* limitations under the License.
* ============LICENSE_END=========================================================
*/
-package org.onap.aai.serialization.tinkerpop;
-import org.apache.tinkerpop.gremlin.process.traversal.step.util.Tree;
-import org.apache.tinkerpop.gremlin.structure.*;
-import org.apache.tinkerpop.gremlin.structure.util.detached.DetachedVertex;
+package org.onap.aai.serialization.tinkerpop;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
+import org.apache.tinkerpop.gremlin.process.traversal.step.util.Tree;
+import org.apache.tinkerpop.gremlin.structure.*;
+import org.apache.tinkerpop.gremlin.structure.util.detached.DetachedVertex;
+
/**
- * Represents a {@link Vertex} that is disconnected from a {@link Graph} however,
+ * Represents a {@link Vertex} that is disconnected from a {@link Graph} however,
* traversals are supported as they are backed by a Tree with saturated {@link Vertex} and {@link Edge} objects.
* These objects are not mutable and can only be used to read information out.
*
public class TreeBackedVertex extends DetachedVertex implements Vertex {
- private static final long serialVersionUID = -976854460992756953L;
- private final Tree<Element> tree;
- private final Vertex self;
- public TreeBackedVertex (Vertex v, Tree<Element> tree) {
- super(v, true);
- this.self = v;
- this.tree = tree;
- }
-
- @Override
+ private static final long serialVersionUID = -976854460992756953L;
+ private final Tree<Element> tree;
+ private final Vertex self;
+
+ public TreeBackedVertex(Vertex v, Tree<Element> tree) {
+ super(v, true);
+ this.self = v;
+ this.tree = tree;
+ }
+
+ @Override
public Iterator<Edge> edges(final Direction direction, final String... edgeLabels) {
- final List<Element> edges = tree.getObjectsAtDepth(2);
- final List<Tree<Element>> trees = tree.getTreesAtDepth(2);
- final List<Tree<Element>> vTrees = tree.getTreesAtDepth(3);
- return edges.stream().map( ele -> (Edge)ele).filter(e -> {
- if (Direction.IN.equals(direction)) {
- return e.inVertex().equals(self);
- } else if (Direction.OUT.equals(direction)) {
- return e.outVertex().equals(self);
- } else {
- return true;
- }
- }).filter(e -> {
- boolean result = false;
- if (edgeLabels.length == 0) {
- return true;
- }
- for (String label : edgeLabels) {
- if (label.equals(e.label())) {
- result = true;
- break;
- }
- }
- return result;
- }).map(e -> {
- Tree<Element> eTree = new Tree<>();
- for (Tree<Element> tree : trees) {
- if (tree.keySet().contains(e)) {
- eTree = tree;
- break;
- }
- }
- TreeBackedVertex in = null;
- TreeBackedVertex out = null;
- if (e.inVertex().equals(self)) {
- in = this;
- out = this.createForVertex(e.outVertex(), vTrees);
- } else if (e.outVertex().equals(self)) {
- out = this;
- in = this.createForVertex(e.inVertex(), vTrees);
- }
- return (Edge)new TreeBackedEdge(e, in, out);
- }).iterator();
+ final List<Element> edges = tree.getObjectsAtDepth(2);
+ final List<Tree<Element>> trees = tree.getTreesAtDepth(2);
+ final List<Tree<Element>> vTrees = tree.getTreesAtDepth(3);
+ return edges.stream().map(ele -> (Edge) ele).filter(e -> {
+ if (Direction.IN.equals(direction)) {
+ return e.inVertex().equals(self);
+ } else if (Direction.OUT.equals(direction)) {
+ return e.outVertex().equals(self);
+ } else {
+ return true;
+ }
+ }).filter(e -> {
+ boolean result = false;
+ if (edgeLabels.length == 0) {
+ return true;
+ }
+ for (String label : edgeLabels) {
+ if (label.equals(e.label())) {
+ result = true;
+ break;
+ }
+ }
+ return result;
+ }).map(e -> {
+ Tree<Element> eTree = new Tree<>();
+ for (Tree<Element> tree : trees) {
+ if (tree.keySet().contains(e)) {
+ eTree = tree;
+ break;
+ }
+ }
+ TreeBackedVertex in = null;
+ TreeBackedVertex out = null;
+ if (e.inVertex().equals(self)) {
+ in = this;
+ out = this.createForVertex(e.outVertex(), vTrees);
+ } else if (e.outVertex().equals(self)) {
+ out = this;
+ in = this.createForVertex(e.inVertex(), vTrees);
+ }
+ return (Edge) new TreeBackedEdge(e, in, out);
+ }).iterator();
+
+ }
+
+ private TreeBackedVertex createForVertex(Vertex v, List<Tree<Element>> trees) {
+ Tree<Element> vTree = new Tree<>();
+ for (Tree<Element> tree : trees) {
+ if (tree.keySet().contains(v)) {
+ vTree = tree;
+ break;
+ }
+ }
+ return new TreeBackedVertex((Vertex) vTree.keySet().iterator().next(), vTree);
}
-
- private TreeBackedVertex createForVertex(Vertex v, List<Tree<Element>> trees) {
- Tree<Element> vTree = new Tree<>();
- for (Tree<Element> tree : trees) {
- if (tree.keySet().contains(v)) {
- vTree = tree;
- break;
- }
- }
-
- return new TreeBackedVertex((Vertex)vTree.keySet().iterator().next(), vTree);
- }
+
@Override
public Iterator<Vertex> vertices(final Direction direction, final String... labels) {
- final List<Tree<Element>> vertexElements = tree.getTreesAtDepth(3);
- final List<Element> edgeElements = tree.getObjectsAtDepth(2);
- return edgeElements.stream().map( ele -> (Edge)ele).filter(e -> {
- boolean result = false;
- if (labels.length == 0) {
- return true;
- }
- for (String label : labels) {
- if (label.equals(e.label())) {
- result = true;
- break;
- }
- }
- return result;
- }).filter(e -> {
- if (Direction.IN.equals(direction) && e.inVertex().equals(self)) {
- return true;
- } else if (Direction.OUT.equals(direction) && e.outVertex().equals(self)) {
- return true;
- } else if (Direction.BOTH.equals(direction)){
- return true;
- } else {
- return false;
- }
- }).map(e -> {
- final List<Vertex> list;
- if (Direction.IN.equals(direction)) {
- list = Collections.singletonList(e.outVertex());
- } else if (Direction.OUT.equals(direction)){
- list = Collections.singletonList(e.inVertex());
- } else {
- list = new ArrayList<>();
- Iterator<Vertex> itr = e.bothVertices();
- while (itr.hasNext()) {
- list.add(itr.next());
- }
- }
- return list;
-
- }).flatMap(list -> list.stream()).map(v -> {
- Tree<Element> vTree = new Tree<Element>();
- for (Tree<Element> tree : vertexElements) {
- if (tree.keySet().contains(v)) {
- vTree = tree;
- break;
- }
- }
-
- return (Vertex)new TreeBackedVertex(v, vTree);
- }).iterator();
- }
-
+ final List<Tree<Element>> vertexElements = tree.getTreesAtDepth(3);
+ final List<Element> edgeElements = tree.getObjectsAtDepth(2);
+ return edgeElements.stream().map(ele -> (Edge) ele).filter(e -> {
+ boolean result = false;
+ if (labels.length == 0) {
+ return true;
+ }
+ for (String label : labels) {
+ if (label.equals(e.label())) {
+ result = true;
+ break;
+ }
+ }
+ return result;
+ }).filter(e -> {
+ if (Direction.IN.equals(direction) && e.inVertex().equals(self)) {
+ return true;
+ } else if (Direction.OUT.equals(direction) && e.outVertex().equals(self)) {
+ return true;
+ } else if (Direction.BOTH.equals(direction)) {
+ return true;
+ } else {
+ return false;
+ }
+ }).map(e -> {
+ final List<Vertex> list;
+ if (Direction.IN.equals(direction)) {
+ list = Collections.singletonList(e.outVertex());
+ } else if (Direction.OUT.equals(direction)) {
+ list = Collections.singletonList(e.inVertex());
+ } else {
+ list = new ArrayList<>();
+ Iterator<Vertex> itr = e.bothVertices();
+ while (itr.hasNext()) {
+ list.add(itr.next());
+ }
+ }
+ return list;
+
+ }).flatMap(list -> list.stream()).map(v -> {
+ Tree<Element> vTree = new Tree<Element>();
+ for (Tree<Element> tree : vertexElements) {
+ if (tree.keySet().contains(v)) {
+ vTree = tree;
+ break;
+ }
+ }
+
+ return (Vertex) new TreeBackedVertex(v, vTree);
+ }).iterator();
+ }
+
}