using System;
using System.Diagnostics.CodeAnalysis;
using System.Linq;
using System.Threading.Tasks;
using FastRng;
using NUnit.Framework;
namespace FastRngTests.Distributions;
[ExcludeFromCodeCoverage]
public class Uniform
{
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestUniformDistribution01()
{
const float A = 0.0f;
const float B = 1.0f;
const float MEAN = 0.5f * (A + B);
const float VARIANCE = (1.0f / 12.0f) * (B - A) * (B - A);
using var rng = new MultiThreadedRng<float>();
var stats = new RunningStatistics();
var fra = new FrequencyAnalysis();
for (var n = 0; n < 100_000; n++)
{
var value = rng.GetUniform();
stats.Push(value);
fra.CountThis(value);
}
fra.NormalizeAndPlotEvents(TestContext.WriteLine);
fra.PlotOccurence(TestContext.WriteLine);
TestContext.WriteLine($"mean={MEAN} vs. {stats.Mean}");
TestContext.WriteLine($"variance={VARIANCE} vs {stats.Variance}");
Assert.That(stats.Mean, Is.EqualTo(MEAN).Within(0.01f), "Mean is out of range");
Assert.That(stats.Variance, Is.EqualTo(VARIANCE).Within(0.001f), "Variance is out of range");
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public async Task KolmogorovSmirnovTest()
{
// Kolmogorov-Smirnov test for distributions.
// See Knuth volume 2, page 48-51 (third edition).
// This test should *fail* on average one time in 1000 runs.
// That's life with random number generators: if the test passed all the time,
// the source wouldn't be random enough! If the test were to fail more frequently,
// the most likely explanation would be a bug in the code.
const int NUM_ROUNDS = 10_000;
const float FAILURE_PROBABILITY = 0.001f; // probability of test failing with normal distributed input
const float P_LOW = 0.25f * FAILURE_PROBABILITY;
const float P_HIGH = 1.0f - 0.25f * FAILURE_PROBABILITY;
var samples = new float[NUM_ROUNDS];
using var rng = new MultiThreadedRng<float>();
int n;
for (n = 0; n != NUM_ROUNDS; ++n)
samples[n] = rng.GetUniform();
Array.Sort(samples);
var jMinus = 0;
var jPlus = 0;
var kPlus = -float.MaxValue;
var kMinus = -float.MaxValue;
for (n = 0; n != NUM_ROUNDS; ++n)
{
var cdf = samples[n];
var temp = (n + 1.0f) / NUM_ROUNDS - cdf;
if (kPlus < temp)
{
kPlus = temp;
jPlus = n;
}
temp = cdf - (n + 0.0f) / NUM_ROUNDS;
if (kMinus < temp)
{
kMinus = temp;
jMinus = n;
}
}
var sqrtNumReps = MathF.Sqrt(NUM_ROUNDS);
kPlus *= sqrtNumReps;
kMinus *= sqrtNumReps;
// We divide the failure probability by four because we have four tests:
// left and right tests for K+ and K-.
var cutoffLow = MathF.Sqrt(0.5f * MathF.Log(1.0f / (1.0f - P_LOW))) - 1.0f / (6.0f * sqrtNumReps);
var cutoffHigh = MathF.Sqrt(0.5f * MathF.Log(1.0f / (1.0f - P_HIGH))) - 1.0f / (6.0f * sqrtNumReps);
TestContext.WriteLine($"K+ = {kPlus} | K- = {kMinus}");
TestContext.WriteLine($"K+ max at position {jPlus} = {samples[jPlus]}");
TestContext.WriteLine($"K- max at position {jMinus} = {samples[jMinus]}");
TestContext.WriteLine($"Acceptable interval: [{cutoffLow}, {cutoffHigh}]");
Assert.That(kPlus, Is.GreaterThanOrEqualTo(cutoffLow), "K+ is lower than low cutoff");
Assert.That(kPlus, Is.LessThanOrEqualTo(cutoffHigh), "K+ is higher than high cutoff");
Assert.That(kMinus, Is.GreaterThanOrEqualTo(cutoffLow), "K- is lower than low cutoff");
Assert.That(kMinus, Is.LessThanOrEqualTo(cutoffHigh), "K- is lower than high cutoff");
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestUniformGeneratorWithRange01()
{
using var rng = new MultiThreadedRng<float>();
var samples = new float[1_000];
var dist = new FastRng.Distributions.Uniform<float>(rng);
for (var n = 0; n < samples.Length; n++)
samples[n] = dist.NextNumber(-1.0f, 1.0f);
Assert.That(samples.Min(), Is.GreaterThanOrEqualTo(-1.0f), "Min is out of range");
Assert.That(samples.Max(), Is.LessThanOrEqualTo(1.0f), "Max is out of range");
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestUniformGeneratorWithRange02()
{
using var rng = new MultiThreadedRng<float>();
var samples = new float[1_000];
var dist = new FastRng.Distributions.Uniform<float>(rng);
for (var n = 0; n < samples.Length; n++)
samples[n] = dist.NextNumber(0.0f, 1.0f);
Assert.That(samples.Min(), Is.GreaterThanOrEqualTo(0.0f), "Min is out of range");
Assert.That(samples.Max(), Is.LessThanOrEqualTo(1.0f), "Max is out of range");
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestUniformGeneratorWithRange04()
{
using var rng = new MultiThreadedRng<float>();
var samples = new float[1_000];
for (var n = 0; n < samples.Length; n++)
samples[n] = rng.GetUniform();
Assert.That(samples.Min(), Is.GreaterThanOrEqualTo(0.0f), "Min is out of range");
Assert.That(samples.Max(), Is.LessThanOrEqualTo(1.0f), "Max is out of range");
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestRange05Uint()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0, 100)]++;
for (var n = 0; n < distribution.Length - 1; n++)
Assert.That(distribution[n], Is.GreaterThan(0));
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestRange05Ulong()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0UL, 100)]++;
for (var n = 0; n < distribution.Length - 1; n++)
Assert.That(distribution[n], Is.GreaterThan(0));
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void TestRange05Float()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[(uint)MathF.Floor(dist.NextNumber(0.0f, 100.0f))]++;
for (var n = 0; n < distribution.Length - 1; n++)
Assert.That(distribution[n], Is.GreaterThan(0));
}
[Test]
[Category(TestCategories.NORMAL)]
public void TestDistribution001Uint()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0, 100)]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 600));
}
[Test]
[Category(TestCategories.NORMAL)]
public void TestDistribution001Ulong()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0UL, 100)]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 600));
}
[Test]
[Category(TestCategories.NORMAL)]
public void TestDistribution001Float()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 1_000_000;
for (var n = 0; n < runs; n++)
distribution[(uint)MathF.Floor(dist.NextNumber(0.0f, 100.0f))]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 600));
}
[Test]
[Category(TestCategories.LONG_RUNNING)]
public void TestDistribution002Uint()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 100_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0, 100)]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 6_000));
}
[Test]
[Category(TestCategories.LONG_RUNNING)]
public void TestDistribution002Ulong()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 100_000_000;
for (var n = 0; n < runs; n++)
distribution[dist.NextNumber(0UL, 100)]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 6_000));
}
[Test]
[Category(TestCategories.LONG_RUNNING)]
public void TestDistribution002Float()
{
using var rng = new MultiThreadedRng<float>();
var dist = new FastRng.Distributions.Uniform<float>(rng);
var distribution = new uint[101];
var runs = 100_000_000;
for (var n = 0; n < runs; n++)
distribution[(uint)MathF.Floor(dist.NextNumber(0.0f, 100.0f))]++;
Assert.That(distribution[..^1].Max() - distribution[..^1].Min(), Is.InRange(0, 6_000));
}
[Test]
[Category(TestCategories.COVER)]
[Category(TestCategories.NORMAL)]
public void NoRandomNumberGenerator01()
{
Assert.Throws<ArgumentNullException>(() => new FastRng.Distributions.Uniform<float>(null));
}
}