using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using Terminal.Gui; using Terminal.Gui.Trees; using Xunit; using Xunit.Abstractions; namespace Terminal.Gui.ViewTests { public class TreeViewTests { readonly ITestOutputHelper output; public TreeViewTests (ITestOutputHelper output) { this.output = output; } #region Test Setup Methods class Factory { public Car [] Cars { get; set; } public override string ToString () { return "Factory"; } }; class Car { public string Name { get; set; } public override string ToString () { return Name; } }; private TreeView CreateTree () { return CreateTree (out _, out _, out _); } private TreeView CreateTree (out Factory factory1, out Car car1, out Car car2) { car1 = new Car (); car2 = new Car (); factory1 = new Factory () { Cars = new [] { car1, car2 } }; var tree = new TreeView (new DelegateTreeBuilder ((s) => s is Factory f ? f.Cars : null)); tree.AddObject (factory1); return tree; } #endregion /// /// Tests that and are consistent /// [Fact] public void IsExpanded_TrueAfterExpand () { var tree = CreateTree (out Factory f, out _, out _); Assert.False (tree.IsExpanded (f)); tree.Expand (f); Assert.True (tree.IsExpanded (f)); tree.Collapse (f); Assert.False (tree.IsExpanded (f)); } [Fact] public void EmptyTreeView_ContentSizes () { var emptyTree = new TreeView (); Assert.Equal (0, emptyTree.ContentHeight); Assert.Equal (0, emptyTree.GetContentWidth (true)); Assert.Equal (0, emptyTree.GetContentWidth (false)); } [Fact] public void EmptyTreeViewGeneric_ContentSizes () { var emptyTree = new TreeView (); Assert.Equal (0, emptyTree.ContentHeight); Assert.Equal (0, emptyTree.GetContentWidth (true)); Assert.Equal (0, emptyTree.GetContentWidth (false)); } /// /// Tests that results in a correct content height /// [Fact] public void ContentHeight_BiggerAfterExpand () { var tree = CreateTree (out Factory f, out _, out _); Assert.Equal (1, tree.ContentHeight); tree.Expand (f); Assert.Equal (3, tree.ContentHeight); tree.Collapse (f); Assert.Equal (1, tree.ContentHeight); } [Fact] public void ContentWidth_BiggerAfterExpand () { var tree = CreateTree (out Factory f, out Car car1, out _); tree.Bounds = new Rect (0, 0, 10, 10); InitFakeDriver (); //-+Factory Assert.Equal (9, tree.GetContentWidth (true)); car1.Name = "123456789"; tree.Expand (f); //..├-123456789 Assert.Equal (13, tree.GetContentWidth (true)); tree.Collapse (f); //-+Factory Assert.Equal (9, tree.GetContentWidth (true)); Application.Shutdown (); } [Fact] public void ContentWidth_VisibleVsAll () { var tree = CreateTree (out Factory f, out Car car1, out Car car2); // control only allows 1 row to be viewed at once tree.Bounds = new Rect (0, 0, 20, 1); InitFakeDriver (); //-+Factory Assert.Equal (9, tree.GetContentWidth (true)); Assert.Equal (9, tree.GetContentWidth (false)); car1.Name = "123456789"; car2.Name = "12345678"; tree.Expand (f); // Although expanded the bigger (longer) child node is not in the rendered area of the control Assert.Equal (9, tree.GetContentWidth (true)); Assert.Equal (13, tree.GetContentWidth (false)); // If you ask for the global max width it includes the longer child // Now that we have scrolled down 1 row we should see the big child tree.ScrollOffsetVertical = 1; Assert.Equal (13, tree.GetContentWidth (true)); Assert.Equal (13, tree.GetContentWidth (false)); // Scroll down so only car2 is visible tree.ScrollOffsetVertical = 2; Assert.Equal (12, tree.GetContentWidth (true)); Assert.Equal (13, tree.GetContentWidth (false)); // Scroll way down (off bottom of control even) tree.ScrollOffsetVertical = 5; Assert.Equal (0, tree.GetContentWidth (true)); Assert.Equal (13, tree.GetContentWidth (false)); Application.Shutdown (); } /// /// Tests that and behaves correctly when an object cannot be expanded (because it has no children) /// [Fact] public void IsExpanded_FalseIfCannotExpand () { var tree = CreateTree (out Factory f, out Car c, out _); // expose the car by expanding the factory tree.Expand (f); // car is not expanded Assert.False (tree.IsExpanded (c)); //try to expand the car (should have no effect because cars have no children) tree.Expand (c); Assert.False (tree.IsExpanded (c)); // should also be ignored tree.Collapse (c); Assert.False (tree.IsExpanded (c)); Application.Shutdown (); } /// /// Tests illegal ranges for /// [Fact] public void ScrollOffset_CannotBeNegative () { var tree = CreateTree (); Assert.Equal (0, tree.ScrollOffsetVertical); tree.ScrollOffsetVertical = -100; Assert.Equal (0, tree.ScrollOffsetVertical); tree.ScrollOffsetVertical = 10; Assert.Equal (10, tree.ScrollOffsetVertical); } /// /// Tests for objects that are as yet undiscovered by the tree /// [Fact] public void GetScrollOffsetOf_MinusOneForUnRevealed () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); // to start with the tree is collapsed and only knows about the root object Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (-1, tree.GetScrollOffsetOf (c1)); Assert.Equal (-1, tree.GetScrollOffsetOf (c2)); // reveal it by expanding the root object tree.Expand (f); // tree now knows about children Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (1, tree.GetScrollOffsetOf (c1)); Assert.Equal (2, tree.GetScrollOffsetOf (c2)); // after collapsing the root node again tree.Collapse (f); // tree no longer knows about the locations of these objects Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (-1, tree.GetScrollOffsetOf (c1)); Assert.Equal (-1, tree.GetScrollOffsetOf (c2)); } /// /// Simulates behind the scenes changes to an object (which children it has) and how to sync that into the tree using /// [Fact] public void RefreshObject_ChildRemoved () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); //reveal it by expanding the root object tree.Expand (f); Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (1, tree.GetScrollOffsetOf (c1)); Assert.Equal (2, tree.GetScrollOffsetOf (c2)); // Factory now no longer makes Car c1 (only c2) f.Cars = new Car [] { c2 }; // Tree does not know this yet Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (1, tree.GetScrollOffsetOf (c1)); Assert.Equal (2, tree.GetScrollOffsetOf (c2)); // If the user has selected the node c1 tree.SelectedObject = c1; // When we refresh the tree tree.RefreshObject (f); // Now tree knows that factory has only one child node c2 Assert.Equal (0, tree.GetScrollOffsetOf (f)); Assert.Equal (-1, tree.GetScrollOffsetOf (c1)); Assert.Equal (1, tree.GetScrollOffsetOf (c2)); // The old selection was c1 which is now gone so selection should default to the parent of that branch (the factory) Assert.Equal (f, tree.SelectedObject); } /// /// Tests that returns the parent object for /// Cars (Factories). Note that the method only works once the parent branch (Factory) /// is expanded to expose the child (Car) /// [Fact] public void GetParent_ReturnsParentOnlyWhenExpanded () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); Assert.Null (tree.GetParent (f)); Assert.Null (tree.GetParent (c1)); Assert.Null (tree.GetParent (c2)); // now when we expand the factory we discover the cars tree.Expand (f); Assert.Null (tree.GetParent (f)); Assert.Equal (f, tree.GetParent (c1)); Assert.Equal (f, tree.GetParent (c2)); tree.Collapse (f); Assert.Null (tree.GetParent (f)); Assert.Null (tree.GetParent (c1)); Assert.Null (tree.GetParent (c2)); } /// /// Tests how the tree adapts to changes in the ChildrenGetter delegate during runtime /// when some branches are expanded and the new delegate returns children for a node that /// previously didn't have any children /// [Fact] public void RefreshObject_AfterChangingChildrenGetterDuringRuntime () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); string wheel = "Shiny Wheel"; // Expand the Factory tree.Expand (f); // c1 cannot have children Assert.Equal (f, tree.GetParent (c1)); // expanding it does nothing tree.Expand (c1); Assert.False (tree.IsExpanded (c1)); // change the children getter so that now cars can have wheels tree.TreeBuilder = new DelegateTreeBuilder ((o) => // factories have cars o is Factory ? new object [] { c1, c2 } // cars have wheels : new object [] { wheel }); // still cannot expand tree.Expand (c1); Assert.False (tree.IsExpanded (c1)); tree.RefreshObject (c1); tree.Expand (c1); Assert.True (tree.IsExpanded (c1)); Assert.Equal (wheel, tree.GetChildren (c1).FirstOrDefault ()); } /// /// Same as but /// uses instead of /// [Fact] public void RebuildTree_AfterChangingChildrenGetterDuringRuntime () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); string wheel = "Shiny Wheel"; // Expand the Factory tree.Expand (f); // c1 cannot have children Assert.Equal (f, tree.GetParent (c1)); // expanding it does nothing tree.Expand (c1); Assert.False (tree.IsExpanded (c1)); // change the children getter so that now cars can have wheels tree.TreeBuilder = new DelegateTreeBuilder ((o) => // factories have cars o is Factory ? new object [] { c1, c2 } // cars have wheels : new object [] { wheel }); // still cannot expand tree.Expand (c1); Assert.False (tree.IsExpanded (c1)); // Rebuild the tree tree.RebuildTree (); // Rebuild should not have collapsed any branches or done anything wierd Assert.True (tree.IsExpanded (f)); tree.Expand (c1); Assert.True (tree.IsExpanded (c1)); Assert.Equal (wheel, tree.GetChildren (c1).FirstOrDefault ()); } /// /// Tests that returns the child objects for /// the factory. Note that the method only works once the parent branch (Factory) /// is expanded to expose the child (Car) /// [Fact] public void GetChildren_ReturnsChildrenOnlyWhenExpanded () { var tree = CreateTree (out Factory f, out Car c1, out Car c2); Assert.Empty (tree.GetChildren (f)); Assert.Empty (tree.GetChildren (c1)); Assert.Empty (tree.GetChildren (c2)); // now when we expand the factory we discover the cars tree.Expand (f); Assert.Contains (c1, tree.GetChildren (f)); Assert.Contains (c2, tree.GetChildren (f)); Assert.Empty (tree.GetChildren (c1)); Assert.Empty (tree.GetChildren (c2)); tree.Collapse (f); Assert.Empty (tree.GetChildren (f)); Assert.Empty (tree.GetChildren (c1)); Assert.Empty (tree.GetChildren (c2)); } [Fact] public void TreeNode_WorksWithoutDelegate () { var tree = new TreeView (); var root = new TreeNode ("Root"); root.Children.Add (new TreeNode ("Leaf1")); root.Children.Add (new TreeNode ("Leaf2")); tree.AddObject (root); tree.Expand (root); Assert.Equal (2, tree.GetChildren (root).Count ()); } [Fact] public void MultiSelect_GetAllSelectedObjects () { var tree = new TreeView (); TreeNode l1; TreeNode l2; TreeNode l3; TreeNode l4; var root = new TreeNode ("Root"); root.Children.Add (l1 = new TreeNode ("Leaf1")); root.Children.Add (l2 = new TreeNode ("Leaf2")); root.Children.Add (l3 = new TreeNode ("Leaf3")); root.Children.Add (l4 = new TreeNode ("Leaf4")); tree.AddObject (root); tree.MultiSelect = true; tree.Expand (root); Assert.Empty (tree.GetAllSelectedObjects ()); tree.SelectedObject = root; Assert.Single (tree.GetAllSelectedObjects (), root); // move selection down 1 tree.AdjustSelection (1, false); Assert.Single (tree.GetAllSelectedObjects (), l1); // expand selection down 2 (e.g. shift down twice) tree.AdjustSelection (1, true); tree.AdjustSelection (1, true); Assert.Equal (3, tree.GetAllSelectedObjects ().Count ()); Assert.Contains (l1, tree.GetAllSelectedObjects ()); Assert.Contains (l2, tree.GetAllSelectedObjects ()); Assert.Contains (l3, tree.GetAllSelectedObjects ()); tree.Collapse (root); // No selected objects since the root was collapsed Assert.Empty (tree.GetAllSelectedObjects ()); } [Fact] public void ObjectActivated_Called () { var tree = CreateTree (out Factory f, out Car car1, out _); InitFakeDriver (); object activated = null; bool called = false; // register for the event tree.ObjectActivated += (s) => { activated = s.ActivatedObject; called = true; }; Assert.False (called); // no object is selected yet so no event should happen tree.ProcessKey (new KeyEvent (Key.Enter, new KeyModifiers ())); Assert.Null (activated); Assert.False (called); // down to select factory tree.ProcessKey (new KeyEvent (Key.CursorDown, new KeyModifiers ())); tree.ProcessKey (new KeyEvent (Key.Enter, new KeyModifiers ())); Assert.True (called); Assert.Same (f, activated); Application.Shutdown (); } [Fact] public void GoTo_OnlyAppliesToExposedObjects () { var tree = CreateTree (out Factory f, out Car car1, out _); // Make tree bounds 1 in height so that EnsureVisible always requires updating scroll offset tree.Bounds = new Rect (0, 0, 50, 1); Assert.Null (tree.SelectedObject); Assert.Equal (0, tree.ScrollOffsetVertical); // car 1 is not yet exposed tree.GoTo (car1); Assert.Null (tree.SelectedObject); Assert.Equal (0, tree.ScrollOffsetVertical); tree.Expand (f); // Car1 is now exposed by expanding the factory tree.GoTo (car1); Assert.Equal (car1, tree.SelectedObject); Assert.Equal (1, tree.ScrollOffsetVertical); } [Fact] public void GoToEnd_ShouldNotFailOnEmptyTreeView () { var tree = new TreeView (); var exception = Record.Exception (() => tree.GoToEnd ()); Assert.Null (exception); } [Fact] public void ObjectActivated_CustomKey () { var tree = CreateTree (out Factory f, out Car car1, out _); InitFakeDriver (); tree.ObjectActivationKey = Key.Delete; object activated = null; bool called = false; // register for the event tree.ObjectActivated += (s) => { activated = s.ActivatedObject; called = true; }; Assert.False (called); // no object is selected yet so no event should happen tree.ProcessKey (new KeyEvent (Key.Enter, new KeyModifiers ())); Assert.Null (activated); Assert.False (called); // down to select factory tree.ProcessKey (new KeyEvent (Key.CursorDown, new KeyModifiers ())); tree.ProcessKey (new KeyEvent (Key.Enter, new KeyModifiers ())); // Enter is not the activation key in this unit test Assert.Null (activated); Assert.False (called); // Delete is the activation key in this test so should result in activation occurring tree.ProcessKey (new KeyEvent (Key.Delete, new KeyModifiers ())); Assert.True (called); Assert.Same (f, activated); Application.Shutdown (); } [Fact] public void ObjectActivationButton_DoubleClick () { var tree = CreateTree (out Factory f, out Car car1, out _); InitFakeDriver (); object activated = null; bool called = false; // register for the event tree.ObjectActivated += (s) => { activated = s.ActivatedObject; called = true; }; Assert.False (called); // double click triggers activation tree.MouseEvent (new MouseEvent () { Y = 0, Flags = MouseFlags.Button1DoubleClicked }); Assert.True (called); Assert.Same (f, activated); Assert.Same (f, tree.SelectedObject); Application.Shutdown (); } [Fact] public void ObjectActivationButton_SetToNull () { var tree = CreateTree (out Factory f, out Car car1, out _); InitFakeDriver (); // disable activation tree.ObjectActivationButton = null; object activated = null; bool called = false; // register for the event tree.ObjectActivated += (s) => { activated = s.ActivatedObject; called = true; }; Assert.False (called); // double click does nothing because we changed button to null tree.MouseEvent (new MouseEvent () { Y = 0, Flags = MouseFlags.Button1DoubleClicked }); Assert.False (called); Assert.Null (activated); Assert.Null (tree.SelectedObject); Application.Shutdown (); } [Fact] public void ObjectActivationButton_RightClick () { var tree = CreateTree (out Factory f, out Car car1, out _); InitFakeDriver (); tree.ObjectActivationButton = MouseFlags.Button2Clicked; tree.ExpandAll (); object activated = null; bool called = false; // register for the event tree.ObjectActivated += (s) => { activated = s.ActivatedObject; called = true; }; Assert.False (called); // double click does nothing because we changed button binding to right click tree.MouseEvent (new MouseEvent () { Y = 1, Flags = MouseFlags.Button1DoubleClicked }); Assert.Null (activated); Assert.False (called); tree.MouseEvent (new MouseEvent () { Y = 1, Flags = MouseFlags.Button2Clicked }); Assert.True (called); Assert.Same (car1, activated); Assert.Same (car1, tree.SelectedObject); Application.Shutdown (); } /// /// Simulates behind the scenes changes to an object (which children it has) and how to sync that into the tree using /// [Fact] public void RefreshObject_EqualityTest () { var obj1 = new EqualityTestObject () { Name = "Bob", Age = 1 }; var obj2 = new EqualityTestObject () { Name = "Bob", Age = 2 }; ; string root = "root"; var tree = new TreeView (); tree.TreeBuilder = new DelegateTreeBuilder ((s) => ReferenceEquals (s, root) ? new object [] { obj1 } : null); tree.AddObject (root); // Tree is not expanded so the root has no children yet Assert.Empty (tree.GetChildren (root)); tree.Expand (root); // now that the tree is expanded we should get our child returned Assert.Equal (1, tree.GetChildren (root).Count (child => ReferenceEquals (obj1, child))); // change the getter to return an Equal object (but not the same reference - obj2) tree.TreeBuilder = new DelegateTreeBuilder ((s) => ReferenceEquals (s, root) ? new object [] { obj2 } : null); // tree has cached the knowledge of what children the root has so won't know about the change (we still get obj1) Assert.Equal (1, tree.GetChildren (root).Count (child => ReferenceEquals (obj1, child))); // now that we refresh the root we should get the new child reference (obj2) tree.RefreshObject (root); Assert.Equal (1, tree.GetChildren (root).Count (child => ReferenceEquals (obj2, child))); } [Fact, AutoInitShutdown] public void TestGetObjectOnRow () { var tv = new TreeView { Width = 20, Height = 10 }; var n1 = new TreeNode ("normal"); var n1_1 = new TreeNode ("pink"); var n1_2 = new TreeNode ("normal"); n1.Children.Add (n1_1); n1.Children.Add (n1_2); var n2 = new TreeNode ("pink"); tv.AddObject (n1); tv.AddObject (n2); tv.Expand (n1); tv.ColorScheme = new ColorScheme (); tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @"├-normal │ ├─pink │ └─normal └─pink ", output); Assert.Same (n1, tv.GetObjectOnRow (0)); Assert.Same (n1_1, tv.GetObjectOnRow (1)); Assert.Same (n1_2, tv.GetObjectOnRow (2)); Assert.Same (n2, tv.GetObjectOnRow (3)); Assert.Null (tv.GetObjectOnRow (4)); tv.Collapse (n1); tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @"├+normal └─pink ", output); Assert.Same (n1, tv.GetObjectOnRow (0)); Assert.Same (n2, tv.GetObjectOnRow (1)); Assert.Null (tv.GetObjectOnRow (2)); Assert.Null (tv.GetObjectOnRow (3)); Assert.Null (tv.GetObjectOnRow (4)); } [Fact, AutoInitShutdown] public void TestGetObjectRow () { var tv = new TreeView { Width = 20, Height = 10 }; var n1 = new TreeNode ("normal"); var n1_1 = new TreeNode ("pink"); var n1_2 = new TreeNode ("normal"); n1.Children.Add (n1_1); n1.Children.Add (n1_2); var n2 = new TreeNode ("pink"); tv.AddObject (n1); tv.AddObject (n2); tv.Expand (n1); tv.ColorScheme = new ColorScheme (); tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @"├-normal │ ├─pink │ └─normal └─pink ", output); Assert.Equal (0, tv.GetObjectRow (n1)); Assert.Equal (1, tv.GetObjectRow (n1_1)); Assert.Equal (2, tv.GetObjectRow (n1_2)); Assert.Equal (3, tv.GetObjectRow (n2)); tv.Collapse (n1); tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @"├+normal └─pink ", output); Assert.Equal (0, tv.GetObjectRow (n1)); Assert.Null (tv.GetObjectRow (n1_1)); Assert.Null (tv.GetObjectRow (n1_2)); Assert.Equal (1, tv.GetObjectRow (n2)); // scroll down 1 tv.ScrollOffsetVertical = 1; tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @"└─pink ", output); Assert.Equal (-1, tv.GetObjectRow (n1)); Assert.Null (tv.GetObjectRow (n1_1)); Assert.Null (tv.GetObjectRow (n1_2)); Assert.Equal (0, tv.GetObjectRow (n2)); } [Fact, AutoInitShutdown] public void TestTreeViewColor () { var tv = new TreeView { Width = 20, Height = 10 }; var n1 = new TreeNode ("normal"); var n1_1 = new TreeNode ("pink"); var n1_2 = new TreeNode ("normal"); n1.Children.Add (n1_1); n1.Children.Add (n1_2); var n2 = new TreeNode ("pink"); tv.AddObject (n1); tv.AddObject (n2); tv.Expand (n1); var pink = new Attribute (Color.Magenta, Color.Black); var hotpink = new Attribute (Color.BrightMagenta, Color.Black); tv.ColorScheme = new ColorScheme (); tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre( @"├-normal │ ├─pink │ └─normal └─pink ", output); // Should all be the same color TestHelpers.AssertDriverColorsAre( @"00000000 00000000 0000000000 000000 ", new [] { tv.ColorScheme.Normal, pink }); // create a new color scheme var pinkScheme = new ColorScheme { Normal = pink, Focus = hotpink }; // and a delegate that uses the pink color scheme // for nodes "pink" tv.ColorGetter = (n) => n.Text.Equals ("pink") ? pinkScheme : null; // redraw now that the custom color // delegate is registered tv.Redraw (tv.Bounds); // Same text TestHelpers.AssertDriverContentsAre( @"├-normal │ ├─pink │ └─normal └─pink ", output); // but now the item (only not lines) appear // in pink when they are the word "pink" TestHelpers.AssertDriverColorsAre( @"00000000 00001111 0000000000 001111 ", new [] { tv.ColorScheme.Normal, pink }); } [Fact, AutoInitShutdown] public void TestBottomlessTreeView_MaxDepth_5 () { var tv = new TreeView () { Width = 20, Height = 10 }; tv.TreeBuilder = new DelegateTreeBuilder ( (s) => new [] { (int.Parse (s) + 1).ToString () } ); tv.AddObject ("1"); tv.ColorScheme = new ColorScheme (); tv.LayoutSubviews (); tv.Redraw (tv.Bounds); // Nothing expanded TestHelpers.AssertDriverContentsAre ( @"└+1 ", output); tv.MaxDepth = 5; tv.ExpandAll (); tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre ( @" └-1 └-2 └-3 └-4 └-5 └─6 ", output); Assert.False (tv.CanExpand ("6")); Assert.False (tv.IsExpanded ("6")); tv.Collapse("6"); Assert.False (tv.CanExpand ("6")); Assert.False (tv.IsExpanded ("6")); tv.Collapse ("5"); Assert.True (tv.CanExpand ("5")); Assert.False (tv.IsExpanded ("5")); tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre ( @" └-1 └-2 └-3 └-4 └+5 ", output); } [Fact, AutoInitShutdown] public void TestBottomlessTreeView_MaxDepth_3 () { var tv = new TreeView () { Width = 20, Height = 10 }; tv.TreeBuilder = new DelegateTreeBuilder ( (s) => new [] { (int.Parse (s) + 1).ToString () } ); tv.AddObject ("1"); tv.ColorScheme = new ColorScheme (); tv.LayoutSubviews (); tv.Redraw (tv.Bounds); // Nothing expanded TestHelpers.AssertDriverContentsAre ( @"└+1 ", output); tv.MaxDepth = 3; tv.ExpandAll (); tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre ( @" └-1 └-2 └-3 └─4 ", output); } [Fact, AutoInitShutdown] public void TestTreeView_Filter () { var tv = new TreeView { Width = 20, Height = 10 }; var n1 = new TreeNode ("root one"); var n1_1 = new TreeNode ("leaf 1"); var n1_2 = new TreeNode ("leaf 2"); n1.Children.Add (n1_1); n1.Children.Add (n1_2); var n2 = new TreeNode ("root two"); tv.AddObject (n1); tv.AddObject (n2); tv.Expand (n1); tv.ColorScheme = new ColorScheme (); tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre ( @" ├-root one │ ├─leaf 1 │ └─leaf 2 └─root two ", output); var filter = new TreeViewTextFilter (tv); tv.Filter = filter; // matches nothing filter.Text = "asdfjhasdf"; tv.Redraw (tv.Bounds); // Normal drawing of the tree view TestHelpers.AssertDriverContentsAre ( @"", output); // Matches everything filter.Text = "root"; tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @" ├-root one │ ├─leaf 1 │ └─leaf 2 └─root two ", output); // Matches 2 leaf nodes filter.Text = "leaf"; tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @" ├-root one │ ├─leaf 1 │ └─leaf 2 ", output); // Matches 1 leaf nodes filter.Text = "leaf 1"; tv.Redraw (tv.Bounds); TestHelpers.AssertDriverContentsAre ( @" ├-root one │ ├─leaf 1 ", output); } [Fact, AutoInitShutdown] public void DesiredCursorVisibility_MultiSelect () { var tv = new TreeView { Width = 20, Height = 10 }; var n1 = new TreeNode ("normal"); var n2 = new TreeNode ("pink"); tv.AddObject (n1); tv.AddObject (n2); Application.Top.Add (tv); Application.Begin (Application.Top); Assert.True (tv.MultiSelect); Assert.True (tv.HasFocus); Assert.Equal (CursorVisibility.Invisible, tv.DesiredCursorVisibility); tv.SelectAll (); tv.DesiredCursorVisibility = CursorVisibility.Default; Application.Refresh (); Application.Driver.GetCursorVisibility (out CursorVisibility visibility); Assert.Equal (CursorVisibility.Default, tv.DesiredCursorVisibility); Assert.Equal (CursorVisibility.Default, visibility); } /// /// Test object which considers for equality only /// private class EqualityTestObject { public string Name { get; set; } public int Age { get; set; } public override int GetHashCode () { return Name?.GetHashCode () ?? base.GetHashCode (); } public override bool Equals (object obj) { return obj is EqualityTestObject eto && Equals (Name, eto.Name); } } private void InitFakeDriver () { var driver = new FakeDriver (); Application.Init (driver); driver.Init (() => { }); } } }