throw(new Error("Browser does not support real time audio output."));
}
}
}
}
XAudioServer.prototype.preInitializeMozAudio = function () {
//mozAudio - Synchronous Audio API
this.audioHandleMoz = new Audio();
this.audioHandleMoz.mozSetup(this.audioChannels, XAudioJSSampleRate);
this.samplesAlreadyWritten = 0;
var emptySampleFrame = (this.audioChannels == 2) ? [0, 0] : [0];
var prebufferAmount = 0;
if (navigator.platform != "MacIntel" && navigator.platform != "MacPPC") { //Mac OS X doesn't experience this moz-bug!
while (this.audioHandleMoz.mozCurrentSampleOffset() == 0) {
//Mozilla Audio Bugginess Workaround (Firefox freaks out if we don't give it a prebuffer under certain OSes):
prebufferAmount += this.audioHandleMoz.mozWriteAudio(emptySampleFrame);
}
var samplesToDoubleBuffer = prebufferAmount / this.audioChannels;
//Double the prebuffering for windows:
for (var index = 0; index < samplesToDoubleBuffer; index++) {
this.samplesAlreadyWritten += this.audioHandleMoz.mozWriteAudio(emptySampleFrame);
}
}
this.samplesAlreadyWritten += prebufferAmount;
webAudioMinBufferSize += this.samplesAlreadyWritten;
this.mozAudioFound = true;
}
XAudioServer.prototype.initializeMozAudio = function () {
//Fill in our own buffering up to the minimum specified:
this.writeMozAudio(getFloat32(webAudioMinBufferSize));
this.audioType = 0;
}
XAudioServer.prototype.initializeWebAudio = function () {
if (launchedContext) {
resetCallbackAPIAudioBuffer(webAudioActualSampleRate, samplesPerCallback);
this.audioType = 1;
}
else {
throw(new Error(""));
}
}
XAudioServer.prototype.initializeFlashAudio = function () {
var existingFlashload = document.getElementById("XAudioJS");
if (existingFlashload == null) {
var thisObj = this;
var mainContainerNode = document.createElement("div");
mainContainerNode.setAttribute("style", "position: fixed; bottom: 0px; right: 0px; margin: 0px; padding: 0px; border: none; width: 8px; height: 8px; overflow: hidden; z-index: -1000; ");
var containerNode = document.createElement("div");
containerNode.setAttribute("style", "position: static; border: none; width: 0px; height: 0px; visibility: hidden; margin: 8px; padding: 0px;");
containerNode.setAttribute("id", "XAudioJS");
mainContainerNode.appendChild(containerNode);
document.getElementsByTagName("body")[0].appendChild(mainContainerNode);
swfobject.embedSWF(
"XAudioJS.swf",
"XAudioJS",
"8",
"8",
"9.0.0",
"",
{},
{"allowscriptaccess":"always"},
{"style":"position: static; visibility: hidden; margin: 8px; padding: 0px; border: none"},
function (event) {
if (event.success) {
thisObj.audioHandleFlash = event.ref;
}
else {
thisObj.audioType = 1;
}
}
);
}
else {
this.audioHandleFlash = existingFlashload;
}
this.audioType = 2;
}
XAudioServer.prototype.changeVolume = function (newVolume) {
if (newVolume >= 0 && newVolume <= 1) {
XAudioJSVolume = newVolume;
if (this.checkFlashInit()) {
this.audioHandleFlash.changeVolume(XAudioJSVolume);
}
if (this.mozAudioFound) {
this.audioHandleMoz.volume = XAudioJSVolume;
}
}
}
//Moz Audio Buffer Writing Handler:
XAudioServer.prototype.writeMozAudio = function (buffer) {
var length = this.mozAudioTail.length;
if (length > 0) {
var samplesAccepted = this.audioHandleMoz.mozWriteAudio(this.mozAudioTail);
this.samplesAlreadyWritten += samplesAccepted;
this.mozAudioTail.splice(0, samplesAccepted);
}
length = Math.min(buffer.length, webAudioMaxBufferSize - this.samplesAlreadyWritten + this.audioHandleMoz.mozCurrentSampleOffset());
var samplesAccepted = this.audioHandleMoz.mozWriteAudio(buffer);
this.samplesAlreadyWritten += samplesAccepted;
for (var index = 0; length > samplesAccepted; --length) {
//Moz Audio wants us saving the tail:
this.mozAudioTail.push(buffer[index++]);
}
}
//Checks to see if the NPAPI Adobe Flash bridge is ready yet:
XAudioServer.prototype.checkFlashInit = function () {
if (!this.flashInitialized && this.audioHandleFlash && this.audioHandleFlash.initialize) {
this.flashInitialized = true;
this.audioHandleFlash.initialize(this.audioChannels, XAudioJSVolume);
resetCallbackAPIAudioBuffer(44100, samplesPerCallback);
}
return this.flashInitialized;
}
/////////END LIB
function getFloat32(size) {
try {
return new Float32Array(size);
}
catch (error) {
return new Array(size);
}
}
function getFloat32Flat(size) {
try {
var newBuffer = new Float32Array(size);
}
catch (error) {
var newBuffer = new Array(size);
var audioSampleIndice = 0;
do {
newBuffer[audioSampleIndice] = 0;
} while (++audioSampleIndice < size);
}
return newBuffer;
}
//Flash NPAPI Event Handler:
var samplesPerCallback = 2048; //Has to be between 2048 and 4096 (If over, then samples are ignored, if under then silence is added).
var outputConvert = null;
function audioOutputFlashEvent() { //The callback that flash calls...
resampleRefill();
return outputConvert();
}
function generateFlashStereoString() { //Convert the arrays to one long string for speed.
var copyBinaryStringLeft = "";
var copyBinaryStringRight = "";
for (var index = 0; index < samplesPerCallback && resampleBufferStart != resampleBufferEnd; ++index) {
//Sanitize the buffer:
copyBinaryStringLeft += String.fromCharCode(((Math.min(Math.max(resampled[resampleBufferStart++] + 1, 0), 2) * 0x3FFF) | 0) + 0x3000);
copyBinaryStringRight += String.fromCharCode(((Math.min(Math.max(resampled[resampleBufferStart++] + 1, 0), 2) * 0x3FFF) | 0) + 0x3000);
if (resampleBufferStart == resampleBufferSize) {
resampleBufferStart = 0;
}
}
return copyBinaryStringLeft + copyBinaryStringRight;
}
function generateFlashMonoString() { //Convert the array to one long string for speed.
var copyBinaryString = "";
for (var index = 0; index < samplesPerCallback && resampleBufferStart != resampleBufferEnd; ++index) {
//Sanitize the buffer:
copyBinaryString += String.fromCharCode(((Math.min(Math.max(resampled[resampleBufferStart++] + 1, 0), 2) * 0x3FFF) | 0) + 0x3000);
if (resampleBufferStart == resampleBufferSize) {
resampleBufferStart = 0;
}
}
return copyBinaryString;
}
//Audio API Event Handler:
var audioContextHandle = null;
var audioNode = null;
var audioSource = null;
var launchedContext = false;
var audioContextSampleBuffer = [];
var resampled = [];
var webAudioMinBufferSize = 15000;
var webAudioMaxBufferSize = 25000;
var webAudioActualSampleRate = 44100;
var XAudioJSSampleRate = 0;
var webAudioMono = false;
var XAudioJSVolume = 1;
var resampleControl = null;
var audioBufferSize = 0;
var resampleBufferStart = 0;
var resampleBufferEnd = 0;
var resampleBufferSize = 2;
function audioOutputEvent(event) { //Web Audio API callback...
var index = 0;
var buffer1 = event.outputBuffer.getChannelData(0);
var buffer2 = event.outputBuffer.getChannelData(1);
resampleRefill();
if (!webAudioMono) {
//STEREO:
while (index < samplesPerCallback && resampleBufferStart != resampleBufferEnd) {
buffer1[index] = resampled[resampleBufferStart++] * XAudioJSVolume;
buffer2[index++] = resampled[resampleBufferStart++] * XAudioJSVolume;
if (resampleBufferStart == resampleBufferSize) {
resampleBufferStart = 0;
}
}
}
else {
//MONO:
while (index < samplesPerCallback && resampleBufferStart != resampleBufferEnd) {
buffer2[index] = buffer1[index] = resampled[resampleBufferStart++] * XAudioJSVolume;
++index;
if (resampleBufferStart == resampleBufferSize) {
resampleBufferStart = 0;
}
}
}
//Pad with silence if we're underrunning:
while (index < samplesPerCallback) {
buffer2[index] = buffer1[index] = 0;
++index;
}
}
function resampleRefill() {
if (audioBufferSize > 0) {
//Resample a chunk of audio:
var resampleLength = resampleControl.resampler(getBufferSamples());
var resampledResult = resampleControl.outputBuffer;
for (var index2 = 0; index2 < resampleLength; ++index2) {
resampled[resampleBufferEnd++] = resampledResult[index2];
if (resampleBufferEnd == resampleBufferSize) {
resampleBufferEnd = 0;
}
if (resampleBufferStart == resampleBufferEnd) {
++resampleBufferStart;
if (resampleBufferStart == resampleBufferSize) {
resampleBufferStart = 0;
}
}
}
audioBufferSize = 0;
}
}
function resampledSamplesLeft() {
return ((resampleBufferStart <= resampleBufferEnd) ? 0 : resampleBufferSize) + resampleBufferEnd - resampleBufferStart;
}
function getBufferSamples() {
//Typed array and normal array buffer section referencing:
try {
return audioContextSampleBuffer.subarray(0, audioBufferSize);
}
catch (error) {
try {
//Regular array pass:
audioContextSampleBuffer.length = audioBufferSize;
return audioContextSampleBuffer;
}
catch (error) {
//Nightly Firefox 4 used to have the subarray function named as slice:
return audioContextSampleBuffer.slice(0, audioBufferSize);
}
}
}
//Initialize WebKit Audio /Flash Audio Buffer:
function resetCallbackAPIAudioBuffer(APISampleRate, bufferAlloc) {
audioContextSampleBuffer = getFloat32(webAudioMaxBufferSize);
audioBufferSize = webAudioMaxBufferSize;
resampleBufferStart = 0;
resampleBufferEnd = 0;
resampleBufferSize = Math.max(webAudioMaxBufferSize * Math.ceil(XAudioJSSampleRate / APISampleRate), samplesPerCallback) << 1;
if (webAudioMono) {
//MONO Handling:
resampled = getFloat32Flat(resampleBufferSize);
resampleControl = new Resampler(XAudioJSSampleRate, APISampleRate, 1, resampleBufferSize, true);
outputConvert = generateFlashMonoString;
}
else {
//STEREO Handling:
resampleBufferSize <<= 1;
resampled = getFloat32Flat(resampleBufferSize);
resampleControl = new Resampler(XAudioJSSampleRate, APISampleRate, 2, resampleBufferSize, true);
outputConvert = generateFlashStereoString;
}
}
//Initialize WebKit Audio:
(function () {
if (!launchedContext) {
try {
// The following line was modified for benchmarking:
audioContextHandle = new GameBoyAudioContext(); //Create a system audio context.
}
catch (error) {
try {
audioContextHandle = new AudioContext(); //Create a system audio context.
}
catch (error) {
return;
}
}
try {
audioSource = audioContextHandle.createBufferSource(); //We need to create a false input to get the chain started.
audioSource.loop = false; //Keep this alive forever (Event handler will know when to ouput.)
XAudioJSSampleRate = webAudioActualSampleRate = audioContextHandle.sampleRate;
audioSource.buffer = audioContextHandle.createBuffer(1, 1, webAudioActualSampleRate); //Create a zero'd input buffer for the input to be valid.
audioNode = audioContextHandle.createJavaScriptNode(samplesPerCallback, 1, 2); //Create 2 outputs and ignore the input buffer (Just copy buffer 1 over if mono)
audioNode.onaudioprocess = audioOutputEvent; //Connect the audio processing event to a handling function so we can manipulate output
audioSource.connect(audioNode); //Send and chain the input to the audio manipulation.
audioNode.connect(audioContextHandle.destination); //Send and chain the output of the audio manipulation to the system audio output.
audioSource.noteOn(0); //Start the loop!
}
catch (error) {
return;
}
launchedContext = true;
}
})();
// End of js/other/XAudioServer.js file.
// Start of js/other/resize.js file.
//JavaScript Image Resizer (c) 2012 - Grant Galitz
function Resize(widthOriginal, heightOriginal, targetWidth, targetHeight, blendAlpha, interpolationPass) {
this.widthOriginal = Math.abs(parseInt(widthOriginal) || 0);
this.heightOriginal = Math.abs(parseInt(heightOriginal) || 0);
this.targetWidth = Math.abs(parseInt(targetWidth) || 0);
this.targetHeight = Math.abs(parseInt(targetHeight) || 0);
this.colorChannels = (!!blendAlpha) ? 4 : 3;
this.interpolationPass = !!interpolationPass;
this.targetWidthMultipliedByChannels = this.targetWidth * this.colorChannels;
this.originalWidthMultipliedByChannels = this.widthOriginal * this.colorChannels;
this.originalHeightMultipliedByChannels = this.heightOriginal * this.colorChannels;
this.widthPassResultSize = this.targetWidthMultipliedByChannels * this.heightOriginal;
this.finalResultSize = this.targetWidthMultipliedByChannels * this.targetHeight;
this.initialize();
}
Resize.prototype.initialize = function () {
//Perform some checks:
if (this.widthOriginal > 0 && this.heightOriginal > 0 && this.targetWidth > 0 && this.targetHeight > 0) {
if (this.widthOriginal == this.targetWidth) {
//Bypass the width resizer pass:
this.resizeWidth = this.bypassResizer;
}
else {
//Setup the width resizer pass:
this.ratioWeightWidthPass = this.widthOriginal / this.targetWidth;
if (this.ratioWeightWidthPass < 1 && this.interpolationPass) {
this.initializeFirstPassBuffers(true);
this.resizeWidth = (this.colorChannels == 4) ? this.resizeWidthInterpolatedRGBA : this.resizeWidthInterpolatedRGB;
}
else {
this.initializeFirstPassBuffers(false);
this.resizeWidth = (this.colorChannels == 4) ? this.resizeWidthRGBA : this.resizeWidthRGB;
}
}
if (this.heightOriginal == this.targetHeight) {
//Bypass the height resizer pass:
this.resizeHeight = this.bypassResizer;
}
else {
//Setup the height resizer pass: