/*
 * Copyright (C) 2016 The Guava Authors
 *
 * 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.
 */

package com.google.common.graph;

import static com.google.common.base.Preconditions.checkNotNull;

import com.google.common.annotations.Beta;
import com.google.common.base.Function;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.Maps;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import com.google.errorprone.annotations.Immutable;

A ValueGraph whose elements and structural relationships will never change. Instances of this class may be obtained with copyOf(ValueGraph<Object,Object>).

See the Guava User's Guide's discussion of the Immutable* types for more information on the properties and guarantees provided by this class.

Author:James Sexton, Jens Nyman
Type parameters:
  • <N> – Node parameter type
  • <V> – Value parameter type
Since:20.0
/** * A {@link ValueGraph} whose elements and structural relationships will never change. Instances of * this class may be obtained with {@link #copyOf(ValueGraph)}. * * <p>See the Guava User's Guide's <a * href="https://github.com/google/guava/wiki/GraphsExplained#immutable-implementations">discussion * of the {@code Immutable*} types</a> for more information on the properties and guarantees * provided by this class. * * @author James Sexton * @author Jens Nyman * @param <N> Node parameter type * @param <V> Value parameter type * @since 20.0 */
@Beta @Immutable(containerOf = {"N", "V"}) @SuppressWarnings("Immutable") // Extends StandardValueGraph but uses ImmutableMaps. public final class ImmutableValueGraph<N, V> extends StandardValueGraph<N, V> { private ImmutableValueGraph(ValueGraph<N, V> graph) { super(ValueGraphBuilder.from(graph), getNodeConnections(graph), graph.edges().size()); }
Returns an immutable copy of graph.
/** Returns an immutable copy of {@code graph}. */
public static <N, V> ImmutableValueGraph<N, V> copyOf(ValueGraph<N, V> graph) { return (graph instanceof ImmutableValueGraph) ? (ImmutableValueGraph<N, V>) graph : new ImmutableValueGraph<N, V>(graph); }
Simply returns its argument.
Deprecated:no need to use this
/** * Simply returns its argument. * * @deprecated no need to use this */
@Deprecated public static <N, V> ImmutableValueGraph<N, V> copyOf(ImmutableValueGraph<N, V> graph) { return checkNotNull(graph); } @Override public ElementOrder<N> incidentEdgeOrder() { return ElementOrder.stable(); } @Override public ImmutableGraph<N> asGraph() { return new ImmutableGraph<N>(this); // safe because the view is effectively immutable } private static <N, V> ImmutableMap<N, GraphConnections<N, V>> getNodeConnections( ValueGraph<N, V> graph) { // ImmutableMap.Builder maintains the order of the elements as inserted, so the map will have // whatever ordering the graph's nodes do, so ImmutableSortedMap is unnecessary even if the // input nodes are sorted. ImmutableMap.Builder<N, GraphConnections<N, V>> nodeConnections = ImmutableMap.builder(); for (N node : graph.nodes()) { nodeConnections.put(node, connectionsOf(graph, node)); } return nodeConnections.build(); } private static <N, V> GraphConnections<N, V> connectionsOf( final ValueGraph<N, V> graph, final N node) { Function<N, V> successorNodeToValueFn = new Function<N, V>() { @Override public V apply(N successorNode) { return graph.edgeValueOrDefault(node, successorNode, null); } }; return graph.isDirected() ? DirectedGraphConnections.ofImmutable( node, graph.incidentEdges(node), successorNodeToValueFn) : UndirectedGraphConnections.ofImmutable( Maps.asMap(graph.adjacentNodes(node), successorNodeToValueFn)); }
A builder for creating ImmutableValueGraph instances, especially static final graphs. Example:

static final ImmutableValueGraph<City, Distance> CITY_ROAD_DISTANCE_GRAPH =
    ValueGraphBuilder.undirected()
        .<City, Distance>immutable()
        .putEdgeValue(PARIS, BERLIN, kilometers(1060))
        .putEdgeValue(PARIS, BRUSSELS, kilometers(317))
        .putEdgeValue(BERLIN, BRUSSELS, kilometers(764))
        .addNode(REYKJAVIK)
        .build();

Builder instances can be reused; it is safe to call build multiple times to build multiple graphs in series. Each new graph contains all the elements of the ones created before it.

Since:28.0
/** * A builder for creating {@link ImmutableValueGraph} instances, especially {@code static final} * graphs. Example: * * <pre>{@code * static final ImmutableValueGraph<City, Distance> CITY_ROAD_DISTANCE_GRAPH = * ValueGraphBuilder.undirected() * .<City, Distance>immutable() * .putEdgeValue(PARIS, BERLIN, kilometers(1060)) * .putEdgeValue(PARIS, BRUSSELS, kilometers(317)) * .putEdgeValue(BERLIN, BRUSSELS, kilometers(764)) * .addNode(REYKJAVIK) * .build(); * }</pre> * * <p>Builder instances can be reused; it is safe to call {@link #build} multiple times to build * multiple graphs in series. Each new graph contains all the elements of the ones created before * it. * * @since 28.0 */
public static class Builder<N, V> { private final MutableValueGraph<N, V> mutableValueGraph; Builder(ValueGraphBuilder<N, V> graphBuilder) { // The incidentEdgeOrder for immutable graphs is always stable. However, we don't want to // modify this builder, so we make a copy instead. this.mutableValueGraph = graphBuilder.copy().incidentEdgeOrder(ElementOrder.<N>stable()).build(); }
Adds node if it is not already present.

Nodes must be unique, just as Map keys must be. They must also be non-null.

Returns:this Builder object
/** * Adds {@code node} if it is not already present. * * <p><b>Nodes must be unique</b>, just as {@code Map} keys must be. They must also be non-null. * * @return this {@code Builder} object */
@CanIgnoreReturnValue public ImmutableValueGraph.Builder<N, V> addNode(N node) { mutableValueGraph.addNode(node); return this; }
Adds an edge connecting nodeU to nodeV if one is not already present, and sets a value for that edge to value (overwriting the existing value, if any).

If the graph is directed, the resultant edge will be directed; otherwise, it will be undirected.

Values do not have to be unique. However, values must be non-null.

If nodeU and nodeV are not already present in this graph, this method will silently add nodeU and nodeV to the graph.

Throws:
Returns:this Builder object
/** * Adds an edge connecting {@code nodeU} to {@code nodeV} if one is not already present, and * sets a value for that edge to {@code value} (overwriting the existing value, if any). * * <p>If the graph is directed, the resultant edge will be directed; otherwise, it will be * undirected. * * <p>Values do not have to be unique. However, values must be non-null. * * <p>If {@code nodeU} and {@code nodeV} are not already present in this graph, this method will * silently {@link #addNode(Object) add} {@code nodeU} and {@code nodeV} to the graph. * * @return this {@code Builder} object * @throws IllegalArgumentException if the introduction of the edge would violate {@link * #allowsSelfLoops()} */
@CanIgnoreReturnValue public ImmutableValueGraph.Builder<N, V> putEdgeValue(N nodeU, N nodeV, V value) { mutableValueGraph.putEdgeValue(nodeU, nodeV, value); return this; }
Adds an edge connecting endpoints if one is not already present, and sets a value for that edge to value (overwriting the existing value, if any).

If the graph is directed, the resultant edge will be directed; otherwise, it will be undirected.

If this graph is directed, endpoints must be ordered.

Values do not have to be unique. However, values must be non-null.

If either or both endpoints are not already present in this graph, this method will silently add each missing endpoint to the graph.

Throws:
Returns:this Builder object
/** * Adds an edge connecting {@code endpoints} if one is not already present, and sets a value for * that edge to {@code value} (overwriting the existing value, if any). * * <p>If the graph is directed, the resultant edge will be directed; otherwise, it will be * undirected. * * <p>If this graph is directed, {@code endpoints} must be ordered. * * <p>Values do not have to be unique. However, values must be non-null. * * <p>If either or both endpoints are not already present in this graph, this method will * silently {@link #addNode(Object) add} each missing endpoint to the graph. * * @return this {@code Builder} object * @throws IllegalArgumentException if the introduction of the edge would violate {@link * #allowsSelfLoops()} * @throws IllegalArgumentException if the endpoints are unordered and the graph is directed */
@CanIgnoreReturnValue public ImmutableValueGraph.Builder<N, V> putEdgeValue(EndpointPair<N> endpoints, V value) { mutableValueGraph.putEdgeValue(endpoints, value); return this; }
Returns a newly-created ImmutableValueGraph based on the contents of this Builder.
/** * Returns a newly-created {@code ImmutableValueGraph} based on the contents of this {@code * Builder}. */
public ImmutableValueGraph<N, V> build() { return ImmutableValueGraph.copyOf(mutableValueGraph); } } }