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/*
 * 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.
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package org.apache.jackrabbit.test.api;

import org.apache.jackrabbit.test.AbstractJCRTest;
import org.apache.jackrabbit.test.NotExecutableException;

import javax.jcr.Session;
import javax.jcr.Node;
import javax.jcr.NodeIterator;
import javax.jcr.RepositoryException;
import javax.jcr.PathNotFoundException;
import javax.jcr.ItemNotFoundException;
import javax.jcr.Item;
import javax.jcr.ItemVisitor;
import javax.jcr.Property;
import javax.jcr.PropertyIterator;
import javax.jcr.PropertyType;
import javax.jcr.UnsupportedRepositoryOperationException;
import java.util.ArrayList;
import java.util.List;
import java.util.NoSuchElementException;

/**
 * Tests the 'read' methods specified in the {@link javax.jcr.Node} interface on
 * a level 1 repository.
 * 

* Most tests require at least one child node under the root node, otherwise a * {@link org.apache.jackrabbit.test.NotExecutableException} is thrown. * */ public class NodeReadMethodsTest extends AbstractJCRTest { /** * Session to access the workspace */ private Session session; /** * The first child node of the testRootNode */ private Node childNode; /** * Sets up the fixture for this test. */ protected void setUp() throws Exception { isReadOnly = true; super.setUp(); session = getHelper().getReadOnlySession(); testRootNode = session.getRootNode().getNode(testPath); NodeIterator nodes = testRootNode.getNodes(); try { childNode = nodes.nextNode(); } catch (NoSuchElementException e) { } } /** * Releases the session aquired in {@link #setUp()}. */ protected void tearDown() throws Exception { if (session != null) { session.logout(); session = null; } childNode = null; super.tearDown(); } // -----------< tests of methods inherited of Item >------------------------ /** * Tests if getPath() returns the correct path. */ public void testGetPath() throws NotExecutableException, RepositoryException { if (childNode == null) { throw new NotExecutableException("Workspace does not have sufficient content to run this test."); } String path = testRoot + "/" + childNode.getName(); if (getSize(testRootNode.getNodes(childNode.getName())) > 1) { // is a same-name-sibling, append index path += "[" + childNode.getIndex() + "]"; } log.println("path: " + childNode.getPath()); assertEquals("getPath returns wrong result", path, childNode.getPath()); } /** * Tests if getName() returns same as last name returned by getPath() */ public void testGetName() throws RepositoryException, NotExecutableException { if (childNode == null) { throw new NotExecutableException("Workspace does not have sufficient content to run this test."); } // build name from path String path = childNode.getPath(); String name = path.substring(path.lastIndexOf("/") + 1); if (name.indexOf("[") != -1) { name = name.substring(0, name.indexOf("[")); } assertEquals("getName() must be the same as the last item in the path", name, childNode.getName()); } /** * Test if the ancestor at depth = n, where n is the depth of this * Item, returns this Node itself. */ public void testGetAncestorOfNodeDepth() throws RepositoryException { Node nodeAtDepth = (Node) testRootNode.getAncestor(testRootNode.getDepth()); assertTrue("The ancestor of depth = n, where n is the depth of this " + "Node must be the item itself.", testRootNode.isSame(nodeAtDepth)); } /** * Test if getting the ancestor of depth = n, where n is greater than depth * of this Node, throws an ItemNotFoundException. */ public void testGetAncestorOfGreaterDepth() throws RepositoryException { try { int greaterDepth = testRootNode.getDepth() + 1; testRootNode.getAncestor(greaterDepth); fail("Getting ancestor of depth n, where n is greater than depth of" + "this Node must throw an ItemNotFoundException"); } catch (ItemNotFoundException e) { // success } } /** * Test if getting the ancestor of negative depth throws an * ItemNotFoundException. */ public void testGetAncestorOfNegativeDepth() throws RepositoryException { try { testRootNode.getAncestor(-1); fail("Getting ancestor of depth < 0 must throw an ItemNotFoundException."); } catch (ItemNotFoundException e) { // success } } /** * Tests if getParent() returns parent node */ public void testGetParent() throws NotExecutableException, RepositoryException { if (childNode == null) { throw new NotExecutableException("Workspace does not have sufficient content to run this test."); } assertTrue("getParent() of a child node return the parent node.", testRootNode.isSame(childNode.getParent())); } /** * Tests if getParent() of root throws an ItemNotFoundException */ public void testGetParentOfRoot() throws RepositoryException { try { session.getRootNode().getParent(); fail("getParent() of root must throw an ItemNotFoundException."); } catch (ItemNotFoundException e) { // success } } /** * Tests if depth of root is 0 and depth of a sub node of root is 1 */ public void testGetDepth() throws RepositoryException { assertEquals("getDepth() of root must be 0", 0, session.getRootNode().getDepth()); for (NodeIterator it = session.getRootNode().getNodes(); it.hasNext();) { assertEquals("getDepth() of child node of root must be 1", 1, it.nextNode().getDepth()); } } /** * Tests if getSession() is same as through which the Item was acquired */ public void testGetSession() throws RepositoryException { assertSame("getSession must return the Session through which " + "the Node was acquired.", testRootNode.getSession(), session); } /** * Tests if isNode() returns true */ public void testIsNode() { assertTrue("isNode() must return true.", testRootNode.isNode()); } /** * Tests if isSame() returns true when retrieving an item through different * sessions */ public void testIsSame() throws RepositoryException { // access same node through different session Session s = getHelper().getReadOnlySession(); try { Item otherTestNode = s.getRootNode().getNode(testPath); assertTrue("isSame(Item item) must return true for the same " + "item retrieved through different sessions.", testRootNode.isSame(otherTestNode)); } finally { s.logout(); } } /** * */ public void testAccept() throws RepositoryException { final Node n = testRootNode; ItemVisitor itemVisitor = new ItemVisitor() { public void visit(Property property) { fail("Wrong accept method executed."); } public void visit(Node node) throws RepositoryException { assertTrue("Visited node is not the same as the one passed in method visit(Node)", n.isSame(node)); } }; n.accept(itemVisitor); } // -----------< tests of Node specific methods >---------------------------- /** * Test if getNode(String relPath) returns the correct node and if a * PathNotFoundException is thrown when Node at relPath does not exist */ public void testGetNode() throws NotExecutableException, RepositoryException { StringBuffer notExistingPath = new StringBuffer("X"); NodeIterator nodes = testRootNode.getNodes(); while (nodes.hasNext()) { // build a path that for sure is not existing // (":" of namespace prefix will be replaced later on) notExistingPath.append(nodes.nextNode().getName()); } try { testRootNode.getNode(notExistingPath.toString().replaceAll(":", "")); fail("getNode(String relPath) must throw a PathNotFoundException" + "if no node exists at relPath"); } catch (PathNotFoundException e) { // success } try { NodeIterator nodes2 = testRootNode.getNodes(); Node node = nodes2.nextNode(); assertTrue("Node from Iterator is not the same as the Node from getNode()", testRootNode.getNode(node.getName()).isSame(node)); } catch (NoSuchElementException e) { throw new NotExecutableException("Workspace does not have sufficient content for this test. " + "Root node must have at least one child node."); } } /** * Test if all returned items are of type node. */ public void testGetNodes() throws RepositoryException { NodeIterator nodes = testRootNode.getNodes(); while (nodes.hasNext()) { Item item = (Item) nodes.next(); assertTrue("Item is not a node", item.isNode()); } } /** * Test getNodes(String namePattern) with all possible patterns. Tested * node: root - NotExecutableException is thrown when root node has no sub * nodes. */ public void testGetNodesNamePattern() throws NotExecutableException, RepositoryException { // get root node and build an ArrayList of its sub nodes Node node = testRootNode; if (!node.hasNodes()) { throw new NotExecutableException("Workspace does not have sufficient content for this test. " + "Root node must have at least one child node."); } NodeIterator allNodesIt = node.getNodes(); List allNodes = new ArrayList(); while (allNodesIt.hasNext()) { Node n = allNodesIt.nextNode(); allNodes.add(n); } // test if an empty NodeIterator is returned // when the pattern is not matching any child node String pattern0 = ""; NodeIterator nodes0 = node.getNodes(pattern0); try { nodes0.nextNode(); fail("An empty NodeIterator must be returned if pattern does" + "not match any child node."); } catch (NoSuchElementException e) { // success } // all further tests are using root's first sub node Node firstNode = allNodes.get(0); // test pattern "*" String pattern1 = "*"; String assertString1 = "node.getNodes(\"" + pattern1 + "\"): "; NodeIterator nodes1 = node.getNodes(pattern1); // test if the number of found nodes is correct assertEquals(assertString1 + "number of nodes found: ", allNodes.size(), getSize(nodes1)); // test pattern "nodeName" String pattern2 = firstNode.getName(); String assertString2 = "node.getNodes(\"" + pattern2 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes2 = node.getNodes(pattern2); while (nodes2.hasNext()) { Node n = nodes2.nextNode(); assertEquals(assertString2 + "name comparison failed: ", firstNode.getName(), n.getName()); } // test if the number of found nodes is correct int numExpected2 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().equals(firstNode.getName())) { numExpected2++; } } nodes2 = node.getNodes(pattern2); assertEquals(assertString2 + "number of nodes found: ", numExpected2, getSize(nodes2)); // test pattern "nodeName|nodeName" String pattern3 = firstNode.getName() + "|" + firstNode.getName(); String assertString3 = "node.getNodes(\"" + pattern3 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes3 = node.getNodes(pattern3); while (nodes3.hasNext()) { Node n = nodes3.nextNode(); assertEquals(assertString2 + "name comparison failed: ", firstNode.getName(), n.getName()); } // test if the number of found nodes is correct int numExpected3 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().equals(firstNode.getName())) { numExpected3++; } } nodes3 = node.getNodes(pattern3); assertEquals(assertString3 + "number of nodes found: ", numExpected3, getSize(nodes3)); // test pattern "*odeNam*" if (firstNode.getName().length() > 2) { String name = firstNode.getName(); String shortenName = name.substring(1, name.length() - 1); String pattern4 = "*" + shortenName + "*"; String assertString4 = "node.getNodes(\"" + pattern4 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes4 = node.getNodes(pattern4); while (nodes4.hasNext()) { Node n = nodes4.nextNode(); assertTrue(assertString4 + "name comparison failed: *" + shortenName + "* not found in " + n.getName(), n.getName().indexOf(shortenName) != -1); } // test if the number of found nodes is correct int numExpected4 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().indexOf(shortenName) != -1) { numExpected4++; } } nodes4 = node.getNodes(pattern4); assertEquals(assertString4 + "number of nodes found: ", numExpected4, getSize(nodes4)); } } /** * Test getNodes(String[] namePattern) with all possible patterns. Tested * node: root * @throws NotExecutableException is thrown when root node has no sub * nodes. */ public void testGetNodesNamePatternArray() throws NotExecutableException, RepositoryException { // get root node and build an ArrayList of its sub nodes Node node = testRootNode; if (!node.hasNodes()) { throw new NotExecutableException("Workspace does not have sufficient content for this test. " + "Root node must have at least one child node."); } NodeIterator allNodesIt = node.getNodes(); List allNodes = new ArrayList(); while (allNodesIt.hasNext()) { Node n = allNodesIt.nextNode(); allNodes.add(n); } // test if an empty NodeIterator is returned // when the pattern is not matching any child node String pattern0 = ""; NodeIterator nodes0 = node.getNodes(new String[] { pattern0 }); try { nodes0.nextNode(); fail("An empty NodeIterator must be returned if pattern does" + "not match any child node."); } catch (NoSuchElementException e) { // success } // all further tests are using root's first sub node Node firstNode = allNodes.get(0); // test pattern "*" String pattern1 = "*"; String assertString1 = "node.getNodes(\"" + pattern1 + "\"): "; NodeIterator nodes1 = node.getNodes(new String[] { pattern1 }); // test if the number of found nodes is correct assertEquals(assertString1 + "number of nodes found: ", allNodes.size(), getSize(nodes1)); // test pattern "nodeName" String pattern2 = firstNode.getName(); String assertString2 = "node.getNodes(\"" + pattern2 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes2 = node.getNodes(new String[] { pattern2 }); while (nodes2.hasNext()) { Node n = nodes2.nextNode(); assertEquals(assertString2 + "name comparison failed: ", firstNode.getName(), n.getName()); } // test if the number of found nodes is correct int numExpected2 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().equals(firstNode.getName())) { numExpected2++; } } assertEquals(assertString2 + "number of nodes found: ", numExpected2, getSize(nodes2)); // test pattern "nodeName", "nodeName" String pattern4 = firstNode.getName() + "," + firstNode.getName(); String assertString4 = "node.getNodes(\"" + pattern4 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes4 = node.getNodes(new String[] { firstNode.getName(), firstNode.getName() }); while (nodes4.hasNext()) { Node n = nodes4.nextNode(); assertEquals(assertString2 + "name comparison failed: ", firstNode.getName(), n.getName()); } // test if the number of found nodes is correct int numExpected4 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().equals(firstNode.getName())) { numExpected4++; } } assertEquals(assertString4 + "number of nodes found: ", numExpected4, getSize(nodes4)); // test pattern "*odeNam*" if (firstNode.getName().length() > 2) { String name = firstNode.getName(); String shortenName = name.substring(1, name.length() - 1); String pattern5 = "*" + shortenName + "*"; String assertString5 = "node.getNodes(\"" + pattern5 + "\"): "; // test if the names of the found nodes are matching the pattern NodeIterator nodes5 = node.getNodes(new String[] { pattern5 }); while (nodes5.hasNext()) { Node n = nodes5.nextNode(); assertTrue(assertString5 + "name comparison failed: *" + shortenName + "* not found in " + n.getName(), n.getName().indexOf(shortenName) != -1); } // test if the number of found nodes is correct int numExpected5 = 0; for (int i = 0; i < allNodes.size(); i++) { Node n = allNodes.get(i); if (n.getName().indexOf(shortenName) != -1) { numExpected5++; } } assertEquals(assertString5 + "number of nodes found: ", numExpected5, getSize(nodes5)); } } /** * Test if getProperty(String relPath) returns the correct node and if a * PathNotFoundException is thrown when property at relPath does not exist */ public void testGetProperty() throws NotExecutableException, RepositoryException { StringBuffer notExistingPath = new StringBuffer("X"); PropertyIterator properties = testRootNode.getProperties(); while (properties.hasNext()) { // build a path that for sure is not existing // (":" of namespace prefix will be replaced later on) notExistingPath.append(properties.nextProperty().getName()); } try { testRootNode.getProperty(notExistingPath.toString().replaceAll(":", "")); fail("getProperty(String relPath) must throw a " + "PathNotFoundException if no node exists at relPath"); } catch (PathNotFoundException e) { // success } try { PropertyIterator properties2 = testRootNode.getProperties(); Property property = properties2.nextProperty(); assertTrue("Property returned by getProperties() is not the same as returned by getProperty(String).", testRootNode.getProperty(property.getName()).isSame(property)); } catch (NoSuchElementException e) { fail("Root node must always have at least one property: jcr:primaryType"); } } /** * Test if all returned items are of type node. */ public void testGetProperties() throws RepositoryException { PropertyIterator properties = testRootNode.getProperties(); while (properties.hasNext()) { Item item = (Item) properties.next(); assertFalse("Item is not a property", item.isNode()); } } /** * Test getProperties(String namePattern) with all possible patterns. Tested * node: root - a NotExecutableException is thrown when root node has no * properties. */ public void testGetPropertiesNamePattern() throws NotExecutableException, RepositoryException { // get root node and build an ArrayList of its sub nodes Node node = testRootNode; if (!node.hasProperties()) { fail("Root node must always have at least one property: jcr:primaryType"); } PropertyIterator allPropertiesIt = node.getProperties(); List allProperties = new ArrayList(); StringBuffer notExistingPropertyName = new StringBuffer(); while (allPropertiesIt.hasNext()) { Property p = allPropertiesIt.nextProperty(); allProperties.add(p); notExistingPropertyName.append(p.getName() + "X"); } // test that an empty NodeIterator is returned // when the pattern is not matching any child node String pattern0 = notExistingPropertyName.toString().replaceAll(":", ""); NodeIterator properties0 = node.getNodes(pattern0); try { properties0.nextNode(); fail("An empty NodeIterator must be returned if pattern does" + "not match any child node."); } catch (NoSuchElementException e) { // success } // all tests are running using root's first property Property firstProperty = allProperties.get(0); // test: getProperties("*") String pattern1 = "*"; String assertString1 = "node.getProperties(\"" + pattern1 + "\"): "; PropertyIterator properties1 = node.getProperties(pattern1); assertEquals(assertString1 + "number of properties found: ", allProperties.size(), getSize(properties1)); // test: getProperties("propertyName") String pattern2 = firstProperty.getName(); String assertString2 = "node.getProperties(\"" + pattern2 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties2 = node.getProperties(pattern2); while (properties2.hasNext()) { Property p = properties2.nextProperty(); assertEquals(assertString2 + "name comparison failed: ", firstProperty.getName(), p.getName()); } // test if the number of found properties is correct int numExpected2 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().equals(firstProperty.getName())) { numExpected2++; } } properties2 = node.getProperties(pattern2); assertEquals(assertString2 + "number of properties found: ", numExpected2, getSize(properties2)); // test: getProperties("propertyName|propertyName") String pattern3 = firstProperty.getName() + "|" + firstProperty.getName(); String assertString3 = "node.getProperties(\"" + pattern3 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties3 = node.getProperties(pattern3); while (properties3.hasNext()) { Property p = properties3.nextProperty(); assertEquals(assertString2 + "name comparison failed: ", firstProperty.getName(), p.getName()); } // test if the number of found properties is correct int numExpected3 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().equals(firstProperty.getName())) { numExpected3++; } } properties3 = node.getProperties(pattern3); assertEquals(assertString3 + "number of properties found: ", numExpected3, getSize(properties3)); // test: getProperties("*opertyNam*") if (firstProperty.getName().length() > 2) { String name = firstProperty.getName(); String shortenName = name.substring(1, name.length() - 1); String pattern4 = "*" + shortenName + "*"; String assertString4 = "node.getProperties(\"" + pattern4 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties4 = node.getProperties(pattern4); while (properties4.hasNext()) { Property p = properties4.nextProperty(); assertTrue(assertString4 + "name comparison failed: *" + shortenName + "* not found in " + p.getName(), p.getName().indexOf(shortenName) != -1); } // test if the number of found properties is correct int numExpected4 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().indexOf(shortenName) != -1) { numExpected4++; } } properties4 = node.getProperties(pattern4); assertEquals(assertString4 + "number of properties found: ", numExpected4, getSize(properties4)); } } /** * Test getProperties(String[] namePattern) with all possible patterns. * @throws NotExecutableException is thrown when root node has no properties. */ public void testGetPropertiesNamePatternArray() throws NotExecutableException, RepositoryException { // get root node and build an ArrayList of its sub nodes Node node = testRootNode; if (!node.hasProperties()) { fail("Root node must always have at least one property: jcr:primaryType"); } PropertyIterator allPropertiesIt = node.getProperties(); List allProperties = new ArrayList(); StringBuffer notExistingPropertyName = new StringBuffer(); while (allPropertiesIt.hasNext()) { Property p = allPropertiesIt.nextProperty(); allProperties.add(p); notExistingPropertyName.append(p.getName() + "X"); } // all tests are running using root's first property Property firstProperty = allProperties.get(0); // test: getProperties("*") String pattern1 = "*"; String assertString1 = "node.getProperties(\"" + pattern1 + "\"): "; PropertyIterator properties1 = node.getProperties(new String[] { pattern1 }); assertEquals(assertString1 + "number of properties found: ", allProperties.size(), getSize(properties1)); // test: getProperties("propertyName") String pattern2 = firstProperty.getName(); String assertString2 = "node.getProperties(\"" + pattern2 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties2 = node.getProperties(new String[] { pattern2 }); while (properties2.hasNext()) { Property p = properties2.nextProperty(); assertEquals(assertString2 + "name comparison failed: ", firstProperty.getName(), p.getName()); } // test if the number of found properties is correct int numExpected2 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().equals(firstProperty.getName())) { numExpected2++; } } assertEquals(assertString2 + "number of properties found: ", numExpected2, getSize(properties2)); // test: getProperties("propertyName|propertyName") // test: getProperties("propertyName", "propertyName") String pattern4 = firstProperty.getName() + "," + firstProperty.getName(); String assertString4 = "node.getProperties(\"" + pattern4 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties4 = node.getProperties(new String[] { firstProperty.getName(), firstProperty.getName() }); while (properties4.hasNext()) { Property p = properties4.nextProperty(); assertEquals(assertString2 + "name comparison failed: ", firstProperty.getName(), p.getName()); } // test if the number of found properties is correct int numExpected4 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().equals(firstProperty.getName())) { numExpected4++; } } assertEquals(assertString4 + "number of properties found: ", numExpected4, getSize(properties4)); // test: getProperties("*opertyNam*") if (firstProperty.getName().length() > 2) { String name = firstProperty.getName(); String shortenName = name.substring(1, name.length() - 1); String pattern5 = "*" + shortenName + "*"; String assertString5 = "node.getProperties(\"" + pattern5 + "\"): "; // test if the names of the found properties are matching the pattern PropertyIterator properties5 = node.getProperties(new String[] { pattern5 }); while (properties5.hasNext()) { Property p = properties5.nextProperty(); assertTrue(assertString5 + "name comparison failed: *" + shortenName + "* not found in " + p.getName(), p.getName().indexOf(shortenName) != -1); } // test if the number of found properties is correct int numExpected5 = 0; for (int i = 0; i < allProperties.size(); i++) { Property p = allProperties.get(i); if (p.getName().indexOf(shortenName) != -1) { numExpected5++; } } properties5 = node.getProperties(pattern5); assertEquals(assertString5 + "number of properties found: ", numExpected5, getSize(properties5)); } } /** * Test if getPrimaryItem returns the primary item as defined in the primary * node type. Therefor a node with a primary item is located recursively in * the entire repository. A NotExecutableException is thrown when no such * node is found. */ public void testGetPrimaryItem() throws NotExecutableException, RepositoryException { Node node = locateNodeWithPrimaryItem(testRootNode); if (node == null) { throw new NotExecutableException("Workspace does not contain a node with primary item defined"); } String primaryItemName = node.getPrimaryNodeType().getPrimaryItemName(); Item primaryItem = node.getPrimaryItem(); if (primaryItem.isNode()) { assertTrue("Node returned by getPrimaryItem() is not the same as " + "the one aquired by getNode(String)", node.getNode(primaryItemName).isSame(primaryItem)); } else { assertTrue("Property returned by getPrimaryItem() is not the same as " + "the one aquired by getProperty(String)", node.getProperty(primaryItemName).isSame(primaryItem)); } } /** * Test if getPrimaryItem does throw an ItemNotFoundException if the primary * node type does not define a primary item. Therefor a node without a * primary item is located recursively in the entire repository. A * NotExecutableException is thrown when no such node is found. */ public void testGetPrimaryItemItemNotFoundException() throws NotExecutableException, RepositoryException { Node node = locateNodeWithoutPrimaryItem(testRootNode); if (node == null) { throw new NotExecutableException("Workspace does not contain a node without primary item defined"); } try { node.getPrimaryItem(); fail("getPrimaryItem() must throw a ItemNotFoundException " + "if the primary node type does not define one"); } catch (ItemNotFoundException e) { // success } } /** * Test if getIndex() returns the correct index. Therefor a node with same * name sibling is located recursively in the entire repository. If no such * node is found, the test checks if the testRootNode returns 1 */ public void testGetIndex() throws RepositoryException { Node node = locateNodeWithSameNameSiblings(testRootNode); if (node == null) { assertEquals("getIndex() of a node without same name siblings " + "must return 1", testRootNode.getIndex(), 1); } else { NodeIterator nodes = node.getParent().getNodes(node.getName()); int i = 1; while (nodes.hasNext()) { assertEquals("getIndex() must return the correct index", nodes.nextNode().getIndex(), i); i++; } } } public void testGetReferences() throws NotExecutableException, RepositoryException { Node node = locateNodeWithReference(testRootNode); if (node == null) { throw new NotExecutableException("Workspace does not contain a node with a reference property set"); } PropertyIterator properties = node.getProperties(); while (properties.hasNext()) { Property p = properties.nextProperty(); if (p.getType() == PropertyType.REFERENCE && !p.getDefinition().isMultiple()) { Node referencedNode = p.getNode(); PropertyIterator refs = referencedNode.getReferences(); boolean referenceFound = false; while (refs.hasNext()) { Property ref = refs.nextProperty(); if (ref.isSame(p)) { referenceFound = true; } } assertTrue("Correct reference not found", referenceFound); } } } /** * Test if getUUID() returns the string value of the property "jcr:uuid". * Therefor a node of type "mix:referenceable" is located recursively in the * entire repository. A NotExecutableException is thrown when no node of * this type is found. * * @throws NotExecutableException * @throws RepositoryException */ public void testGetUUID() throws NotExecutableException, RepositoryException { // find a node of type mix:referenceable Node node = locateReferenceableNode(testRootNode); if (node == null) { throw new NotExecutableException("Workspace does not contain a referencable node"); } try { assertEquals("node.getUUID() does not match " + "node.getProperty(\"jcr:uuid\").getString()", node.getProperty(jcrUUID).getString(), node.getUUID()); } catch (PathNotFoundException e) { fail("Property UUID expected for " + "node of type \"" + mixReferenceable + "\""); } } /** * Test if getUUID() throws a UnsupportedRepositoryOperationException if * Node is not referenceable */ public void testGetUUIDOfNonReferenceableNode() throws NotExecutableException, RepositoryException { // find a node NOT of type mix:referenceable Node node = locateNonReferenceableNode(testRootNode); if (node == null) { throw new NotExecutableException("Workspace does not contain a non referenceable node"); } try { node.getUUID(); fail("UnsupportedRepositoryOperationException expected"); } catch (UnsupportedRepositoryOperationException e) { // success } } /** * Test if hasNode(String relPath) returns true if the required node exists * and false if it doesn't. Tested node: root */ public void testHasNode() throws NotExecutableException, RepositoryException { Node node = testRootNode; NodeIterator nodes = node.getNodes(); StringBuffer notExistingNodeName = new StringBuffer(); while (nodes.hasNext()) { Node n = nodes.nextNode(); assertTrue("hasNode(String relPath) returns false although " + "node at relPath is existing", node.hasNode(n.getName())); notExistingNodeName.append(n.getName() + "X"); } if (notExistingNodeName.toString().equals("")) { throw new NotExecutableException("Workspace does not have sufficient content for this test. " + "Root node must have at least one child node."); } assertFalse("hasNode(String relPath) returns true although " + "node at relPath is not existing", node.hasNode(notExistingNodeName.toString().replaceAll(":", ""))); } /** * Test if hasNodes() returns true if any sub node exists or false if not. * Tested node: root */ public void testHasNodes() throws RepositoryException { Node node = testRootNode; NodeIterator nodes = node.getNodes(); int i = 0; while (nodes.hasNext()) { nodes.nextNode(); i++; } if (i == 0) { assertFalse("node.hasNodes() returns true although " + "no sub nodes existing", node.hasNodes()); } else { assertTrue("node.hasNodes() returns false althuogh " + "sub nodes are existing", node.hasNodes()); } } /** * Test if hasProperty(String relPath) returns true if a required property * exists and false if it doesn't. Tested node: root */ public void testHasProperty() throws NotExecutableException, RepositoryException { Node node = testRootNode; PropertyIterator properties = node.getProperties(); StringBuffer notExistingPropertyName = new StringBuffer(); while (properties.hasNext()) { Property p = properties.nextProperty(); assertTrue("node.hasProperty(\"relPath\") returns false " + "although property at relPath is existing", node.hasProperty(p.getName())); notExistingPropertyName.append(p.getName() + "X"); } if (notExistingPropertyName.toString().equals("")) { fail("Root node must at least have one property: jcr:primaryType"); } assertFalse("node.hasProperty(\"relPath\") returns true " + "although property at relPath is not existing", node.hasProperty(notExistingPropertyName.toString().replaceAll(":", ""))); } /** * Test if hasProperty() returns true if any property exists or false if * not. Tested node: root * * @throws RepositoryException */ public void testHasProperties() throws RepositoryException { Node node = testRootNode; PropertyIterator properties = node.getProperties(); int i = 0; while (properties.hasNext()) { Property p = properties.nextProperty(); log.println(p.getName()); i++; } if (i == 0) { assertFalse("Must return false when no properties exist", node.hasProperties()); } else { assertTrue("Must return true when one or more properties exist", node.hasProperties()); } } //-----------------------< internal >--------------------------------------- /** * Returns the first descendant of node which is of type * mix:referencable. * * @param node Node to start traversal. * @return first node of type mix:referenceable */ private Node locateReferenceableNode(Node node) throws RepositoryException { if (node.isNodeType(mixReferenceable)) { return node; } NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node returnedNode = locateReferenceableNode(nodes.nextNode()); if (returnedNode != null) { return returnedNode; } } return null; } /** * Returns the first descendant of node which is not of type * mix:referenceable. * * @param node Node to start traversal. * @return first node which is not of type mix:referenceable */ private Node locateNonReferenceableNode(Node node) throws RepositoryException { if (!node.isNodeType(mixReferenceable)) { return node; } NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node returnedNode = locateNonReferenceableNode(nodes.nextNode()); if (returnedNode != null) { return returnedNode; } } return null; } /** * Returns the first descendant of node which has a property of * type {@link javax.jcr.PropertyType#REFERENCE} set and is not * multivalued. * * @param node Node to start traversal. * @return first node with a property of PropertType.REFERENCE */ private Node locateNodeWithReference(Node node) throws RepositoryException { PropertyIterator properties = node.getProperties(); while (properties.hasNext()) { Property p = properties.nextProperty(); if (p.getType() == PropertyType.REFERENCE && !p.getDefinition().isMultiple()) { return node; } } NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node returnedNode = locateNodeWithReference(nodes.nextNode()); if (returnedNode != null) { return returnedNode; } } return null; } /** * Returns the first descendant of node which defines a primary * item. * * @param node Node to start traversal. * @return first node with a primary item */ private Node locateNodeWithPrimaryItem(Node node) throws RepositoryException { if (node.getPrimaryNodeType().getPrimaryItemName() != null) { return node; } NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node returnedNode = locateNodeWithPrimaryItem(nodes.nextNode()); if (returnedNode != null) { return returnedNode; } } return null; } /** * Returns the first descendant of node which does not define a * primary item. * * @param node Node to start traversal. * @return first node without a primary item */ private Node locateNodeWithoutPrimaryItem(Node node) throws RepositoryException { if (node.getPrimaryNodeType().getPrimaryItemName() == null) { return node; } NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node n = locateNodeWithoutPrimaryItem(nodes.nextNode()); if (n != null) { return n; } } return null; } /** * Returns the first descendant of node which has same name * siblings. * * @param node Node to start traversal. * @return first node with same name siblings */ private Node locateNodeWithSameNameSiblings(Node node) throws RepositoryException { NodeIterator nodes = node.getNodes(); while (nodes.hasNext()) { Node n = nodes.nextNode(); NodeIterator nodes2 = node.getNodes(n.getName()); int i = 0; while (nodes2.hasNext()) { nodes2.next(); i++; } if (i > 1) { // node has same name siblings return n; } else { Node returnedNode = locateNodeWithSameNameSiblings(n); if (returnedNode != null) { return returnedNode; } } } return null; } }





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