Tone.js/Tone/core/context/ToneAudioBuffer.test.ts
2020-06-16 23:14:19 -04:00

360 lines
11 KiB
TypeScript

import { expect } from "chai";
import "test/helper/ToneAudioBuffer";
import { getContext } from "../Global";
import { ToneAudioBuffer } from "./ToneAudioBuffer";
const testFile = "./audio/sine.wav";
describe("ToneAudioBuffer", () => {
context("basic", () => {
it("can be created and disposed", () => {
const buff = new ToneAudioBuffer(testFile);
buff.dispose();
});
it("loads a file from a url string", done => {
const buffer = new ToneAudioBuffer(testFile, (buff) => {
expect(buff).to.be.instanceof(ToneAudioBuffer);
buffer.dispose();
done();
});
});
it("has a duration", done => {
const buffer = new ToneAudioBuffer(testFile, () => {
expect(buffer.duration).to.be.closeTo(3, 0.01);
buffer.dispose();
done();
});
});
it("can be constructed with no arguments", () => {
const buffer = new ToneAudioBuffer();
expect(buffer.length).to.equal(0);
expect(buffer.duration).to.equal(0);
expect(buffer.numberOfChannels).to.equal(0);
buffer.dispose();
});
it("can get the number of channels", done => {
const buffer = new ToneAudioBuffer(testFile, () => {
expect(buffer.numberOfChannels).to.be.equal(1);
buffer.dispose();
done();
});
});
it("can get the length of the buffer", done => {
const buffer = new ToneAudioBuffer(testFile, () => {
expect(buffer.length).to.be.a("number");
expect(buffer.length).to.be.above(130000);
buffer.dispose();
done();
});
});
it("can be constructed with an options object", done => {
const buffer = new ToneAudioBuffer({
onload: () => {
buffer.dispose();
done();
},
reverse: true,
url: testFile,
});
expect(buffer.reverse).to.equal(true);
});
it("takes an AudioBuffer in the constructor method", async () => {
const audioBuffer = await ToneAudioBuffer.load(testFile);
const buffer = new ToneAudioBuffer({
url: audioBuffer,
});
const testOne = new ToneAudioBuffer(buffer.get());
expect(testOne.get()).to.equal(buffer.get());
testOne.dispose();
buffer.dispose();
});
it("takes a loaded ToneAudioBuffer in the constructor method", async () => {
const audioBuffer = await ToneAudioBuffer.fromUrl(testFile);
const buffer = new ToneAudioBuffer({
url: audioBuffer,
});
const testOne = new ToneAudioBuffer(buffer);
expect(testOne.get()).to.equal(buffer.get());
testOne.dispose();
buffer.dispose();
});
it("takes an unloaded Tone.ToneAudioBuffer in the constructor method", done => {
const unloadedToneAudioBuffer = new ToneAudioBuffer(testFile);
const buffer = new ToneAudioBuffer({
onload(): void {
const testOne = new ToneAudioBuffer(buffer);
expect(unloadedToneAudioBuffer.get()).to.equal(buffer.get());
unloadedToneAudioBuffer.dispose();
buffer.dispose();
done();
},
url: unloadedToneAudioBuffer,
});
});
it("takes Tone.ToneAudioBuffer in the set method", done => {
const buffer = new ToneAudioBuffer({
url: testFile,
onload(): void {
const testOne = new ToneAudioBuffer(testFile);
testOne.set(buffer);
expect(testOne.get()).to.equal(buffer.get());
testOne.dispose();
buffer.dispose();
done();
},
});
});
});
context("loading", () => {
it("invokes the error callback if there is a problem with the file", done => {
const buffer = new ToneAudioBuffer("nosuchfile.wav", () => {
throw new Error("shouldn't invoke this function");
}, e => {
buffer.dispose();
done();
});
});
it("invokes the error callback on static .load method", async () => {
let hadError = false;
try {
await ToneAudioBuffer.load("nosuchfile.wav");
} catch (e) {
hadError = true;
}
expect(hadError).to.equal(true);
});
it("can load a file with fallback extensions", async () => {
const buffer = await ToneAudioBuffer.load("./audio/sine.[nope|nada|wav]");
expect(buffer).to.exist;
});
it("takes the first supported format when multiple extensions are provided", async () => {
const buffer = await ToneAudioBuffer.load("./audio/sine.[wav|nope]");
expect(buffer).to.exist;
});
it("instance .load method returns Promise", done => {
const promise = (new ToneAudioBuffer()).load(testFile);
expect(promise).to.have.property("then");
promise.then((buff) => {
expect(buff).to.be.instanceOf(ToneAudioBuffer);
done();
});
promise.catch(() => {
throw new Error("shouldn't invoke this function");
});
});
it("invokes the error callback if the file is corrupt", done => {
const buffer = new ToneAudioBuffer("./audio/corrupt.wav", () => {
throw new Error("shouldn't invoke this function");
}, e => {
buffer.dispose();
done();
});
});
});
context("buffer manipulation", () => {
it("returns an empty array if there is no channel data", () => {
const buffer = new ToneAudioBuffer();
expect(buffer.getChannelData(0).length).to.equal(0);
buffer.dispose();
});
it("can get the channel data as an array", done => {
const buffer = new ToneAudioBuffer(testFile, () => {
expect(buffer.getChannelData(0)).to.be.an.instanceOf(Float32Array);
expect(buffer.getChannelData(0).length).to.be.above(130000);
buffer.dispose();
done();
});
});
it("can reverse a buffer", done => {
const buffer = new ToneAudioBuffer(testFile, () => {
const buffArray = buffer.get() as AudioBuffer;
const lastSample = buffArray[buffArray.length - 1];
buffer.reverse = true;
expect((buffer.get() as AudioBuffer)[0]).to.equal(lastSample);
// setting reverse again has no effect
buffer.reverse = true;
expect((buffer.get() as AudioBuffer)[0]).to.equal(lastSample);
buffer.dispose();
done();
});
});
it("can convert from an array", () => {
const buffer = new ToneAudioBuffer();
const arr = new Float32Array(0.5 * buffer.sampleRate);
arr[0] = 0.5;
buffer.fromArray(arr);
expect(buffer.duration).to.equal(0.5);
expect(buffer.numberOfChannels).to.equal(1);
// test the first sample of the first channel to see if it's the same
expect(buffer.toArray(0)[0]).to.equal(0.5);
buffer.dispose();
});
it("can create a buffer from an array using the static method", () => {
const arr = new Float32Array(0.5 * getContext().sampleRate);
arr[0] = 0.5;
const buffer = ToneAudioBuffer.fromArray(arr);
expect(buffer.duration).to.equal(0.5);
expect(buffer.numberOfChannels).to.equal(1);
// test the first sample of the first channel to see if it's the same
expect(buffer.toArray(0)[0]).to.equal(0.5);
// should return the same thing without the channel argument as well
expect(buffer.toArray()[0]).to.equal(0.5);
buffer.dispose();
});
it("can convert from a multidimentional array", () => {
const buffer = new ToneAudioBuffer();
const arr = [new Float32Array(0.5 * buffer.sampleRate), new Float32Array(0.5 * buffer.sampleRate)];
arr[0][0] = 0.5;
buffer.fromArray(arr);
expect(buffer.duration).to.equal(0.5);
expect(buffer.numberOfChannels).to.equal(2);
expect(buffer.toArray(0)[0]).to.equal(0.5);
buffer.dispose();
});
it("can convert to and from an array", () => {
const buffer = new ToneAudioBuffer();
const arr = [new Float32Array(0.5 * buffer.sampleRate), new Float32Array(0.5 * buffer.sampleRate)];
arr[0][0] = 0.5;
buffer.fromArray(arr);
expect(buffer.toArray(0)[0]).to.equal(0.5);
expect(buffer.toArray()[0][0]).to.equal(0.5);
// with a selected channel
expect(buffer.toArray(0)[0]).to.equal(0.5);
buffer.dispose();
});
it("can slice a portion of the array", async () => {
const buffer = await ToneAudioBuffer.fromUrl(testFile);
// original duration
expect(buffer.duration).to.be.closeTo(3, 0.01);
const sliced1 = buffer.slice(0, 1);
// confirm they have the same values
const offset = Math.floor(buffer.sampleRate * 0.9);
// does not modify the original
expect(buffer.duration).to.be.closeTo(3, 0.01);
expect(sliced1.duration).to.be.closeTo(1, 0.01);
const sliced2 = sliced1.slice(0.5);
expect(sliced2.duration).to.be.closeTo(0.5, 0.01);
const sliced3 = buffer.slice(2);
expect(sliced3.toArray(0)[Math.floor(0.5 * buffer.sampleRate) + 1])
.to.equal(buffer.toArray(0)[Math.floor(2.5 * buffer.sampleRate) + 1]);
buffer.dispose();
sliced1.dispose();
sliced2.dispose();
sliced3.dispose();
});
it("slice can extend the buffer also", async () => {
const buffer = await ToneAudioBuffer.fromUrl(testFile);
// original duration
expect(buffer.duration).to.be.closeTo(3, 0.01);
const sliced = buffer.slice(0, 4);
expect(sliced.duration).to.be.closeTo(4, 0.01);
buffer.dispose();
sliced.dispose();
});
it("can convert a buffer to mono", () => {
const buffer = new ToneAudioBuffer();
const arr = [new Float32Array(0.5 * buffer.sampleRate), new Float32Array(0.5 * buffer.sampleRate)];
arr[0][0] = 0.5;
buffer.fromArray(arr);
expect(buffer.duration).to.equal(0.5);
expect(buffer.numberOfChannels).to.equal(2);
buffer.toMono();
expect(buffer.numberOfChannels).to.equal(1);
// should have averaged the two first samples
expect(buffer.toArray()[0]).to.equal(0.25);
buffer.dispose();
});
it("can use just the second channel of a buffer when making mono", () => {
const buffer = new ToneAudioBuffer();
const arr = [new Float32Array(0.5 * buffer.sampleRate), new Float32Array(0.5 * buffer.sampleRate)];
arr[0][0] = 0.5;
buffer.fromArray(arr);
expect(buffer.duration).to.equal(0.5);
expect(buffer.numberOfChannels).to.equal(2);
buffer.toMono(1);
expect(buffer.numberOfChannels).to.equal(1);
// should have averaged the two first samples
expect(buffer.toArray()[0]).to.equal(0);
buffer.dispose();
});
});
context("static methods", () => {
it("Test if the browser supports the given type", () => {
expect(ToneAudioBuffer.supportsType("test.wav")).to.equal(true);
expect(ToneAudioBuffer.supportsType("wav")).to.equal(true);
expect(ToneAudioBuffer.supportsType("path/to/test.wav")).to.equal(true);
expect(ToneAudioBuffer.supportsType("path/to/test.nope")).to.equal(false);
});
it("can be constructed with ToneAudioBuffer.fromUrl", done => {
ToneAudioBuffer.fromUrl("nosuchfile.wav").then(() => {
throw new Error("shouldn't invoke this function");
}).catch(() => {
done();
});
});
});
context("ToneAudioBuffer.loaded()", () => {
it("returns a promise", () => {
expect(ToneAudioBuffer.loaded()).to.have.property("then");
});
it("is invoked when all the buffers are loaded", async () => {
const buff0 = new ToneAudioBuffer(testFile);
const buff1 = new ToneAudioBuffer(testFile);
await ToneAudioBuffer.loaded();
expect(buff0.loaded).to.equal(true);
expect(buff1.loaded).to.equal(true);
});
it("can be setup before the urls", async () => {
const loadedPromise = ToneAudioBuffer.loaded();
const buff0 = new ToneAudioBuffer(testFile);
const buff1 = new ToneAudioBuffer(testFile);
await loadedPromise;
expect(buff0.loaded).to.equal(true);
expect(buff1.loaded).to.equal(true);
});
it("invokes loaded even if there is an error", () => {
ToneAudioBuffer.fromUrl(testFile);
ToneAudioBuffer.fromUrl("nosuchfile.wav");
return ToneAudioBuffer.loaded();
});
});
});