/*
 * Java Genetic Algorithm Library (jenetics-7.2.0).
 * Copyright (c) 2007-2023 Franz Wilhelmstötter
 *
 * Licensed 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.
 *
 * Author:
 *    Franz Wilhelmstötter (franz.wilhelmstoetter@gmail.com)
 */
package io.jenetics.ext.moea;

import static io.jenetics.internal.math.Basics.clamp;

import java.util.Comparator;

/**
 * The {@code Vec} interface represents the fitness result of a multi-objective
 * fitness function. It also defines a set of static factory methods which
 * allows you to create {@code Vec} instance from a given {@code int[]},
 * {@code long[]} or {@code double[]} array.
 *
 * <pre>{@code
 * final Vec<double[]> point2D = Vec.of(0.1, 5.4);
 * final Vec<int[]> point3D = Vec.of(1, 2, 3);
 * }</pre>
 *
 * The underlying array is <em>just</em> wrapped and <em>not</em> copied. This
 * means you can change the values of the {@code Vec} once it is created,
 * <em>Not copying the underlying array is done for performance reason. Changing
 * the {@code Vec} data is, of course, never a good idea.</em>
 *
 * @implNote
 * Although the {@code Vec} interface extends the {@link Comparable} interface,
 * it violates its <em>general</em> contract. It <em>only</em>
 * implements the pareto <em>dominance</em> relation, which defines a partial
 * order. So, trying to sort a list of {@code Vec} objects, might lead
 * to an exception (thrown by the sorting method) at runtime.
 *
 * @param <T> the underlying array type, like {@code int[]} or {@code double[]}
 *
 * @see VecFactory
 * @see <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
 *     Pareto efficiency</a>
 *
 * @author <a href="mailto:franz.wilhelmstoetter@gmail.com">Franz Wilhelmstötter</a>
 * @version 4.1
 * @since 4.1
 */
public interface Vec<T> extends Comparable<Vec<T>> {

        /**
         * Return the underlying data structure.
         *
         * @return the underlying data structure
         */
        T data();

        /**
         * Return the number of vector elements.
         *
         * @return the number of vector elements
         */
        int length();

        /**
         * Return the comparator for comparing the elements of this MO vector.
         *
         * @return the comparator for comparing the elements of this MO vector
         */
        ElementComparator<T> comparator();

        /**
         * Return a function which calculates the element distance of a vector at a
         * given element index.
         *
         * @return a function which calculates the element distance of a vector at a
         *         given element index
         */
        ElementDistance<T> distance();

        /**
         * Return the comparator which defines the (Pareto) dominance measure.
         *
         * @return the comparator which defines the (Pareto) dominance measure
         */
        Comparator<T> dominance();


        /* *************************************************************************
         * Default methods derived from the methods above.
         * ************************************************************************/

        /**
         * Compares the {@code this} vector with the {@code other} at the given
         * component {@code index}.
         *
         * @param other the other vector
         * @param index the component index
         * @return a negative integer, zero, or a positive integer as
         *        {@code this[index]} is less than, equal to, or greater than
         *        {@code other[index]}
         * @throws NullPointerException if the {@code other} object is {@code null}
         * @throws IllegalArgumentException if the {@code index} is out of the valid
         *         range {@code [0, length())}
         */
        default int compare(final Vec<T> other, final int index) {
                return comparator().compare(data(), other.data(), index);
        }

        /**
         * Calculates the distance between two vector elements at the given
         * {@code index}.
         *
         * @param other the second vector
         * @param index the vector element index
         * @return the distance between two vector elements
         * @throws NullPointerException if the {@code other} vector is {@code null}
         * @throws IllegalArgumentException if the {@code index} is out of the valid
         *         range {@code [0, length())}
         */
        default double distance(final Vec<T> other, final int index) {
                return distance().distance(data(), other.data(), index);
        }

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         * <b>Pareto Dominance</b></a> of vector {@code value()} and {@code other}.
         *
         * @param other the other vector
         * @return {@code 1} if <b>value()</b> ≻ <b>other</b>, {@code -1} if
         *         <b>other</b> ≻ <b>value()</b> and {@code 0} otherwise
         * @throws NullPointerException if the {@code other} vector is {@code null}
         */
        default int dominance(final Vec<T> other) {
                return dominance().compare(data(), other.data());
        }

        /**
         * The default implementation uses the {@link #dominance(Vec)} function
         * for defining a <b>partial</b> order of two vectors.
         *
         * @param other the other vector
         * @return {@code 1} if <b>value()</b> ≻ <b>other</b>, {@code -1} if
         *         <b>other</b> ≻ <b>value()</b> and {@code 0} otherwise
         * @throws NullPointerException if the {@code other} vector is {@code null}
         */
        @Override
        default int compareTo(final Vec<T> other) {
                return dominance(other);
        }


        /* *************************************************************************
         * Common 'dominance' methods.
         * ************************************************************************/

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         *     <b>Pareto Dominance</b></a> of the two vectors <b>u</b> and <b>v</b>.
         *
         * @see Pareto#dominance(Comparable[], Comparable[])
         *
         * @param u the first vector
         * @param v the second vector
         * @param <C> the element type of vector <b>u</b> and <b>v</b>
         * @return {@code 1} if <b>u</b> ≻ <b>v</b>, {@code -1} if <b>v</b> ≻
         *         <b>u</b> and {@code 0} otherwise
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if {@code u.length != v.length}
         */
        static <C extends Comparable<? super C>> int
        dominance(final C[] u, final C[] v) {
                return dominance(u, v, Comparator.naturalOrder());
        }

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         *     <b>Pareto Dominance</b></a> of the two vectors <b>u</b> and <b>v</b>.
         *
         * @see Pareto#dominance(Object[], Object[], Comparator)
         *
         * @param u the first vector
         * @param v the second vector
         * @param comparator the element comparator which is used for calculating
         *        the dominance
         * @param <T> the element type of vector <b>u</b> and <b>v</b>
         * @return {@code 1} if <b>u</b> ≻ <b>v</b>, {@code -1} if <b>v</b> ≻
         *         <b>u</b> and {@code 0} otherwise
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if {@code u.length != v.length}
         */
        static <T> int
        dominance(final T[] u, final T[] v, final Comparator<? super T> comparator) {
                return Pareto.dominance(u, v, comparator);
        }

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         *     <b>Pareto Dominance</b></a> of the two vectors <b>u</b> and <b>v</b>.
         *
         * @see Pareto#dominance(int[], int[])
         *
         * @param u the first vector
         * @param v the second vector
         * @return {@code 1} if <b>u</b> ≻ <b>v</b>, {@code -1} if <b>v</b> ≻
         *         <b>u</b> and {@code 0} otherwise
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if {@code u.length != v.length}
         */
        static int dominance(final int[] u, final int[] v) {
                return Pareto.dominance(u, v);
        }

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         *     <b>Pareto Dominance</b></a> of the two vectors <b>u</b> and <b>v</b>.
         *
         * @see Pareto#dominance(long[], long[])
         *
         * @param u the first vector
         * @param v the second vector
         * @return {@code 1} if <b>u</b> ≻ <b>v</b>, {@code -1} if <b>v</b> ≻
         *         <b>u</b> and {@code 0} otherwise
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if {@code u.length != v.length}
         */
        static int dominance(final long[] u, final long[] v) {
                return Pareto.dominance(u, v);
        }

        /**
         * Calculates the <a href="https://en.wikipedia.org/wiki/Pareto_efficiency">
         *     <b>Pareto Dominance</b></a> of the two vectors <b>u</b> and <b>v</b>.
         *
         * @see Pareto#dominance(double[], double[])
         *
         * @param u the first vector
         * @param v the second vector
         * @return {@code 1} if <b>u</b> ≻ <b>v</b>, {@code -1} if <b>v</b> ≻
         *         <b>u</b> and {@code 0} otherwise
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if {@code u.length != v.length}
         */
        static int dominance(final double[] u, final double[] v) {
                return Pareto.dominance(u, v);
        }

        /* *************************************************************************
         * Static factory functions for wrapping ordinary arrays.
         * ************************************************************************/

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @param <C> the array element type
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static <C extends Comparable<? super C>>
        Vec<C[]> of(final C[] array) {
                return of(
                        array,
                        (u, v, i) -> clamp(u[i].compareTo(v[i]), -1, 1)
                );
        }

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @param distance the array element distance measure
         * @param <C> the array element type
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static <C extends Comparable<? super C>> Vec<C[]> of(
                final C[] array,
                final ElementDistance<C[]> distance
        ) {
                return of(array, Comparator.naturalOrder(), distance);
        }

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @param comparator the (natural order) comparator of the array elements
         * @param distance the distance function between two vector elements
         * @param <T> the array element type
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if one of the arguments is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static <T> Vec<T[]> of(
                final T[] array,
                final Comparator<? super T> comparator,
                final ElementDistance<T[]> distance
        ) {
                return new SimpleObjectVec<>(array, comparator, distance);
        }

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if the given {@code array} is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static Vec<int[]> of(final int... array) {
                return new SimpleIntVec(array);
        }

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if the given {@code array} is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static Vec<long[]> of(final long... array) {
                return new SimpleLongVec(array);
        }

        /**
         * Wraps the given array into a {@code Vec} object.
         *
         * @param array the wrapped array
         * @return the given array wrapped into a {@code Vec} object.
         * @throws NullPointerException if the given {@code array} is {@code null}
         * @throws IllegalArgumentException if the {@code array} length is zero
         */
        static Vec<double[]> of(final double... array) {
                return new SimpleDoubleVec(array);
        }

}