Source code

Revision control

Copy as Markdown

Other Tools

Test Info:

<!DOCTYPE html>
<html>
<head>
<title>
Test Constructor: PeriodicWave
</title>
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="/webaudio/resources/audit-util.js"></script>
<script src="/webaudio/resources/audit.js"></script>
</head>
<body>
<script id="layout-test-code">
// real and imag are used in separate PeriodicWaves to make their peak values
// easy to determine.
const realMax = 99;
var real = new Float32Array(realMax + 1);
real[1] = 2.0; // fundamental
real[realMax] = 3.0;
const realPeak = real[1] + real[realMax];
const realFundamental = 19.0;
var imag = new Float32Array(4);
imag[0] = 6.0; // should be ignored.
imag[3] = 0.5;
const imagPeak = imag[3];
const imagFundamental = 551.0;
const testLength = 8192;
let context = new AudioContext();
let audit = Audit.createTaskRunner();
// Create with the factory method
audit.define('create with factory method', (task, should) => {
should(() => {
context.createPeriodicWave(new Float32Array(testLength), new Float32Array(testLength));
}, 'context.createPeriodicWave(new Float32Array(' + testLength + '), ' +
'new Float32Array(' + testLength + '))').notThrow();
task.done();
});
audit.define('different length with factory method', (task, should) => {
should(() => {
context.createPeriodicWave(new Float32Array(512), new Float32Array(4));
}, 'context.createPeriodicWave(new Float32Array(512), ' +
'new Float32Array(4))').throw(DOMException, "IndexSizeError");
task.done();
});
audit.define('too small with factory method', (task, should) => {
should(() => {
context.createPeriodicWave(new Float32Array(1), new Float32Array(1));
}, 'context.createPeriodicWave(new Float32Array(1), ' +
'new Float32Array(1))').throw(DOMException, "IndexSizeError");
task.done();
});
// Create with the constructor
audit.define('create with constructor', (task, should) => {
should(() => {
new PeriodicWave(context, { real: new Float32Array(testLength), imag: new Float32Array(testLength) });
}, 'new PeriodicWave(context, { real : new Float32Array(' + testLength + '), ' +
'imag : new Float32Array(' + testLength + ') })').notThrow();
task.done();
});
audit.define('different length with constructor', (task, should) => {
should(() => {
new PeriodicWave(context, { real: new Float32Array(testLength), imag: new Float32Array(4) });
}, 'new PeriodicWave(context, { real : new Float32Array(' + testLength + '), ' +
'imag : new Float32Array(4) })').throw(DOMException, "IndexSizeError");
task.done();
});
audit.define('too small with constructor', (task, should) => {
should(() => {
new PeriodicWave(context, { real: new Float32Array(1), imag: new Float32Array(1) });
}, 'new PeriodicWave(context, { real : new Float32Array(1), ' +
'imag : new Float32Array(1) })').throw(DOMException, "IndexSizeError");
task.done();
});
audit.define('output test', (task, should) => {
let context = new OfflineAudioContext(2, testLength, 44100);
// Create the expected output buffer
let expectations = context.createBuffer(2, testLength, context.sampleRate);
for (var i = 0; i < expectations.length; ++i) {
expectations.getChannelData(0)[i] = 1.0 / realPeak *
(real[1] * Math.cos(2 * Math.PI * realFundamental * i /
context.sampleRate) +
real[realMax] * Math.cos(2 * Math.PI * realMax * realFundamental * i /
context.sampleRate));
expectations.getChannelData(1)[i] = 1.0 / imagPeak *
imag[3] * Math.sin(2 * Math.PI * 3 * imagFundamental * i /
context.sampleRate);
}
// Create the real output buffer
let merger = context.createChannelMerger();
let osc1 = context.createOscillator();
let osc2 = context.createOscillator();
osc1.setPeriodicWave(context.createPeriodicWave(
real, new Float32Array(real.length)));
osc2.setPeriodicWave(context.createPeriodicWave(
new Float32Array(imag.length), imag));
osc1.frequency.value = realFundamental;
osc2.frequency.value = imagFundamental;
osc1.start();
osc2.start();
osc1.connect(merger, 0, 0);
osc2.connect(merger, 0, 1);
context.startRendering().then(reality => {
should(reality, 'rendering PeriodicWave').beEqualToArray(expectations);
task.done();
});
});
audit.run();
</script>
</body>
</html>