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* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
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* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
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package org.apache.commons.math3.ode;
import java.io.Serializable;
import org.apache.commons.math3.RealFieldElement;
import org.apache.commons.math3.exception.DimensionMismatchException;
import org.apache.commons.math3.exception.MathIllegalArgumentException;
import org.apache.commons.math3.exception.util.LocalizedFormats;
import org.apache.commons.math3.util.MathArrays;
Class mapping the part of a complete state or derivative that pertains
to a set of differential equations.
Instances of this class are guaranteed to be immutable.
Type parameters: - <T> – the type of the field elements
See Also: - FieldExpandableODE
Since: 3.6
/**
* Class mapping the part of a complete state or derivative that pertains
* to a set of differential equations.
* <p>
* Instances of this class are guaranteed to be immutable.
* </p>
* @see FieldExpandableODE
* @param <T> the type of the field elements
* @since 3.6
*/
public class FieldEquationsMapper<T extends RealFieldElement<T>> implements Serializable {
Serializable UID. /** Serializable UID. */
private static final long serialVersionUID = 20151114L;
Start indices of the components. /** Start indices of the components. */
private final int[] start;
Create a mapper by adding a new equation to another mapper.
The new equation will have index mapper.
getNumberOfEquations()
, or 0 if mapper
is null.
Params: - mapper – former mapper, with one equation less (null for first equation)
- dimension – dimension of the equation state vector
/** Create a mapper by adding a new equation to another mapper.
* <p>
* The new equation will have index {@code mapper.}{@link #getNumberOfEquations()},
* or 0 if {@code mapper} is null.
* </p>
* @param mapper former mapper, with one equation less (null for first equation)
* @param dimension dimension of the equation state vector
*/
FieldEquationsMapper(final FieldEquationsMapper<T> mapper, final int dimension) {
final int index = (mapper == null) ? 0 : mapper.getNumberOfEquations();
this.start = new int[index + 2];
if (mapper == null) {
start[0] = 0;
} else {
System.arraycopy(mapper.start, 0, start, 0, index + 1);
}
start[index + 1] = start[index] + dimension;
}
Get the number of equations mapped.
Returns: number of equations mapped
/** Get the number of equations mapped.
* @return number of equations mapped
*/
public int getNumberOfEquations() {
return start.length - 1;
}
Return the dimension of the complete set of equations.
The complete set of equations correspond to the primary set plus all secondary sets.
Returns: dimension of the complete set of equations
/** Return the dimension of the complete set of equations.
* <p>
* The complete set of equations correspond to the primary set plus all secondary sets.
* </p>
* @return dimension of the complete set of equations
*/
public int getTotalDimension() {
return start[start.length - 1];
}
Map a state to a complete flat array.
Params: - state – state to map
Returns: flat array containing the mapped state, including primary and secondary components
/** Map a state to a complete flat array.
* @param state state to map
* @return flat array containing the mapped state, including primary and secondary components
*/
public T[] mapState(final FieldODEState<T> state) {
final T[] y = MathArrays.buildArray(state.getTime().getField(), getTotalDimension());
int index = 0;
insertEquationData(index, state.getState(), y);
while (++index < getNumberOfEquations()) {
insertEquationData(index, state.getSecondaryState(index), y);
}
return y;
}
Map a state derivative to a complete flat array.
Params: - state – state to map
Returns: flat array containing the mapped state derivative, including primary and secondary components
/** Map a state derivative to a complete flat array.
* @param state state to map
* @return flat array containing the mapped state derivative, including primary and secondary components
*/
public T[] mapDerivative(final FieldODEStateAndDerivative<T> state) {
final T[] yDot = MathArrays.buildArray(state.getTime().getField(), getTotalDimension());
int index = 0;
insertEquationData(index, state.getDerivative(), yDot);
while (++index < getNumberOfEquations()) {
insertEquationData(index, state.getSecondaryDerivative(index), yDot);
}
return yDot;
}
Map flat arrays to a state and derivative.
Params: - t – time
- y – state array to map, including primary and secondary components
- yDot – state derivative array to map, including primary and secondary components
Throws: - DimensionMismatchException – if an array does not match total dimension
Returns: mapped state
/** Map flat arrays to a state and derivative.
* @param t time
* @param y state array to map, including primary and secondary components
* @param yDot state derivative array to map, including primary and secondary components
* @return mapped state
* @exception DimensionMismatchException if an array does not match total dimension
*/
public FieldODEStateAndDerivative<T> mapStateAndDerivative(final T t, final T[] y, final T[] yDot)
throws DimensionMismatchException {
if (y.length != getTotalDimension()) {
throw new DimensionMismatchException(y.length, getTotalDimension());
}
if (yDot.length != getTotalDimension()) {
throw new DimensionMismatchException(yDot.length, getTotalDimension());
}
final int n = getNumberOfEquations();
int index = 0;
final T[] state = extractEquationData(index, y);
final T[] derivative = extractEquationData(index, yDot);
if (n < 2) {
return new FieldODEStateAndDerivative<T>(t, state, derivative);
} else {
final T[][] secondaryState = MathArrays.buildArray(t.getField(), n - 1, -1);
final T[][] secondaryDerivative = MathArrays.buildArray(t.getField(), n - 1, -1);
while (++index < getNumberOfEquations()) {
secondaryState[index - 1] = extractEquationData(index, y);
secondaryDerivative[index - 1] = extractEquationData(index, yDot);
}
return new FieldODEStateAndDerivative<T>(t, state, derivative, secondaryState, secondaryDerivative);
}
}
Extract equation data from a complete state or derivative array.
Params: - index – index of the equation, must be between 0 included and
getNumberOfEquations()
(excluded) - complete – complete state or derivative array from which
equation data should be retrieved
Throws: - MathIllegalArgumentException – if index is out of range
- DimensionMismatchException – if complete state has not enough elements
Returns: equation data
/** Extract equation data from a complete state or derivative array.
* @param index index of the equation, must be between 0 included and
* {@link #getNumberOfEquations()} (excluded)
* @param complete complete state or derivative array from which
* equation data should be retrieved
* @return equation data
* @exception MathIllegalArgumentException if index is out of range
* @exception DimensionMismatchException if complete state has not enough elements
*/
public T[] extractEquationData(final int index, final T[] complete)
throws MathIllegalArgumentException, DimensionMismatchException {
checkIndex(index);
final int begin = start[index];
final int end = start[index + 1];
if (complete.length < end) {
throw new DimensionMismatchException(complete.length, end);
}
final int dimension = end - begin;
final T[] equationData = MathArrays.buildArray(complete[0].getField(), dimension);
System.arraycopy(complete, begin, equationData, 0, dimension);
return equationData;
}
Insert equation data into a complete state or derivative array.
Params: - index – index of the equation, must be between 0 included and
getNumberOfEquations()
(excluded) - equationData – equation data to be inserted into the complete array
- complete – placeholder where to put equation data (only the
part corresponding to the equation will be overwritten)
Throws: - DimensionMismatchException – if either array has not enough elements
/** Insert equation data into a complete state or derivative array.
* @param index index of the equation, must be between 0 included and
* {@link #getNumberOfEquations()} (excluded)
* @param equationData equation data to be inserted into the complete array
* @param complete placeholder where to put equation data (only the
* part corresponding to the equation will be overwritten)
* @exception DimensionMismatchException if either array has not enough elements
*/
public void insertEquationData(final int index, T[] equationData, T[] complete)
throws DimensionMismatchException {
checkIndex(index);
final int begin = start[index];
final int end = start[index + 1];
final int dimension = end - begin;
if (complete.length < end) {
throw new DimensionMismatchException(complete.length, end);
}
if (equationData.length != dimension) {
throw new DimensionMismatchException(equationData.length, dimension);
}
System.arraycopy(equationData, 0, complete, begin, dimension);
}
Check equation index.
Params: - index – index of the equation, must be between 0 included and
getNumberOfEquations()
(excluded)
Throws: - MathIllegalArgumentException – if index is out of range
/** Check equation index.
* @param index index of the equation, must be between 0 included and
* {@link #getNumberOfEquations()} (excluded)
* @exception MathIllegalArgumentException if index is out of range
*/
private void checkIndex(final int index) throws MathIllegalArgumentException {
if (index < 0 || index > start.length - 2) {
throw new MathIllegalArgumentException(LocalizedFormats.ARGUMENT_OUTSIDE_DOMAIN,
index, 0, start.length - 2);
}
}
}