Repeated1DIntegrator2D Class

Represents a numerical integrator that uses an adaptive algorithm.

Definition

Namespace: Extreme.Mathematics.Calculus
Assembly: Extreme.Numerics (in Extreme.Numerics.dll) Version: 8.1.23

public class Repeated1DIntegrator2D : NumericalIntegrator2D

Visual Basic

Public Class Repeated1DIntegrator2D
	Inherits NumericalIntegrator2D

C++/CLI

public ref class Repeated1DIntegrator2D : public NumericalIntegrator2D

type Repeated1DIntegrator2D = 
    class
        inherit NumericalIntegrator2D
    end

Inheritance: Object → ManagedIterativeAlgorithm<Double, Double, SolutionReport<Double, Double>> → ManagedIterativeAlgorithm<Double> → IterativeAlgorithm → NumericalIntegrator2D → Repeated1DIntegrator2D

Remarks

Use the Repeated1DIntegrator2D class to compute integrals of functions with two variables over rectangular areas. This class uses repeated one-dimensional integration, which in most cases does not work as well as the adaptive algorithm (see AdaptiveIntegrator2D). and in most cases far outperforms alternative methods.

Repeated1DIntegrator2D inherits from NumericalIntegrator2D, the abstract base class for all classes that implement numerical integration in two dimensions. It, in turn, inherits from the IterativeAlgorithm class. All properties of this class are also available. The AbsoluteTolerance and RelativeTolerance properties set the desired precision as specified by the ConvergenceCriterion property. The default value for both tolerances is SqrtEpsilon (roughly 10^-8). MaxIterations sets the maximum number of iterations, which in this case is the maximum number of subregions. The default value for this property is 5000. IterationsNeeded returns the actual number of iterations performed after the algorithm has completed.

The Integrate(Func<Double, Double, Double>, Double, Double, Func<Double, Double>, Func<Double, Double>) method does the actual work of numerically integrating an integrand. It takes three parameters. The first parameter is a function of two variables delegate that specifies the function to integrate. The second and third parameters are Double values that specify the lower and upper bounds of the integration region in the X direction. The fourth and fifth parameters are Double values that specify the lower and upper bounds of the integration region in the Y direction.

The XIntegrationRule and YIntegrationRule properties let you specify which integration rule to use to approximate integrals in each direction.

Constructors

Repeated1DIntegrator2D

Initializes a new instance of the Repeated1DIntegrator2D class

Properties

AbsoluteTolerance	Gets or sets the absolute tolerance used in the convergence test. (Inherited from IterativeAlgorithm)
ConvergenceCriterion	Gets or sets a value specifying the criterion that is to be used in the convergence test for the algorithm. (Inherited from IterativeAlgorithm)
ConvergenceTest	Gets the convergence test for the algorithm. (Inherited from IterativeAlgorithm)
ConvergenceTests	Gets the collection of convergence tests for the algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
CurrentError	Gets the estimated error of the approximation of the result at the current iteration. (Inherited from IterativeAlgorithm)
CurrentResult	Gets the approximation of the result at the current iteration. (Inherited from IterativeAlgorithm)
EstimatedError	Gets a value indicating the size of the absolute error of the result. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
EvaluationsNeeded	Gets the number of evaluations needed to execute the algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
EvaluationsRemaining	Gets the number of evaluations still available. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
HasSharedDegreeOfParallelism	Indicates whether the degree of parallelism is a property that is shared across instances. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
InitialDirection	Gets or sets which direction should be integrated first.
Integrand	Gets or sets the function to integrate. (Inherited from NumericalIntegrator2D)
IterationsNeeded	Gets the number of iterations needed by the algorithm to reach the desired accuracy. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
IterationsRemaining	Gets the number of iterations remaining. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
LowerBoundFunction	Gets or sets the function that defines the lower bound in the secondary direction.
MaxDegreeOfParallelism	Gets or sets the maximum degree of parallelism enabled by this instance. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
MaxEvaluations	Gets or sets the maximum number of evaluations during the calculation. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
MaxIterations	Gets or sets the maximum number of iterations to use when approximating the roots of the target function. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
MinIterations	Gets or sets the minimum iterations that have to be performed. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Order	Gets the order of the integration rule. (Overrides NumericalIntegrator2D.Order)
ParallelOptions	Gets or sets the configuration for the parallel behavior of the algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
RelativeTolerance	Gets or sets the relative tolerance used in the convergence test. (Inherited from IterativeAlgorithm)
Result	Gets the result of an algorithm after it has executed. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
SolutionReport	Gets the result of an algorithm after it has executed. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Status	Gets the AlgorithmStatus following an execution of the algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ThrowExceptionOnFailure	Gets or sets a value indicating whether to throw an exception when the algorithm fails to converge. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
UpperBoundFunction	Gets or sets the function that defines the upper bound in the secondary direction.
XIntegrationRule	Gets or sets the integration rule used to integrate in the X direction.
XLowerBound	Gets or sets the lower bound of the integration region in the X direction. (Inherited from NumericalIntegrator2D)
XUpperBound	Gets or sets the upper bound of the integration region in the X direction. (Inherited from NumericalIntegrator2D)
YIntegrationRule	Gets or sets the integration rule used to integrate in the Y direction.
YLowerBound	Gets or sets the lower bound of the integration region in the Y direction. (Inherited from NumericalIntegrator2D)
YUpperBound	Gets or sets the upper bound of the integration region in the Y direction. (Inherited from NumericalIntegrator2D)

Methods

Equals	Determines whether the specified object is equal to the current object. (Inherited from Object)
ErrorEvaluator	Returns the estimated error for testing whether the algorithm has converged. (Inherited from IterativeAlgorithm)
Finalize	Allows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection. (Inherited from Object)
GetHashCode	Serves as the default hash function. (Inherited from Object)
GetType	Gets the Type of the current instance. (Inherited from Object)
IncrementEvaluations()	Increments the number of evaluations by one. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
IncrementEvaluations(Int32)	Increments the number of evaluations by the specified amount. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Integrate()	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Integrate(ParallelOptions)	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Integrate(Double, Double, Double, Double)	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Integrate(Double, Double, Double, Double, ParallelOptions)	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Integrate(Func<Double, Double, Double>, Double, Double, Double, Double)	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Integrate(Func<Double, Double, Double>, Double, Double, Func<Double, Double>, Func<Double, Double>)	Numerically integrates a function of one variable.
Integrate(Func<Double, Double, Double>, Double, Double, Double, Double, ParallelOptions)	Numerically integrates a function of one variable. (Inherited from NumericalIntegrator2D)
Iterate	Performs one iteration of the algorithm. (Overrides ManagedIterativeAlgorithm<T, TError, TReport>.Iterate())
Iterated	Performs tasks after the iteration is completed, but before the status of the algorithm is finalized. (Inherited from IterativeAlgorithm)
MemberwiseClone	Creates a shallow copy of the current Object. (Inherited from Object)
OnConvergence	Performs any tasks after the main algorithm has converged. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
OnFailure	Performs any tasks after the main algorithm has failed to converge. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
OnInit	Performs initialization tasks when the algorithm is first run. (Overrides IterativeAlgorithm.OnInit())
ReportFailure(AlgorithmStatus)	Reports that the algoritm has failed. No further iterations will be performed. (Inherited from IterativeAlgorithm)
ReportFailure(T, TError, AlgorithmStatus)	Records the results of an algorithm in case it fails. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ReportResult	Records the results of an algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ReportSuccess()	Reports that the algoritm has succeeded. No further iterations will be performed. (Inherited from IterativeAlgorithm)
ReportSuccess(T, TError)	Records the results of a algorithm that converged successfully. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ResetEvaluations	Resets the number of evaluations to zero. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Restart	Prepares the algorithm to be run again with possibly different inputs. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Run()	Runs the algorithm. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
Run(ParallelOptions)	Runs the algorithm using the specified parallelization options. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
SetResult	Sets the results of an algorithm's execution. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
TestConvergence	Checks whether the algorithm has converged. (Inherited from IterativeAlgorithm)
ThreadSafeIncrementEvaluations()	Increments the number of evaluations by one. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ThreadSafeIncrementEvaluations(Int32)	Increments the number of evaluations by the specified amount. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ThrowConvergenceException	Interprets the AlgorithmStatus and throws the appropriate exception. (Inherited from ManagedIterativeAlgorithm<T, TError, TReport>)
ToString	Returns a string that represents the current object. (Inherited from Object)
UpdateCurrentResult	Updates the current approximation in a point-wise convergence. (Inherited from IterativeAlgorithm)
ValueEvaluator	Returns the value to compare the estimated error to when testing whether the algorithm has converged. (Inherited from IterativeAlgorithm)