private void BorderAction() { BorderEditorDialog editor = new BorderEditorDialog(Border); if (DialogResult.OK == editor.ShowDialog()) { if (null != Border && !Border.Equals(editor.Border)) { Border = editor.Border; editor.Border.OwnerElement = this as IElement; this.BorderName = editor.Border.Name; ExternData data = new ExternData("BorderName", editor.Border.Name); int index = -1; if (null != this.ExternDatas) { for (int i = 0; i < this.ExternDatas.Count; i++) { if (data.Equals(this.ExternDatas[i])) { this.ExternDatas[i] = data; index = i; break; } } if (index == -1) { this.ExternDatas.Add(data); } } NotifyDesignSurfaceChange(); } } }
private void changeBorder(Border toChange) { if (!toChange.Equals(currentBorder)) { currentBorder.BorderBrush = new SolidColorBrush(ColorDef.SceneButtonBorderNormal); currentBorder = toChange; currentBorder.BorderBrush = new SolidColorBrush(ColorDef.SceneButtonBorderSelected); } }
/// <summary> /// Determines if two cells have identical settings. /// </summary> /// <param name="cell">Cell to compare with.</param> /// <returns><b>true</b> if cells are equal.</returns> public bool Equals(TableCell cell) { // do not override exising Equals method. It is used to compare elements in a list, // and will cause problems in the designer. return(cell != null && Fill.Equals(cell.Fill) && TextFill.Equals(cell.TextFill) && HorzAlign == cell.HorzAlign && VertAlign == cell.VertAlign && Border.Equals(cell.Border) && Font.Equals(cell.Font) && Formats.Equals(cell.Formats) && Highlight.Equals(cell.Highlight) && Restrictions == cell.Restrictions && Hyperlink.Equals(cell.Hyperlink) && Padding == cell.Padding && AllowExpressions == cell.AllowExpressions && Brackets == cell.Brackets && HideZeros == cell.HideZeros && HideValue == cell.HideValue && Angle == cell.Angle && RightToLeft == cell.RightToLeft && WordWrap == cell.WordWrap && Underlines == cell.Underlines && Trimming == cell.Trimming && FontWidthRatio == cell.FontWidthRatio && FirstTabOffset == cell.FirstTabOffset && ParagraphOffset == cell.ParagraphOffset && TabWidth == cell.TabWidth && Clip == cell.Clip && Wysiwyg == cell.Wysiwyg && LineHeight == cell.LineHeight && Style == cell.Style && EvenStyle == cell.EvenStyle && HoverStyle == cell.HoverStyle && HasHtmlTags == cell.HasHtmlTags && NullValue == cell.NullValue && ProcessAt == cell.ProcessAt && Printable == cell.Printable && Exportable == cell.Exportable && CellDuplicates == cell.CellDuplicates && // events BeforePrintEvent == cell.BeforePrintEvent && AfterPrintEvent == cell.AfterPrintEvent && AfterDataEvent == cell.AfterDataEvent && Cursor == cell.Cursor && ClickEvent == cell.ClickEvent && MouseDownEvent == cell.MouseDownEvent && MouseMoveEvent == cell.MouseMoveEvent && MouseUpEvent == cell.MouseUpEvent && MouseEnterEvent == cell.MouseEnterEvent && MouseLeaveEvent == cell.MouseLeaveEvent ); }
public bool Equals(IXLStyle other) { return (Font.Equals(other.Font) && Fill.Equals(other.Fill) && Border.Equals(other.Border) && NumberFormat.Equals(other.NumberFormat) && Alignment.Equals(other.Alignment) && Protection.Equals(other.Protection) ); }
private bool IsItemOfCurrentShape(Border item) { foreach (var itemOfCurrentShape in Items) { if (item.Equals(itemOfCurrentShape)) { return(true); } } return(false); }
private void method_27(int A_0, int A_1, Border A_2, CellAlign A_3, SprmCode A_4) { if ((A_2 != null) && !A_2.IsDefault) { this.class345_0.method_5(A_4); int num = 3 + Class355.smethod_7(A_4 == SprmCode.TSetBrc); this.class345_0.Write((byte)num); this.class345_0.Write((byte)A_0); this.class345_0.Write((byte)A_1); this.class345_0.Write((byte)A_3); Class355.smethod_6(A_2.Equals(new Border()) ? null : A_2, this.class345_0, false, A_4 == SprmCode.TSetBrc); } }
protected internal override TableBorders DrawVerticalBorder(int i, float startY, float x1, PdfCanvas canvas , IList <float> heights) { IList <Border> borders = GetVerticalBorder(i); float y1 = startY; float y2 = y1; if (!heights.IsEmpty()) { y2 = y1 - (float)heights[0]; } int j; for (j = 1; j < heights.Count; j++) { Border prevBorder = borders[startRow - largeTableIndexOffset + j - 1]; Border curBorder = borders[startRow - largeTableIndexOffset + j]; if (prevBorder != null) { if (!prevBorder.Equals(curBorder)) { prevBorder.DrawCellBorder(canvas, x1, y1, x1, y2, Border.Side.NONE); y1 = y2; } } else { y1 -= (float)heights[j - 1]; y2 = y1; } if (curBorder != null) { y2 -= (float)heights[j]; } } if (borders.Count == 0) { return(this); } Border lastBorder = borders[startRow - largeTableIndexOffset + j - 1]; if (lastBorder != null) { lastBorder.DrawCellBorder(canvas, x1, y1, x1, y2, Border.Side.NONE); } return(this); }
/// <summary> /// 设置对象边框 /// </summary> /// <param name="border"></param> private void SetBorderThickness(Border border) { foreach (var item in canvasMain.Children) { Border element = item as Border; if (element.Equals(border)) { border.BorderThickness = new Thickness(1); border.BorderBrush = Brushes.DodgerBlue; } else { element.BorderThickness = new Thickness(0); } } }
private void CheckParameters() { bool interfaceSpecsIsCorrect = InterfaceSpecs.Count > 0; bool borderIsCorrect = Border.Equals(WEST) || Border.Equals(EAST) || Border.Equals(SOUTH) || Border.Equals(NORTH); bool instanceNameIsCorrect = !string.IsNullOrEmpty(InstanceName); bool signalPrefixIsCorrect = !string.IsNullOrEmpty(SignalPrefix); bool filenameIsCorrect = !string.IsNullOrEmpty(FileName); if (!interfaceSpecsIsCorrect || !borderIsCorrect || !instanceNameIsCorrect || !signalPrefixIsCorrect || !filenameIsCorrect) { throw new ArgumentException("Unexpected format in one of the parameters."); } }
private void IconBorder_MouseLeftButtonUp(object sender, MouseButtonEventArgs e) { if (!IsMouseLeftButtonDown) { return; } Border iconBorder = sender as Border; if (iconBorder.Equals(cancelSearchIconBorder) && HasText) { this.Text = string.Empty; } if (HasText && SearchMode == SearchMode.Regular) { RaiseSearchEvent(); } IsMouseLeftButtonDown = false; }
// endregion // region draw protected internal override TableBorders DrawHorizontalBorder(int i, float startX, float y1, PdfCanvas canvas , float[] countedColumnWidth) { IList <Border> borders = GetHorizontalBorder(startRow + /*- largeTableIndexOffset*/ i); float x1 = startX; float x2 = x1 + countedColumnWidth[0]; if (i == 0) { Border firstBorder = GetFirstVerticalBorder()[startRow - largeTableIndexOffset]; if (firstBorder != null) { x1 -= firstBorder.GetWidth() / 2; } } else { if (i == finishRow - startRow + 1) { Border firstBorder = GetFirstVerticalBorder()[startRow - largeTableIndexOffset + finishRow - startRow + 1 - 1]; if (firstBorder != null) { x1 -= firstBorder.GetWidth() / 2; } } } int j; for (j = 1; j < borders.Count; j++) { Border prevBorder = borders[j - 1]; Border curBorder = borders[j]; if (prevBorder != null) { if (!prevBorder.Equals(curBorder)) { prevBorder.DrawCellBorder(canvas, x1, y1, x2, y1, Border.Side.NONE); x1 = x2; } } else { x1 += countedColumnWidth[j - 1]; x2 = x1; } if (curBorder != null) { x2 += countedColumnWidth[j]; } } Border lastBorder = borders.Count > j - 1 ? borders[j - 1] : null; if (lastBorder != null) { if (i == 0) { if (GetVerticalBorder(j)[startRow - largeTableIndexOffset + i] != null) { x2 += GetVerticalBorder(j)[startRow - largeTableIndexOffset + i].GetWidth() / 2; } } else { if (i == finishRow - startRow + 1 && GetVerticalBorder(j).Count > startRow - largeTableIndexOffset + i - 1 && GetVerticalBorder(j)[startRow - largeTableIndexOffset + i - 1] != null) { x2 += GetVerticalBorder(j)[startRow - largeTableIndexOffset + i - 1].GetWidth() / 2; } } lastBorder.DrawCellBorder(canvas, x1, y1, x2, y1, Border.Side.NONE); } return(this); }
public bool Equals(XlsxStyle other) { return(other != null && Font.Equals(other.Font) && Fill.Equals(other.Fill) && Border.Equals(other.Border) && NumberFormat.Equals(other.NumberFormat) && Alignment == other.Alignment); }
static void RepaintNodeShapes(Canvas nodeCanvas) { Border nodeCanvasBorder = (Border)nodeCanvas.Parent; RemoveNodeShapes(nodeCanvas); NodeCanvasData ncDInst = GetCanvasNodeData(nodeCanvas); Node node = ncDInst.node; Border rectBorder = new Border() { CornerRadius = new CornerRadius(2), BorderThickness = new Thickness(1), BorderBrush = System.Windows.Media.Brushes.Black }; System.Windows.Shapes.Rectangle heirsPivotRect = new System.Windows.Shapes.Rectangle() { Stroke = new SolidColorBrush(Colors.Black), Fill = new SolidColorBrush(Colors.IndianRed), Width = 25, Height = 25 }; Canvas.SetLeft(rectBorder, Canvas.GetLeft(nodeCanvasBorder) + .5f * nodeCanvasBorder.ActualWidth - 12.5f); Canvas.SetTop(rectBorder, Canvas.GetTop(nodeCanvasBorder) + nodeCanvasBorder.ActualHeight); heirsPivotRect.MouseEnter += new MouseEventHandler(canvasRedRect_MouseEnter); heirsPivotRect.MouseLeave += new MouseEventHandler(canvasRedRect_MouseLeave); heirsPivotRect.MouseLeftButtonDown += new MouseButtonEventHandler(canvasRedRect_LeftMouseDown); heirsPivotRect.MouseRightButtonDown += new MouseButtonEventHandler(canvasRedRect_RightMouseDown); rectBorder.Child = heirsPivotRect; workspaceCanvas.Children.Add(rectBorder); Canvas.SetZIndex(rectBorder, 10000); ncDInst.heirsPivot = heirsPivotRect; Ellipse parentPivotEllipse = new Ellipse() { Stroke = new SolidColorBrush(Colors.Black), Fill = new SolidColorBrush(Colors.CadetBlue), Width = 25, Height = 25 }; Canvas.SetLeft(parentPivotEllipse, Canvas.GetLeft(nodeCanvasBorder) + .5f * nodeCanvas.Width - 12.5f); Canvas.SetTop(parentPivotEllipse, Canvas.GetTop(nodeCanvasBorder) - 25); workspaceCanvas.Children.Add(parentPivotEllipse); Canvas.SetZIndex(parentPivotEllipse, 20000); ncDInst.parentPivot = parentPivotEllipse; if (node.heirs != null && node.heirs.Count > 0) { List <Canvas> heirsCanvases = new List <Canvas>(); foreach (Heir heir in node.heirs) { heirsCanvases.Add(curNodesOnLayout.Where(el => el.Value.node.Equals(heir.heirNode)).ToArray()[0].Key); } for (int i = 0; i < heirsCanvases.Count; i++) { Border heirCanvBorder = (Border)heirsCanvases[i].Parent; Polyline newPLine; PointF p0, p1, p2, p3; p1 = new PointF((float)(Canvas.GetLeft(nodeCanvasBorder) + .5f * nodeCanvasBorder.ActualWidth), (float)(Canvas.GetTop(nodeCanvasBorder) + nodeCanvasBorder.ActualHeight + ncDInst.heirsPivot.ActualHeight * .5f)); p2 = new PointF((float)(Canvas.GetLeft(heirCanvBorder) + .5f * (heirCanvBorder).ActualWidth), (float)(Canvas.GetTop(heirCanvBorder) - GetCanvasNodeData(heirsCanvases[i]).parentPivot.ActualHeight * .5f)); if (!nodeCanvasBorder.Equals(heirCanvBorder)) { p0 = new PointF(p1.X, (float)Canvas.GetTop(nodeCanvasBorder)); p3 = new PointF(p2.X, (float)(Canvas.GetTop(heirCanvBorder) + (heirCanvBorder).ActualHeight)); newPLine = RelationsDrawer.ConstructPolyline(p0, p1, p2, p3); } else { p0 = new PointF(p1.X, p1.Y - 100f); p3 = new PointF(p2.X, p2.Y + 100f); newPLine = RelationsDrawer.ConstructPolyline(p0, p1, p2, p3, true); } int midIndex = (int)(newPLine.Points.Count * .5f); AddArrowsToPolyline(newPLine); newPLine.MouseEnter += new MouseEventHandler(relation_MouseEnter); newPLine.MouseLeave += new MouseEventHandler(relation_MouseLeave); System.Windows.Point textBlockPos = newPLine.Points.ToArray()[midIndex]; Border tmpBorder = (Border)GetBranchTextBlock(nodeCanvas, heirsCanvases[i]).Parent; Canvas.SetLeft(tmpBorder, textBlockPos.X - tmpBorder.ActualWidth * .5f); Canvas.SetTop(tmpBorder, textBlockPos.Y); ncDInst.relations.Add(newPLine); workspaceCanvas.Children.Add(newPLine); Canvas.SetZIndex(newPLine, 0); } } }
protected override void DoCommandAction() { CheckParameters(); List <Tile> backupSelection = TileSelectionManager.Instance.GetSelectedTiles().ToList(); bool append = Append; foreach (string spec in InterfaceSpecs) { List <TileKey> intTiles = new List <TileKey>(); // filter interconnect tiles from selection foreach (Tile t in TileSelectionManager.Instance.GetSelectedTiles().Where( tile => IdentifierManager.Instance.IsMatch(tile.Location, IdentifierManager.RegexTypes.Interconnect))) { intTiles.Add(t.TileKey); } int indexOffset = 0; string[] split = spec.Split(':'); string direction = split[INDEX_DIRECTION]; string signalName = split[INDEX_SIGNAL_NAME]; string[] sLengths = split[INDEX_LENGTH].Split('-'); int[] lengths = Array.ConvertAll(sLengths, s => int.Parse(s)); foreach (int length in lengths) { IEnumerable <IGrouping <int, TileKey> > clusters = null; if (Border.Equals(WEST) || Border.Equals(EAST)) { clusters = from key in intTiles group key by key.X into cluster select cluster; } else if (Border.Equals(NORTH) || Border.Equals(SOUTH)) { clusters = from key in intTiles group key by key.Y into cluster select cluster; } else { throw new ArgumentException("Unexpected format in parameter InterfaceSpecs."); } if (Border.Equals(NORTH) || Border.Equals(WEST)) { clusters = clusters.OrderBy(c => c.Key).Take(length); } else if (Border.Equals(EAST) || Border.Equals(SOUTH)) { clusters = clusters.OrderByDescending(c => c.Key).Take(length); } List <Tile> interfaceTiles = new List <Tile>(); foreach (IGrouping <int, TileKey> group in clusters) { foreach (TileKey key in group) { interfaceTiles.Add(FPGA.FPGA.Instance.GetTile(key)); } } TileSelectionManager.Instance.ClearSelection(); // select interface tiles foreach (Tile t in interfaceTiles) { TileSelectionManager.Instance.AddToSelection(t.TileKey, false); } PrintPartitionPinConstraintsForSelection command = new PrintPartitionPinConstraintsForSelection(); command.Mode = MODE_ROW_WISE; command.Horizontal = HORIZONTAL_LEFT_TO_RIGHT; command.Vertical = VERTICAL_TOP_DOWN; command.CardinalDirection = GetCardinalDirection(Border, direction); command.Length = length; command.IndexOffset = indexOffset; command.PortKind = GetPortKind(direction); command.NumberOfSignals = NumberOfSignals; command.FileName = FileName; command.InstanceName = InstanceName; command.SignalName = $"{SignalPrefix}_{signalName}"; command.PreventBlocking = PreventWiresFromBlocking; command.Append = append; command.CreateBackupFile = CreateBackupFile; CommandExecuter.Instance.Execute(command); // restore selection TileSelectionManager.Instance.ClearSelection(); foreach (Tile t in backupSelection) { TileSelectionManager.Instance.AddToSelection(t.TileKey, false); } indexOffset += interfaceTiles.Count * PrintPartitionPinConstraintsForTile.SIGNALS_PER_TILE; append = true; } } }
int IComparer.Compare(object A_0, object A_1) { Class127 class2 = (Class127)A_0; Class127 class3 = (Class127)A_1; Border border = (Border)class2.method_3(); Border border2 = (Border)class3.method_3(); int num = (((class2.method_1() * 0x3e8) + (class2.method_0() * 100)) + (((border == null) ? 1 : 0) * 10)) + class2.method_2(); int num2 = (((class3.method_1() * 0x3e8) + (class3.method_0() * 100)) + ((border2.Equals(new Border()) ? 1 : 0) * 10)) + class3.method_2(); return(num - num2); }