/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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 org.apache.tinkerpop.gremlin.process.traversal.step.branch;
import org.apache.tinkerpop.gremlin.FeatureRequirement;
import org.apache.tinkerpop.gremlin.LoadGraphWith;
import org.apache.tinkerpop.gremlin.process.AbstractGremlinProcessTest;
import org.apache.tinkerpop.gremlin.process.GremlinProcessRunner;
import org.apache.tinkerpop.gremlin.process.traversal.Path;
import org.apache.tinkerpop.gremlin.process.traversal.Traversal;
import org.apache.tinkerpop.gremlin.structure.Graph;
import org.apache.tinkerpop.gremlin.structure.Vertex;
import org.junit.Test;
import org.junit.runner.RunWith;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.Optional;
import java.util.function.Predicate;
import static org.apache.tinkerpop.gremlin.LoadGraphWith.GraphData.MODERN;
import static org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.__.addV;
import static org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.__.in;
import static org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.__.out;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
/**
* @author Pieter Martin
*/
@RunWith(GremlinProcessRunner.class)
public abstract class OptionalTest extends AbstractGremlinProcessTest {
public abstract Traversal<Vertex, Vertex> get_g_VX2X_optionalXoutXknowsXX(Object v2Id);
public abstract Traversal<Vertex, Vertex> get_g_VX2X_optionalXinXknowsXX(Object v2Id);
public abstract Traversal<Vertex, Path> get_g_V_hasLabelXpersonX_optionalXoutXknowsX_optionalXoutXcreatedXXX_path();
public abstract Traversal<Vertex, Path> get_g_V_optionalXout_optionalXoutXX_path();
public abstract Traversal<Vertex, String> get_g_VX1X_optionalXaddVXdogXX_label(Object v1Id);
@Test
@LoadGraphWith(MODERN)
public void g_VX2X_optionalXoutXknowsXX() {
final Traversal<Vertex, Vertex> traversal = get_g_VX2X_optionalXoutXknowsXX(convertToVertexId(this.graph, "vadas"));
printTraversalForm(traversal);
assertTrue(traversal.hasNext());
assertEquals(convertToVertex(this.graph, "vadas"), traversal.next());
}
@Test
@LoadGraphWith(MODERN)
public void g_VX2X_optionalXinXknowsXX() {
final Traversal<Vertex, Vertex> traversal = get_g_VX2X_optionalXinXknowsXX(convertToVertexId(this.graph, "vadas"));
printTraversalForm(traversal);
assertTrue(traversal.hasNext());
assertEquals(convertToVertex(this.graph, "marko"), traversal.next());
}
@Test
@LoadGraphWith(MODERN)
public void g_V_hasLabelXpersonX_optionalXoutXknowsX_optionalXoutXcreatedXXX_path() {
final Traversal<Vertex, Path> traversal = get_g_V_hasLabelXpersonX_optionalXoutXknowsX_optionalXoutXcreatedXXX_path();
printTraversalForm(traversal);
List<Path> paths = traversal.toList();
assertEquals(6, paths.size());
List<Predicate<Path>> pathsToAssert = Arrays.asList(
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "vadas")),
p -> p.size() == 3 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "josh")) && p.get(2).equals(convertToVertex(this.graph, "ripple")),
p -> p.size() == 3 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "josh")) && p.get(2).equals(convertToVertex(this.graph, "lop")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "vadas")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "josh")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "peter"))
);
for (Predicate<Path> pathPredicate : pathsToAssert) {
Optional<Path> path = paths.stream().filter(pathPredicate).findAny();
assertTrue(path.isPresent());
assertTrue(paths.remove(path.get()));
}
assertTrue(paths.isEmpty());
}
@Test
@LoadGraphWith(MODERN)
public void g_V_optionalXout_optionalXoutXX_path() {
final Traversal<Vertex, Path> traversal = get_g_V_optionalXout_optionalXoutXX_path();
printTraversalForm(traversal);
List<Path> paths = traversal.toList();
assertEquals(10, paths.size());
List<Predicate<Path>> pathsToAssert = Arrays.asList(
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "lop")),
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "vadas")),
p -> p.size() == 3 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "josh")) && p.get(2).equals(convertToVertex(this.graph, "lop")),
p -> p.size() == 3 && p.get(0).equals(convertToVertex(this.graph, "marko")) && p.get(1).equals(convertToVertex(this.graph, "josh")) && p.get(2).equals(convertToVertex(this.graph, "ripple")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "vadas")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "lop")),
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "josh")) && p.get(1).equals(convertToVertex(this.graph, "lop")),
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "josh")) && p.get(1).equals(convertToVertex(this.graph, "ripple")),
p -> p.size() == 1 && p.get(0).equals(convertToVertex(this.graph, "ripple")),
p -> p.size() == 2 && p.get(0).equals(convertToVertex(this.graph, "peter")) && p.get(1).equals(convertToVertex(this.graph, "lop"))
);
for (Predicate<Path> pathPredicate : pathsToAssert) {
Optional<Path> path = paths.stream().filter(pathPredicate).findAny();
assertTrue(path.isPresent());
assertTrue(paths.remove(path.get()));
}
assertTrue(paths.isEmpty());
}
@Test
@LoadGraphWith(MODERN)
@FeatureRequirement(featureClass = Graph.Features.VertexFeatures.class, feature = Graph.Features.VertexFeatures.FEATURE_ADD_VERTICES)
public void g_VX1X_optionalXaddVXdogXX_label() {
final Traversal<Vertex, String> traversal = get_g_VX1X_optionalXaddVXdogXX_label(convertToVertexId(this.graph, "marko"));
printTraversalForm(traversal);
checkResults(Collections.singletonList("dog"), traversal);
assertEquals(7L, g.V().count().next().longValue());
}
public static class Traversals extends OptionalTest {
@Override
public Traversal<Vertex, Vertex> get_g_VX2X_optionalXoutXknowsXX(Object v2Id) {
return g.V(v2Id).optional(out("knows"));
}
@Override
public Traversal<Vertex, Vertex> get_g_VX2X_optionalXinXknowsXX(Object v2Id) {
return g.V(v2Id).optional(in("knows"));
}
@Override
public Traversal<Vertex, Path> get_g_V_hasLabelXpersonX_optionalXoutXknowsX_optionalXoutXcreatedXXX_path() {
return g.V().hasLabel("person").optional(out("knows").optional(out("created"))).path();
}
@Override
public Traversal<Vertex, Path> get_g_V_optionalXout_optionalXoutXX_path() {
return g.V().optional(out().optional(out())).path();
}
@Override
public Traversal<Vertex, String> get_g_VX1X_optionalXaddVXdogXX_label(Object v1Id) {
return g.V(v1Id).optional(addV("dog")).label();
}
}
}