* limitations under the License.
* ============LICENSE_END=========================================================
*/
+
package org.onap.aai.serialization.tinkerpop;
+import static org.junit.Assert.assertEquals;
+
import org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.GraphTraversalSource;
import org.apache.tinkerpop.gremlin.process.traversal.step.util.Tree;
import org.apache.tinkerpop.gremlin.structure.*;
import org.onap.aai.edges.enums.EdgeProperty;
import org.onap.aai.serialization.engines.query.GraphTraversalQueryEngine;
-import static org.junit.Assert.assertEquals;
-
@Ignore
public class TreeBackedVertexTest {
- private Graph graph = TinkerGraph.open();
- private Object startKey = null;
- private Tree<Element> tree = null;
- private Tree<Element> treeDepth1 = null;
- private Tree<Element> treeDepth0NodeOnly = null;
-
- @Before
- public void configure() {
- GraphTraversalSource g = graph.traversal();
-
- startKey = g.addV(T.label, "vserver").as("v1").property("test", "hello")
- .addV(T.label, "vserver").as("v2")
- .addV(T.label, "interface").property("name", "interface 1").as("v10").addInE("hasChild", "v2").property(EdgeProperty.CONTAINS.toString(), true)
- .addV(T.label, "pserver").property("name", "pserver 1").as("v4").addOutE("runsOn", "v1").property(EdgeProperty.CONTAINS.toString(), false)
- .addV(T.label, "interface").property("name", "interface 2").as("v3").addInE("hasChild", "v1").property(EdgeProperty.CONTAINS.toString(), true)
- .addV(T.label, "address").property("name", "address 1").addInE("hasChild", "v3").property(EdgeProperty.CONTAINS.toString(), true)
- .addV(T.label, "address").property("name", "address 2").addInE("hasChild", "v3").property(EdgeProperty.CONTAINS.toString(), true)
- .addV(T.label, "complex").property("name", "complex 1").addInE("locatedIn", "v4").property(EdgeProperty.CONTAINS.toString(), false)
- .addV(T.label, "interface").property("name", "interface 3").addInE("hasChild", "v4").property(EdgeProperty.CONTAINS.toString(), true)
- .addV(T.label, "subnet").property("name", "subnet 1").as("v5").addInE("in", "v3").property(EdgeProperty.CONTAINS.toString(), false)
- .addV(T.label, "address").property("name", "address 3").as("v6").addInE("hasChild", "v5").property(EdgeProperty.CONTAINS.toString(), true)
- .select("v1").next();
-
- tree = new GraphTraversalQueryEngine(g).findSubGraph((Vertex)startKey);
- treeDepth1 = new GraphTraversalQueryEngine(g).findSubGraph((Vertex)startKey, 1, false);
- treeDepth0NodeOnly = new GraphTraversalQueryEngine(g).findSubGraph((Vertex)startKey, 0, true);
- }
-
- @Ignore
- @Test
- public void oneHopViaEdges() {
-
- //BulkSet set = (BulkSet)result;
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
-
- assertEquals("locate child", v.edges(Direction.OUT).next().inVertex().property("name").orElse(""), "interface 2");
- assertEquals("locate cousin", v.edges(Direction.IN).next().outVertex().property("name").orElse(""), "pserver 1");
-
-
- }
-
- @Ignore
- @Test
- public void oneHopViaVertices() {
-
- //BulkSet set = (BulkSet)result;
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
-
- assertEquals("locate child", "interface 2", v.vertices(Direction.OUT).next().property("name").orElse(""));
- assertEquals("locate cousin", "pserver 1", v.vertices(Direction.IN).next().property("name").orElse(""));
-
- }
-
- @Ignore
- @Test
- public void twoHopCousinViaVertices() {
-
- //BulkSet set = (BulkSet)result;
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
-
- assertEquals("locate child", "subnet 1", v.vertices(Direction.OUT).next().vertices(Direction.OUT, "in").next().property("name").orElse(""));
-
- }
-
- @Test
- public void walkVerticesRestrictedDepth() {
-
- //BulkSet set = (BulkSet)result;
- TreeBackedVertex v = new TreeBackedVertex((Vertex)treeDepth1.getObjectsAtDepth(1).iterator().next(), treeDepth1);
-
-
- assertEquals("nothing returned", false, v.vertices(Direction.OUT).next()
- .vertices(Direction.OUT, "hasChild").hasNext());
-
- }
-
- @Test
- public void walkVertices() {
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
- assertEquals("locate child", "address 2", v.vertices(Direction.OUT).next()
- .vertices(Direction.OUT, "hasChild").next().property("name").orElse(""));
- }
-
- @Test
- public void walkEdges() {
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
- assertEquals("locate child", "address 2", v.edges(Direction.OUT).next().inVertex()
- .edges(Direction.OUT, "hasChild").next().inVertex().property("name").orElse(""));
- }
-
- @Test
- public void noEdgesFoudWithLabelVertices() {
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
- assertEquals("missing hello label", false , v.vertices(Direction.OUT, "hello").hasNext());
- }
-
- @Test
- public void noEdgesFoudWithLabelEdges() {
- TreeBackedVertex v = new TreeBackedVertex((Vertex)tree.getObjectsAtDepth(1).iterator().next(), tree);
-
- assertEquals("missing hello label", false , v.edges(Direction.OUT, "hello").hasNext());
- }
-
- @Test
- public void depthZeroNodeOnly() {
- TreeBackedVertex v = new TreeBackedVertex((Vertex)treeDepth0NodeOnly.getObjectsAtDepth(1).iterator().next(), treeDepth0NodeOnly);
- assertEquals("no edges returned", false, v.edges(Direction.BOTH).hasNext());
- }
-
+ private Graph graph = TinkerGraph.open();
+ private Object startKey = null;
+ private Tree<Element> tree = null;
+ private Tree<Element> treeDepth1 = null;
+ private Tree<Element> treeDepth0NodeOnly = null;
+
+ @Before
+ public void configure() {
+ GraphTraversalSource g = graph.traversal();
+
+ startKey = g.addV(T.label, "vserver").as("v1").property("test", "hello").addV(T.label, "vserver").as("v2")
+ .addV(T.label, "interface").property("name", "interface 1").as("v10").addInE("hasChild", "v2")
+ .property(EdgeProperty.CONTAINS.toString(), true).addV(T.label, "pserver").property("name", "pserver 1")
+ .as("v4").addOutE("runsOn", "v1").property(EdgeProperty.CONTAINS.toString(), false)
+ .addV(T.label, "interface").property("name", "interface 2").as("v3").addInE("hasChild", "v1")
+ .property(EdgeProperty.CONTAINS.toString(), true).addV(T.label, "address").property("name", "address 1")
+ .addInE("hasChild", "v3").property(EdgeProperty.CONTAINS.toString(), true).addV(T.label, "address")
+ .property("name", "address 2").addInE("hasChild", "v3").property(EdgeProperty.CONTAINS.toString(), true)
+ .addV(T.label, "complex").property("name", "complex 1").addInE("locatedIn", "v4")
+ .property(EdgeProperty.CONTAINS.toString(), false).addV(T.label, "interface")
+ .property("name", "interface 3").addInE("hasChild", "v4")
+ .property(EdgeProperty.CONTAINS.toString(), true).addV(T.label, "subnet").property("name", "subnet 1")
+ .as("v5").addInE("in", "v3").property(EdgeProperty.CONTAINS.toString(), false).addV(T.label, "address")
+ .property("name", "address 3").as("v6").addInE("hasChild", "v5")
+ .property(EdgeProperty.CONTAINS.toString(), true).select("v1").next();
+
+ tree = new GraphTraversalQueryEngine(g).findSubGraph((Vertex) startKey);
+ treeDepth1 = new GraphTraversalQueryEngine(g).findSubGraph((Vertex) startKey, 1, false);
+ treeDepth0NodeOnly = new GraphTraversalQueryEngine(g).findSubGraph((Vertex) startKey, 0, true);
+ }
+
+ @Ignore
+ @Test
+ public void oneHopViaEdges() {
+
+ // BulkSet set = (BulkSet)result;
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("locate child", v.edges(Direction.OUT).next().inVertex().property("name").orElse(""),
+ "interface 2");
+ assertEquals("locate cousin", v.edges(Direction.IN).next().outVertex().property("name").orElse(""),
+ "pserver 1");
+
+ }
+
+ @Ignore
+ @Test
+ public void oneHopViaVertices() {
+
+ // BulkSet set = (BulkSet)result;
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("locate child", "interface 2", v.vertices(Direction.OUT).next().property("name").orElse(""));
+ assertEquals("locate cousin", "pserver 1", v.vertices(Direction.IN).next().property("name").orElse(""));
+
+ }
+
+ @Ignore
+ @Test
+ public void twoHopCousinViaVertices() {
+
+ // BulkSet set = (BulkSet)result;
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("locate child", "subnet 1",
+ v.vertices(Direction.OUT).next().vertices(Direction.OUT, "in").next().property("name").orElse(""));
+
+ }
+
+ @Test
+ public void walkVerticesRestrictedDepth() {
+
+ // BulkSet set = (BulkSet)result;
+ TreeBackedVertex v =
+ new TreeBackedVertex((Vertex) treeDepth1.getObjectsAtDepth(1).iterator().next(), treeDepth1);
+
+ assertEquals("nothing returned", false,
+ v.vertices(Direction.OUT).next().vertices(Direction.OUT, "hasChild").hasNext());
+
+ }
+
+ @Test
+ public void walkVertices() {
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+ assertEquals("locate child", "address 2", v.vertices(Direction.OUT).next().vertices(Direction.OUT, "hasChild")
+ .next().property("name").orElse(""));
+ }
+
+ @Test
+ public void walkEdges() {
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("locate child", "address 2", v.edges(Direction.OUT).next().inVertex()
+ .edges(Direction.OUT, "hasChild").next().inVertex().property("name").orElse(""));
+ }
+
+ @Test
+ public void noEdgesFoudWithLabelVertices() {
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("missing hello label", false, v.vertices(Direction.OUT, "hello").hasNext());
+ }
+
+ @Test
+ public void noEdgesFoudWithLabelEdges() {
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) tree.getObjectsAtDepth(1).iterator().next(), tree);
+
+ assertEquals("missing hello label", false, v.edges(Direction.OUT, "hello").hasNext());
+ }
+
+ @Test
+ public void depthZeroNodeOnly() {
+ TreeBackedVertex v = new TreeBackedVertex((Vertex) treeDepth0NodeOnly.getObjectsAtDepth(1).iterator().next(),
+ treeDepth0NodeOnly);
+ assertEquals("no edges returned", false, v.edges(Direction.BOTH).hasNext());
+ }
+
}