path: root/aai-core/src/test/java/org/onap/aai/query/builder/QueryBuilderTestAbstraction.java

/**
 * ============LICENSE_START=======================================================
 * org.onap.aai
 * ================================================================================
 * Copyright © 2017-2018 AT&T Intellectual Property. All rights reserved.
 * ================================================================================
 * 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.
 * ============LICENSE_END=========================================================
 */

package org.onap.aai.query.builder;

import org.apache.tinkerpop.gremlin.process.traversal.Path;
import org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.GraphTraversal;
import org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.GraphTraversalSource;
import org.apache.tinkerpop.gremlin.process.traversal.step.util.BulkSet;
import org.apache.tinkerpop.gremlin.process.traversal.step.util.Tree;
import org.apache.tinkerpop.gremlin.structure.Edge;
import org.apache.tinkerpop.gremlin.structure.Graph;
import org.apache.tinkerpop.gremlin.structure.Vertex;
import org.janusgraph.core.JanusGraphFactory;
import org.junit.*;
import org.junit.runner.RunWith;
import org.onap.aai.config.ConfigConfiguration;
import org.onap.aai.config.IntrospectionConfig;
import org.onap.aai.config.SpringContextAware;
import org.onap.aai.config.XmlFormatTransformerConfiguration;
import org.onap.aai.db.props.AAIProperties;
import org.onap.aai.edges.EdgeIngestor;
import org.onap.aai.edges.enums.EdgeType;
import org.onap.aai.exceptions.AAIException;
import org.onap.aai.introspection.Loader;
import org.onap.aai.introspection.LoaderFactory;
import org.onap.aai.introspection.ModelType;
import org.onap.aai.nodes.NodeIngestor;
import org.onap.aai.serialization.db.EdgeSerializer;
import org.onap.aai.serialization.db.exceptions.NoEdgeRuleFoundException;
import org.onap.aai.serialization.queryformats.QueryFormatTestHelper;
import org.onap.aai.setup.SchemaVersions;
import org.onap.aai.util.AAIConstants;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.test.annotation.DirtiesContext;
import org.springframework.test.context.ContextConfiguration;
import org.springframework.test.context.TestPropertySource;
import org.springframework.test.context.junit4.SpringJUnit4ClassRunner;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;

import static org.hamcrest.CoreMatchers.is;
import static org.hamcrest.collection.IsIterableContainingInOrder.contains;
import static org.junit.Assert.*;

@RunWith(SpringJUnit4ClassRunner.class)
@ContextConfiguration(
        classes = {ConfigConfiguration.class, QueryTestsConfigTranslator.class, NodeIngestor.class, EdgeIngestor.class,
                EdgeSerializer.class, SpringContextAware.class, IntrospectionConfig.class, XmlFormatTransformerConfiguration.class})
@DirtiesContext(classMode = DirtiesContext.ClassMode.AFTER_CLASS)
@TestPropertySource(
        properties = {"schema.translator.list = config", "schema.nodes.location=src/test/resources/onap/oxm",
                "schema.edges.location=src/test/resources/onap/dbedgerules"})
public abstract class QueryBuilderTestAbstraction {

    protected Loader loader;
    protected static Graph graph;
    protected GraphTraversalSource g;

    @Autowired
    protected EdgeSerializer testEdgeSer;

    @Autowired
    protected SchemaVersions schemaVersions;

    @Autowired
    protected LoaderFactory loaderFactory;

    @BeforeClass
    public static void setup() throws Exception {
        System.setProperty("AJSC_HOME", ".");
        System.setProperty("BUNDLECONFIG_DIR", "src/test/resources/bundleconfig-local");
        QueryFormatTestHelper.setFinalStatic(AAIConstants.class.getField("AAI_HOME_ETC_OXM"),
                "src/test/resources/bundleconfig-local/etc/oxm/");
        graph = JanusGraphFactory.build().set("storage.backend", "inmemory").open();
    }

    @Before
    public void configure() {
        loader = loaderFactory.createLoaderForVersion(ModelType.MOXY, schemaVersions.getDefaultVersion());

        g = graph.traversal();
    }

    @After
    public void deConfigure() {
        g.tx().rollback();
    }

    @AfterClass
    public static void teardown() throws Exception {
        graph.close();
    }

    /*
     * This helper method was designed to minimize the changes needed due to the eventual
     * removal of the addV(String...) method.
     * Correct vertex creation addV(label).property(k,v).property(k,v)...
     */
    @Deprecated
    protected GraphTraversal<Vertex, Vertex> addVHelper(GraphTraversalSource gts, String label, Object... props) {
        for (int i = 0; i < props.length; i++) {
            if (props[i].equals(AAIProperties.NODE_TYPE)) {
                label = props[i+1].toString();
            }
        }
        GraphTraversal<Vertex, Vertex> v = gts.addV(label);
        for (int i = 0; i < props.length; i+=2) {
            v.property(props[i], props[i+1]);
        }
        return v;
    }

    @Test
    public void createEdgeGVnfToVnfcTraversal() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "myvnf").next();
        Vertex vnfc = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        testEdgeSer.addEdge(g, gvnf, vnfc, "uses");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "vnfc");

        assertEquals(vnfc, tQ.next());

    }

    @Test
    public void createEdgeLinterfaceToLogicalLinkTraversal() throws AAIException {

        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();
        Vertex logicalLink = this.addVHelper(g, "vertex", "aai-node-type", "logical-link", "link-name", "logical-link-a").next();
        testEdgeSer.addEdge(g, lInterface, logicalLink, "sourceLInterface");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(lInterface);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "l-interface", "logical-link");

        Vertex next = tQ.next();

        assertEquals(logicalLink, next);

    }

    @SuppressWarnings("rawtypes")
    @Test
    public void createEdgeLinterfaceToLogicalLinkTraversal_tree() throws AAIException {
        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();
        Vertex logicalLink = this.addVHelper(g, "vertex", "aai-node-type", "logical-link", "link-name", "logical-link-a").next();
        testEdgeSer.addEdge(g, lInterface, logicalLink, "sourceLInterface");

        QueryBuilder<Tree> tQ = getNewTreeTraversalWithTestEdgeRules(lInterface).createEdgeTraversal(EdgeType.COUSIN,
                loader.introspectorFromName("l-interface"), loader.introspectorFromName("logical-link")).tree();

        Vertex lInterfaceExpected =
                graph.traversal().V().has("aai-node-type", "l-interface").has("interface-name", "l-interface-a").next();
        Vertex logicalLinkExpected =
                graph.traversal().V().has("aai-node-type", "logical-link").has("link-name", "logical-link-a").next();
        Tree tree = tQ.next();
        assertTrue(tree.containsKey(lInterfaceExpected));
        assertTrue(((Tree) tree.get(lInterfaceExpected)).containsKey(logicalLinkExpected));
    }

    @SuppressWarnings("rawtypes")
    @Test
    public void createEdgeLinterfaceToLogicalLinkTraversal_Path() throws AAIException {
        Vertex pInterface = this.addVHelper(g, "vertex", "aai-node-type", "p-interface", "interface-name", "p-interface-a").next();
        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();
        Vertex logicalLink = this.addVHelper(g, "vertex", "aai-node-type", "logical-link", "link-name", "logical-link-a").next();
        testEdgeSer.addEdge(g, lInterface, logicalLink);
        testEdgeSer.addTreeEdge(g, pInterface, lInterface);

        QueryBuilder<Path> tQ = getNewPathTraversalWithTestEdgeRules(pInterface)
                .createEdgeTraversal(EdgeType.TREE, loader.introspectorFromName("p-interface"),
                        loader.introspectorFromName("l-interface"))
                .createEdgeTraversal(EdgeType.COUSIN, loader.introspectorFromName("l-interface"),
                        loader.introspectorFromName("logical-link"))
                .path();

        Path path = tQ.next();
        assertThat(path.objects(), contains(pInterface, lInterface, logicalLink));
    }

    @SuppressWarnings("rawtypes")
    @Test
    public void parentVertexTest() throws AAIException {
        Vertex pInterface = this.addVHelper(g, "vertex", "aai-node-type", "p-interface", "interface-name", "p-interface-a").next();
        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();

        testEdgeSer.addTreeEdge(g, pInterface, lInterface);

        QueryBuilder<Vertex> tQ = getNewEdgeTraversalWithTestEdgeRules(lInterface).getParentVertex();

        Vertex parent = tQ.next();
        assertThat(parent, is(pInterface));
    }

    @Test
    public void createEdgeLinterfaceToLogicalLinkIntrospectorTraversal() throws AAIException {

        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();
        Vertex logicalLink = this.addVHelper(g, "vertex", "aai-node-type", "logical-link", "link-name", "logical-link-a").next();
        testEdgeSer.addEdge(g, lInterface, logicalLink, "sourceLInterface");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(lInterface);
        tQ.createEdgeTraversal(EdgeType.COUSIN, loader.introspectorFromName("l-interface"),
                loader.introspectorFromName("logical-link"));

        Vertex next = tQ.next();

        assertEquals(logicalLink, next);

    }

    @Test
    public void createEdgeLinterfaceToLogicalLinkVertexToIntrospectorTraversal() throws AAIException {

        Vertex lInterface = this.addVHelper(g, "vertex", "aai-node-type", "l-interface", "interface-name", "l-interface-a").next();
        Vertex logicalLink = this.addVHelper(g, "vertex", "aai-node-type", "logical-link", "link-name", "logical-link-a").next();
        testEdgeSer.addEdge(g, lInterface, logicalLink, "sourceLInterface");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(lInterface);
        tQ.createEdgeTraversal(EdgeType.COUSIN, lInterface, loader.introspectorFromName("logical-link"));

        Vertex next = tQ.next();

        assertEquals(logicalLink, next);

    }

    @Test
    public void edgeToVertexTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, vnfc1);

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "vnfc");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 1 vertexes ", 1, list.size());
        assertTrue("Has vertex on the default edge ", list.contains(vnfc1));

    }

    @Test
    public void edgeToVertexTraversalSingleOutRuleTest() throws AAIException {

        Vertex vce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "vce").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();

        testEdgeSer.addEdge(g, vce, vnfc1);

        QueryBuilder<Vertex> tQ1 = getNewVertexTraversalWithTestEdgeRules(vce);
        tQ1.createEdgeTraversal(EdgeType.COUSIN, "vce", "vnfc");

        QueryBuilder<Vertex> tQ2 = getNewVertexTraversalWithTestEdgeRules(vnfc1);
        tQ2.createEdgeTraversal(EdgeType.COUSIN, "vnfc", "vce");

        List<Vertex> list1 = tQ1.toList();
        List<Vertex> list2 = tQ2.toList();

        assertEquals("1 - Has 1 vertexes ", 1, list1.size());
        assertTrue("1 - traversal results in vnfc ", list1.contains(vnfc1));
        assertEquals("2 - Has 1 vertexes ", 1, list2.size());
        assertTrue("2 - traversal results in vce ", list2.contains(vce));

    }

    @Test
    public void edgeToVertexTraversalSingleInRuleTest() throws AAIException {

        Vertex vce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "vce").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, vce, pserver);

        QueryBuilder<Vertex> tQ1 = getNewVertexTraversalWithTestEdgeRules(vce);
        tQ1.createEdgeTraversal(EdgeType.COUSIN, "vce", "pserver");

        List<Vertex> list = tQ1.toList();

        assertEquals("1 - Has 1 vertexes ", 1, list.size());
        assertTrue("1 - traversal results in vnfc ", list.contains(pserver));

    }

    @Test
    public void edgeToVertexMultiRuleTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        Vertex vnfc2 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        testEdgeSer.addEdge(g, gvnf, vnfc1);
        testEdgeSer.addEdge(g, gvnf, vnfc2, "re-uses");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "vnfc");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
        assertTrue("Has vertex on the default edge ", list.contains(vnfc1));
        assertTrue("Has vertex on the re-uses edge ", list.contains(vnfc2));

    }

    @Test
    public void edgeToVertexMultiLabelTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, vnfc1);
        testEdgeSer.addEdge(g, pserver, vnfc1);

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(vnfc1);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "vnfc", "generic-vnf");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 1 vertexes ", 1, list.size());
        assertTrue("Only returns the generic vnf vertex", list.contains(gvnf));

    }

    @Test
    public void limitTraversalTest() {

        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        QueryBuilder<Vertex> tQ = new GremlinTraversal<>(loader, g);
        tQ.getVerticesByProperty("aai-node-type", "vnfc").limit(1);

        List<Vertex> list = tQ.toList();

        assertEquals("Has 1 vertexes ", 1, list.size());

    }

    @Test
    public void getVertexesByPropertiesTraversalTest() {

        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        QueryBuilder<Vertex> tQ = new GremlinTraversal<>(loader, g);
        tQ.getVerticesByProperty("vnfc-name", Arrays.asList("a-name", "b-name"));

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());

    }

    @Test
    public void getVerticesByCommaSeperatedValueTraversalTest() {

        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        QueryBuilder<Vertex> tQ = new GremlinTraversal<>(loader, g);
        tQ.getVerticesByCommaSeperatedValue("vnfc-name","a-name, b-name");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
    }

    @Test
    public void getVertexesByIndexedPropertyTraversalTest() {

        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        QueryBuilder<Vertex> tQ = new GremlinTraversal<>(loader, g);
        tQ.getVerticesByIndexedProperty("aai-node-type", "vnfc");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
    }

    @Test
    public void dedupTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver").dedup();

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 1, list.size());
        assertTrue("result has pserver ", list.contains(pserver));

    }

    @Test
    public void storeCapTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        GremlinTraversal<BulkSet<Vertex>> tQ = new GremlinTraversal<>(loader, g, gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver").store("x").cap("x");

        List<BulkSet<Vertex>> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 1, list.size());
        assertEquals("result has pserver ", pserver, list.get(0).iterator().next());

    }

    @Test
    public void storeCapUnfoldTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver").store("x").cap("x").unfold();

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
        assertTrue("result has pserver ", list.contains(pserver));

    }

    @Test
    public void nextAndHasNextTraversalTest() {

        Vertex v1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        Vertex v2 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        QueryBuilder<Vertex> tQ = new GremlinTraversal<>(loader, g);
        tQ.getVerticesByProperty("aai-node-type", "vnfc");

        List<Vertex> list = new ArrayList<>();

        assertTrue("Has next 1 ", tQ.hasNext());
        list.add(tQ.next());
        assertTrue("Has next 2 ", tQ.hasNext());
        list.add(tQ.next());
        assertFalse("Has next 3 ", tQ.hasNext());
        assertTrue("Has all the vertexes", list.contains(v1) && list.remove(v2));

    }

    @Test
    public void edgeToVertexMultiRuleOutTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
        assertTrue("result has pserver ", list.contains(pserver));

    }

    @Test
    public void edgeToVertexMultiRuleInTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex complex = this.addVHelper(g, "vertex", "aai-node-type", "complex", "physical-location-id", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, complex);
        testEdgeSer.addEdge(g, gvnf, complex, "complex-generic-vnf-B");

        QueryBuilder<Vertex> tQ = getNewVertexTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "complex");

        List<Vertex> list = tQ.toList();

        assertEquals("Has 2 vertexes ", 2, list.size());
        assertTrue("result has pserver ", list.contains(complex));

    }

    @Test
    public void edgeTraversalSingleInRuleTest() throws AAIException {

        Vertex vce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "vce").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e = testEdgeSer.addEdge(g, vce, pserver);

        QueryBuilder<Edge> tQ1 = getNewEdgeTraversalWithTestEdgeRules(vce);
        tQ1.getEdgesBetween(EdgeType.COUSIN, "vce", "pserver");

        List<Edge> list = tQ1.toList();

        assertEquals("1 - Has 1 edge ", 1, list.size());
        assertTrue("1 - traversal results in edge ", list.contains(e));

    }

    @Test
    public void edgeTraversalSingleOutRuleTest() throws AAIException {

        Vertex vce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "vce").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();

        Edge e = testEdgeSer.addEdge(g, vce, vnfc1);

        QueryBuilder<Edge> tQ1 = getNewEdgeTraversalWithTestEdgeRules(vce);
        tQ1.getEdgesBetween(EdgeType.COUSIN, "vce", "vnfc");

        List<Edge> list1 = tQ1.toList();

        assertEquals("1 - Has 1 edge ", 1, list1.size());
        assertTrue("1 - traversal results in edge ", list1.contains(e));

    }

    @Test
    public void edgeTraversalMultiRuleOutTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, pserver);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetween(EdgeType.COUSIN, "generic-vnf", "pserver");

        List<Edge> list = tQ.toList();

        assertEquals("Has 2 edges ", 2, list.size());
        assertTrue("result has default edge ", list.contains(e1));
        assertTrue("result has other edge ", list.contains(e2));

    }

    @Test
    public void edgeTraversalMultiRuleInTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex complex = this.addVHelper(g, "vertex", "aai-node-type", "complex", "physical-location-id", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, complex);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, complex, "complex-generic-vnf-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetween(EdgeType.COUSIN, "generic-vnf", "complex");

        List<Edge> list = tQ.toList();

        assertEquals("Has 2 edges ", 2, list.size());
        assertTrue("result has default edge ", list.contains(e1));
        assertTrue("result has other edge ", list.contains(e2));

    }

    @Test
    public void edgeTraversalMultiRuleTraversalTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex vnfc1 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "a-name").next();
        Vertex vnfc2 = this.addVHelper(g, "vertex", "aai-node-type", "vnfc", "vnfc-name", "b-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, vnfc1);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, vnfc2, "re-uses");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetween(EdgeType.COUSIN, "generic-vnf", "vnfc");

        List<Edge> list = tQ.toList();

        assertEquals("Has 2 edges ", 2, list.size());
        assertTrue("result has default edge ", list.contains(e1));
        assertTrue("result has other edge ", list.contains(e2));

    }

    @Ignore("This test is failing for TraversalQueryTest and Optimized but it passes for GremlinQueryTest")
    @Test(expected = NoEdgeRuleFoundException.class)
    public void getEdgesBetweenWithLabelsEmptyListTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver", Collections.emptyList());

    }

    @Test
    public void getEdgesBetweenWithLabelsSingleItemTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, pserver);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver",
                Collections.singletonList("generic-vnf-pserver-B"));

        List<Edge> list = tQ.toList();

        assertEquals("Has 1 edges ", 1, list.size());
        assertFalse("result does not have default edge ", list.contains(e1));
        assertTrue("result has other edge ", list.contains(e2));

    }

    @Test
    public void getEdgesBetweenWithLabelsMultipleItemTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, pserver);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver",
                Arrays.asList("generic-vnf-pserver-B", "generic-vnf-pserver-A"));

        List<Edge> list = tQ.toList();

        assertEquals("Has 2 edges ", 2, list.size());
        assertTrue("result has generic-vnf-pserver-A edge ", list.contains(e1));
        assertTrue("result has generic-vnf-pserver-B edge ", list.contains(e2));

    }

    @Ignore("This test is failing for TraversalQueryTest and Optimized but it passes for GremlinQueryTest")
    @Test(expected = NoEdgeRuleFoundException.class)
    public void createEdgeTraversalWithLabelsEmptyListTest() throws AAIException {

        Vertex gvnf = getVertex();

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver", Collections.emptyList());

        tQ.toList();

    }

    private Vertex getVertex() throws AAIException {
        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        testEdgeSer.addEdge(g, gvnf, pserver);
        testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");
        return gvnf;
    }

    @Test
    public void createEdgeTraversalWithLabelsSingleItemTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, pserver);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver",
                Collections.singletonList("generic-vnf-pserver-B"));

        List<Edge> list = tQ.toList();

        assertEquals("Has 1 edges ", 1, list.size());
        assertFalse("result does not have default edge ", list.contains(e1));
        assertTrue("result has other edge ", list.contains(e2));

    }

    @Test
    public void createEdgeTraversalWithLabelsMultipleItemTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();

        Edge e1 = testEdgeSer.addEdge(g, gvnf, pserver);
        Edge e2 = testEdgeSer.addEdge(g, gvnf, pserver, "generic-vnf-pserver-B");

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.getEdgesBetweenWithLabels(EdgeType.COUSIN, "generic-vnf", "pserver",
                Arrays.asList("generic-vnf-pserver-B", "generic-vnf-pserver-A"));

        List<Edge> list = tQ.toList();

        assertEquals("Has 2 edges ", 2, list.size());
        assertTrue("result has generic-vnf-pserver-A edge ", list.contains(e1));
        assertTrue("result has generic-vnf-pserver-B edge ", list.contains(e2));

    }

    @Test
    public void createEdgeTraversalIfParameterIsPresentParameterExistsTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver1 = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();
        Vertex pserver2 = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "b-name").next();
        Vertex optionalVce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "optional").next();

        testEdgeSer.addEdge(g, gvnf, pserver1);
        testEdgeSer.addEdge(g, gvnf, pserver2);
        testEdgeSer.addEdge(g, optionalVce, pserver1);

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver");

        List<Vertex> list = tQ.createEdgeTraversalIfParameterIsPresent(EdgeType.COUSIN, "pserver", "vce", "optional").toList();
        assertEquals("Has 1 vertex ", 1, list.size());
        assertTrue("result has optional-vce vertex ", list.contains(optionalVce));
    }

    @Test
    public void createEdgeTraversalIfParameterIsPresentParameterDoesNotExistTest() throws AAIException {

        Vertex gvnf = this.addVHelper(g, "vertex", "aai-node-type", "generic-vnf", "vnf-id", "gvnf").next();
        Vertex pserver1 = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "a-name").next();
        Vertex pserver2 = this.addVHelper(g, "vertex", "aai-node-type", "pserver", "hostname", "b-name").next();
        Vertex optionalVce = this.addVHelper(g, "vertex", "aai-node-type", "vce", "vnf-id", "optional").next();

        testEdgeSer.addEdge(g, gvnf, pserver1);
        testEdgeSer.addEdge(g, gvnf, pserver2);
        testEdgeSer.addEdge(g, optionalVce, pserver1);

        QueryBuilder<Edge> tQ = getNewEdgeTraversalWithTestEdgeRules(gvnf);
        tQ.createEdgeTraversal(EdgeType.COUSIN, "generic-vnf", "pserver");
        MissingOptionalParameter missingParameter = MissingOptionalParameter.getInstance();

        List<Vertex> list = tQ.createEdgeTraversalIfParameterIsPresent(EdgeType.COUSIN, "pserver", "vce", missingParameter).toList();
        assertEquals("Has 2 vertices ", 2, list.size());
        assertTrue("result has pserver-1 vertex ", list.contains(pserver1));
        assertTrue("result has pserver-2 vertex ", list.contains(pserver2));
        assertTrue("result does not have optional-vce vertex ", !list.contains(optionalVce));
    }


    protected abstract QueryBuilder<Edge> getNewEdgeTraversalWithTestEdgeRules(Vertex v);

    protected abstract QueryBuilder<Edge> getNewEdgeTraversalWithTestEdgeRules();

    protected abstract QueryBuilder<Vertex> getNewVertexTraversalWithTestEdgeRules(Vertex v);

    protected abstract QueryBuilder<Vertex> getNewVertexTraversalWithTestEdgeRules();

    protected abstract QueryBuilder<Tree> getNewTreeTraversalWithTestEdgeRules(Vertex v);

    protected abstract QueryBuilder<Tree> getNewTreeTraversalWithTestEdgeRules();

    protected abstract QueryBuilder<Path> getNewPathTraversalWithTestEdgeRules(Vertex v);

    protected abstract QueryBuilder<Path> getNewPathTraversalWithTestEdgeRules();

}