From 6bf0a5cb5034a7e684dcc3500e841785237ce2dd Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 19:32:43 +0200 Subject: Adding upstream version 1:115.7.0. Signed-off-by: Daniel Baumann --- dom/media/webaudio/test/blink/biquad-testing.js | 153 ++++++++++++++++++++++++ 1 file changed, 153 insertions(+) create mode 100644 dom/media/webaudio/test/blink/biquad-testing.js (limited to 'dom/media/webaudio/test/blink/biquad-testing.js') diff --git a/dom/media/webaudio/test/blink/biquad-testing.js b/dom/media/webaudio/test/blink/biquad-testing.js new file mode 100644 index 0000000000..795adf6012 --- /dev/null +++ b/dom/media/webaudio/test/blink/biquad-testing.js @@ -0,0 +1,153 @@ +// Globals, to make testing and debugging easier. +var context; +var filter; +var signal; +var renderedBuffer; +var renderedData; + +var sampleRate = 44100.0; +var pulseLengthFrames = .1 * sampleRate; + +// Maximum allowed error for the test to succeed. Experimentally determined. +var maxAllowedError = 5.9e-8; + +// This must be large enough so that the filtered result is +// essentially zero. See comments for createTestAndRun. +var timeStep = .1; + +// Maximum number of filters we can process (mostly for setting the +// render length correctly.) +var maxFilters = 5; + +// How long to render. Must be long enough for all of the filters we +// want to test. +var renderLengthSeconds = timeStep * (maxFilters + 1) ; + +var renderLengthSamples = Math.round(renderLengthSeconds * sampleRate); + +// Number of filters that will be processed. +var nFilters; + +function createImpulseBuffer(context, length) { + var impulse = context.createBuffer(1, length, context.sampleRate); + var data = impulse.getChannelData(0); + for (var k = 1; k < data.length; ++k) { + data[k] = 0; + } + data[0] = 1; + + return impulse; +} + + +function createTestAndRun(context, filterType, filterParameters) { + // To test the filters, we apply a signal (an impulse) to each of + // the specified filters, with each signal starting at a different + // time. The output of the filters is summed together at the + // output. Thus for filter k, the signal input to the filter + // starts at time k * timeStep. For this to work well, timeStep + // must be large enough for the output of each filter to have + // decayed to zero with timeStep seconds. That way the filter + // outputs don't interfere with each other. + + nFilters = Math.min(filterParameters.length, maxFilters); + + signal = new Array(nFilters); + filter = new Array(nFilters); + + impulse = createImpulseBuffer(context, pulseLengthFrames); + + // Create all of the signal sources and filters that we need. + for (var k = 0; k < nFilters; ++k) { + signal[k] = context.createBufferSource(); + signal[k].buffer = impulse; + + filter[k] = context.createBiquadFilter(); + filter[k].type = filterType; + filter[k].frequency.value = context.sampleRate / 2 * filterParameters[k].cutoff; + filter[k].detune.value = (filterParameters[k].detune === undefined) ? 0 : filterParameters[k].detune; + filter[k].Q.value = filterParameters[k].q; + filter[k].gain.value = filterParameters[k].gain; + + signal[k].connect(filter[k]); + filter[k].connect(context.destination); + + signal[k].start(timeStep * k); + } + + context.oncomplete = checkFilterResponse(filterType, filterParameters); + context.startRendering(); +} + +function addSignal(dest, src, destOffset) { + // Add src to dest at the given dest offset. + for (var k = destOffset, j = 0; k < dest.length, j < src.length; ++k, ++j) { + dest[k] += src[j]; + } +} + +function generateReference(filterType, filterParameters) { + var result = new Array(renderLengthSamples); + var data = new Array(renderLengthSamples); + // Initialize the result array and data. + for (var k = 0; k < result.length; ++k) { + result[k] = 0; + data[k] = 0; + } + // Make data an impulse. + data[0] = 1; + + for (var k = 0; k < nFilters; ++k) { + // Filter an impulse + var detune = (filterParameters[k].detune === undefined) ? 0 : filterParameters[k].detune; + var frequency = filterParameters[k].cutoff * Math.pow(2, detune / 1200); // Apply detune, converting from Cents. + + var filterCoef = createFilter(filterType, + frequency, + filterParameters[k].q, + filterParameters[k].gain); + var y = filterData(filterCoef, data, renderLengthSamples); + + // Accumulate this filtered data into the final output at the desired offset. + addSignal(result, y, timeToSampleFrame(timeStep * k, sampleRate)); + } + + return result; +} + +function checkFilterResponse(filterType, filterParameters) { + return function(event) { + renderedBuffer = event.renderedBuffer; + renderedData = renderedBuffer.getChannelData(0); + + reference = generateReference(filterType, filterParameters); + + var len = Math.min(renderedData.length, reference.length); + + var success = true; + + // Maximum error between rendered data and expected data + var maxError = 0; + + // Sample offset where the maximum error occurred. + var maxPosition = 0; + + // Number of infinities or NaNs that occurred in the rendered data. + var invalidNumberCount = 0; + + ok(nFilters == filterParameters.length, "Test wanted " + filterParameters.length + " filters but only " + maxFilters + " allowed."); + + compareChannels(renderedData, reference, len, 0, 0, true); + + // Check for bad numbers in the rendered output too. + // There shouldn't be any. + for (var k = 0; k < len; ++k) { + if (!isValidNumber(renderedData[k])) { + ++invalidNumberCount; + } + } + + ok(invalidNumberCount == 0, "Rendered output has " + invalidNumberCount + " infinities or NaNs."); + SimpleTest.finish(); + } +} -- cgit v1.2.3