/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* 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
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.commons.math.linear;
import java.util.Iterator;
import org.apache.commons.math.FunctionEvaluationException;
import org.apache.commons.math.analysis.UnivariateRealFunction;
/**
* Interface defining a real-valued vector with basic algebraic operations.
* <p>
* vector element indexing is 0-based -- e.g., <code>getEntry(0)</code>
* returns the first element of the vector.
* </p>
* <p>
* The various <code>mapXxx</code> and <code>mapXxxToSelf</code> methods operate
* on vectors element-wise, i.e. they perform the same operation (adding a scalar,
* applying a function ...) on each element in turn. The <code>mapXxx</code>
* versions create a new vector to hold the result and do not change the instance.
* The <code>mapXxxToSelf</code> versions use the instance itself to store the
* results, so the instance is changed by these methods. In both cases, the result
* vector is returned by the methods, this allows to use the <i>fluent API</i>
* style, like this:
* </p>
* <pre>
* RealVector result = v.mapAddToSelf(3.0).mapTanToSelf().mapSquareToSelf();
* </pre>
* <p>
* Remark on the deprecated {@code mapXxx} and {@code mapXxxToSelf} methods: In
* Commons-Math v3.0, the same functionality will be achieved by directly using the
* {@link #map(UnivariateRealFunction)} and {@link #mapToSelf(UnivariateRealFunction)}
* together with new function objects (not available in v2.2).
* </p>
*
* @version $Revision: 1070725 $ $Date: 2011-02-15 02:31:12 +0100 (mar. 15 févr. 2011) $
* @since 2.0
*/
public interface RealVector {
/**
* Acts as if it is implemented as:
* <pre>
* Entry e = null;
* for(Iterator<Entry> it = iterator(); it.hasNext(); e = it.next()) {
* e.setValue(function.value(e.getValue()));
* }
* </pre>
*
* @param function Function to apply to each entry.
* @return this vector.
* @throws FunctionEvaluationException if the function throws it.
*/
RealVector mapToSelf(UnivariateRealFunction function) throws FunctionEvaluationException;
/**
* Acts as if implemented as:
* <pre>
* return copy().map(function);
* </pre>
*
* @param function Function to apply to each entry.
* @return a new vector.
* @throws FunctionEvaluationException if the function throws it.
*/
RealVector map(UnivariateRealFunction function) throws FunctionEvaluationException;
/** Class representing a modifiable entry in the vector. */
public abstract class Entry {
/** Index of the entry. */
private int index;
/**
* Get the value of the entry.
*
* @return the value of the entry.
*/
public abstract double getValue();
/**
* Set the value of the entry.
*
* @param value New value for the entry.
*/
public abstract void setValue(double value);
/**
* Get the index of the entry.
*
* @return the index of the entry.
*/
public int getIndex() {
return index;
}
/**
* Set the index of the entry.
*
* @param index New index for the entry.
*/
public void setIndex(int index) {
this.index = index;
}
}
/**
* Generic dense iterator.
* It iterates in increasing order of the vector index.
*
* @return a dense iterator
*/
Iterator<Entry> iterator();
/**
* Specialized implementations may choose to not iterate over all
* dimensions, either because those values are unset, or are equal
* to defaultValue(), or are small enough to be ignored for the
* purposes of iteration.
* No guarantees are made about order of iteration.
* In dense implementations, this method will often delegate to
* {@link #iterator()}.
*
* @return a sparse iterator
*/
Iterator<Entry> sparseIterator();
/**
* Returns a (deep) copy of this vector.
*
* @return a vector copy.
*/
RealVector copy();
/**
* Compute the sum of this vector and {@code v}.
*
* @param v Vector to be added.
* @return {@code this} + {@code v}.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector add(RealVector v);
/**
* Compute the sum of this vector and {@code v}.
*
* @param v Vector to be added.
* @return {@code this} + {@code v}.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector add(double[] v);
/**
* Subtract {@code v} from this vector.
*
* @param v Vector to be subtracted.
* @return {@code this} - {@code v}.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector subtract(RealVector v);
/**
* Subtract {@code v} from this vector.
*
* @param v Vector to be subtracted.
* @return {@code this} - {@code v}.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector subtract(double[] v);
/**
* Add a value to each entry.
*
* @param d Value to be added to each entry.
* @return {@code this} + {@code d}.
*/
RealVector mapAdd(double d);
/**
* Add a value to each entry.
* The instance is changed in-place.
*
* @param d Value to be added to each entry.
* @return {@code this}.
*/
RealVector mapAddToSelf(double d);
/**
* Subtract a value from each entry.
*
* @param d Value to be subtracted.
* @return {@code this} - {@code d}.
*/
RealVector mapSubtract(double d);
/**
* Subtract a value from each entry.
* The instance is changed in-place.
*
* @param d Value to be subtracted.
* @return {@code this}.
*/
RealVector mapSubtractToSelf(double d);
/**
* Multiply each entry.
*
* @param d Multiplication factor.
* @return {@code this} * {@code d}.
*/
RealVector mapMultiply(double d);
/**
* Multiply each entry.
* The instance is changed in-place.
*
* @param d Multiplication factor.
* @return {@code this}.
*/
RealVector mapMultiplyToSelf(double d);
/**
* Divide each entry.
*
* @param d Value to divide by.
* @return {@code this} / {@code d}.
*/
RealVector mapDivide(double d);
/**
* Divide each entry.
* The instance is changed in-place.
*
* @param d Value to divide by.
* @return {@code this}.
*/
RealVector mapDivideToSelf(double d);
/**
* Map a power operation to each entry.
*
* @param d Operator value.
* @return a mapped copy of the vector.
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapPow(double d);
/**
* Map a power operation to each entry.
* The instance is changed in-place.
*
* @param d Operator value.
* @return the mapped vector.
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapPowToSelf(double d);
/**
* Map the {@link Math#exp(double)} function to each entry.
*
* @return a mapped copy of the vector.
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapExp();
/**
* Map {@link Math#exp(double)} operation to each entry.
* The instance is changed in-place.
*
* @return the mapped vector.
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapExpToSelf();
/**
* Map the {@link Math#expm1(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapExpm1();
/**
* Map the {@link Math#expm1(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapExpm1ToSelf();
/**
* Map the {@link Math#log(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLog();
/**
* Map the {@link Math#log(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLogToSelf();
/**
* Map the {@link Math#log10(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLog10();
/**
* Map the {@link Math#log10(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLog10ToSelf();
/**
* Map the {@link Math#log1p(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLog1p();
/**
* Map the {@link Math#log1p(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapLog1pToSelf();
/**
* Map the {@link Math#cosh(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCosh();
/**
* Map the {@link Math#cosh(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCoshToSelf();
/**
* Map the {@link Math#sinh(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSinh();
/**
* Map the {@link Math#sinh(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSinhToSelf();
/**
* Map the {@link Math#tanh(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapTanh();
/**
* Map the {@link Math#tanh(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapTanhToSelf();
/**
* Map the {@link Math#cos(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCos();
/**
* Map the {@link Math#cos(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCosToSelf();
/**
* Map the {@link Math#sin(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSin();
/**
* Map the {@link Math#sin(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSinToSelf();
/**
* Map the {@link Math#tan(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapTan();
/**
* Map the {@link Math#tan(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapTanToSelf();
/**
* Map the {@link Math#acos(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAcos();
/**
* Map the {@link Math#acos(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAcosToSelf();
/**
* Map the {@link Math#asin(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAsin();
/**
* Map the {@link Math#asin(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAsinToSelf();
/**
* Map the {@link Math#atan(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAtan();
/**
* Map the {@link Math#atan(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAtanToSelf();
/**
* Map the 1/x function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapInv();
/**
* Map the 1/x function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapInvToSelf();
/**
* Map the {@link Math#abs(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAbs();
/**
* Map the {@link Math#abs(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapAbsToSelf();
/**
* Map the {@link Math#sqrt(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSqrt();
/**
* Map the {@link Math#sqrt(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSqrtToSelf();
/**
* Map the {@link Math#cbrt(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCbrt();
/**
* Map the {@link Math#cbrt(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCbrtToSelf();
/**
* Map the {@link Math#ceil(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCeil();
/**
* Map the {@link Math#ceil(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapCeilToSelf();
/**
* Map the {@link Math#floor(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapFloor();
/**
* Map the {@link Math#floor(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapFloorToSelf();
/**
* Map the {@link Math#rint(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapRint();
/**
* Map the {@link Math#rint(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapRintToSelf();
/**
* Map the {@link Math#signum(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSignum();
/**
* Map the {@link Math#signum(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapSignumToSelf();
/**
* Map the {@link Math#ulp(double)} function to each entry.
* @return a vector containing the result of applying the function to each entry
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapUlp();
/**
* Map the {@link Math#ulp(double)} function to each entry.
* <p>The instance <strong>is</strong> changed by this method.</p>
* @return for convenience, return this
* @deprecated in 2.2 (to be removed in 3.0).
*/
@Deprecated
RealVector mapUlpToSelf();
/**
* Element-by-element multiplication.
* @param v vector by which instance elements must be multiplied
* @return a vector containing this[i] * v[i] for all i
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector ebeMultiply(RealVector v);
/**
* Element-by-element multiplication.
* @param v vector by which instance elements must be multiplied
* @return a vector containing this[i] * v[i] for all i
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector ebeMultiply(double[] v);
/**
* Element-by-element division.
* @param v vector by which instance elements must be divided
* @return a vector containing this[i] / v[i] for all i
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector ebeDivide(RealVector v);
/**
* Element-by-element division.
* @param v vector by which instance elements must be divided
* @return a vector containing this[i] / v[i] for all i
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector ebeDivide(double[] v);
/**
* Returns vector entries as a double array.
* @return double array of entries
*/
double[] getData();
/**
* Compute the dot product.
* @param v vector with which dot product should be computed
* @return the scalar dot product between instance and v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
double dotProduct(RealVector v);
/**
* Compute the dot product.
* @param v vector with which dot product should be computed
* @return the scalar dot product between instance and v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
double dotProduct(double[] v);
/**
* Returns the L<sub>2</sub> norm of the vector.
* <p>The L<sub>2</sub> norm is the root of the sum of
* the squared elements.</p>
* @return norm
* @see #getL1Norm()
* @see #getLInfNorm()
* @see #getDistance(RealVector)
*/
double getNorm();
/**
* Returns the L<sub>1</sub> norm of the vector.
* <p>The L<sub>1</sub> norm is the sum of the absolute
* values of elements.</p>
* @return norm
* @see #getNorm()
* @see #getLInfNorm()
* @see #getL1Distance(RealVector)
*/
double getL1Norm();
/**
* Returns the L<sub>∞</sub> norm of the vector.
* <p>The L<sub>∞</sub> norm is the max of the absolute
* values of elements.</p>
* @return norm
* @see #getNorm()
* @see #getL1Norm()
* @see #getLInfDistance(RealVector)
*/
double getLInfNorm();
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with the
* L<sub>2</sub> norm, i.e. the square root of the sum of
* elements differences, or euclidian distance.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getL1Distance(RealVector)
* @see #getLInfDistance(RealVector)
* @see #getNorm()
*/
double getDistance(RealVector v);
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with the
* L<sub>2</sub> norm, i.e. the square root of the sum of
* elements differences, or euclidian distance.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getL1Distance(double[])
* @see #getLInfDistance(double[])
* @see #getNorm()
*/
double getDistance(double[] v);
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with
* L<sub>1</sub> norm, i.e. the sum of the absolute values of
* elements differences.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getDistance(RealVector)
* @see #getLInfDistance(RealVector)
* @see #getL1Norm()
*/
double getL1Distance(RealVector v);
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with
* L<sub>1</sub> norm, i.e. the sum of the absolute values of
* elements differences.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getDistance(double[])
* @see #getLInfDistance(double[])
* @see #getL1Norm()
*/
double getL1Distance(double[] v);
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with
* L<sub>∞</sub> norm, i.e. the max of the absolute values of
* elements differences.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getDistance(RealVector)
* @see #getL1Distance(RealVector)
* @see #getLInfNorm()
*/
double getLInfDistance(RealVector v);
/**
* Distance between two vectors.
* <p>This method computes the distance consistent with
* L<sub>∞</sub> norm, i.e. the max of the absolute values of
* elements differences.</p>
* @param v vector to which distance is requested
* @return distance between two vectors.
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
* @see #getDistance(double[])
* @see #getL1Distance(double[])
* @see #getLInfNorm()
*/
double getLInfDistance(double[] v);
/** Creates a unit vector pointing in the direction of this vector.
* <p>The instance is not changed by this method.</p>
* @return a unit vector pointing in direction of this vector
* @exception ArithmeticException if the norm is null
*/
RealVector unitVector();
/** Converts this vector into a unit vector.
* <p>The instance itself is changed by this method.</p>
* @throws ArithmeticException
* if the norm is zero.
*/
void unitize();
/** Find the orthogonal projection of this vector onto another vector.
* @param v vector onto which instance must be projected
* @return projection of the instance onto v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector projection(RealVector v);
/** Find the orthogonal projection of this vector onto another vector.
* @param v vector onto which instance must be projected
* @return projection of the instance onto v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealVector projection(double[] v);
/**
* Compute the outer product.
* @param v vector with which outer product should be computed
* @return the square matrix outer product between instance and v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealMatrix outerProduct(RealVector v);
/**
* Compute the outer product.
* @param v vector with which outer product should be computed
* @return the square matrix outer product between instance and v
* @throws org.apache.commons.math.exception.DimensionMismatchException
* if {@code v} is not the same size as this vector.
*/
RealMatrix outerProduct(double[] v);
/**
* Returns the entry in the specified index.
*
* @param index Index location of entry to be fetched.
* @return the vector entry at {@code index}.
* @throws org.apache.commons.math.exception.OutOfRangeException
* if the index is not valid.
* @see #setEntry(int, double)
*/
double getEntry(int index);
/**
* Set a single element.
* @param index element index.
* @param value new value for the element.
* @throws org.apache.commons.math.exception.OutOfRangeException
* if the index is not valid.
* @see #getEntry(int)
*/
void setEntry(int index, double value);
/**
* Returns the size of the vector.
* @return size
*/
int getDimension();
/**
* Construct a vector by appending a vector to this vector.
* @param v vector to append to this one.
* @return a new vector
*/
RealVector append(RealVector v);
/**
* Construct a vector by appending a double to this vector.
* @param d double to append.
* @return a new vector
*/
RealVector append(double d);
/**
* Construct a vector by appending a double array to this vector.
* @param a double array to append.
* @return a new vector
*/
RealVector append(double[] a);
/**
* Get a subvector from consecutive elements.
* @param index index of first element.
* @param n number of elements to be retrieved.
* @return a vector containing n elements.
* @throws org.apache.commons.math.exception.OutOfRangeException
* if the index is not valid.
*/
RealVector getSubVector(int index, int n);
/**
* Set a set of consecutive elements.
* @param index index of first element to be set.
* @param v vector containing the values to set.
* @throws org.apache.commons.math.exception.OutOfRangeException
* if the index is not valid.
* @see #setSubVector(int, double[])
*/
void setSubVector(int index, RealVector v);
/**
* Set a set of consecutive elements.
* @param index index of first element to be set.
* @param v vector containing the values to set.
* @throws org.apache.commons.math.exception.OutOfRangeException
* if the index is not valid.
* @see #setSubVector(int, RealVector)
*/
void setSubVector(int index, double[] v);
/**
* Set all elements to a single value.
* @param value single value to set for all elements
*/
void set(double value);
/**
* Convert the vector to a double array.
* <p>The array is independent from vector data, it's elements
* are copied.</p>
* @return array containing a copy of vector elements
*/
double[] toArray();
/**
* Check whether any coordinate of this vector is {@code NaN}.
* @return {@code true} if any coordinate of this vector is {@code NaN},
* {@code false} otherwise.
*/
boolean isNaN();
/**
* Check whether any coordinate of this vector is infinite and none are {@code NaN}.
*
* @return {@code true} if any coordinate of this vector is infinite and
* none are {@code NaN}, {@code false} otherwise.
*/
boolean isInfinite();
}