public void CalculateTest() { var m = new MultiplicativePseudoMeasure(); var list = MeasureTestsHelper.RandomUtilityList(20); var cVal = list.MultiplyCombined(); var aVal = m.Calculate(list); Assert.That(aVal, Is.EqualTo(cVal)); }
public void CalculateTest() { var m = new Chebyshev(); var list = MeasureTestsHelper.RandomUtilityList(_rnd.Next(1, MaxVecLen)); var aVal = m.Calculate(list); float cVal = MeasureTestsHelper.CalculateChebyshevNorm(list); Assert.That(aVal, Is.EqualTo(cVal).Within(Tolerance)); Assert.That(aVal <= One); Assert.That(aVal >= Zero); }
public void CloneTest() { var m = new MultiplicativePseudoMeasure(); var mc = m.Clone(); Assert.IsNotNull(mc); var list = MeasureTestsHelper.RandomUtilityList(20); var mVal = m.Calculate(list); var mcVal = mc.Calculate(list); Assert.That(mcVal, Is.EqualTo(mVal)); }
public void CalculateTest([Values(-100f, -1f, 0f, 1f, 5f, 10f, 100f, 1000000f)] float p) { var m = new WeightedMetrics(p); var cP = p.Clamp(m.PNormMin, m.PNormMax); Assert.That(m.PNorm, Is.EqualTo(p.Clamp(m.PNormMin, m.PNormMax)).Within(Tolerance)); var list = MeasureTestsHelper.RandomUtilityList(_rnd.Next(1, MaxVecLen)); float aVal = m.Calculate(list); float cVal = MeasureTestsHelper.CalculateWeightedMetricsNorm(list, cP); Assert.That(aVal, Is.EqualTo(cVal).Within(Tolerance)); Assert.That(aVal <= One); Assert.That(aVal >= Zero); }
public void CalculateTest( [Values(-100f, -1f, 0f, 1f, 5f, 10f, 100f, 1000000f)] float p, [Values(-1f, 0f, 0.5f, 0.75f, 1f, 2f)] float lowerBound) { var m = new ConstrainedChebyshev(lowerBound); var cLb = lowerBound.Clamp01(); var list = MeasureTestsHelper.RandomUtilityList(_rnd.Next(1, MaxVecLen)); float aVal = m.Calculate(list); float cVal = MeasureTestsHelper.CalculateConstrainedChebyshevNorm(list, cLb); Assert.That(aVal, Is.EqualTo(cVal).Within(Tolerance)); Assert.That(aVal <= One); Assert.That(aVal >= Zero); }