Tone.js/Tone/source/Source.test.ts

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import { expect } from "chai";
import { atTime, Offline } from "test/helper/Offline";
import { ONLINE_TESTING } from "test/helper/Supports";
import { ToneAudioBuffer } from "Tone/core";
import { getContext } from "Tone/core/Global";
import { Player } from "./buffer/Player";
import { Oscillator } from "./oscillator/Oscillator";
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describe("Source", () => {
it("can be started and stopped", () => {
const source = new Oscillator();
source.start(0);
source.stop(1);
source.dispose();
});
it("can be constructed with an options object", () => {
const source = new Oscillator({
volume : -20,
});
expect(source.volume.value).to.be.closeTo(-20, 0.1);
source.dispose();
});
it("can be muted in the constructor options", () => {
const source = new Oscillator({
mute : true,
});
expect(source.mute).to.be.true;
source.dispose();
});
it("can set the volume", () => {
const source = new Oscillator();
source.volume.value = -8;
expect(source.volume.value).to.be.closeTo(-8, 0.1);
source.dispose();
});
it("can mute and unmute the source", () => {
const source = new Oscillator();
source.volume.value = -8;
source.mute = true;
expect(source.mute).to.be.true;
expect(source.volume.value).to.equal(-Infinity);
source.mute = false;
// returns the volume to what it was
expect(source.volume.value).to.be.closeTo(-8, 0.1);
source.dispose();
});
it("can get and set values with an object", () => {
const source = new Oscillator();
source.set({volume: -10});
expect(source.get().volume).to.be.closeTo(-10, 0.1);
source.dispose();
});
it("is initally stopped", () => {
const source = new Oscillator();
expect(source.state).to.equal("stopped");
source.dispose();
});
it("cannot be scheduled to stop/start twice in a row", () => {
const source = new Oscillator();
source.start(0).start(1);
source.stop(2).stop(3);
source.dispose();
});
it("can be scheduled with multiple starts/stops", () => {
return Offline(() => {
const source = new Oscillator();
source.start(0).stop(0.5).start(0.75).stop(1).start(1.25).stop(1.5);
return [
atTime(0.1, () => {
expect(source.state).to.equal("started");
}),
atTime(0.5, () => {
expect(source.state).to.equal("stopped");
}),
atTime(0.8, () => {
expect(source.state).to.equal("started");
}),
atTime(1, () => {
expect(source.state).to.equal("stopped");
}),
atTime(1.25, () => {
expect(source.state).to.equal("started");
}),
atTime(1.6, () => {
expect(source.state).to.equal("stopped");
}),
];
}, 2);
});
if (ONLINE_TESTING) {
it("clamps start time to the currentTime", (done) => {
const source = new Oscillator();
expect(source.state).to.equal("stopped");
source.start(0);
const currentTime = source.context.currentTime;
setTimeout(() => {
expect(source.state).to.equal("started");
source.dispose();
done();
}, 10);
});
it("clamps stop time to the currentTime", (done) => {
const source = new Oscillator();
expect(source.state).to.equal("stopped");
source.start(0);
setTimeout(() => {
expect(source.state).to.equal("started");
source.stop(0);
setTimeout(() => {
expect(source.state).to.equal("stopped");
source.dispose();
done();
}, 10);
}, 10);
});
}
it("correctly returns the scheduled play state", () => {
return Offline(() => {
const source = new Oscillator();
expect(source.state).to.equal("stopped");
source.start(0).stop(0.5);
return (time) => {
if (time >= 0 && time < 0.5) {
expect(source.state).to.equal("started");
} else if (time > 0.5) {
expect(source.state).to.equal("stopped");
}
};
}, 0.6);
});
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context("sync", () => {
const ramp = new Float32Array(getContext().sampleRate);
ramp.forEach((val, index) => {
ramp[index] = index / getContext().sampleRate;
});
const rampBuffer = ToneAudioBuffer.fromArray(ramp);
it("can sync its start to the transport", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0);
expect(source.state).to.equal("stopped");
transport.start(source.now());
expect(source.state).to.equal("started");
source.dispose();
transport.stop();
});
});
it("calling sync multiple times has no affect", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().sync().start(0);
expect(source.state).to.equal("stopped");
transport.start(source.now());
expect(source.state).to.equal("started");
source.dispose();
transport.stop();
});
});
it("can unsync after it was synced", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0);
source.unsync();
transport.start();
expect(source.state).to.equal("stopped");
});
});
it("calling unsync multiple times has no affect", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0);
source.unsync().unsync();
transport.start();
expect(source.state).to.equal("stopped");
});
});
it("can sync its stop to the transport", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0);
expect(source.state).to.equal("stopped");
transport.start(0).stop(0.4);
expect(source.state).to.equal("started");
return (time) => {
if (time > 0.4) {
expect(source.state).to.equal("stopped");
}
};
}, 0.5);
});
it("can schedule multiple starts/stops", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0.1).stop(0.2).start(0.3);
transport.start(0).stop(0.4);
expect(source.state).to.equal("stopped");
return (time) => {
if (time > 0.1 && time < 0.19) {
expect(source.state).to.equal("started");
} else if (time > 0.2 && time < 0.29) {
expect(source.state).to.equal("stopped");
} else if (time > 0.3 && time < 0.39) {
expect(source.state).to.equal("started");
} else if (time > 0.4) {
expect(source.state).to.equal("stopped");
}
};
}, 0.6);
});
it("has correct offset when the transport is started with an offset", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0.3).stop(0.4);
transport.start(0, 0.1);
expect(source.state).to.equal("stopped");
return time => {
if (time > 0.21 && time < 0.29) {
expect(source.state).to.equal("started");
} else if (time > 0.31) {
expect(source.state).to.equal("stopped");
}
};
}, 0.5);
});
it("can start with an offset after the start time of the source", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0);
transport.start(0, 0.1);
expect(source.state).to.equal("started");
source.dispose();
}, 0.1);
});
it("can sync its start to the transport after a delay", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0.3);
transport.start(0).stop(0.4);
expect(source.state).to.equal("stopped");
return (time) => {
if (time > 0.3 && time < 0.39) {
expect(source.state).to.equal("started");
} else if (time > 0.4) {
expect(source.state).to.equal("stopped");
}
};
}, 0.6);
});
it("correct state when the transport position is changed", () => {
return Offline(({transport}) => {
const source = new Oscillator();
source.sync().start(0.3).stop(0.4);
transport.start(0).stop(0.4);
expect(source.state).to.equal("stopped");
transport.seconds = 0.305;
expect(source.state).to.equal("started");
transport.seconds = 0.405;
expect(source.state).to.equal("stopped");
}, 0.1);
});
it("gives the correct offset on time on start/stop events", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2, 0.1).stop(0.3);
transport.start(0.2);
}, 0.7).then(output => {
expect(output.getValueAtTime(0.41)).to.be.closeTo(0.1, 0.01);
expect(output.getValueAtTime(0.45)).to.be.closeTo(0.15, 0.001);
expect(output.getValueAtTime(0.5)).to.be.equal(0);
});
});
it("gives the correct offset on time on start/stop events when started with an offset", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2, 0.1).stop(0.4);
transport.start(0.2, 0.1);
}, 0.7).then(output => {
expect(output.getValueAtTime(0.21)).to.be.closeTo(0.0, 0.01);
expect(output.getValueAtTime(0.31)).to.be.closeTo(0.1, 0.01);
expect(output.getValueAtTime(0.41)).to.be.closeTo(0.2, 0.01);
expect(output.getValueAtTime(0.45)).to.be.closeTo(0.25, 0.01);
expect(output.getValueAtTime(0.51)).to.be.equal(0);
});
});
it("gives the correct offset on time on start/stop events invoked with an transport offset that's in the middle of the event", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2, 0.1).stop(0.4);
transport.start(0, 0.3);
}, 0.7).then(output => {
expect(output.getValueAtTime(0.01)).to.be.closeTo(0.2, 0.01);
expect(output.getValueAtTime(0.05)).to.be.closeTo(0.25, 0.01);
expect(output.getValueAtTime(0.11)).to.be.equal(0);
});
});
it("gives the correct duration when invoked with an transport offset that's in the middle of the event", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2, 0.1, 0.3);
transport.start(0, 0.3);
}, 0.7).then(output => {
expect(output.getValueAtTime(0.01)).to.be.closeTo(0.2, 0.01);
expect(output.getValueAtTime(0.1)).to.be.closeTo(0.3, 0.01);
expect(output.getValueAtTime(0.2)).to.be.closeTo(0.4, 0.01);
expect(output.getValueAtTime(0.31)).to.be.equal(0);
});
});
it("stops at the right time when transport.stop is invoked before the scheduled stop", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2).stop(0.4);
transport.start(0).stop(0.3);
}, 0.7).then(output => {
expect(output.getValueAtTime(0.2)).to.be.closeTo(0.0, 0.01);
expect(output.getValueAtTime(0.25)).to.be.closeTo(0.05, 0.01);
expect(output.getValueAtTime(0.31)).to.be.equal(0);
});
});
it("invokes the right methods and offsets when the transport is seeked", () => {
return Offline(({transport}) => {
const source = new Player(rampBuffer).toDestination();
source.sync().start(0.2);
transport.start(0, 0.3);
return atTime(0.1, () => {
// seek forward in time
transport.seconds = 0.1;
});
}, 0.7).then((output) => {
expect(output.getValueAtTime(0.01)).to.be.closeTo(0.1, 0.01);
expect(output.getValueAtTime(0.05)).to.be.closeTo(0.15, 0.01);
expect(output.getValueAtTime(0.11)).to.be.closeTo(0.0, 0.01);
expect(output.getValueAtTime(0.21)).to.be.closeTo(0.0, 0.01);
expect(output.getValueAtTime(0.25)).to.be.closeTo(0.05, 0.01);
expect(output.getValueAtTime(0.3)).to.be.closeTo(0.1, 0.01);
});
});
});
});