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// Helpers for Web Audio tests
function expectException(func, exceptionCode) {
var threw = false;
try {
func();
} catch (ex) {
threw = true;
is(ex.constructor.name, "DOMException", "Expect a DOM exception");
is(ex.code, exceptionCode, "Expect the correct exception code");
}
ok(threw, "The exception was thrown");
}
function expectNoException(func) {
var threw = false;
try {
func();
} catch (ex) {
threw = true;
}
ok(!threw, "An exception was not thrown");
}
function expectTypeError(func) {
var threw = false;
try {
func();
} catch (ex) {
threw = true;
ok(ex instanceof TypeError, "Expect a TypeError");
}
ok(threw, "The exception was thrown");
}
function expectRejectedPromise(that, func, exceptionName) {
var promise = that[func]();
ok(promise instanceof Promise, "Expect a Promise");
promise
.then(function (res) {
ok(false, "Promise resolved when it should have been rejected.");
})
.catch(function (err) {
is(
err.name,
exceptionName,
"Promise correctly reject with " + exceptionName
);
});
}
function fuzzyCompare(a, b) {
return Math.abs(a - b) < 9e-3;
}
function compareChannels(
buf1,
buf2,
/*optional*/ length,
/*optional*/ sourceOffset,
/*optional*/ destOffset,
/*optional*/ skipLengthCheck
) {
if (!skipLengthCheck) {
is(buf1.length, buf2.length, "Channels must have the same length");
}
sourceOffset = sourceOffset || 0;
destOffset = destOffset || 0;
if (length == undefined) {
length = buf1.length - sourceOffset;
}
var difference = 0;
var maxDifference = 0;
var firstBadIndex = -1;
for (var i = 0; i < length; ++i) {
if (!fuzzyCompare(buf1[i + sourceOffset], buf2[i + destOffset])) {
difference++;
maxDifference = Math.max(
maxDifference,
Math.abs(buf1[i + sourceOffset] - buf2[i + destOffset])
);
if (firstBadIndex == -1) {
firstBadIndex = i;
}
}
}
is(
difference,
0,
"maxDifference: " +
maxDifference +
", first bad index: " +
firstBadIndex +
" with test-data offset " +
sourceOffset +
" and expected-data offset " +
destOffset +
"; corresponding values " +
buf1[firstBadIndex + sourceOffset] +
" and " +
buf2[firstBadIndex + destOffset] +
" --- differences"
);
}
function compareBuffers(got, expected) {
if (got.numberOfChannels != expected.numberOfChannels) {
is(
got.numberOfChannels,
expected.numberOfChannels,
"Correct number of buffer channels"
);
return;
}
if (got.length != expected.length) {
is(got.length, expected.length, "Correct buffer length");
return;
}
if (got.sampleRate != expected.sampleRate) {
is(got.sampleRate, expected.sampleRate, "Correct sample rate");
return;
}
for (var i = 0; i < got.numberOfChannels; ++i) {
compareChannels(
got.getChannelData(i),
expected.getChannelData(i),
got.length,
0,
0,
true
);
}
}
/**
* Compute the root mean square (RMS,
* <http://en.wikipedia.org/wiki/Root_mean_square>) of a channel of a slice
* (defined by `start` and `end`) of an AudioBuffer.
*
* This is useful to detect that a buffer is noisy or silent.
*/
function rms(audiobuffer, channel = 0, start = 0, end = audiobuffer.length) {
var buffer = audiobuffer.getChannelData(channel);
var rms = 0;
for (var i = start; i < end; i++) {
rms += buffer[i] * buffer[i];
}
rms /= buffer.length;
rms = Math.sqrt(rms);
return rms;
}
function getEmptyBuffer(context, length) {
return context.createBuffer(
gTest.numberOfChannels,
length,
context.sampleRate
);
}
/**
* This function assumes that the test file defines a single gTest variable with
* the following properties and methods:
*
* + numberOfChannels: optional property which specifies the number of channels
* in the output. The default value is 2.
* + createGraph: mandatory method which takes a context object and does
* everything needed in order to set up the Web Audio graph.
* This function returns the node to be inspected.
* + createGraphAsync: async version of createGraph. This function takes
* a callback which should be called with an argument
* set to the node to be inspected when the callee is
* ready to proceed with the test. Either this function
* or createGraph must be provided.
* + createExpectedBuffers: optional method which takes a context object and
* returns either one expected buffer or an array of
* them, designating what is expected to be observed
* in the output. If omitted, the output is expected
* to be silence. All buffers must have the same
* length, which must be a bufferSize supported by
* ScriptProcessorNode. This function is guaranteed
* to be called before createGraph.
* + length: property equal to the total number of frames which we are waiting
* to see in the output, mandatory if createExpectedBuffers is not
* provided, in which case it must be a bufferSize supported by
* ScriptProcessorNode (256, 512, 1024, 2048, 4096, 8192, or 16384).
* If createExpectedBuffers is provided then this must be equal to
* the number of expected buffers * the expected buffer length.
*
* + skipOfflineContextTests: optional. when true, skips running tests on an offline
* context by circumventing testOnOfflineContext.
*/
function runTest() {
function done() {
SimpleTest.finish();
}
SimpleTest.waitForExplicitFinish();
function runTestFunction() {
if (!gTest.numberOfChannels) {
gTest.numberOfChannels = 2; // default
}
var testLength;
function runTestOnContext(context, callback, testOutput) {
if (!gTest.createExpectedBuffers) {
// Assume that the output is silence
var expectedBuffers = getEmptyBuffer(context, gTest.length);
} else {
var expectedBuffers = gTest.createExpectedBuffers(context);
}
if (!(expectedBuffers instanceof Array)) {
expectedBuffers = [expectedBuffers];
}
var expectedFrames = 0;
for (var i = 0; i < expectedBuffers.length; ++i) {
is(
expectedBuffers[i].numberOfChannels,
gTest.numberOfChannels,
"Correct number of channels for expected buffer " + i
);
expectedFrames += expectedBuffers[i].length;
}
if (gTest.length && gTest.createExpectedBuffers) {
is(expectedFrames, gTest.length, "Correct number of expected frames");
}
if (gTest.createGraphAsync) {
gTest.createGraphAsync(context, function (nodeToInspect) {
testOutput(nodeToInspect, expectedBuffers, callback);
});
} else {
testOutput(gTest.createGraph(context), expectedBuffers, callback);
}
}
function testOnNormalContext(callback) {
function testOutput(nodeToInspect, expectedBuffers, callback) {
testLength = 0;
var sp = context.createScriptProcessor(
expectedBuffers[0].length,
gTest.numberOfChannels,
0
);
nodeToInspect.connect(sp);
sp.onaudioprocess = function (e) {
var expectedBuffer = expectedBuffers.shift();
testLength += expectedBuffer.length;
compareBuffers(e.inputBuffer, expectedBuffer);
if (!expectedBuffers.length) {
sp.onaudioprocess = null;
callback();
}
};
}
var context = new AudioContext();
runTestOnContext(context, callback, testOutput);
}
function testOnOfflineContext(callback, sampleRate) {
function testOutput(nodeToInspect, expectedBuffers, callback) {
nodeToInspect.connect(context.destination);
context.oncomplete = function (e) {
var samplesSeen = 0;
while (expectedBuffers.length) {
var expectedBuffer = expectedBuffers.shift();
is(
e.renderedBuffer.numberOfChannels,
expectedBuffer.numberOfChannels,
"Correct number of input buffer channels"
);
for (var i = 0; i < e.renderedBuffer.numberOfChannels; ++i) {
compareChannels(
e.renderedBuffer.getChannelData(i),
expectedBuffer.getChannelData(i),
expectedBuffer.length,
samplesSeen,
undefined,
true
);
}
samplesSeen += expectedBuffer.length;
}
callback();
};
context.startRendering();
}
var context = new OfflineAudioContext(
gTest.numberOfChannels,
testLength,
sampleRate
);
runTestOnContext(context, callback, testOutput);
}
testOnNormalContext(function () {
if (!gTest.skipOfflineContextTests) {
testOnOfflineContext(function () {
testOnOfflineContext(done, 44100);
}, 48000);
} else {
done();
}
});
}
if (document.readyState !== "complete") {
addLoadEvent(runTestFunction);
} else {
runTestFunction();
}
}
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