/// <summary>Initializes a new instance of the <see cref="NLoptAlgorithmAttribute"/> class. /// </summary> /// <param name="procedding">The proceeding, i.e. a value indicating whether a local or global optimization approach is given.</param> /// <param name="gradientRequirement">The gradient requirement, i.e. a value indicating whether the gradient will be taken into account.</param> public NLoptAlgorithmAttribute(NLoptProceeding procedding, OrdinaryMultiDimOptimizer.GradientMethod gradientRequirement) { Proceeding = procedding; GradientRequirement = gradientRequirement; IsRandomAlgorithm = false; BoxConstraintRequirement = NLoptBoundConstraintRequirement.Required; NonlinearConstraintRequirement = NLoptNonlinearConstraintRequirement.None; SubsidiaryRequirement = NLoptSubsidiaryRequirement.None; }
/// <summary>Initializes a new instance of the <see cref="NLoptConfiguration"/> class. /// </summary> /// <param name="procedding">A value indicating whether a local or global optimization approach is specified.</param> /// <param name="gradientRequirement">A value indicating whether the gradient will be taken into account.</param> /// <param name="boxConstraintRequirement">A value indicating whether Box constraints are required.</param> /// <param name="nonlinearConstraintRequirement">A value indicating whether nonlinear constraints are required.</param> /// <param name="isRandomAlgorithm">A value indicating whether the optimization algorithm is randomly based.</param> /// <param name="subsididaryRequirement">A value indicating whether a subsidiary optimization algorithm is required.</param> internal NLoptConfiguration(NLoptProceeding procedding, OrdinaryMultiDimOptimizer.GradientMethod gradientRequirement, NLoptBoundConstraintRequirement boxConstraintRequirement, NLoptNonlinearConstraintRequirement nonlinearConstraintRequirement, bool isRandomAlgorithm, NLoptSubsidiaryRequirement subsididaryRequirement) { Proceeding = procedding; GradientRequirement = gradientRequirement; IsRandomAlgorithm = isRandomAlgorithm; BoxConstraintRequirement = boxConstraintRequirement; NonlinearConstraintRequirement = nonlinearConstraintRequirement; SubsidiaryRequirement = subsididaryRequirement; }