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/*
 * Copyright (C) 2017 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.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import static com.google.common.graph.GraphConstants.ENDPOINTS_MISMATCH;

import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterators;
import com.google.common.collect.Sets;
import com.google.common.collect.UnmodifiableIterator;
import com.google.common.math.IntMath;
import com.google.common.primitives.Ints;
import java.util.AbstractSet;
import java.util.Set;
import javax.annotation.CheckForNull;

/**
 * This class provides a skeletal implementation of {@link BaseGraph}.
 *
 * 

The methods implemented in this class should not be overridden unless the subclass admits a * more efficient implementation. * * @author James Sexton * @param Node parameter type */ @ElementTypesAreNonnullByDefault abstract class AbstractBaseGraph implements BaseGraph { /** * Returns the number of edges in this graph; used to calculate the size of {@link Graph#edges()}. * This implementation requires O(|N|) time. Classes extending this one may manually keep track of * the number of edges as the graph is updated, and override this method for better performance. */ protected long edgeCount() { long degreeSum = 0L; for (N node : nodes()) { degreeSum += degree(node); } // According to the degree sum formula, this is equal to twice the number of edges. checkState((degreeSum & 1) == 0); return degreeSum >>> 1; } /** * An implementation of {@link BaseGraph#edges()} defined in terms of {@link Graph#nodes()} and * {@link #successors(Object)}. */ @Override public Set> edges() { return new AbstractSet>() { @Override public UnmodifiableIterator> iterator() { return EndpointPairIterator.of(AbstractBaseGraph.this); } @Override public int size() { return Ints.saturatedCast(edgeCount()); } @Override public boolean remove(@CheckForNull Object o) { throw new UnsupportedOperationException(); } // Mostly safe: We check contains(u) before calling successors(u), so we perform unsafe // operations only in weird cases like checking for an EndpointPair in a // Graph. @SuppressWarnings("unchecked") @Override public boolean contains(@CheckForNull Object obj) { if (!(obj instanceof EndpointPair)) { return false; } EndpointPair endpointPair = (EndpointPair) obj; return isOrderingCompatible(endpointPair) && nodes().contains(endpointPair.nodeU()) && successors((N) endpointPair.nodeU()).contains(endpointPair.nodeV()); } }; } @Override public ElementOrder incidentEdgeOrder() { return ElementOrder.unordered(); } @Override public Set> incidentEdges(N node) { checkNotNull(node); checkArgument(nodes().contains(node), "Node %s is not an element of this graph.", node); return new IncidentEdgeSet(this, node) { @Override public UnmodifiableIterator> iterator() { if (graph.isDirected()) { return Iterators.unmodifiableIterator( Iterators.concat( Iterators.transform( graph.predecessors(node).iterator(), (N predecessor) -> EndpointPair.ordered(predecessor, node)), Iterators.transform( // filter out 'node' from successors (already covered by predecessors, above) Sets.difference(graph.successors(node), ImmutableSet.of(node)).iterator(), (N successor) -> EndpointPair.ordered(node, successor)))); } else { return Iterators.unmodifiableIterator( Iterators.transform( graph.adjacentNodes(node).iterator(), (N adjacentNode) -> EndpointPair.unordered(node, adjacentNode))); } } }; } @Override public int degree(N node) { if (isDirected()) { return IntMath.saturatedAdd(predecessors(node).size(), successors(node).size()); } else { Set neighbors = adjacentNodes(node); int selfLoopCount = (allowsSelfLoops() && neighbors.contains(node)) ? 1 : 0; return IntMath.saturatedAdd(neighbors.size(), selfLoopCount); } } @Override public int inDegree(N node) { return isDirected() ? predecessors(node).size() : degree(node); } @Override public int outDegree(N node) { return isDirected() ? successors(node).size() : degree(node); } @Override public boolean hasEdgeConnecting(N nodeU, N nodeV) { checkNotNull(nodeU); checkNotNull(nodeV); return nodes().contains(nodeU) && successors(nodeU).contains(nodeV); } @Override public boolean hasEdgeConnecting(EndpointPair endpoints) { checkNotNull(endpoints); if (!isOrderingCompatible(endpoints)) { return false; } N nodeU = endpoints.nodeU(); N nodeV = endpoints.nodeV(); return nodes().contains(nodeU) && successors(nodeU).contains(nodeV); } /** * Throws {@code IllegalArgumentException} if the ordering of {@code endpoints} is not compatible * with the directionality of this graph. */ protected final void validateEndpoints(EndpointPair endpoints) { checkNotNull(endpoints); checkArgument(isOrderingCompatible(endpoints), ENDPOINTS_MISMATCH); } /** * Returns {@code true} iff {@code endpoints}' ordering is compatible with the directionality of * this graph. */ protected final boolean isOrderingCompatible(EndpointPair endpoints) { return endpoints.isOrdered() == this.isDirected(); } }





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