/*
* 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 static com.google.common.graph.ElementOrder.insertion;
import static com.google.common.graph.ElementOrder.unordered;
import static com.google.common.truth.Truth.assertThat;
import com.google.common.collect.Ordering;
import java.util.Comparator;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;
/** Tests for ordering the elements of graphs. */
@RunWith(JUnit4.class)
public final class ElementOrderTest {
// Node order tests
@Test
public void nodeOrder_none() {
MutableGraph<Integer> graph = GraphBuilder.directed().nodeOrder(unordered()).build();
assertThat(graph.nodeOrder()).isEqualTo(unordered());
}
@Test
public void nodeOrder_insertion() {
MutableGraph<Integer> graph = GraphBuilder.directed().nodeOrder(insertion()).build();
addNodes(graph);
assertThat(graph.nodeOrder()).isEqualTo(insertion());
assertThat(graph.nodes()).containsExactly(3, 1, 4).inOrder();
}
// The default ordering is INSERTION unless otherwise specified.
@Test
public void nodeOrder_default() {
MutableGraph<Integer> graph = GraphBuilder.directed().build();
addNodes(graph);
assertThat(graph.nodeOrder()).isEqualTo(insertion());
assertThat(graph.nodes()).containsExactly(3, 1, 4).inOrder();
}
@Test
public void nodeOrder_natural() {
MutableGraph<Integer> graph =
GraphBuilder.directed().nodeOrder(ElementOrder.<Integer>natural()).build();
addNodes(graph);
assertThat(graph.nodeOrder()).isEqualTo(ElementOrder.sorted(Ordering.<Integer>natural()));
assertThat(graph.nodes()).containsExactly(1, 3, 4).inOrder();
}
@Test
public void nodeOrder_sorted() {
MutableGraph<Integer> graph =
GraphBuilder.directed()
.nodeOrder(ElementOrder.sorted(Ordering.<Integer>natural().reverse()))
.build();
addNodes(graph);
assertThat(graph.nodeOrder())
.isEqualTo(ElementOrder.sorted(Ordering.<Integer>natural().reverse()));
assertThat(graph.nodes()).containsExactly(4, 3, 1).inOrder();
}
// Edge order tests
@Test
public void edgeOrder_none() {
MutableNetwork<Integer, String> network =
NetworkBuilder.directed().edgeOrder(unordered()).build();
assertThat(network.edgeOrder()).isEqualTo(unordered());
assertThat(network.nodeOrder()).isEqualTo(insertion()); // default
}
@Test
public void edgeOrder_insertion() {
MutableNetwork<Integer, String> network =
NetworkBuilder.directed().edgeOrder(insertion()).build();
addEdges(network);
assertThat(network.edgeOrder()).isEqualTo(ElementOrder.insertion());
assertThat(network.edges()).containsExactly("i", "e", "p").inOrder();
assertThat(network.nodeOrder()).isEqualTo(ElementOrder.insertion()); // default
}
// The default ordering is INSERTION unless otherwise specified.
@Test
public void edgeOrder_default() {
MutableNetwork<Integer, String> network = NetworkBuilder.directed().build();
addEdges(network);
assertThat(network.edgeOrder()).isEqualTo(ElementOrder.insertion());
assertThat(network.edges()).containsExactly("i", "e", "p").inOrder();
assertThat(network.nodeOrder()).isEqualTo(ElementOrder.insertion()); // default
}
@Test
public void edgeOrder_natural() {
MutableNetwork<Integer, String> network =
NetworkBuilder.directed().edgeOrder(ElementOrder.<String>natural()).build();
addEdges(network);
assertThat(network.edgeOrder()).isEqualTo(ElementOrder.sorted(Ordering.<String>natural()));
assertThat(network.edges()).containsExactly("e", "i", "p").inOrder();
assertThat(network.nodeOrder()).isEqualTo(insertion()); // default
}
@Test
public void edgeOrder_sorted() {
MutableNetwork<Integer, String> network =
NetworkBuilder.directed()
.edgeOrder(ElementOrder.sorted(Ordering.<String>natural().reverse()))
.build();
addEdges(network);
assertThat(network.edgeOrder())
.isEqualTo(ElementOrder.sorted(Ordering.<String>natural().reverse()));
assertThat(network.edges()).containsExactly("p", "i", "e").inOrder();
assertThat(network.nodeOrder()).isEqualTo(ElementOrder.insertion()); // default
}
// Combined node and edge order tests
@Test
public void nodeOrderUnorderedandEdgesSorted() {
MutableNetwork<Integer, String> network =
NetworkBuilder.directed()
.nodeOrder(unordered())
.edgeOrder(ElementOrder.sorted(Ordering.<String>natural().reverse()))
.build();
addEdges(network);
assertThat(network.edgeOrder())
.isEqualTo(ElementOrder.sorted(Ordering.<String>natural().reverse()));
assertThat(network.edges()).containsExactly("p", "i", "e").inOrder();
assertThat(network.nodeOrder()).isEqualTo(unordered());
assertThat(network.nodes()).containsExactly(4, 1, 3);
}
// Sorting of user-defined classes
@Test
public void customComparator() {
Comparator<NonComparableSuperClass> comparator =
new Comparator<NonComparableSuperClass>() {
@Override
public int compare(NonComparableSuperClass left, NonComparableSuperClass right) {
return left.value.compareTo(right.value);
}
};
MutableGraph<NonComparableSuperClass> graph =
GraphBuilder.undirected().nodeOrder(ElementOrder.sorted(comparator)).build();
NonComparableSuperClass node1 = new NonComparableSuperClass(1);
NonComparableSuperClass node3 = new NonComparableSuperClass(3);
NonComparableSuperClass node5 = new NonComparableSuperClass(5);
NonComparableSuperClass node7 = new NonComparableSuperClass(7);
graph.addNode(node1);
graph.addNode(node7);
graph.addNode(node5);
graph.addNode(node3);
assertThat(graph.nodeOrder().comparator()).isEqualTo(comparator);
assertThat(graph.nodes()).containsExactly(node1, node3, node5, node7).inOrder();
}
@Test
public void customComparable() {
MutableGraph<ComparableSubClass> graph =
GraphBuilder.undirected().nodeOrder(ElementOrder.<ComparableSubClass>natural()).build();
ComparableSubClass node2 = new ComparableSubClass(2);
ComparableSubClass node4 = new ComparableSubClass(4);
ComparableSubClass node6 = new ComparableSubClass(6);
ComparableSubClass node8 = new ComparableSubClass(8);
graph.addNode(node4);
graph.addNode(node2);
graph.addNode(node6);
graph.addNode(node8);
assertThat(graph.nodeOrder().comparator()).isEqualTo(Ordering.natural());
assertThat(graph.nodes()).containsExactly(node2, node4, node6, node8).inOrder();
}
private static void addNodes(MutableGraph<Integer> graph) {
graph.addNode(3);
graph.addNode(1);
graph.addNode(4);
}
private static void addEdges(MutableNetwork<Integer, String> network) {
network.addEdge(3, 1, "i");
network.addEdge(1, 4, "e");
network.addEdge(4, 3, "p");
}
private static class NonComparableSuperClass {
final Integer value;
NonComparableSuperClass(Integer value) {
this.value = checkNotNull(value);
}
@Override
public String toString() {
return "value=" + value;
}
}
private static class ComparableSubClass extends NonComparableSuperClass
implements Comparable<NonComparableSuperClass> {
ComparableSubClass(Integer value) {
super(value);
}
@Override
public int compareTo(NonComparableSuperClass other) {
return value.compareTo(other.value);
}
}
}