/*
* Copyright (C) 2014 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.truth.Truth.assertThat;
import static org.junit.Assert.fail;
import com.google.common.collect.ImmutableSet;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;
/** Tests for a directed {@link ConfigurableMutableNetwork} allowing self-loops. */
@RunWith(JUnit4.class)
public class ConfigurableDirectedNetworkTest extends ConfigurableSimpleDirectedNetworkTest {
@Override
public MutableNetwork<Integer, String> createGraph() {
return NetworkBuilder.directed().allowsSelfLoops(true).build();
}
@Test
public void edges_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.edges()).containsExactly(E11);
}
@Test
public void incidentEdges_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.incidentEdges(N1)).containsExactly(E11);
}
@Test
public void incidentNodes_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.incidentNodes(E11).source()).isEqualTo(N1);
assertThat(network.incidentNodes(E11).target()).isEqualTo(N1);
}
@Test
public void adjacentNodes_selfLoop() {
addEdge(N1, N1, E11);
addEdge(N1, N2, E12);
assertThat(network.adjacentNodes(N1)).containsExactly(N1, N2);
}
@Test
public void adjacentEdges_selfLoop() {
addEdge(N1, N1, E11);
addEdge(N1, N2, E12);
assertThat(network.adjacentEdges(E11)).containsExactly(E12);
}
@Test
public void edgesConnecting_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.edgesConnecting(N1, N1)).containsExactly(E11);
addEdge(N1, N2, E12);
assertThat(network.edgesConnecting(N1, N2)).containsExactly(E12);
assertThat(network.edgesConnecting(N1, N1)).containsExactly(E11);
}
@Test
public void inEdges_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.inEdges(N1)).containsExactly(E11);
addEdge(N4, N1, E41);
assertThat(network.inEdges(N1)).containsExactly(E11, E41);
}
@Test
public void outEdges_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.outEdges(N1)).containsExactly(E11);
addEdge(N1, N2, E12);
assertThat(network.outEdges(N1)).containsExactly(E11, E12);
}
@Test
public void predecessors_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.predecessors(N1)).containsExactly(N1);
addEdge(N4, N1, E41);
assertThat(network.predecessors(N1)).containsExactly(N1, N4);
}
@Test
public void successors_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.successors(N1)).containsExactly(N1);
addEdge(N1, N2, E12);
assertThat(network.successors(N1)).containsExactly(N1, N2);
}
@Test
public void source_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.incidentNodes(E11).source()).isEqualTo(N1);
}
@Test
public void target_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.incidentNodes(E11).target()).isEqualTo(N1);
}
@Test
public void degree_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.degree(N1)).isEqualTo(2);
addEdge(N1, N2, E12);
assertThat(network.degree(N1)).isEqualTo(3);
}
@Test
public void inDegree_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.inDegree(N1)).isEqualTo(1);
addEdge(N4, N1, E41);
assertThat(network.inDegree(N1)).isEqualTo(2);
}
@Test
public void outDegree_selfLoop() {
addEdge(N1, N1, E11);
assertThat(network.outDegree(N1)).isEqualTo(1);
addEdge(N1, N2, E12);
assertThat(network.outDegree(N1)).isEqualTo(2);
}
@Override
@Test
public void addEdge_selfLoop() {
assertThat(addEdge(N1, N1, E11)).isTrue();
assertThat(network.edges()).contains(E11);
assertThat(network.edgesConnecting(N1, N1)).containsExactly(E11);
}
@Test
public void addEdge_existingSelfLoopEdgeBetweenSameNodes() {
addEdge(N1, N1, E11);
ImmutableSet<String> edges = ImmutableSet.copyOf(network.edges());
assertThat(addEdge(N1, N1, E11)).isFalse();
assertThat(network.edges()).containsExactlyElementsIn(edges);
}
@Test
public void addEdge_existingEdgeBetweenDifferentNodes_selfLoops() {
addEdge(N1, N1, E11);
try {
addEdge(N1, N2, E11);
fail("Reusing an existing self-loop edge to connect different nodes succeeded");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage()).contains(ERROR_REUSE_EDGE);
}
try {
addEdge(N2, N2, E11);
fail("Reusing an existing self-loop edge to make a different self-loop edge succeeded");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage()).contains(ERROR_REUSE_EDGE);
}
addEdge(N1, N2, E12);
try {
addEdge(N1, N1, E12);
fail("Reusing an existing edge to add a self-loop edge between different nodes succeeded");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage()).contains(ERROR_REUSE_EDGE);
}
}
@Test
public void addEdge_parallelSelfLoopEdge() {
addEdge(N1, N1, E11);
try {
addEdge(N1, N1, EDGE_NOT_IN_GRAPH);
fail("Adding a parallel self-loop edge succeeded");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage()).contains(ERROR_PARALLEL_EDGE);
}
}
@Test
public void removeNode_existingNodeWithSelfLoopEdge() {
addNode(N1);
addEdge(N1, N1, E11);
assertThat(network.removeNode(N1)).isTrue();
assertThat(network.nodes()).isEmpty();
assertThat(network.edges()).doesNotContain(E11);
}
@Test
public void removeEdge_existingSelfLoopEdge() {
addEdge(N1, N1, E11);
assertThat(network.removeEdge(E11)).isTrue();
assertThat(network.edges()).doesNotContain(E11);
assertThat(network.edgesConnecting(N1, N1)).isEmpty();
}
}