mirror of
https://github.com/classilla/tenfourfox.git
synced 2024-11-20 10:33:36 +00:00
193 lines
5.8 KiB
JavaScript
193 lines
5.8 KiB
JavaScript
if (window.testRunner)
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testRunner.overridePreference("WebKitWebAudioEnabled", "1");
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function writeString(s, a, offset) {
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for (var i = 0; i < s.length; ++i) {
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a[offset + i] = s.charCodeAt(i);
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}
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}
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function writeInt16(n, a, offset) {
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n = Math.floor(n);
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var b1 = n & 255;
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var b2 = (n >> 8) & 255;
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a[offset + 0] = b1;
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a[offset + 1] = b2;
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}
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function writeInt32(n, a, offset) {
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n = Math.floor(n);
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var b1 = n & 255;
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var b2 = (n >> 8) & 255;
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var b3 = (n >> 16) & 255;
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var b4 = (n >> 24) & 255;
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a[offset + 0] = b1;
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a[offset + 1] = b2;
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a[offset + 2] = b3;
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a[offset + 3] = b4;
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}
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function writeAudioBuffer(audioBuffer, a, offset) {
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var n = audioBuffer.length;
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var channels = audioBuffer.numberOfChannels;
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for (var i = 0; i < n; ++i) {
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for (var k = 0; k < channels; ++k) {
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var buffer = audioBuffer.getChannelData(k);
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var sample = buffer[i] * 32768.0;
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// Clip samples to the limitations of 16-bit.
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// If we don't do this then we'll get nasty wrap-around distortion.
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if (sample < -32768)
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sample = -32768;
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if (sample > 32767)
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sample = 32767;
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writeInt16(sample, a, offset);
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offset += 2;
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}
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}
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}
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function createWaveFileData(audioBuffer) {
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var frameLength = audioBuffer.length;
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var numberOfChannels = audioBuffer.numberOfChannels;
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var sampleRate = audioBuffer.sampleRate;
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var bitsPerSample = 16;
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var byteRate = sampleRate * numberOfChannels * bitsPerSample/8;
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var blockAlign = numberOfChannels * bitsPerSample/8;
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var wavDataByteLength = frameLength * numberOfChannels * 2; // 16-bit audio
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var headerByteLength = 44;
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var totalLength = headerByteLength + wavDataByteLength;
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var waveFileData = new Uint8Array(totalLength);
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var subChunk1Size = 16; // for linear PCM
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var subChunk2Size = wavDataByteLength;
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var chunkSize = 4 + (8 + subChunk1Size) + (8 + subChunk2Size);
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writeString("RIFF", waveFileData, 0);
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writeInt32(chunkSize, waveFileData, 4);
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writeString("WAVE", waveFileData, 8);
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writeString("fmt ", waveFileData, 12);
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writeInt32(subChunk1Size, waveFileData, 16); // SubChunk1Size (4)
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writeInt16(1, waveFileData, 20); // AudioFormat (2)
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writeInt16(numberOfChannels, waveFileData, 22); // NumChannels (2)
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writeInt32(sampleRate, waveFileData, 24); // SampleRate (4)
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writeInt32(byteRate, waveFileData, 28); // ByteRate (4)
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writeInt16(blockAlign, waveFileData, 32); // BlockAlign (2)
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writeInt32(bitsPerSample, waveFileData, 34); // BitsPerSample (4)
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writeString("data", waveFileData, 36);
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writeInt32(subChunk2Size, waveFileData, 40); // SubChunk2Size (4)
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// Write actual audio data starting at offset 44.
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writeAudioBuffer(audioBuffer, waveFileData, 44);
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return waveFileData;
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}
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function createAudioData(audioBuffer) {
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return createWaveFileData(audioBuffer);
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}
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function finishAudioTest(event) {
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var audioData = createAudioData(event.renderedBuffer);
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testRunner.setAudioData(audioData);
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testRunner.notifyDone();
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}
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// Create an impulse in a buffer of length sampleFrameLength
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function createImpulseBuffer(context, sampleFrameLength) {
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var audioBuffer = context.createBuffer(1, sampleFrameLength, context.sampleRate);
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var n = audioBuffer.length;
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var dataL = audioBuffer.getChannelData(0);
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for (var k = 0; k < n; ++k) {
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dataL[k] = 0;
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}
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dataL[0] = 1;
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return audioBuffer;
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}
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// Create a buffer of the given length with a linear ramp having values 0 <= x < 1.
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function createLinearRampBuffer(context, sampleFrameLength) {
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var audioBuffer = context.createBuffer(1, sampleFrameLength, context.sampleRate);
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var n = audioBuffer.length;
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var dataL = audioBuffer.getChannelData(0);
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for (var i = 0; i < n; ++i)
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dataL[i] = i / n;
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return audioBuffer;
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}
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// Create a buffer of the given length having a constant value.
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function createConstantBuffer(context, sampleFrameLength, constantValue) {
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var audioBuffer = context.createBuffer(1, sampleFrameLength, context.sampleRate);
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var n = audioBuffer.length;
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var dataL = audioBuffer.getChannelData(0);
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for (var i = 0; i < n; ++i)
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dataL[i] = constantValue;
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return audioBuffer;
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}
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// Create a stereo impulse in a buffer of length sampleFrameLength
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function createStereoImpulseBuffer(context, sampleFrameLength) {
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var audioBuffer = context.createBuffer(2, sampleFrameLength, context.sampleRate);
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var n = audioBuffer.length;
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var dataL = audioBuffer.getChannelData(0);
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var dataR = audioBuffer.getChannelData(1);
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for (var k = 0; k < n; ++k) {
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dataL[k] = 0;
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dataR[k] = 0;
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}
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dataL[0] = 1;
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dataR[0] = 1;
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return audioBuffer;
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}
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// Convert time (in seconds) to sample frames.
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function timeToSampleFrame(time, sampleRate) {
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return Math.floor(0.5 + time * sampleRate);
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}
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// Compute the number of sample frames consumed by start with
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// the specified |grainOffset|, |duration|, and |sampleRate|.
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function grainLengthInSampleFrames(grainOffset, duration, sampleRate) {
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var startFrame = timeToSampleFrame(grainOffset, sampleRate);
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var endFrame = timeToSampleFrame(grainOffset + duration, sampleRate);
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return endFrame - startFrame;
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}
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// True if the number is not an infinity or NaN
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function isValidNumber(x) {
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return !isNaN(x) && (x != Infinity) && (x != -Infinity);
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}
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function shouldThrowTypeError(func, text) {
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var ok = false;
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try {
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func();
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} catch (e) {
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if (e instanceof TypeError) {
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ok = true;
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}
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}
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if (ok) {
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testPassed(text + " threw TypeError.");
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} else {
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testFailed(text + " should throw TypeError.");
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}
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}
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