MATH201/content/scripts/playaudio.js

var slider = document.getElementById("sliderHarmonics");
var textHarmonics = document.getElementById("textHarmonics");
var sliderFreq = document.getElementById("sliderFreq")
var textFreq = document.getElementById("textFreq");
var playing = document.getElementById("playButton");
textHarmonics.innerHTML = slider.value; // Display the default slider value
textFreq.innerHTML=sliderFreq.value

var isPlaying = false;
var real = new Float32Array(110);
var imag = new Float32Array(110);

var cspec = document.getElementById('spectrum'),
      ctxspec = cspec.getContext("2d");
  
  cspec.height = 200;
  cspec.width = 500;





sliderFreq.oninput = function() {
  textFreq.innerHTML=this.value;
  osc.frequency.value=this.value;
}
// Update the current slider value (each time you drag the slider handle)
slider.oninput = function() {
  textHarmonics.innerHTML = this.value;
  if (isPlaying){
    var numCoeffs = this.value; // The more coefficients you use, the better the approximation
    //var real = new Float32Array(numCoeffs+10);
    //var imag = new Float32Array(numCoeffs+10);

    //real[0] = 0.5;
    //for (var i = 1; i < numCoeffs; i++) { // note i starts at 1
    //    imag[i] = 1 / (i * Math.PI);
    //}
    for (var i = 1; i <= 110; i++) { 
    real[i]=0;
    }
    for (var i = 1; i <= numCoeffs; i++) { // note i starts at 1
        real[2*i] = (2/Math.PI) *( 1/(2*i+1)-1/(2*i-1) );
    }
    
    osc.frequency.value = textFreq.innerHTML;
    //var imag= new Float32Array([0,0,0,0,0]);   // sine
    //var real = new Float32Array(imag.length);  // cos
    var customWave = context.createPeriodicWave(real, imag);  // cos,sine
    osc.setPeriodicWave(customWave);



  //isPlaying = false;
  //  osc.stop();
  //playSound(this.value);}
}}


//setup audio context
window.AudioContext = window.AudioContext || window.webkitAudioContext;
var context = new window.AudioContext();

//create nodes
var osc; //create in event listener so we can press the button more than once
var masterGain = context.createGain();
var analyser = context.createAnalyser();

//routing
masterGain.connect(analyser);
analyser.connect(context.destination);



//draw function for canvas
function drawWave(analyser, ctx) {
  
  var buffer = new Float32Array(1024),
      w = ctx.canvas.width;
  
  ctx.strokeStyle = "#D44"; //reddish color
  ctx.setTransform(1,0,0,-1,0,100.5); // flip y-axis and translate to center
  ctx.lineWidth = 2;
  ctxspec.strokeStyle = "#44D" //blueish color
  ctxspec.setTransform(1,0,0,1,0,100.5);
  ctxspec.lineWidth = 2;
  var wspec=ctxspec.canvas.width;
  (function loop() {
    analyser.getFloatTimeDomainData(buffer);
    var prevValue=999;
    var currentValue=999;
    for (var i=10; i<1024; i++){
      currentValue=buffer[i];
      if (currentValue>prevValue && currentValue>-0.05 && currentValue<0.05){
        break;
      }
      prevValue=currentValue;
    }
    ctx.clearRect(0, -100, w, ctx.canvas.height);

    ctx.beginPath();
    ctx.moveTo(0, buffer[i] * 90);
    for (var x = i; x < w+i; x += 2) ctx.lineTo(x-i+2, buffer[x] * 90);
    ctx.stroke();
    
    //spectrum stuff:
    //real=getReal();
    //console.log(real);
    ctxspec.clearRect(0, -100, wspec, ctxspec.canvas.height);
    ctxspec.beginPath();
    ctxspec.moveTo(0, 80);
    for (var j=0; j<100; j++){
      ctxspec.lineTo(j*10,real[j]*400+80);
    }
    ctxspec.stroke();
    if (isPlaying) requestAnimationFrame(loop)
  })();
}

//button trigger
$(function() {  
  var c = document.getElementById('scope'),
      ctx = c.getContext("2d");
  
  c.height = 200;
  c.width = 600;
  
  // make 0-line permanent as background
  ctx.moveTo(0, 100.5);
  ctx.lineTo(c.width, 100.5);
  ctx.stroke();
  c.style.backgroundImage = "url(" + c.toDataURL() + ")";
  
  $('button').on('mousedown', function() {
    
    if (playing.innerHTML==="Pause sound"){
    playing.innerHTML="Play the sound";
    isPlaying = false;
    osc.stop();
    }else{
      playing.innerHTML="Pause sound";
    playSound(textHarmonics.innerHTML);
    }});
});

function playSound(h){
  var c = document.getElementById('scope'),
  ctx = c.getContext("2d");
    osc = context.createOscillator();
    //osc settings
    
  
   
    
    
    
    
    
    var numCoeffs = h; // The more coefficients you use, the better the approximation


    //real[0] = 0.5;
    //for (var i = 1; i < numCoeffs; i++) { // note i starts at 1
    //    imag[i] = 1 / (i * Math.PI);
    //}
    for (var i = 1; i <= 110; i++) { 
      real[i]=0;
      }
    for (var i = 1; i <= numCoeffs; i++) { // note i starts at 1
        real[2*i] = (2/Math.PI) *( 1/(2*i+1)-1/(2*i-1) );
    }
    
    
    
    
    
    
    
    
    //var imag= new Float32Array([0,0,0,0,0]);   // sine
    //var real = new Float32Array(imag.length);  // cos
    var customWave = context.createPeriodicWave(real, imag);  // cos,sine
    osc.setPeriodicWave(customWave);
    osc.frequency.value = textFreq.innerHTML;
    osc.connect(masterGain);
    osc.start();
    isPlaying = true;
    
    drawWave(analyser, ctx);
  }