private void method_0(TreeItem treeItem_1) { foreach (TreeItem current in treeItem_1.method_4()) { this.method_0(current); } if (treeItem_1.BaseObject != null) { if (!this.dictionary_0.ContainsKey(treeItem_1.BaseObject)) { this.dictionary_0.Add(treeItem_1.BaseObject, treeItem_1); } else { Console.WriteLine(treeItem_1.BaseObject.ToString() + " multiple refs"); } } }
internal void method_3(TreeItem treeItem_1) { this.list_0.Add(treeItem_1); treeItem_1.treeItem_0 = this; }
private static int smethod_0(TreeItem treeItem_1, TreeItem treeItem_2) { return treeItem_2.Size.CompareTo(treeItem_1.Size); }
public void MakeCushionTreeMap(TreeItem root) { this.ClearHighlighting(); this.ClearLabeling(); this.treemapHost_0.MakeCushionTreeMap(root, base.ActualWidth, base.ActualHeight); }
public void MakeCushionTreeMap(TreeItem root, double width, double height) { this.DesiredWidth = width; this.DesiredHeight = height; this.treeItem_0 = root; this.dictionary_0.Clear(); this.method_0(this.treeItem_0); root.Bounds = new Rect { Width = width, Height = height }; DrawingVisual drawingVisual = new DrawingVisual(); this.drawingContext_0 = drawingVisual.RenderOpen(); this.method_1(root, new TreeSurface(), 0.5); this.drawingContext_0.Close(); this.drawingContext_0 = null; Matrix transformToDevice = PresentationSource.FromVisual(Application.Current.MainWindow).CompositionTarget.TransformToDevice; double dpiX = transformToDevice.M11 * 96.0; double dpiY = transformToDevice.M22 * 96.0; RenderTargetBitmap renderTargetBitmap = new RenderTargetBitmap(Convert.ToInt32(width), Convert.ToInt32(height), dpiX, dpiY, PixelFormats.Default); renderTargetBitmap.Render(drawingVisual); base.Source = renderTargetBitmap; }
public TreeItem FindItemByPoint(TreeItem item, Point point) { TreeItem result; if (!item.Bounds.Contains(point)) { result = null; } else { TreeItem treeItem = null; if (item.method_5()) { treeItem = item; } else { for (int i = 0; i < item.method_1(); i++) { TreeItem treeItem2 = item.method_2(i); if (treeItem2.Bounds.Contains(point)) { treeItem = this.FindItemByPoint(treeItem2, point); break; } } } if (treeItem == null) { treeItem = item; } result = treeItem; } return result; }
private void method_3(TreeItem treeItem_1, ref Rect rect_0, TreeSurface treeSurface_0, double double_7) { treeItem_1.Bounds = rect_0; TreeSurface treeSurface_ = new TreeSurface(); treeSurface_ = treeSurface_0.Clone(); this.method_7(rect_0, treeSurface_, double_7); if (treeItem_1.method_6()) { this.method_1(treeItem_1, treeSurface_, double_7); } else { this.method_8(treeItem_1.Bounds, treeSurface_); } }
private void method_2(TreeItem treeItem_1, TreeSurface treeSurface_0, double double_7, Rect rect_0, TreemapHost.Enum2 enum2_0, double double_8, int int_1, int int_2, double double_9, ref Rect rect_1, ref double double_10) { for (int i = int_1; i < int_2; i++) { double num = treeItem_1.method_2(i).Size / double_9; double num2 = double_10 + num * double_8; bool flag; if (flag = (i == int_2 - 1 || treeItem_1.method_2(i + 1).Size == 0.0)) { num2 = ((enum2_0 == (TreemapHost.Enum2)1) ? (rect_0.X + double_8) : (rect_0.Y + double_8)); } if (enum2_0 == (TreemapHost.Enum2)1) { rect_1.X = double_10; rect_1.Width = num2 - double_10; } else { rect_1.Y = double_10; rect_1.Height = num2 - double_10; } this.method_3(treeItem_1.method_2(i), ref rect_1, treeSurface_0, double_7 * 0.75); if (flag) { break; } double_10 = num2; } }
private static int smethod_0(TreeItem treeItem_1, int int_1, double double_7, double double_8, ref double double_9, ref double double_10) { int result; while (int_1 < treeItem_1.method_1()) { double size = treeItem_1.method_2(int_1).Size; if (size != 0.0) { double num = double_10 + size; double num2 = num * num; double val = double_7 * double_8 / num2; double val2 = num2 / double_7 / size; double num3 = Math.Max(val, val2); if (num3 <= double_9) { double_10 += size; int_1++; double_9 = num3; continue; } result = int_1; } else { int_1 = treeItem_1.method_1(); result = int_1; } return result; } result = int_1; return result; }
private void method_1(TreeItem treeItem_1, TreeSurface treeSurface_0, double double_7) { Rect bounds = treeItem_1.Bounds; double num = treeItem_1.Size / bounds.Area(); double num2 = treeItem_1.Size; int i = 0; while (i < treeItem_1.method_1()) { TreemapHost.Enum2 @enum = (bounds.Width >= bounds.Height) ? ((TreemapHost.Enum2)0) : ((TreemapHost.Enum2)1); double num3 = (@enum == (TreemapHost.Enum2)1) ? bounds.Width : bounds.Height; double double_8 = num3 * num3 * num; int num4 = i; int num5 = i; double num6 = 0.0; double size = treeItem_1.method_2(num4).Size; double num7 = 1.7976931348623157E+308; num5 = TreemapHost.smethod_0(treeItem_1, num5, double_8, size, ref num7, ref num6); double num8 = (@enum == (TreemapHost.Enum2)1) ? bounds.Height : bounds.Width; if (num6 < num2) { num8 = (double)((int)(num6 / num2 * num8)); } Rect rect = default(Rect); double num9 = TreemapHost.smethod_1(bounds, @enum, num8, ref rect); this.method_2(treeItem_1, treeSurface_0, double_7, bounds, @enum, num3, num4, num5, num6, ref rect, ref num9); TreemapHost.smethod_2(ref bounds, @enum, num8); num2 -= num6; i += num5 - num4; if (bounds.Width <= 0.0 || bounds.Height <= 0.0) { if (i < treeItem_1.method_1()) { treeItem_1.method_2(i).Bounds = default(Rect); } return; } } }