import { expect } from "chai"; import { ConstantOutput } from "test/helper/ConstantOutput"; import { Offline } from "test/helper/Offline"; import { ONLINE_TESTING } from "test/helper/Supports"; import { Transport } from "../clock/Transport"; import { getContext } from "../Global"; import { createAudioContext } from "./AudioContext"; import { Context } from "./Context"; import { Destination } from "./Destination"; import { Listener } from "./Listener"; import { Draw } from "../util/Draw"; import { connect } from "./ToneAudioNode"; describe("Context", () => { it("creates and disposes the classes attached to the context", async () => { const ac = createAudioContext(); const context = new Context(ac); const ctxDest = context.destination; const ctxDraw = context.draw; const ctxTransport = context.transport; const ctxListener = context.listener; expect(context.destination).is.instanceOf(Destination); expect(context.draw).is.instanceOf(Draw); expect(context.listener).is.instanceOf(Listener); await context.close(); expect(ctxDest.disposed).to.be.true; expect(ctxDraw.disposed).to.be.true; expect(ctxTransport.disposed).to.be.true; expect(ctxListener.disposed).to.be.true; context.dispose(); }); context("AudioContext", () => { it("extends the AudioContext methods", () => { const ctx = new Context(createAudioContext()); expect(ctx).to.have.property("createGain"); expect(ctx.createGain()).to.have.property("gain"); expect(ctx).to.have.property("createOscillator"); expect(ctx.createOscillator()).to.be.have.property("frequency"); expect(ctx).to.have.property("createDelay"); expect(ctx.createDelay()).to.be.have.property("delayTime"); expect(ctx).to.have.property("createConstantSource"); ctx.dispose(); return ctx.close(); }); if (ONLINE_TESTING) { it("clock is running", done => { const interval = setInterval(() => { if (getContext().currentTime > 0.5) { clearInterval(interval); done(); } }, 20); }); } it("has a rawContext", () => { const ctx = new Context(createAudioContext()); expect(ctx.rawContext).has.property("destination"); expect(ctx.rawContext).has.property("sampleRate"); ctx.dispose(); return ctx.close(); }); it("can be constructed with an options object", () => { const ctx = new Context({ clockSource: "timeout", latencyHint: "playback", lookAhead: 0.2, }); expect(ctx.lookAhead).to.equal(0.2); expect(ctx.latencyHint).to.equal("playback"); expect(ctx.clockSource).to.equal("timeout"); ctx.dispose(); return ctx.close(); }); it("returns 'now' and 'immediate' time", () => { const ctx = new Context(); expect(ctx.now()).to.be.a("number"); expect(ctx.immediate()).to.be.a("number"); ctx.dispose(); return ctx.close(); }); }); context("state", () => { it("can suspend and resume the state", async () => { const ac = createAudioContext(); const context = new Context(ac); expect(context.rawContext).to.equal(ac); await ac.suspend(); expect(context.state).to.equal("suspended"); await context.resume(); expect(context.state).to.equal("running"); context.dispose(); return context.close(); }); it("invokes the statechange event", async () => { const ac = createAudioContext(); const context = new Context(ac); let triggerChange = false; context.on("statechange", state => { if (!triggerChange) { triggerChange = true; expect(state).to.equal("running"); } }); await context.resume(); await new Promise(done => setTimeout(() => done(), 10)); expect(triggerChange).to.equal(true); context.dispose(); return ac.close(); }); }); if (ONLINE_TESTING) { context("clockSource", () => { let ctx; beforeEach(() => { ctx = new Context(); return ctx.resume(); }); afterEach(() => { ctx.dispose(); return ctx.close(); }); it("defaults to 'worker'", () => { expect(ctx.clockSource).to.equal("worker"); }); it("provides callback", done => { expect(ctx.clockSource).to.equal("worker"); ctx.setTimeout(() => { done(); }, 0.1); }); it("can be set to 'timeout'", done => { ctx.clockSource = "timeout"; expect(ctx.clockSource).to.equal("timeout"); ctx.setTimeout(() => { done(); }, 0.1); }); it("can be set to 'offline'", done => { ctx.clockSource = "offline"; expect(ctx.clockSource).to.equal("offline"); // provides no callback ctx.setTimeout(() => { throw new Error("shouldn't be called"); }, 0.1); setTimeout(() => { done(); }, 200); }); }); } context("setTimeout", () => { if (ONLINE_TESTING) { let ctx; beforeEach(() => { ctx = new Context(); return ctx.resume(); }); afterEach(() => { ctx.dispose(); return ctx.close(); }); it("can set a timeout", done => { ctx.setTimeout(() => { done(); }, 0.1); }); it("returns an id", () => { expect(ctx.setTimeout(() => { }, 0.1)).to.be.a("number"); // try clearing a random ID, shouldn't cause any errors ctx.clearTimeout(-2); }); it("timeout is not invoked when cancelled", done => { const id = ctx.setTimeout(() => { throw new Error("shouldn't be invoked"); }, 0.01); ctx.clearTimeout(id); ctx.setTimeout(() => { done(); }, 0.02); }); it("order is maintained", done => { let wasInvoked = false; ctx.setTimeout(() => { expect(wasInvoked).to.equal(true); done(); }, 0.02); ctx.setTimeout(() => { wasInvoked = true; }, 0.01); }); } it("is invoked in the offline context", () => { return Offline(context => { const transport = new Transport({ context }); transport.context.setTimeout(() => { expect(transport.now()).to.be.closeTo(0.01, 0.005); }, 0.01); }, 0.05); }); }); context("setInterval", () => { if (ONLINE_TESTING) { let ctx; beforeEach(() => { ctx = new Context(); return ctx.resume(); }); afterEach(() => { ctx.dispose(); return ctx.close(); }); it("can set an interval", done => { ctx.setInterval(() => { done(); }, 0.1); }); it("returns an id", () => { expect(ctx.setInterval(() => { }, 0.1)).to.be.a("number"); // try clearing a random ID, shouldn't cause any errors ctx.clearInterval(-2); }); it("timeout is not invoked when cancelled", done => { const id = ctx.setInterval(() => { throw new Error("shouldn't be invoked"); }, 0.01); ctx.clearInterval(id); ctx.setInterval(() => { done(); }, 0.02); }); it("order is maintained", done => { let wasInvoked = false; ctx.setInterval(() => { expect(wasInvoked).to.equal(true); done(); }, 0.02); ctx.setInterval(() => { wasInvoked = true; }, 0.01); }); } it("is invoked in the offline context", () => { let invocationCount = 0; return Offline(context => { context.setInterval(() => { invocationCount++; }, 0.01); }, 0.051).then(() => { expect(invocationCount).to.equal(4); }); }); it("is invoked in with the right interval", () => { let numberOfInvocations = 0; return Offline(context => { let intervalTime = context.now(); context.setInterval(() => { expect(context.now() - intervalTime).to.be.closeTo(0.01, 0.005); intervalTime = context.now(); numberOfInvocations++; }, 0.01); }, 0.051).then(() => { expect(numberOfInvocations).to.equal(4); }); }); }); context("get/set", () => { let ctx; beforeEach(() => { ctx = new Context(); return ctx.resume(); }); afterEach(() => { ctx.dispose(); return ctx.close(); }); it("can set the lookAhead", () => { ctx.lookAhead = 0.05; expect(ctx.lookAhead).to.equal(0.05); }); it("can set the updateInterval", () => { ctx.updateInterval = 0.05; expect(ctx.updateInterval).to.equal(0.05); }); it("gets a constant signal", () => { return ConstantOutput(context => { const bufferSrc = context.getConstant(1); connect(bufferSrc, context.destination); }, 1); }); it("multiple calls return the same buffer source", () => { const bufferA = ctx.getConstant(2); const bufferB = ctx.getConstant(2); expect(bufferA).to.equal(bufferB); }); }); });