public void ConstructorTest2()
{
double[] ranks = { 1, 2, 3, 4, 5.5, 5.5, 7, 8, 9, 10, 11, 12 };
var W = new WilcoxonDistribution(ranks, forceExact: true);
double mean = W.Mean; // 39
double median = W.Median; // 39
double var = W.Variance; // 162.5
double cdf = W.DistributionFunction(w: 42); // 0.582763671875
double pdf = W.ProbabilityDensityFunction(w: 42); // 0.014404296875
double lpdf = W.LogProbabilityDensityFunction(w: 42); // -4.2402287228136233
double ccdf = W.ComplementaryDistributionFunction(x: 42); // 0.417236328125
double icdf = W.InverseDistributionFunction(p: cdf); // 41.965447500067114
double icdf2 = W.InverseDistributionFunction(p: 0.5); // 39.000000487005138
double hf = W.HazardFunction(x: 42); // 0.03452311293153891
double chf = W.CumulativeHazardFunction(x: 42); // 0.87410248360375287
string str = W.ToString(); // "W+(x; R)"
Assert.AreEqual(39.0, mean);
Assert.AreEqual(39.0, median, 1e-6);
Assert.AreEqual(162.5, var);
Assert.AreEqual(0.87410248360375287, chf);
Assert.AreEqual(0.582763671875, cdf);
Assert.AreEqual(0.014404296875, pdf);
Assert.AreEqual(-4.2402287228136233, lpdf);
Assert.AreEqual(0.03452311293153891, hf);
Assert.AreEqual(0.417236328125, ccdf);
Assert.AreEqual(42, icdf, 0.05);
Assert.AreEqual("W+(x; R)", str);
}
public void ConstructorTest()
{
double[] ranks = { 1, 2, 3, 4, 5.5, 5.5, 7, 8, 9, 10, 11, 12 };
var W = new WilcoxonDistribution(ranks);
double mean = W.Mean; // 39.0
double median = W.Median; // 38.5
double var = W.Variance; // 162.5
double cdf = W.DistributionFunction(w: 42); // 0.60817384423279575
double pdf = W.ProbabilityDensityFunction(w: 42); // 0.38418508862319295
double lpdf = W.LogProbabilityDensityFunction(w: 42); // 0.38418508862319295
double ccdf = W.ComplementaryDistributionFunction(x: 42); // 0.39182615576720425
double icdf = W.InverseDistributionFunction(p: cdf); // 42
double icdf2 = W.InverseDistributionFunction(p: 0.5); // 42
double hf = W.HazardFunction(x: 42); // 0.98049883339449373
double chf = W.CumulativeHazardFunction(x: 42); // 0.936937017743799
string str = W.ToString(); // "W+(x; R)"
Assert.AreEqual(39.0, mean);
Assert.AreEqual(38.5, median, 1e-6);
Assert.AreEqual(162.5, var);
Assert.AreEqual(0.936937017743799, chf);
Assert.AreEqual(0.60817384423279575, cdf);
Assert.AreEqual(0.38418508862319295, pdf);
Assert.AreEqual(-0.95663084089698047, lpdf);
Assert.AreEqual(0.98049883339449373, hf);
Assert.AreEqual(0.39182615576720425, ccdf);
Assert.AreEqual(42, icdf, 1e-6);
Assert.AreEqual("W+(x; R)", str);
}
public void CumulativeExactTest()
{
// example from https://onlinecourses.science.psu.edu/stat414/node/319
double[] ranks =
{
22, 2, 13, 24, 16, 15, 25, 10, 9, 11, 5,
17, 12, 20, 14, 30, 8, 6, 26, 19, 29, 27,3, 28,
7, 21, 23, 1, 18, 4
};
WilcoxonDistribution target = new WilcoxonDistribution(ranks);
Assert.AreEqual(232.5, target.Mean);
Assert.AreEqual(2363.75, target.Variance);
Assert.AreEqual(Math.Sqrt(2363.75), target.StandardDeviation);
double actual = target.DistributionFunction(200);
double expected = 0.2546;
Assert.AreEqual(expected, actual, 1e-2);
double inv = target.InverseDistributionFunction(actual);
Assert.AreEqual(200, inv);
}
public void ConstructorTest2()
{
double[] ranks = { 1, 2, 3, 4, 5.5, 5.5, 7, 8, 9, 10, 11, 12 };
var W = new WilcoxonDistribution(ranks, exact: true);
double mean = W.Mean; // 39
double median = W.Median; // 39
double var = W.Variance; // 162.5
double cdf = W.DistributionFunction(x: 42); // 0.582763671875
double pdf = W.ProbabilityDensityFunction(x: 42); // 0.014404296875
double lpdf = W.LogProbabilityDensityFunction(x: 42); // -4.2402287228136233
double ccdf = W.ComplementaryDistributionFunction(x: 42); // 0.417236328125
double icdf = W.InverseDistributionFunction(p: cdf); // 41.965447500067114
double icdf2 = W.InverseDistributionFunction(p: 0.5); // 39.000000487005138
double hf = W.HazardFunction(x: 42); // 0.03452311293153891
double chf = W.CumulativeHazardFunction(x: 42); // 0.87410248360375287
string str = W.ToString(); // "W+(x; R)"
Assert.AreEqual(39.0, mean);
Assert.AreEqual(39.0, median, 1e-6);
Assert.AreEqual(162.5, var);
Assert.AreEqual(0.87410248360375287, chf);
Assert.AreEqual(0.59716796875, cdf, 1e-5);
Assert.AreEqual(0.014404296875, pdf, 1e-8);
Assert.AreEqual(-4.2402287228136233, lpdf);
Assert.AreEqual(0.03452311293153891, hf);
Assert.AreEqual(0.417236328125, ccdf);
Assert.AreEqual(42.5, icdf, 0.05);
Assert.AreEqual("W+(x; R)", str);
var range1 = W.GetRange(0.95);
var range2 = W.GetRange(0.99);
var range3 = W.GetRange(0.01);
Assert.AreEqual(17.999999736111114, range1.Min, 1e-6);
Assert.AreEqual(60.000000315408002, range1.Max, 1e-6);
Assert.AreEqual(10.000000351098127, range2.Min, 1e-6);
Assert.AreEqual(67.99999981945885, range2.Max, 1e-6);
Assert.AreEqual(10.000000351098119, range3.Min, 1e-6);
Assert.AreEqual(67.99999981945885, range3.Max, 1e-6);
}
public void MedianTest()
{
double[] ranks = { 1, 2, 3, 7 };
WilcoxonDistribution target = new WilcoxonDistribution(ranks);
Assert.AreEqual(target.Median, target.InverseDistributionFunction(0.5));
}
public void icdf()
{
var dist = new WilcoxonDistribution(1);
double[] percentiles = Vector.Range(0.0, 1.0, stepSize: 0.1);
for (int i = 0; i < percentiles.Length; i++)
{
double x = percentiles[i];
double icdf = dist.InverseDistributionFunction(x);
double cdf = dist.DistributionFunction(icdf);
double iicdf = dist.InverseDistributionFunction(cdf);
double iiicdf = dist.DistributionFunction(iicdf);
Assert.AreEqual(iicdf, icdf, 1e-5);
Assert.AreEqual(x, cdf, 1e-5);
Assert.AreEqual(iiicdf, cdf, 1e-5);
}
}
public void MedianTest_approximation()
{
double[] ranks = { 1, 2, 3, 7 };
WilcoxonDistribution target = new WilcoxonDistribution(ranks, exact: false);
Assert.IsFalse(target.Exact);
Assert.AreEqual(target.Median, target.InverseDistributionFunction(0.5));
}
public void ConstructorTest()
{
double[] ranks = { 1, 2, 3, 4, 5.5, 5.5, 7, 8, 9, 10, 11, 12 };
var W = new WilcoxonDistribution(ranks);
double mean = W.Mean; // 39.0
double median = W.Median; // 38.5
double var = W.Variance; // 162.5
double mode = W.Mode; // 39.0
double cdf = W.DistributionFunction(x: 42); // 0.60817384423279575
double pdf = W.ProbabilityDensityFunction(x: 42); // 0.38418508862319295
double lpdf = W.LogProbabilityDensityFunction(x: 42); // 0.38418508862319295
double ccdf = W.ComplementaryDistributionFunction(x: 42); // 0.39182615576720425
double icdf = W.InverseDistributionFunction(p: cdf); // 42
double icdf2 = W.InverseDistributionFunction(p: 0.5); // 42
double hf = W.HazardFunction(x: 42); // 0.98049883339449373
double chf = W.CumulativeHazardFunction(x: 42); // 0.936937017743799
string str = W.ToString(); // "W+(x; R)"
Assert.AreEqual(39.0, mean);
Assert.AreEqual(39, median, 1e-6);
Assert.AreEqual(39.0, mode, 1e-8);
Assert.AreEqual(162.5, var);
Assert.AreEqual(0.87410248360375287, chf, 1e-8);
Assert.AreEqual(0.59716796875, cdf, 1e-8);
Assert.AreEqual(0.014404296875, pdf, 1e-8);
Assert.AreEqual(-4.2402287228136233, lpdf, 1e-8);
Assert.AreEqual(0.03452311293153891, hf, 1e-8);
Assert.AreEqual(0.417236328125, ccdf, 1e-8);
Assert.AreEqual(42.5, icdf, 0.05);
Assert.AreEqual("W+(x; R)", str);
Assert.AreEqual(0, W.Support.Min);
Assert.AreEqual(double.PositiveInfinity, W.Support.Max);
Assert.AreEqual(W.InverseDistributionFunction(0), W.Support.Min);
Assert.AreEqual(W.InverseDistributionFunction(1), W.Support.Max);
}