protected override HashSet <int> GetParentsAbove(int id) { HashSet <int> hashSet = new HashSet <int>(); for (BackendData.Foo foo = BackendData.FindItemRecursive(this.m_Backend.root, id); foo != null; foo = foo.parent) { if (foo.parent != null) { hashSet.Add(foo.parent.id); } } return(hashSet); }
protected override void GetParentsAbove(int id, HashSet <int> parentsAbove) { BackendData.Foo target = BackendData.FindItemRecursive(m_Backend.root, id); while (target != null) { if (target.parent != null) { parentsAbove.Add(target.parent.id); } target = target.parent; } }
public TreeViewTestWithCustomHeight(EditorWindow editorWindow, BackendData backendData, Rect rect) { this.m_BackendData = backendData; TreeViewState treeViewState = new TreeViewState(); this.m_TreeView = new TreeViewController(editorWindow, treeViewState); TestGUICustomItemHeights gui = new TestGUICustomItemHeights(this.m_TreeView); TestDragging dragging = new TestDragging(this.m_TreeView, this.m_BackendData); TestDataSource data = new TestDataSource(this.m_TreeView, this.m_BackendData); data.onVisibleRowsChanged = (System.Action)Delegate.Combine(data.onVisibleRowsChanged, new System.Action(gui.CalculateRowRects)); this.m_TreeView.Init(rect, data, gui, dragging); data.SetExpanded(data.root, true); }
void TestTreeWithCustomItemHeights() { Rect rect = new Rect(0, 0, position.width, position.height); if (m_TreeViewWithCustomHeight == null) { m_BackendData2 = new BackendData(); m_BackendData2.GenerateData(300); m_TreeViewWithCustomHeight = new TreeViewTestWithCustomHeight(this, m_BackendData2, rect); } m_TreeViewWithCustomHeight.OnGUI(rect); }
public TreeViewTestWithCustomHeight(EditorWindow editorWindow, BackendData backendData, Rect rect) { this.m_BackendData = backendData; TreeViewState treeViewState = new TreeViewState(); this.m_TreeView = new TreeViewController(editorWindow, treeViewState); TestGUICustomItemHeights testGUICustomItemHeights = new TestGUICustomItemHeights(this.m_TreeView); TestDragging dragging = new TestDragging(this.m_TreeView, this.m_BackendData); TestDataSource testDataSource = new TestDataSource(this.m_TreeView, this.m_BackendData); TestDataSource expr_52 = testDataSource; expr_52.onVisibleRowsChanged = (Action)Delegate.Combine(expr_52.onVisibleRowsChanged, new Action(testGUICustomItemHeights.CalculateRowRects)); this.m_TreeView.Init(rect, testDataSource, testGUICustomItemHeights, dragging); testDataSource.SetExpanded(testDataSource.root, true); }
public TreeViewTestWithCustomHeight(EditorWindow editorWindow, BackendData backendData, Rect rect) { m_BackendData = backendData; var state = new TreeViewState(); m_TreeView = new TreeViewController(editorWindow, state); var gui = new TestGUICustomItemHeights(m_TreeView); var dragging = new TestDragging(m_TreeView, m_BackendData); var dataSource = new TestDataSource(m_TreeView, m_BackendData); dataSource.onVisibleRowsChanged += gui.CalculateRowRects; m_TreeView.Init(rect, dataSource, gui, dragging); dataSource.SetExpanded(dataSource.root, true); }
protected override HashSet <int> GetParentsAbove(int id) { HashSet <int> parentsAbove = new HashSet <int>(); BackendData.Foo target = BackendData.FindItemRecursive(m_Backend.root, id); while (target != null) { if (target.parent != null) { parentsAbove.Add(target.parent.id); } target = target.parent; } return(parentsAbove); }
private void TestLargeTreesWithFixedItemHeightAndPingingAndFraming() { Rect rect = new Rect(0f, 0f, base.position.width / 2f, base.position.height); Rect rect4 = new Rect(base.position.width / 2f, 0f, base.position.width / 2f, base.position.height); if (this.m_TreeViewTest == null) { this.m_BackendData = new BackendData(); this.m_BackendData.GenerateData(0xf4240); bool lazy = false; this.m_TreeViewTest = new TreeViewTest(this, lazy); this.m_TreeViewTest.Init(rect, this.m_BackendData); lazy = true; this.m_TreeViewTest2 = new TreeViewTest(this, lazy); this.m_TreeViewTest2.Init(rect4, this.m_BackendData); } this.m_TreeViewTest.OnGUI(rect); this.m_TreeViewTest2.OnGUI(rect4); EditorGUI.DrawRect(new Rect(rect.xMax - 1f, 0f, 2f, base.position.height), new Color(0.4f, 0.4f, 0.4f, 0.8f)); }
public HashSet <int> GetParentsBelow(int id) { BackendData.Foo foo = BackendData.FindItemRecursive(this.root, id); HashSet <int> result; if (foo != null) { if (this.m_RecursiveFindParentsBelow) { result = this.GetParentsBelowRecursive(foo); } else { result = this.GetParentsBelowStackBased(foo); } } else { result = new HashSet <int>(); } return(result); }
void TestLargeTreesWithFixedItemHeightAndPingingAndFraming() { Rect leftRect = new Rect(0, 0, position.width / 2, position.height); Rect rightRect = new Rect(position.width / 2, 0, position.width / 2, position.height); if (m_TreeViewTest == null) { m_BackendData = new BackendData(); m_BackendData.GenerateData(1000000); bool lazy = false; m_TreeViewTest = new TreeViewTest(this, lazy); m_TreeViewTest.Init(leftRect, m_BackendData); lazy = true; m_TreeViewTest2 = new TreeViewTest(this, lazy); m_TreeViewTest2.Init(rightRect, m_BackendData); } m_TreeViewTest.OnGUI(leftRect); m_TreeViewTest2.OnGUI(rightRect); EditorGUI.DrawRect(new Rect(leftRect.xMax - 1, 0, 2, position.height), new Color(0.4f, 0.4f, 0.4f, 0.8f)); }
public LazyTestDataSource(TreeViewController treeView, BackendData data) : base(treeView) { m_Backend = data; FetchData(); }
public TestDragging(TreeViewController treeView, BackendData data) : base(treeView) { this.m_BackendData = data; }
public TestDataSource(TreeViewController treeView, BackendData data) : base(treeView) { this.m_Backend = data; this.FetchData(); }