public void TestBadAlphabet() { var fc = new TallyAlphabet(new[] { "a", "b" }); fc.Add("a"); fc.Add("b"); Assert.Throws <ArgumentException>(() => fc.Add("c")); }
public void TestAlphabet() { var fc = new TallyAlphabet(new[] { "a", "b" }); fc.Add("a"); fc.Add("b"); Assert.Equal(0.5f, fc.Probability("a")); Assert.Equal(0.5f, fc.Probability("b")); Assert.Equal(1f, ProbabilityDistribution.Entropy(fc.probability, fc.binCount), 2); }
public void TestPairedAlphabet() { int binCount = 2; var fc = new TallyAlphabet <int>(new[] { "a", "b" }, binCount, y => y); fc.Add("a", 0); fc.Add("a", 0); fc.Add("a", 1); fc.Add("a", 1); fc.Add("b", 0); fc.Add("b", 0); fc.Add("b", 0); fc.Add("b", 0); fc.Add("b", 1); Assert.Equal(4f / 9, fc.ProbabilityX("a")); Assert.Equal(5f / 9, fc.ProbabilityX("b")); Assert.Equal(6 / 9f, fc.ProbabilityY(0)); Assert.Equal(3 / 9f, fc.ProbabilityY(1)); Assert.Equal(2 / 9f, fc.ProbabilityXY("a", 0)); Assert.Equal(2 / 4f, fc.ProbabilityYGivenX(0, "a")); Assert.Equal(2 / 4f, fc.ProbabilityYGivenX(1, "a")); Assert.Equal(4 / 5f, fc.ProbabilityYGivenX(0, "b"), 2); Assert.Equal(1 / 5f, fc.ProbabilityYGivenX(1, "b"), 2); Assert.Equal(0.8f, fc.EntropyYGivenX(binCount), 1); Assert.Equal(0.9f, fc.EntropyXGivenY(binCount), 1); Assert.Equal(1.8f, fc.EntropyXY(binCount), 1); Assert.Equal(0.99f, fc.EntropyX(binCount), 2); Assert.Equal(0.9f, fc.EntropyY(binCount), 1); Assert.Equal(0f, fc.EntropyXGivenY() - fc.EntropyXY() + fc.EntropyY(), 1); Assert.Equal(0f, fc.EntropyYGivenX() - fc.EntropyXY() + fc.EntropyX(), 1); Assert.Equal(0.07f, fc.MutualInformationXY(binCount), 2); }
public void TestCompareWithProbability() { var fc = new TallyAlphabet <int>(new[] { "a", "b", "c" }, 3, y => y); fc.Add("a", 2); fc.Add("a", 1); fc.Add("a", 0); fc.Add("b", 2); fc.Add("b", 1); fc.Add("b", 0); fc.Add("c", 2); fc.Add("c", 1); fc.Add("c", 0); Assert.Equal(1 / 3f, fc.ProbabilityX("a"), 2); Assert.Equal(1 / 3f, fc.ProbabilityX("b"), 2); Assert.Equal(1 / 3f, fc.ProbabilityX("c"), 2); Assert.Equal(1 / 3f, fc.ProbabilityY(0)); Assert.Equal(1 / 3f, fc.ProbabilityY(1)); Assert.Equal(1 / 9f, fc.ProbabilityXY("a", 0)); Assert.Equal(1 / 3f, fc.ProbabilityYGivenX(0, "a"), 2); Assert.Equal(1 / 3f, fc.ProbabilityYGivenX(1, "a"), 2); Assert.Equal(1 / 3f, fc.ProbabilityYGivenX(0, "b"), 2); Assert.Equal(1 / 3f, fc.ProbabilityYGivenX(1, "b"), 2); Assert.Equal(1f, fc.EntropyYGivenX(3), 1); Assert.Equal(9, fc.probabilityXY.Length); Assert.Equal(new [] { 1 / 3f, 1 / 3f, 1 / 3f }, fc.probabilityX); Assert.Equal(new [] { 1 / 3f, 1 / 3f, 1 / 3f }, fc.probabilityY); Assert.Equal(new [, ] { { 1 / 9f, 1 / 9f, 1 / 9f }, { 1 / 9f, 1 / 9f, 1 / 9f }, { 1 / 9f, 1 / 9f, 1 / 9f }, }, fc.probabilityXY); Assert.Equal(1 / 2f, ProbabilityDistribution.ConditionalEntropyYX(fc.probabilityXY, fc.probabilityX, fc.probabilityXY.Length)); Assert.Equal(1f, ProbabilityDistribution.ConditionalEntropyYX(fc.probabilityXY, fc.probabilityX, fc.probabilityX.Length)); Assert.Equal(1f, fc.EntropyXGivenY(3), 1); Assert.Equal(1 / 2f, ProbabilityDistribution.ConditionalEntropyXY(fc.probabilityXY, fc.probabilityY, fc.probabilityXY.Length)); Assert.Equal(1f, ProbabilityDistribution.ConditionalEntropyXY(fc.probabilityXY, fc.probabilityY, fc.probabilityY.Length)); Assert.Equal(2f, fc.EntropyXY(3), 1); Assert.Equal(2f, ProbabilityDistribution.JointEntropy(fc.probabilityXY, fc.probabilityX.Length), 1); Assert.Equal(1f, ProbabilityDistribution.JointEntropy(fc.probabilityXY, fc.probabilityXY.Length), 1); Assert.Equal(3.2f, ProbabilityDistribution.JointEntropy(fc.probabilityXY, 2), 1); Assert.Equal(1f, fc.EntropyX(3), 2); Assert.Equal(1f, ProbabilityDistribution.Entropy(fc.probabilityX, fc.probabilityX.Length), 2); Assert.Equal(0.5f, ProbabilityDistribution.Entropy(fc.probabilityX, fc.probabilityXY.Length), 2); Assert.Equal(1f, fc.EntropyY(3), 1); Assert.Equal(1f, ProbabilityDistribution.Entropy(fc.probabilityY, fc.probabilityY.Length), 2); Assert.Equal(0.5f, ProbabilityDistribution.Entropy(fc.probabilityY, fc.probabilityXY.Length), 2); // H(X|Y) = H(X,Y) - H(Y) // This should always be true. Assert.Equal(0f, fc.EntropyXGivenY() - fc.EntropyXY() + fc.EntropyY(), 1); Assert.Equal(0f, ProbabilityDistribution.ConditionalEntropyXY(fc.probabilityXY, fc.probabilityY) - ProbabilityDistribution.JointEntropy(fc.probabilityXY) + ProbabilityDistribution.ConditionalEntropyXY(fc.probabilityXY, fc.probabilityY), 1); Assert.Equal(0f, fc.MutualInformationXY(3), 2); }
public void TestPairedAlphabet3() { var fc = new TallyAlphabet <int>(new[] { "a", "b" }, 2, y => y); fc.Add("a", 1); fc.Add("a", 1); fc.Add("a", 0); fc.Add("a", 0); fc.Add("b", 1); fc.Add("b", 1); fc.Add("b", 0); fc.Add("b", 0); Assert.Equal(1 / 2f, fc.ProbabilityX("a")); Assert.Equal(1 / 2f, fc.ProbabilityX("b")); Assert.Equal(1 / 2f, fc.ProbabilityY(0)); Assert.Equal(1 / 2f, fc.ProbabilityY(1)); Assert.Equal(2 / 8f, fc.ProbabilityXY("a", 0)); Assert.Equal(1 / 2f, fc.ProbabilityYGivenX(0, "a")); Assert.Equal(1 / 2f, fc.ProbabilityYGivenX(1, "a")); Assert.Equal(1 / 2f, fc.ProbabilityYGivenX(0, "b"), 2); Assert.Equal(1 / 2f, fc.ProbabilityYGivenX(1, "b"), 2); Assert.Equal(1f, fc.EntropyYGivenX(2), 1); Assert.Equal(1f, fc.EntropyXGivenY(2), 1); Assert.Equal(2f, fc.EntropyXY(2), 1); Assert.Equal(1f, fc.EntropyX(2), 2); Assert.Equal(1f, fc.EntropyY(2), 1); // H(X|Y) = H(X,Y) - H(Y) // This should always be true. Assert.Equal(0f, fc.EntropyXGivenY() - fc.EntropyXY() + fc.EntropyY(), 1); Assert.Equal(0f, fc.EntropyYGivenX() - fc.EntropyXY() + fc.EntropyX(), 1); Assert.Equal(0f, fc.MutualInformationXY(2), 2); }
public void TestPairedAlphabet2() { var fc = new TallyAlphabet <int>(new[] { "a", "b" }, 2, y => y); fc.Add("a", 1); fc.Add("a", 1); fc.Add("a", 1); fc.Add("a", 1); fc.Add("b", 0); fc.Add("b", 0); fc.Add("b", 0); fc.Add("b", 0); Assert.Equal(1 / 2f, fc.ProbabilityX("a")); Assert.Equal(1 / 2f, fc.ProbabilityX("b")); Assert.Equal(1 / 2f, fc.ProbabilityY(0)); Assert.Equal(1 / 2f, fc.ProbabilityY(1)); Assert.Equal(0f, fc.ProbabilityXY("a", 0)); Assert.Equal(0f, fc.ProbabilityYGivenX(0, "a")); Assert.Equal(1f, fc.ProbabilityYGivenX(1, "a")); Assert.Equal(1f, fc.ProbabilityYGivenX(0, "b"), 2); Assert.Equal(0f, fc.ProbabilityYGivenX(1, "b"), 2); Assert.Equal(0f, fc.EntropyYGivenX(2), 1); Assert.Equal(0f, fc.EntropyXGivenY(2), 1); Assert.Equal(1f, fc.EntropyXY(2), 1); Assert.Equal(1f, fc.EntropyX(2), 2); Assert.Equal(1f, fc.EntropyY(2), 1); Assert.Equal(0f, fc.EntropyXGivenY() - fc.EntropyXY() + fc.EntropyY(), 1); Assert.Equal(0f, fc.EntropyYGivenX() - fc.EntropyXY() + fc.EntropyX(), 1); Assert.Equal(1f, fc.MutualInformationXY(2), 2); }