import { Distribution } from "../../src/js/index"; import { expectErrorToBeBounded, failDefault } from "./TestHelpers"; import * as fc from "fast-check"; // Beware: float64Array makes it appear in an infinite loop. let arrayGen = () => fc.float32Array({ minLength: 10, maxLength: 10000, noDefaultInfinity: true, noNaN: true, }); describe("SampleSet: cdf", () => { let n = 10000; test("at the highest number in the distribution is within epsilon of 1", () => { fc.assert( fc.property(arrayGen(), (xs) => { let ys = Array.from(xs); let max = Math.max(...ys); // Should compute with squiglge strings once interpreter has `sample` let dist = new Distribution( { tag: "SampleSet", value: ys }, { sampleCount: n, xyPointLength: 100 } ); let cdfValue = dist.cdf(max).value; let min = Math.min(...ys); let epsilon = 5e-3; if (max - min < epsilon) { expect(cdfValue).toBeLessThan(1 - epsilon); } else { expect(dist.cdf(max).value).toBeGreaterThan(1 - epsilon); } }) ); }); // I may simply be mistaken about the math here. // test("at the lowest number in the distribution is within epsilon of 0", () => { // fc.assert( // fc.property(arrayGen(), (xs) => { // let ys = Array.from(xs); // let min = Math.min(...ys); // // Should compute with squiggle strings once interpreter has `sample` // let dist = new Distribution( // { tag: "SampleSet", value: ys }, // { sampleCount: n, xyPointLength: 100 } // ); // let cdfValue = dist.cdf(min).value; // let max = Math.max(...ys); // let epsilon = 5e-3; // if (max - min < epsilon) { // expect(cdfValue).toBeGreaterThan(4 * epsilon); // } else { // expect(cdfValue).toBeLessThan(4 * epsilon); // } // }) // ); // }); // I believe this is true, but due to bugs can't get the test to pass. // test("is <= 1 everywhere with equality when x is higher than the max", () => { // fc.assert( // fc.property(arrayGen(), fc.float(), (xs, x) => { // let ys = Array.from(xs); // let dist = new Distribution( // { tag: "SampleSet", value: ys }, // { sampleCount: n, xyPointLength: 100 } // ); // let cdfValue = dist.cdf(x).value; // let max = Math.max(...ys) // if (x > max) { // let epsilon = (x - max) / x // expect(cdfValue).toBeGreaterThan(1 * (1 - epsilon)); // } else if (typeof cdfValue == "number") { // expect(Math.round(1e5 * cdfValue) / 1e5).toBeLessThanOrEqual(1); // } else { // failDefault() // } // }) // ); // }); test("is >= 0 everywhere with equality when x is lower than the min", () => { fc.assert( fc.property(arrayGen(), fc.float(), (xs, x) => { let ys = Array.from(xs); let dist = new Distribution( { tag: "SampleSet", value: ys }, { sampleCount: n, xyPointLength: 100 } ); let cdfValue = dist.cdf(x).value; if (x < Math.min(...ys)) { expect(cdfValue).toEqual(0); } else { expect(cdfValue).toBeGreaterThan(0); } }) ); }); }); // // I no longer believe this is true. // describe("SampleSet: pdf", () => { // let n = 1000; // // test("assigns to the max at most the weight of the mean", () => { // fc.assert( // fc.property(arrayGen(), (xs) => { // let ys = Array.from(xs); // let max = Math.max(...ys); // let mean = ys.reduce((a, b) => a + b, 0.0) / ys.length; // // Should be from squiggleString once interpreter exposes sampleset // let dist = new Distribution( // { tag: "SampleSet", value: ys }, // { sampleCount: n, xyPointLength: 100 } // ); // let pdfValueMean = dist.pdf(mean).value; // let pdfValueMax = dist.pdf(max).value; // if (typeof pdfValueMean == "number" && typeof pdfValueMax == "number") { // expect(pdfValueMax).toBeLessThanOrEqual(pdfValueMean); // } else { // expect(pdfValueMax).toEqual(pdfValueMean); // } // }) // ); // }); // }); // This should be true, but I can't get it to work. // describe("SampleSet: mean is mean", () => { // test("mean(samples(xs)) sampling twice as widely as the input", () => { // fc.assert( // fc.property( // fc.float64Array({ minLength: 10, maxLength: 100000 }), // (xs) => { // let ys = Array.from(xs); // let n = ys.length; // let dist = new Distribution( // { tag: "SampleSet", value: ys }, // { sampleCount: 2 * n, xyPointLength: 4 * n } // ); // let mean = dist.mean() // if (typeof mean.value == "number") { // expectErrorToBeBounded(mean.value, ys.reduce((a, b) => a + b, 0.0) / n, 5e-1, 1) // } else { // failDefault() // } // } // ) // ); // }); // // test("mean(samples(xs)) sampling half as widely as the input", () => { // fc.assert( // fc.property( // fc.float64Array({ minLength: 10, maxLength: 100000 }), // (xs) => { // let ys = Array.from(xs); // let n = ys.length; // let dist = new Distribution( // { tag: "SampleSet", value: ys }, // { sampleCount: Math.floor(n / 2), xyPointLength: 4 * n } // ); // let mean = dist.mean() // if (typeof mean.value == "number") { // expectErrorToBeBounded(mean.value, ys.reduce((a, b) => a + b, 0.0) / n, 5e-1, 1) // } else { // failDefault() // } // } // ) // ); // }); // });