/// <summary> /// Get the integral of this distribution times another distribution raised to a power. /// </summary> /// <param name="that"></param> /// <param name="power"></param> /// <returns></returns> public double GetLogAverageOfPower(DistributionRefArray2D <T, DomainType> that, double power) { return(Distribution.GetLogAverageOfPower(array, that.array, power)); }
/// <summary> /// The expected logarithm of that distribution under this distribution. /// </summary> /// <param name="that">The distribution to take the logarithm of.</param> /// <returns><c>sum_x this.Evaluate(x)*Math.Log(that.Evaluate(x))</c></returns> /// <remarks>This is also known as the cross entropy. /// </remarks> public double GetAverageLog(DistributionRefArray2D <T, DomainType> that) { return(Distribution.GetAverageLog(array, that.array)); }
/// <summary> /// Set the parameters to match the moments of a mixture of two distributions /// </summary> /// <param name="weight1">The first weight</param> /// <param name="a">The first distribution array</param> /// <param name="weight2">The second weight</param> /// <param name="b">The second distribution array</param> public void SetToSum(double weight1, DistributionRefArray2D <T, DomainType> a, double weight2, DistributionRefArray2D <T, DomainType> b) { Distribution.SetToSum(array, weight1, a.array, weight2, b.array); }
/// <summary> /// Set the parameters to represent the power of a source distribution to some exponent /// </summary> /// <param name="a">The source distribution array</param> /// <param name="exponent">The exponent</param> public void SetToPower(DistributionRefArray2D <T, DomainType> a, double exponent) { Distribution.SetToPower(array, a.array, exponent); }
/// <summary> /// Set the parameters to represent the ratio of two distributions /// </summary> /// <param name="numerator">The numerator distribution array</param> /// <param name="denominator">The denominator distribution array</param> /// <param name="forceProper">Argument passed to T.SetToRatio</param> public void SetToRatio(DistributionRefArray2D <T, DomainType> numerator, DistributionRefArray2D <T, DomainType> denominator, bool forceProper) { Distribution.SetToRatio(array, numerator.array, denominator.array, forceProper); }
/// <summary> /// Set the parameters to represent the product of two distributions /// </summary> /// <param name="a">The first distribution array</param> /// <param name="b">The second distribution array</param> public void SetToProduct(DistributionRefArray2D <T, DomainType> a, DistributionRefArray2D <T, DomainType> b) { Distribution.SetToProduct(array, a.array, b.array); }
/// <summary> /// Set the parameters of this distribution to match those of the given distribution (by value) /// </summary> /// <param name="that"></param> public void SetTo(DistributionRefArray2D <T, DomainType> that) { base.SetTo(that); }