webaudioevaluationtool: core.js annotate

annotate core.js @ 668:6455bee85090

Implemented repeat function of tests

author	Nicholas Jillings <n.g.r.jillings@se14.qmul.ac.uk>
date	Fri, 10 Apr 2015 16:21:57 +0100
parents	2cc25941c433
children	c8eb821710fa

rev	line source
n@656	1 /**
n@656	2 * core.js
n@656	3 *
n@656	4 * Main script to run, calls all other core functions and manages loading/store to backend.
n@656	5 * Also contains all global variables.
n@656	6 */
n@656	7
n@656	8
n@656	9 /*
n@656	10 *
n@656	11 * WARNING!!!
n@656	12 *
n@656	13 * YOU ARE VIEWING THE DEV VERSION. THERE IS NO GUARANTEE THIS WILL BE FULLY FUNCTIONAL
n@656	14 *
n@656	15 * WARNING!!!
n@656	16 *
n@656	17 */
n@656	18
n@656	19
n@656	20
n@656	21
n@656	22 /* create the web audio API context and store in audioContext*/
n@657	23 var audioContext; // Hold the browser web audio API
n@657	24 var projectXML; // Hold the parsed setup XML
n@662	25
n@668	26 var testXMLSetups = []; // Hold the parsed test instances
n@668	27 var testResultsHolders =[]; // Hold the results from each test for publishing to XML
n@657	28 var currentTestHolder; // Hold an intermediate results during test - metrics
n@657	29 var audioEngineContext; // The custome AudioEngine object
n@657	30 var projectReturn; // Hold the URL for the return
n@657	31 var preTestQuestions = document.createElement('PreTest'); // Store any pre-test question response
n@657	32 var postTestQuestions = document.createElement('PostTest'); // Store any post-test question response
n@656	33
n@656	34 window.onload = function() {
n@656	35 // Function called once the browser has loaded all files.
n@656	36 // This should perform any initial commands such as structure / loading documents
n@656	37
n@656	38 // Create a web audio API context
n@656	39 // Fixed for cross-browser support
n@656	40 var AudioContext = window.AudioContext \|\| window.webkitAudioContext;
n@656	41 audioContext = new AudioContext;
n@656	42
n@656	43 // Create the audio engine object
n@656	44 audioEngineContext = new AudioEngine();
n@656	45 };
n@656	46
n@656	47 function loadProjectSpec(url) {
n@656	48 // Load the project document from the given URL, decode the XML and instruct audioEngine to get audio data
n@656	49 // If url is null, request client to upload project XML document
n@656	50 var r = new XMLHttpRequest();
n@656	51 r.open('GET',url,true);
n@656	52 r.onload = function() {
n@656	53 loadProjectSpecCallback(r.response);
n@656	54 };
n@656	55 r.send();
n@656	56 };
n@656	57
n@656	58 function loadProjectSpecCallback(response) {
n@656	59 // Function called after asynchronous download of XML project specification
n@656	60 var decode = $.parseXML(response);
n@656	61 projectXML = $(decode);
n@656	62
n@656	63 // Now extract the setup tag
n@656	64 var xmlSetup = projectXML.find('setup');
n@656	65 // Detect the interface to use and load the relevant javascripts.
n@656	66 var interfaceType = xmlSetup[0].attributes['interface'];
n@656	67 var interfaceJS = document.createElement('script');
n@656	68 interfaceJS.setAttribute("type","text/javascript");
n@656	69 if (interfaceType.value == 'APE') {
n@656	70 interfaceJS.setAttribute("src","ape.js");
n@657	71
n@657	72 // APE comes with a css file
n@657	73 var css = document.createElement('link');
n@657	74 css.rel = 'stylesheet';
n@657	75 css.type = 'text/css';
n@657	76 css.href = 'ape.css';
n@657	77
n@657	78 document.getElementsByTagName("head")[0].appendChild(css);
n@656	79 }
n@656	80 document.getElementsByTagName("head")[0].appendChild(interfaceJS);
n@656	81 }
n@656	82
n@656	83 function createProjectSave(destURL) {
n@656	84 // Save the data from interface into XML and send to destURL
n@656	85 // If destURL is null then download XML in client
n@656	86 // Now time to render file locally
n@656	87 var xmlDoc = interfaceXMLSave();
n@656	88 if (destURL == "null" \|\| destURL == undefined) {
n@656	89 var parent = document.createElement("div");
n@656	90 parent.appendChild(xmlDoc);
n@656	91 var file = [parent.innerHTML];
n@656	92 var bb = new Blob(file,{type : 'application/xml'});
n@656	93 var dnlk = window.URL.createObjectURL(bb);
n@656	94 var a = document.createElement("a");
n@656	95 a.hidden = '';
n@656	96 a.href = dnlk;
n@656	97 a.download = "save.xml";
n@656	98 a.textContent = "Save File";
n@656	99
n@656	100 var submitDiv = document.getElementById('download-point');
n@656	101 submitDiv.appendChild(a);
n@656	102 }
n@667	103 return submitDiv;
n@656	104 }
n@656	105
n@656	106 function AudioEngine() {
n@656	107
n@656	108 // Create two output paths, the main outputGain and fooGain.
n@656	109 // Output gain is default to 1 and any items for playback route here
n@656	110 // Foo gain is used for analysis to ensure paths get processed, but are not heard
n@656	111 // because web audio will optimise and any route which does not go to the destination gets ignored.
n@656	112 this.outputGain = audioContext.createGain();
n@656	113 this.fooGain = audioContext.createGain();
n@656	114 this.fooGain.gain = 0;
n@656	115
n@656	116 // Use this to detect playback state: 0 - stopped, 1 - playing
n@656	117 this.status = 0;
n@656	118
n@656	119 // Connect both gains to output
n@656	120 this.outputGain.connect(audioContext.destination);
n@656	121 this.fooGain.connect(audioContext.destination);
n@656	122
n@656	123 // Create store for new audioObjects
n@656	124 this.audioObjects = [];
n@656	125
n@656	126 this.play = function() {
n@656	127 // Send play command to all playback buffers for synchronised start
n@656	128 // Also start timer callbacks to detect if playback has finished
n@656	129 if (this.status == 0) {
n@656	130 // First get current clock
n@656	131 var timer = audioContext.currentTime;
n@656	132 // Add 3 seconds
n@656	133 timer += 3.0;
n@656	134
n@656	135 // Send play to all tracks
n@656	136 for (var i=0; i<this.audioObjects.length; i++)
n@656	137 {
n@656	138 this.audioObjects[i].play(timer);
n@656	139 }
n@656	140 this.status = 1;
n@656	141 }
n@656	142 };
n@656	143
n@656	144 this.stop = function() {
n@656	145 // Send stop and reset command to all playback buffers
n@656	146 if (this.status == 1) {
n@656	147 for (var i=0; i<this.audioObjects.length; i++)
n@656	148 {
n@656	149 this.audioObjects[i].stop();
n@656	150 }
n@656	151 this.status = 0;
n@656	152 }
n@656	153 };
n@656	154
n@656	155 this.selectedTrack = function(id) {
n@656	156 for (var i=0; i<this.audioObjects.length; i++)
n@656	157 {
n@656	158 if (id == i) {
n@656	159 this.audioObjects[i].outputGain.gain.value = 1.0;
n@656	160 } else {
n@656	161 this.audioObjects[i].outputGain.gain.value = 0.0;
n@656	162 }
n@656	163 }
n@656	164 };
n@656	165
n@656	166
n@656	167 this.newTrack = function(url) {
n@656	168 // Pull data from given URL into new audio buffer
n@656	169 // URLs must either be from the same source OR be setup to 'Access-Control-Allow-Origin'
n@656	170
n@656	171 // Create the audioObject with ID of the new track length;
n@656	172 audioObjectId = this.audioObjects.length
n@656	173 this.audioObjects[audioObjectId] = new audioObject(audioObjectId);
n@656	174
n@656	175 // AudioObject will get track itself.
n@656	176 this.audioObjects[audioObjectId].constructTrack(url);
n@656	177 };
n@656	178
n@656	179 }
n@656	180
n@656	181 function audioObject(id) {
n@656	182 // The main buffer object with common control nodes to the AudioEngine
n@656	183
n@656	184 this.id = id;
n@656	185 this.state = 0; // 0 - no data, 1 - ready
n@656	186 this.url = null; // Hold the URL given for the output back to the results.
n@656	187
n@656	188 // Create a buffer and external gain control to allow internal patching of effects and volume leveling.
n@656	189 this.bufferNode = audioContext.createBufferSource();
n@656	190 this.outputGain = audioContext.createGain();
n@656	191
n@656	192 // Default output gain to be zero
n@656	193 this.outputGain.gain.value = 0.0;
n@656	194
n@656	195 // Connect buffer to the audio graph
n@656	196 this.bufferNode.connect(this.outputGain);
n@656	197 this.outputGain.connect(audioEngineContext.outputGain);
n@656	198
n@656	199 // the audiobuffer is not designed for multi-start playback
n@656	200 // When stopeed, the buffer node is deleted and recreated with the stored buffer.
n@656	201 this.buffer;
n@656	202
n@656	203 this.play = function(startTime) {
n@656	204 this.bufferNode.start(startTime);
n@656	205 };
n@656	206
n@656	207 this.stop = function() {
n@656	208 this.bufferNode.stop(0);
n@656	209 this.bufferNode = audioContext.createBufferSource();
n@656	210 this.bufferNode.connect(this.outputGain);
n@656	211 this.bufferNode.buffer = this.buffer;
n@656	212 this.bufferNode.loop = true;
n@656	213 };
n@656	214
n@656	215 this.constructTrack = function(url) {
n@656	216 var request = new XMLHttpRequest();
n@656	217 this.url = url;
n@656	218 request.open('GET',url,true);
n@656	219 request.responseType = 'arraybuffer';
n@656	220
n@656	221 var audioObj = this;
n@656	222
n@656	223 // Create callback to decode the data asynchronously
n@656	224 request.onloadend = function() {
n@656	225 audioContext.decodeAudioData(request.response, function(decodedData) {
n@656	226 audioObj.buffer = decodedData;
n@656	227 audioObj.bufferNode.buffer = audioObj.buffer;
n@656	228 audioObj.bufferNode.loop = true;
n@656	229 audioObj.state = 1;
n@656	230 }, function(){
n@656	231 // Should only be called if there was an error, but sometimes gets called continuously
n@656	232 // Check here if the error is genuine
n@656	233 if (audioObj.state == 0 \|\| audioObj.buffer == undefined) {
n@656	234 // Genuine error
n@656	235 console.log('FATAL - Error loading buffer on '+audioObj.id);
n@656	236 }
n@656	237 });
n@656	238 };
n@656	239 request.send();
n@656	240 };
n@656	241
n@656	242 }