2017-01-16 20:59:50 +01:00
/ * Copyright ( c ) Citrix Systems , Inc .
2013-06-24 13:41:48 +02:00
* All rights reserved .
*
* Redistribution and use in source and binary forms ,
* with or without modification , are permitted provided
* that the following conditions are met :
*
* * Redistributions of source code must retain the above
* copyright notice , this list of conditions and the
* following disclaimer .
* * Redistributions in binary form must reproduce the above
* copyright notice , this list of conditions and the
* following disclaimer in the documentation and / or other
* materials provided with the distribution .
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES ,
* INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED . IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT , INDIRECT , INCIDENTAL ,
* SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES ( INCLUDING ,
* BUT NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES ; LOSS OF USE , DATA , OR PROFITS ; OR BUSINESS
* INTERRUPTION ) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY ,
* WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT ( INCLUDING
* NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE .
* /
using System.Windows.Forms ;
using NUnit.Framework ;
using XenAdmin.Controls ;
using System ;
using System.Drawing ;
namespace XenAdminTests.TreeTests
{
[TestFixture, Category(TestCategories.UICategoryB)]
public class VirtualTreeViewTests
{
private VirtualTreeView _vtv ;
private TreeView _tv ;
private static void AssertNodeIsDummy ( TreeNode node )
{
Assert . IsFalse ( node is VirtualTreeNode ) ;
Assert . AreEqual ( "DummyTreeNode" , node . GetType ( ) . Name , "node isn't DummyTreeNode" ) ;
}
[SetUp]
public void Setup ( )
{
_vtv = new VirtualTreeView ( ) ;
_tv = _vtv ;
// ensure handle is created. Some tests fail if you don't do this.
IntPtr h = _vtv . Handle ;
}
[Test]
public void TestAddRootNode ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "rootNode" ) ) ;
Assert . AreEqual ( 1 , _tv . Nodes . Count ) ;
Assert . AreEqual ( "rootNode" , _tv . Nodes [ 0 ] . Text ) ;
}
[Test]
public void TestAddChildNodeWhenRootCollapsed ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Collapse ( ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
AssertNodeIsDummy ( _tv . Nodes [ 0 ] . Nodes [ 0 ] ) ;
// now expand the rootnode, and the child should be there.
_vtv . Nodes [ 0 ] . Expand ( ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "child" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
}
[Test]
public void TestAddChildNodesWithRootCollapsed ( )
{
// add root node
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
// ensure root node collapsed
_vtv . Nodes [ 0 ] . Collapse ( ) ;
// now add some child nodes.
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "firstChild" ) ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "secondChild" ) ) ;
// now expand the rootnode, and the first child should be there but the second child shouldn't
_vtv . Nodes [ 0 ] . Expand ( ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "firstChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
AssertNodeIsDummy ( _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] ) ;
// now expand firstChild to make secondChild visible
_tv . Nodes [ 0 ] . Nodes [ 0 ] . Expand ( ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "secondChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
}
[Test]
public void TestAddChildNodeWhenRootExpanded ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
_vtv . Nodes [ 0 ] . Expand ( ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child2" ) ) ;
Assert . AreEqual ( 2 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "child" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( "child2" , _tv . Nodes [ 0 ] . Nodes [ 1 ] . Text ) ;
}
[Test]
public void TestAddChildNodesWhenRootExpanded ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
// now add some child node and expand.
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
_vtv . Nodes [ 0 ] . Expand ( ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child2" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child3" ) ) ;
Assert . AreEqual ( 3 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "child" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( "child2" , _tv . Nodes [ 0 ] . Nodes [ 1 ] . Text ) ;
Assert . AreEqual ( "child3" , _tv . Nodes [ 0 ] . Nodes [ 2 ] . Text ) ;
}
[Test]
public void TestAddSubtreeWithRootCollapsed ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
// build subtree
VirtualTreeNode subTree = new VirtualTreeNode ( "firstChild" ) ;
subTree . Nodes . Add ( new VirtualTreeNode ( "secondChild" ) ) ;
subTree . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "thirdChild" ) ) ;
// only expand secondChild
subTree . Nodes [ 0 ] . Expand ( ) ;
// now add subtree
_vtv . Nodes [ 0 ] . Nodes . Add ( subTree ) ;
// root node should only have dummy
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
AssertNodeIsDummy ( _tv . Nodes [ 0 ] . Nodes [ 0 ] ) ;
// in the virtual collections, the expanded states should still be correct
Assert . IsFalse ( subTree . IsExpanded ) ;
Assert . IsTrue ( subTree . Nodes [ 0 ] . IsExpanded ) ;
Assert . IsFalse ( subTree . Nodes [ 0 ] . Nodes [ 0 ] . IsExpanded ) ;
// now expand the root node. only the first child should be visible
_vtv . Nodes [ 0 ] . Expand ( ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "firstChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
AssertNodeIsDummy ( _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] ) ;
// now expand the first child, this should result in the secondChild AND thirdChild becoming visible (as secondChild was expanded before it was added to the treeview)
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Expand ( ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "secondChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "thirdChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
}
[Test]
public void TestSelectedSiblingWhichIsntVisible ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 0 , new VirtualTreeNode ( "firstChild" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 1 , new VirtualTreeNode ( "secondChild" ) ) ;
_vtv . SelectedNode = _vtv . Nodes [ 0 ] . Nodes [ 1 ] ;
Assert . AreEqual ( _vtv . SelectedNode , _vtv . Nodes [ 0 ] . Nodes [ 1 ] , "Sibling was not correctly selected." ) ;
}
[Test]
public void TestSelectedSiblingWhichIsntVisible2 ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 0 , new VirtualTreeNode ( "firstChild" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 1 , new VirtualTreeNode ( "secondChild" ) ) ;
_vtv . SelectedNode = _vtv . Nodes [ 0 ] . Nodes [ 0 ] ;
Assert . AreEqual ( _vtv . SelectedNode , _vtv . Nodes [ 0 ] . Nodes [ 0 ] , "Sibling was not correctly selected." ) ;
}
[Test]
public void RemoveAndReAddTest ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 0 , new VirtualTreeNode ( "firstChild" ) ) ;
VirtualTreeNode secondChild = new VirtualTreeNode ( "secondChild" ) ;
_vtv . Nodes [ 0 ] . Nodes . Insert ( 1 , secondChild ) ;
// expand and then collapse root node
_vtv . Nodes [ 0 ] . Expand ( ) ;
_vtv . Nodes [ 0 ] . Collapse ( ) ;
// now remove secondChild
_vtv . Nodes [ 0 ] . Nodes . RemoveAt ( 1 ) ;
// now re-add it
_vtv . Nodes . Add ( secondChild ) ;
Assert . AreEqual ( 1 , _vtv . Nodes [ 0 ] . Nodes . Count , "node wasn't removed." ) ;
Assert . AreEqual ( secondChild , _vtv . Nodes [ 1 ] , "node wasn't re-added" ) ;
}
[Test]
public void TestSimpleRootNodeUpdateWhenCollapsed ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
VirtualTreeNode newRoot = new VirtualTreeNode ( "newRoot" ) ;
newRoot . Nodes . Add ( new VirtualTreeNode ( "newChild" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { newRoot } ) ;
Assert . AreEqual ( 1 , _vtv . Nodes . Count , "Virtual nodes weren't correctly updated." ) ;
Assert . AreEqual ( 1 , _vtv . Nodes [ 0 ] . Nodes . Count , "Virtual nodes weren't correctly updated." ) ;
Assert . AreEqual ( "newRoot" , _vtv . Nodes [ 0 ] . Text , "Virtual nodes weren't correctly updated." ) ;
Assert . AreEqual ( "newChild" , _vtv . Nodes [ 0 ] . Nodes [ 0 ] . Text , "Virtual nodes weren't correctly updated." ) ;
Assert . AreEqual ( 1 , _tv . Nodes . Count , "Nodes weren't correctly updated." ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count , "Nodes weren't correctly updated." ) ;
Assert . AreEqual ( "newRoot" , _tv . Nodes [ 0 ] . Text , "Nodes weren't correctly updated." ) ;
AssertNodeIsDummy ( _tv . Nodes [ 0 ] . Nodes [ 0 ] ) ;
}
[Test]
public void TestPropertiesOnSimpleRootNodeUpdate ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
VirtualTreeNode newRoot = new VirtualTreeNode ( "newRoot" ) ;
//newRoot.ImageIndexFetcher = delegate { return 1; };
newRoot . ImageIndex = 3 ;
newRoot . SelectedImageIndex = 4 ;
newRoot . Text = "hello" ;
newRoot . NodeFont = SystemFonts . CaptionFont ;
newRoot . BackColor = Color . Beige ;
newRoot . ForeColor = Color . Bisque ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { newRoot } ) ;
//Assert.IsNotNull(_vtv.Nodes[0].ImageIndexFetcher, "ImageIndexFetcher");
Assert . AreEqual ( 3 , _vtv . Nodes [ 0 ] . ImageIndex ) ;
Assert . AreEqual ( 4 , _vtv . Nodes [ 0 ] . SelectedImageIndex ) ;
Assert . AreEqual ( "hello" , _vtv . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( SystemFonts . CaptionFont , _vtv . Nodes [ 0 ] . NodeFont ) ;
Assert . AreEqual ( Color . Beige , _vtv . Nodes [ 0 ] . BackColor ) ;
Assert . AreEqual ( Color . Bisque , _vtv . Nodes [ 0 ] . ForeColor ) ;
Assert . AreEqual ( 3 , _tv . Nodes [ 0 ] . ImageIndex ) ;
Assert . AreEqual ( 4 , _tv . Nodes [ 0 ] . SelectedImageIndex ) ;
Assert . AreEqual ( "hello" , _tv . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( SystemFonts . CaptionFont , _tv . Nodes [ 0 ] . NodeFont ) ;
Assert . AreEqual ( Color . Beige , _tv . Nodes [ 0 ] . BackColor ) ;
Assert . AreEqual ( Color . Bisque , _tv . Nodes [ 0 ] . ForeColor ) ;
}
[Test]
public void TestNodeDeleteOnRootNodeUpdate ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes . Add ( new VirtualTreeNode ( "root2" ) ) ;
_vtv . Nodes . Add ( new VirtualTreeNode ( "root3" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child2" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child3" ) ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild" ) ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild2" ) ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild3" ) ) ;
_vtv . Nodes [ 0 ] . Expand ( ) ;
_vtv . Nodes [ 1 ] . Expand ( ) ;
_vtv . Nodes [ 2 ] . Expand ( ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Expand ( ) ;
VirtualTreeNode newRoot = new VirtualTreeNode ( "newRoot" ) ;
newRoot . Nodes . Add ( new VirtualTreeNode ( "newChild" ) ) ;
newRoot . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "newGrandChild" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { newRoot } ) ;
Assert . AreEqual ( 1 , _vtv . Nodes . Count ) ;
Assert . AreEqual ( 1 , _vtv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( 1 , _vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( 1 , _tv . Nodes . Count ) ;
Assert . AreEqual ( 1 , _tv . Nodes [ 0 ] . Nodes . Count ) ;
Assert . AreEqual ( "newRoot" , _tv . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( "newChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
Assert . AreEqual ( "newGrandChild" , _tv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . Text ) ;
}
[Test]
public void TestChildNodesRemovedWhenUpdatingParentNodes ( )
{
_vtv . Nodes . Add ( new VirtualTreeNode ( "root" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child2" ) ) ;
_vtv . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "child3" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { new VirtualTreeNode ( "newRoot" ) } ) ;
Assert . AreEqual ( 0 , _vtv . Nodes [ 0 ] . Nodes . Count , "The last virtual child node wasn't removed" ) ;
Assert . AreEqual ( 0 , _tv . Nodes [ 0 ] . Nodes . Count , "The last real child node wasn't removed" ) ;
}
[Test]
public void TestUpdateWhenRemoveAllChildNodesOfExandedParent ( )
{
// this is a test for the bug shown in CA-34486 and CA-36409.
// When merging sets of tree-nodes using UpdateRootNodes, if you remove all of
// the child-nodes from a node, the node still remembers its IsExpanded state
// from before the nodes were removed regardless of whether you call Collapse()
// or Expand() after the nodes were removed.
// This causes problems for the Virtual treeview as it
// relies the BeforeExpanded event to convert DummyTreeNodes into VirtualTreeNodes
// on population.
VirtualTreeNode rootNode = new VirtualTreeNode ( "root" ) ;
rootNode . Nodes . Add ( new VirtualTreeNode ( "child" ) ) ;
rootNode . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild" ) ) ;
rootNode . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandgrandchild" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { rootNode } ) ;
_vtv . EndUpdate ( ) ;
// expand all nodes so that all DummyNodes are replaced.
_vtv . ExpandAll ( ) ;
// now merge with smaller tree
VirtualTreeNode rootNode2 = new VirtualTreeNode ( "root2" ) ;
rootNode2 . Nodes . Add ( new VirtualTreeNode ( "child2" ) ) ;
rootNode2 . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild2" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { rootNode2 } ) ;
_vtv . EndUpdate ( ) ;
// collapse all so the next merge doesn't replace DummyNodes.
_vtv . CollapseAll ( ) ;
// now re-merge with big tree
VirtualTreeNode rootNode3 = new VirtualTreeNode ( "root3" ) ;
rootNode3 . Nodes . Add ( new VirtualTreeNode ( "child3" ) ) ;
rootNode3 . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandchild3" ) ) ;
rootNode3 . Nodes [ 0 ] . Nodes [ 0 ] . Nodes . Add ( new VirtualTreeNode ( "grandgrandchild3" ) ) ;
_vtv . UpdateRootNodes ( new VirtualTreeNode [ ] { rootNode3 } ) ;
_vtv . EndUpdate ( ) ;
_vtv . Nodes [ 0 ] . Expand ( ) ;
_vtv . Nodes [ 0 ] . Nodes [ 0 ] . Expand ( ) ;
Assert . IsFalse ( _vtv . Nodes [ 0 ] . Nodes [ 0 ] . Nodes [ 0 ] . IsExpanded , "Expanded state was remembered. It shouldn't be." ) ;
}
}
}