core/tests/coretests/src/android/pim/vcard/test_utils/PropertyNodesVerifierElem.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2010 The Android Open Source Project
  *
  * 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.
  */
 package android.pim.vcard.test_utils;

 import android.content.ContentValues;
 import android.test.AndroidTestCase;

 import junit.framework.TestCase;

 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;

 /**
  * Utility class which verifies input VNode.
  *
  * This class first checks whether each propertyNode in the VNode is in the
  * "ordered expected property list".
  * If the node does not exist in the "ordered list", the class refers to
  * "unorderd expected property set" and checks the node is expected somewhere.
  */
 public class PropertyNodesVerifierElem {
     public static class TypeSet extends HashSet<String> {
         public TypeSet(String ... array) {
             super(Arrays.asList(array));
         }
     }

     public static class GroupSet extends HashSet<String> {
         public GroupSet(String ... array) {
             super(Arrays.asList(array));
         }
     }

     private final HashMap<String, List<PropertyNode>> mOrderedNodeMap;
     // Intentionally use ArrayList instead of Set, assuming there may be more than one
     // exactly same objects.
     private final ArrayList<PropertyNode> mUnorderedNodeList;

     public PropertyNodesVerifierElem(AndroidTestCase androidTestCase) {
         mOrderedNodeMap = new HashMap<String, List<PropertyNode>>();
         mUnorderedNodeList = new ArrayList<PropertyNode>();
     }

     // WithOrder

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue) {
         return addExpectedNodeWithOrder(propName, propValue, null, null, null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(
             String propName, String propValue, ContentValues contentValues) {
         return addExpectedNodeWithOrder(propName, propValue, null,
                 null, contentValues, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(
             String propName, List<String> propValueList, ContentValues contentValues) {
         return addExpectedNodeWithOrder(propName, null, propValueList,
                 null, contentValues, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(
             String propName, String propValue, List<String> propValueList) {
         return addExpectedNodeWithOrder(propName, propValue, propValueList, null,
                 null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(
             String propName, List<String> propValueList) {
         final String propValue = concatinateListWithSemiColon(propValueList);
         return addExpectedNodeWithOrder(propName, propValue.toString(), propValueList,
                 null, null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
             TypeSet paramMap_TYPE) {
         return addExpectedNodeWithOrder(propName, propValue, null,
                 null, null, paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName,
             List<String> propValueList, TypeSet paramMap_TYPE) {
         return addExpectedNodeWithOrder(propName, null, propValueList, null, null,
                 paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName,
             List<String> propValueList, ContentValues paramMap, TypeSet paramMap_TYPE) {
         return addExpectedNodeWithOrder(propName, null, propValueList, null, paramMap,
                 paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
             ContentValues paramMap, TypeSet paramMap_TYPE) {
         return addExpectedNodeWithOrder(propName, propValue, null, null,
                 paramMap, paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
             List<String> propValueList, TypeSet paramMap_TYPE) {
         return addExpectedNodeWithOrder(propName, propValue, propValueList, null, null,
                 paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
             List<String> propValueList, ContentValues paramMap) {
         return addExpectedNodeWithOrder(propName, propValue, propValueList, null, paramMap,
                 null, null);
     }

     public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
             List<String> propValueList, byte[] propValue_bytes,
             ContentValues paramMap, TypeSet paramMap_TYPE, GroupSet propGroupSet) {
         if (propValue == null && propValueList != null) {
             propValue = concatinateListWithSemiColon(propValueList);
         }
         final PropertyNode propertyNode = new PropertyNode(propName,
                 propValue, propValueList, propValue_bytes,
                 paramMap, paramMap_TYPE, propGroupSet);
         List<PropertyNode> expectedNodeList = mOrderedNodeMap.get(propName);
         if (expectedNodeList == null) {
             expectedNodeList = new ArrayList<PropertyNode>();
             mOrderedNodeMap.put(propName, expectedNodeList);
         }
         expectedNodeList.add(propertyNode);
         return this;
     }

     // WithoutOrder

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue) {
         return addExpectedNode(propName, propValue, null, null, null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             ContentValues contentValues) {
         return addExpectedNode(propName, propValue, null, null, contentValues, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName,
             List<String> propValueList, ContentValues contentValues) {
         return addExpectedNode(propName, null,
                 propValueList, null, contentValues, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             List<String> propValueList) {
         return addExpectedNode(propName, propValue, propValueList, null, null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName,
             List<String> propValueList) {
         return addExpectedNode(propName, null, propValueList,
                 null, null, null, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             TypeSet paramMap_TYPE) {
         return addExpectedNode(propName, propValue, null, null, null, paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName,
             List<String> propValueList, TypeSet paramMap_TYPE) {
         final String propValue = concatinateListWithSemiColon(propValueList);
         return addExpectedNode(propName, propValue, propValueList, null, null,
                 paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             List<String> propValueList, TypeSet paramMap_TYPE) {
         return addExpectedNode(propName, propValue, propValueList, null, null,
                 paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             ContentValues paramMap, TypeSet paramMap_TYPE) {
         return addExpectedNode(propName, propValue, null, null,
                 paramMap, paramMap_TYPE, null);
     }

     public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
             List<String> propValueList, byte[] propValue_bytes,
             ContentValues paramMap, TypeSet paramMap_TYPE, GroupSet propGroupSet) {
         if (propValue == null && propValueList != null) {
             propValue = concatinateListWithSemiColon(propValueList);
         }
         mUnorderedNodeList.add(new PropertyNode(propName, propValue,
                 propValueList, propValue_bytes, paramMap, paramMap_TYPE, propGroupSet));
         return this;
     }

     public void verify(VNode vnode) {
         for (PropertyNode actualNode : vnode.propList) {
             verifyNode(actualNode.propName, actualNode);
         }

         if (!mOrderedNodeMap.isEmpty() || !mUnorderedNodeList.isEmpty()) {
             final List<String> expectedProps = new ArrayList<String>();
             for (List<PropertyNode> nodes : mOrderedNodeMap.values()) {
                 for (PropertyNode node : nodes) {
                     if (!expectedProps.contains(node.propName)) {
                         expectedProps.add(node.propName);
                     }
                 }
             }
             for (PropertyNode node : mUnorderedNodeList) {
                 if (!expectedProps.contains(node.propName)) {
                     expectedProps.add(node.propName);
                 }
             }
             TestCase.fail("Expected property " + Arrays.toString(expectedProps.toArray())
                     + " was not found.");
         }
     }

     private void verifyNode(final String propName, final PropertyNode actualNode) {
         final List<PropertyNode> expectedNodeList = mOrderedNodeMap.get(propName);
         final int size = (expectedNodeList != null ? expectedNodeList.size() : 0);
         if (size > 0) {
             for (int i = 0; i < size; i++) {
                 final PropertyNode expectedNode = expectedNodeList.get(i);
                 final List<PropertyNode> expectedButDifferentValueList =
                         new ArrayList<PropertyNode>();
                 if (expectedNode.propName.equals(propName)) {
                     if (expectedNode.equals(actualNode)) {
                         expectedNodeList.remove(i);
                         if (expectedNodeList.size() == 0) {
                             mOrderedNodeMap.remove(propName);
                         }
                         return;
                     } else {
                         expectedButDifferentValueList.add(expectedNode);
                     }
                 }

                 // "actualNode" is not in ordered expected list.
                 // Try looking over unordered expected list.
                 if (tryFoundExpectedNodeFromUnorderedList(actualNode,
                         expectedButDifferentValueList)) {
                     return;
                 }

                 if (!expectedButDifferentValueList.isEmpty()) {
                     // Same propName exists but with different value(s).
                     failWithExpectedNodeList(propName, actualNode,
                             expectedButDifferentValueList);
                 } else {
                     // There's no expected node with same propName.
                     TestCase.fail("Unexpected property \"" + propName + "\" exists.");
                 }
             }
         } else {
             List<PropertyNode> expectedButDifferentValueList =
                 new ArrayList<PropertyNode>();
             if (tryFoundExpectedNodeFromUnorderedList(actualNode, expectedButDifferentValueList)) {
                 return;
             } else {
                 if (!expectedButDifferentValueList.isEmpty()) {
                     // Same propName exists but with different value(s).
                     failWithExpectedNodeList(propName, actualNode,
                             expectedButDifferentValueList);
                 } else {
                     // There's no expected node with same propName.
                     TestCase.fail("Unexpected property \"" + propName + "\" exists.");
                 }
             }
         }
     }

     private String concatinateListWithSemiColon(List<String> array) {
         StringBuffer buffer = new StringBuffer();
         boolean first = true;
         for (String propValueElem : array) {
             if (first) {
                 first = false;
             } else {
                 buffer.append(';');
             }
             buffer.append(propValueElem);
         }

         return buffer.toString();
     }

     private boolean tryFoundExpectedNodeFromUnorderedList(PropertyNode actualNode,
             List<PropertyNode> expectedButDifferentValueList) {
         final String propName = actualNode.propName;
         int unorderedListSize = mUnorderedNodeList.size();
         for (int i = 0; i < unorderedListSize; i++) {
             PropertyNode unorderedExpectedNode = mUnorderedNodeList.get(i);
             if (unorderedExpectedNode.propName.equals(propName)) {
                 if (unorderedExpectedNode.equals(actualNode)) {
                     mUnorderedNodeList.remove(i);
                     return true;
                 }
                 expectedButDifferentValueList.add(unorderedExpectedNode);
             }
         }
         return false;
     }

     private void failWithExpectedNodeList(String propName, PropertyNode actualNode,
             List<PropertyNode> expectedNodeList) {
         StringBuilder builder = new StringBuilder();
         for (PropertyNode expectedNode : expectedNodeList) {
             builder.append("expected: ");
             builder.append(expectedNode.toString());
             builder.append("\n");
         }
         TestCase.fail("Property \"" + propName + "\" has wrong value.\n"
                 + builder.toString()
                 + "  actual: " + actualNode.toString());
     }
 }
	/*
	* Copyright (C) 2010 The Android Open Source Project
	*
	* 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.
	*/
	package android.pim.vcard.test_utils;

	import android.content.ContentValues;
	import android.test.AndroidTestCase;

	import junit.framework.TestCase;

	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;

	/**
	* Utility class which verifies input VNode.
	*
	* This class first checks whether each propertyNode in the VNode is in the
	* "ordered expected property list".
	* If the node does not exist in the "ordered list", the class refers to
	* "unorderd expected property set" and checks the node is expected somewhere.
	*/
	public class PropertyNodesVerifierElem {
	public static class TypeSet extends HashSet<String> {
	public TypeSet(String ... array) {
	super(Arrays.asList(array));
	}
	}

	public static class GroupSet extends HashSet<String> {
	public GroupSet(String ... array) {
	super(Arrays.asList(array));
	}
	}

	private final HashMap<String, List<PropertyNode>> mOrderedNodeMap;
	// Intentionally use ArrayList instead of Set, assuming there may be more than one
	// exactly same objects.
	private final ArrayList<PropertyNode> mUnorderedNodeList;

	public PropertyNodesVerifierElem(AndroidTestCase androidTestCase) {
	mOrderedNodeMap = new HashMap<String, List<PropertyNode>>();
	mUnorderedNodeList = new ArrayList<PropertyNode>();
	}

	// WithOrder

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue) {
	return addExpectedNodeWithOrder(propName, propValue, null, null, null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(
	String propName, String propValue, ContentValues contentValues) {
	return addExpectedNodeWithOrder(propName, propValue, null,
	null, contentValues, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(
	String propName, List<String> propValueList, ContentValues contentValues) {
	return addExpectedNodeWithOrder(propName, null, propValueList,
	null, contentValues, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(
	String propName, String propValue, List<String> propValueList) {
	return addExpectedNodeWithOrder(propName, propValue, propValueList, null,
	null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(
	String propName, List<String> propValueList) {
	final String propValue = concatinateListWithSemiColon(propValueList);
	return addExpectedNodeWithOrder(propName, propValue.toString(), propValueList,
	null, null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
	TypeSet paramMap_TYPE) {
	return addExpectedNodeWithOrder(propName, propValue, null,
	null, null, paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName,
	List<String> propValueList, TypeSet paramMap_TYPE) {
	return addExpectedNodeWithOrder(propName, null, propValueList, null, null,
	paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName,
	List<String> propValueList, ContentValues paramMap, TypeSet paramMap_TYPE) {
	return addExpectedNodeWithOrder(propName, null, propValueList, null, paramMap,
	paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
	ContentValues paramMap, TypeSet paramMap_TYPE) {
	return addExpectedNodeWithOrder(propName, propValue, null, null,
	paramMap, paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
	List<String> propValueList, TypeSet paramMap_TYPE) {
	return addExpectedNodeWithOrder(propName, propValue, propValueList, null, null,
	paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
	List<String> propValueList, ContentValues paramMap) {
	return addExpectedNodeWithOrder(propName, propValue, propValueList, null, paramMap,
	null, null);
	}

	public PropertyNodesVerifierElem addExpectedNodeWithOrder(String propName, String propValue,
	List<String> propValueList, byte[] propValue_bytes,
	ContentValues paramMap, TypeSet paramMap_TYPE, GroupSet propGroupSet) {
	if (propValue == null && propValueList != null) {
	propValue = concatinateListWithSemiColon(propValueList);
	}
	final PropertyNode propertyNode = new PropertyNode(propName,
	propValue, propValueList, propValue_bytes,
	paramMap, paramMap_TYPE, propGroupSet);
	List<PropertyNode> expectedNodeList = mOrderedNodeMap.get(propName);
	if (expectedNodeList == null) {
	expectedNodeList = new ArrayList<PropertyNode>();
	mOrderedNodeMap.put(propName, expectedNodeList);
	}
	expectedNodeList.add(propertyNode);
	return this;
	}

	// WithoutOrder

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue) {
	return addExpectedNode(propName, propValue, null, null, null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	ContentValues contentValues) {
	return addExpectedNode(propName, propValue, null, null, contentValues, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName,
	List<String> propValueList, ContentValues contentValues) {
	return addExpectedNode(propName, null,
	propValueList, null, contentValues, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	List<String> propValueList) {
	return addExpectedNode(propName, propValue, propValueList, null, null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName,
	List<String> propValueList) {
	return addExpectedNode(propName, null, propValueList,
	null, null, null, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	TypeSet paramMap_TYPE) {
	return addExpectedNode(propName, propValue, null, null, null, paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName,
	List<String> propValueList, TypeSet paramMap_TYPE) {
	final String propValue = concatinateListWithSemiColon(propValueList);
	return addExpectedNode(propName, propValue, propValueList, null, null,
	paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	List<String> propValueList, TypeSet paramMap_TYPE) {
	return addExpectedNode(propName, propValue, propValueList, null, null,
	paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	ContentValues paramMap, TypeSet paramMap_TYPE) {
	return addExpectedNode(propName, propValue, null, null,
	paramMap, paramMap_TYPE, null);
	}

	public PropertyNodesVerifierElem addExpectedNode(String propName, String propValue,
	List<String> propValueList, byte[] propValue_bytes,
	ContentValues paramMap, TypeSet paramMap_TYPE, GroupSet propGroupSet) {
	if (propValue == null && propValueList != null) {
	propValue = concatinateListWithSemiColon(propValueList);
	}
	mUnorderedNodeList.add(new PropertyNode(propName, propValue,
	propValueList, propValue_bytes, paramMap, paramMap_TYPE, propGroupSet));
	return this;
	}

	public void verify(VNode vnode) {
	for (PropertyNode actualNode : vnode.propList) {
	verifyNode(actualNode.propName, actualNode);
	}

	if (!mOrderedNodeMap.isEmpty() \|\| !mUnorderedNodeList.isEmpty()) {
	final List<String> expectedProps = new ArrayList<String>();
	for (List<PropertyNode> nodes : mOrderedNodeMap.values()) {
	for (PropertyNode node : nodes) {
	if (!expectedProps.contains(node.propName)) {
	expectedProps.add(node.propName);
	}
	}
	}
	for (PropertyNode node : mUnorderedNodeList) {
	if (!expectedProps.contains(node.propName)) {
	expectedProps.add(node.propName);
	}
	}
	TestCase.fail("Expected property " + Arrays.toString(expectedProps.toArray())
	+ " was not found.");
	}
	}

	private void verifyNode(final String propName, final PropertyNode actualNode) {
	final List<PropertyNode> expectedNodeList = mOrderedNodeMap.get(propName);
	final int size = (expectedNodeList != null ? expectedNodeList.size() : 0);
	if (size > 0) {
	for (int i = 0; i < size; i++) {
	final PropertyNode expectedNode = expectedNodeList.get(i);
	final List<PropertyNode> expectedButDifferentValueList =
	new ArrayList<PropertyNode>();
	if (expectedNode.propName.equals(propName)) {
	if (expectedNode.equals(actualNode)) {
	expectedNodeList.remove(i);
	if (expectedNodeList.size() == 0) {
	mOrderedNodeMap.remove(propName);
	}
	return;
	} else {
	expectedButDifferentValueList.add(expectedNode);
	}
	}

	// "actualNode" is not in ordered expected list.
	// Try looking over unordered expected list.
	if (tryFoundExpectedNodeFromUnorderedList(actualNode,
	expectedButDifferentValueList)) {
	return;
	}

	if (!expectedButDifferentValueList.isEmpty()) {
	// Same propName exists but with different value(s).
	failWithExpectedNodeList(propName, actualNode,
	expectedButDifferentValueList);
	} else {
	// There's no expected node with same propName.
	TestCase.fail("Unexpected property \"" + propName + "\" exists.");
	}
	}
	} else {
	List<PropertyNode> expectedButDifferentValueList =
	new ArrayList<PropertyNode>();
	if (tryFoundExpectedNodeFromUnorderedList(actualNode, expectedButDifferentValueList)) {
	return;
	} else {
	if (!expectedButDifferentValueList.isEmpty()) {
	// Same propName exists but with different value(s).
	failWithExpectedNodeList(propName, actualNode,
	expectedButDifferentValueList);
	} else {
	// There's no expected node with same propName.
	TestCase.fail("Unexpected property \"" + propName + "\" exists.");
	}
	}
	}
	}

	private String concatinateListWithSemiColon(List<String> array) {
	StringBuffer buffer = new StringBuffer();
	boolean first = true;
	for (String propValueElem : array) {
	if (first) {
	first = false;
	} else {
	buffer.append(';');
	}
	buffer.append(propValueElem);
	}

	return buffer.toString();
	}

	private boolean tryFoundExpectedNodeFromUnorderedList(PropertyNode actualNode,
	List<PropertyNode> expectedButDifferentValueList) {
	final String propName = actualNode.propName;
	int unorderedListSize = mUnorderedNodeList.size();
	for (int i = 0; i < unorderedListSize; i++) {
	PropertyNode unorderedExpectedNode = mUnorderedNodeList.get(i);
	if (unorderedExpectedNode.propName.equals(propName)) {
	if (unorderedExpectedNode.equals(actualNode)) {
	mUnorderedNodeList.remove(i);
	return true;
	}
	expectedButDifferentValueList.add(unorderedExpectedNode);
	}
	}
	return false;
	}

	private void failWithExpectedNodeList(String propName, PropertyNode actualNode,
	List<PropertyNode> expectedNodeList) {
	StringBuilder builder = new StringBuilder();
	for (PropertyNode expectedNode : expectedNodeList) {
	builder.append("expected: ");
	builder.append(expectedNode.toString());
	builder.append("\n");
	}
	TestCase.fail("Property \"" + propName + "\" has wrong value.\n"
	+ builder.toString()
	+ " actual: " + actualNode.toString());
	}
	}