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package org.apache.commons.math3.ode;

import org.apache.commons.math3.exception.DimensionMismatchException;
import org.apache.commons.math3.exception.MaxCountExceededException;

This interface allows users to add secondary differential equations to a primary set of differential equations.

In some cases users may need to integrate some problem-specific equations along with a primary set of differential equations. One example is optimal control where adjoined parameters linked to the minimized hamiltonian must be integrated.

This interface allows users to add such equations to a primary set of first order differential equations thanks to the ExpandableStatefulODE.addSecondaryEquations(SecondaryEquations) method.

See Also:
Since:3.0
/** * This interface allows users to add secondary differential equations to a primary * set of differential equations. * <p> * In some cases users may need to integrate some problem-specific equations along * with a primary set of differential equations. One example is optimal control where * adjoined parameters linked to the minimized hamiltonian must be integrated. * </p> * <p> * This interface allows users to add such equations to a primary set of {@link * FirstOrderDifferentialEquations first order differential equations} * thanks to the {@link * ExpandableStatefulODE#addSecondaryEquations(SecondaryEquations)} * method. * </p> * @see ExpandableStatefulODE * @since 3.0 */
public interface SecondaryEquations {
Get the dimension of the secondary state parameters.
Returns:dimension of the secondary state parameters
/** Get the dimension of the secondary state parameters. * @return dimension of the secondary state parameters */
int getDimension();
Compute the derivatives related to the secondary state parameters.
Params:
  • t – current value of the independent time variable
  • primary – array containing the current value of the primary state vector
  • primaryDot – array containing the derivative of the primary state vector
  • secondary – array containing the current value of the secondary state vector
  • secondaryDot – placeholder array where to put the derivative of the secondary state vector
Throws:
/** Compute the derivatives related to the secondary state parameters. * @param t current value of the independent <I>time</I> variable * @param primary array containing the current value of the primary state vector * @param primaryDot array containing the derivative of the primary state vector * @param secondary array containing the current value of the secondary state vector * @param secondaryDot placeholder array where to put the derivative of the secondary state vector * @exception MaxCountExceededException if the number of functions evaluations is exceeded * @exception DimensionMismatchException if arrays dimensions do not match equations settings */
void computeDerivatives(double t, double[] primary, double[] primaryDot, double[] secondary, double[] secondaryDot) throws MaxCountExceededException, DimensionMismatchException; }