001 /*
002 * Java Genetic Algorithm Library (jenetics-6.2.0).
003 * Copyright (c) 2007-2021 Franz Wilhelmstötter
004 *
005 * Licensed under the Apache License, Version 2.0 (the "License");
006 * you may not use this file except in compliance with the License.
007 * You may obtain a copy of the License at
008 *
009 * http://www.apache.org/licenses/LICENSE-2.0
010 *
011 * Unless required by applicable law or agreed to in writing, software
012 * distributed under the License is distributed on an "AS IS" BASIS,
013 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
014 * See the License for the specific language governing permissions and
015 * limitations under the License.
016 *
017 * Author:
018 * Franz Wilhelmstötter (franz.wilhelmstoetter@gmail.com)
019 */
020 package io.jenetics;
021
022 import io.jenetics.util.BaseSeq;
023 import io.jenetics.util.Factory;
024 import io.jenetics.util.ISeq;
025 import io.jenetics.util.Verifiable;
026
027 /**
028 * A chromosome consists of one or more genes. It also provides a factory
029 * method for creating new, random chromosome instances of the same type and the
030 * same constraint.
031 *
032 * @implSpec
033 * Implementations of the {@code Chromosome} interface must be <em>immutable</em>
034 * and guarantee an efficient random access ({@code O(1)}) to the genes. A
035 * {@code Chromosome} must contains at least one {@code Gene}.
036 *
037 * @see <a href="http://en.wikipedia.org/wiki/Chromosome">Wikipedia: Chromosome</a>
038 * @see Genotype
039 * @see Gene
040 *
041 * @author <a href="mailto:franz.wilhelmstoetter@gmail.com">Franz Wilhelmstötter</a>
042 * @since 1.0
043 * @version 6.0
044 */
045 public interface Chromosome<G extends Gene<?, G>>
046 extends
047 BaseSeq<G>,
048 Factory<Chromosome<G>>,
049 Verifiable
050 {
051
052 /**
053 * Return the first gene of this chromosome. Each chromosome must contain
054 * at least one gene.
055 *
056 * @since 5.2
057 *
058 * @return the first gene of this chromosome.
059 */
060 default G gene() {
061 return get(0);
062 }
063
064 @Override
065 default boolean isValid() {
066 return stream().allMatch(Gene::isValid);
067 }
068
069 /**
070 * A factory method which creates a new {@link Chromosome} of specific type
071 * and the given {@code genes}.
072 *
073 * @param genes the genes of the new chromosome. The given genes array is
074 * not copied.
075 * @return A new {@link Chromosome} of the same type with the given genes.
076 * @throws NullPointerException if the given {@code gene}s are {@code null}.
077 * @throws IllegalArgumentException if the length of the given gene sequence
078 * is smaller than one.
079 */
080 Chromosome<G> newInstance(final ISeq<G> genes);
081
082 /**
083 * Casts this {@code Chromosome} to an instance of type {@code C}.
084 * This is a convenient method for an ordinary cast and allows seamless
085 * method-chaining. Instead of
086 * <pre>{@code
087 * final Genotype<BitGene> gt = ...
088 * final int count = ((BitChromosome)gt.chromosome()).bitCount()
089 * }</pre>
090 * you can write
091 * <pre>{@code
092 * final Genotype<BitGene> gt = ...
093 * final int count = gt.chromosome()
094 * .as(BitChromosome.class)
095 * .bitCount()
096 * }</pre>
097 * This may lead to a more elegant programming style in some cases.
098 *
099 * @since 3.7
100 *
101 * @param type the target type class
102 * @param <C> the target chromosome type
103 * @return this chromosome casted as {@code C}
104 * @throws NullPointerException if the target type class is {@code null}
105 * @throws ClassCastException if this chromosome can't be casted to a
106 * chromosome of type {@code C}
107 */
108 default <C extends Chromosome<G>> C as(final Class<C> type) {
109 return type.cast(this);
110 }
111
112 }
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