import ConstantOutput from "helper/ConstantOutput"; import Basic from "helper/Basic"; import GreaterThan from "Tone/signal/GreaterThan"; import Signal from "Tone/signal/Signal"; import Test from "helper/Test"; describe("GreaterThan", function(){ Basic(GreaterThan); context("Comparison", function(){ it("handles input and output connections", function(){ var gt = new GreaterThan(); Test.connect(gt); Test.connect(gt, 0); Test.connect(gt, 1); gt.connect(Test); gt.dispose(); }); it("outputs 0 when signal is less than value", function(){ return ConstantOutput(function(){ var signal = new Signal(1); var gt = new GreaterThan(20); signal.connect(gt); gt.toMaster(); }, 0); }); it("outputs 0 when signal is equal to the value", function(){ return ConstantOutput(function(){ var signal = new Signal(10); var gt = new GreaterThan(10); signal.connect(gt); gt.toMaster(); }, 0); }); it("outputs 1 value is greater than", function(){ return ConstantOutput(function(){ var signal = new Signal(0.8); var gt = new GreaterThan(0.4); signal.connect(gt); gt.toMaster(); }, 1); }); it("can handle negative values", function(){ return ConstantOutput(function(){ var signal = new Signal(-2); var gt = new GreaterThan(-4); signal.connect(gt); gt.toMaster(); }, 1); }); it("can set a new value", function(){ return ConstantOutput(function(){ var signal = new Signal(2); var gt = new GreaterThan(-100); gt.value = 1; signal.connect(gt); gt.toMaster(); }, 1); }); it("outputs 0 when first signal is less than second", function(){ return ConstantOutput(function(){ var sigA = new Signal(1); var sigB = new Signal(4); var gt = new GreaterThan(); sigA.connect(gt, 0, 0); sigB.connect(gt, 0, 1); gt.toMaster(); }, 0); }); it("outputs 1 when first signal is greater than second", function(){ return ConstantOutput(function(){ var sigA = new Signal(2.01); var sigB = new Signal(2); var gt = new GreaterThan(); sigA.connect(gt, 0, 0); sigB.connect(gt, 0, 1); gt.toMaster(); }, 1); }); }); });