public UnivariateFunctionAnonymous6(BivariateFunction f, ref double dfixed) { this.f = f; this.dfixed = dfixed; }
public MultivariateFunctionAnonymous(BivariateFunction combiner, UnivariateFunction f, ref double initialValue) { this.combiner = combiner; this.f = f; this.initialValue = initialValue; }
/// <summary> /// Creates a unary function by fixing the second argument of a binary function. /// </summary> /// <param name="f">Binary function.</param> /// <param name="dfixed">Value to which the second argument of <c>f</c> is set.</param> /// <returns>the unary function h(x) = f(x, dfixed)</returns> public static UnivariateFunction fix2ndArgument(BivariateFunction f, double dfixed) { return(new UnivariateFunctionAnonymous6(f, ref dfixed)); }
public UnivariateFunctionAnonymous4(BivariateFunction combiner, UnivariateFunction f, UnivariateFunction g) { this.combiner = combiner; this.f = f; this.g = g; }
/// <summary> /// Returns a MultivariateFunction h(x[]) defined by <code> /// h(x[]) = combiner(...combiner(combiner(initialValue,x[0]),x[1])...),x[x.Length-1]) /// </code> /// </summary> /// <param name="combiner">Combiner function.</param> /// <param name="initialValue">Initial value.</param> /// <returns>a collector function.</returns> public static MultivariateFunction collector(BivariateFunction combiner, double initialValue) { return(collector(combiner, new Identity(), initialValue)); }
/// <summary> /// Returns a MultivariateFunction h(x[]) defined by <code> /// h(x[]) = combiner(...combiner(combiner(initialValue,f(x[0])),f(x[1]))...),f(x[x.Length-1])) /// </code> /// </summary> /// <param name="combiner">Combiner function.</param> /// <param name="f">Function.</param> /// <param name="initialValue">Initial value.</param> /// <returns>a collector function.</returns> public static MultivariateFunction collector(BivariateFunction combiner, UnivariateFunction f, double initialValue) { return(new MultivariateFunctionAnonymous(combiner, f, ref initialValue)); }
/// <summary> /// Returns the univariate function <para/> /// <c>h(x) = combiner(f(x), g(x))</c>. /// </summary> /// <param name="combiner">Combiner function.</param> /// <param name="f">Function.</param> /// <param name="g">Function.</param> /// <returns>the composite function.</returns> public static UnivariateFunction combine(BivariateFunction combiner, UnivariateFunction f, UnivariateFunction g) { return(new UnivariateFunctionAnonymous4(combiner, f, g)); }
public FirstUnivariateFunction(BivariateFunction bivariate, double fixedValue) { _bivariateFunction = bivariate; _fixedValue = fixedValue; }
/// <summary> /// Creates a unary function by fixing the second argument of a binary function. /// </summary> /// <param name="f">Binary function..</param> /// <param name="fixed">Value to which the second argument of {@code f} is set..</param> /// <returns>the unary function h(x) = f(x, fixed)</returns> public static UnivariateFunction fix2ndArgument(BivariateFunction f, double @fixed) { return(new FirstUnivariateFunction(f, @fixed)); }