public static Padding ConvertDipToMmPadding(Padding value) { return(new Padding() { Left = (int)GridExportUtils.DipToMm((double)value.Left), Top = (int)GridExportUtils.DipToMm((double)value.Top), Right = (int)GridExportUtils.DipToMm((double)value.Right), Bottom = (int)GridExportUtils.DipToMm((double)value.Bottom) }); }
internal static double GetRowHeight( RadGridView radGridView, RowElementProvider rowProvider, CellElementProvider cellProvider, GridViewRowInfo gridViewRowInfo, bool exportVisualSettings) { double val1 = 0.0; if (radGridView.AutoSizeRows && exportVisualSettings) { GridRowElement element1 = rowProvider.GetElement(gridViewRowInfo, (object)null) as GridRowElement; element1.InitializeRowView(radGridView.TableElement); element1.Initialize(gridViewRowInfo); radGridView.TableElement.Children.Add((RadElement)element1); foreach (GridViewColumn column in (Collection <GridViewDataColumn>)element1.ViewTemplate.Columns) { if (!(column is GridViewRowHeaderColumn) && !(column is GridViewIndentColumn)) { GridCellElement element2 = cellProvider.GetElement(column, (object)element1) as GridCellElement; element1.Children.Add((RadElement)element2); element2.Initialize(column, element1); val1 = Math.Max(val1, (double)GridExportUtils.GetCellDesiredSize(element2).Height); GridExportUtils.ReleaseCellElement(cellProvider, element1, element2); } } GridExportUtils.ReleaseRowElement(radGridView, rowProvider, element1); } return(Math.Max(val1, (double)radGridView.TableElement.RowScroller.ElementProvider.GetElementSize(gridViewRowInfo).Height)); }
internal static void ReleaseCellElement( CellElementProvider cellProvider, GridRowElement rowElement, GridCellElement cell) { GridExportUtils.ReleaseCellElement(cellProvider, rowElement, cell, true); }
internal static void ReleaseRowElement( RadGridView radGridView, RowElementProvider rowProvider, GridRowElement rowElement) { GridExportUtils.ReleaseRowElement(radGridView, rowProvider, rowElement, true); }
public static Color ColorMixer( GradientStyles gradientSyle, int numberOfColors, float gradientPercent, float gradientPercent2, params Color[] colors) { if (numberOfColors < 1 || numberOfColors > 4) { throw new ArgumentException("Invalid number of colors. Should be between 1 and 4"); } Color color; if (gradientSyle != GradientStyles.Solid) { switch (numberOfColors) { case 1: break; case 2: color = GridExportUtils.ColorMixer(colors[0], colors[1]); goto label_8; case 3: float num1 = 0.0f; float num2 = 0.0f; float num3 = 0.0f; float num4 = num1 + (float)((double)colors[0].R * (double)gradientPercent / 2.0); float num5 = num2 + (float)((double)colors[0].G * (double)gradientPercent / 2.0); float num6 = num3 + (float)((double)colors[0].B * (double)gradientPercent / 2.0); float num7 = num4 + (float)((int)colors[1].R / 2); float num8 = num5 + (float)((int)colors[1].G / 2); float num9 = num6 + (float)((int)colors[1].B / 2); color = Color.FromArgb((int)(num7 + (float)colors[2].R * (float)((1.0 - (double)gradientPercent) / 2.0)), (int)(num8 + (float)colors[2].G * (float)((1.0 - (double)gradientPercent) / 2.0)), (int)(num9 + (float)colors[2].B * (float)((1.0 - (double)gradientPercent) / 2.0))); goto label_8; default: float num10 = 0.0f; float num11 = 0.0f; float num12 = 0.0f; float num13 = num10 + (float)((double)colors[0].R * (double)gradientPercent / 2.0); float num14 = num11 + (float)((double)colors[0].G * (double)gradientPercent / 2.0); float num15 = num12 + (float)((double)colors[0].B * (double)gradientPercent / 2.0); float num16 = num13 + (float)colors[1].R * (float)((double)gradientPercent / 2.0 + ((double)gradientPercent2 - (double)gradientPercent) / 2.0); float num17 = num14 + (float)colors[1].G * (float)((double)gradientPercent / 2.0 + ((double)gradientPercent2 - (double)gradientPercent) / 2.0); float num18 = num15 + (float)colors[1].B * (float)((double)gradientPercent / 2.0 + ((double)gradientPercent2 - (double)gradientPercent) / 2.0); float num19 = num16 + (float)colors[2].R * (float)(((double)gradientPercent2 - (double)gradientPercent) / 2.0 + (1.0 - (double)gradientPercent2) / 2.0); float num20 = num17 + (float)colors[2].G * (float)(((double)gradientPercent2 - (double)gradientPercent) / 2.0 + (1.0 - (double)gradientPercent2) / 2.0); float num21 = num18 + (float)colors[2].B * (float)(((double)gradientPercent2 - (double)gradientPercent) / 2.0 + (1.0 - (double)gradientPercent2) / 2.0); color = Color.FromArgb((int)(num19 + (float)colors[3].R * (float)((1.0 - (double)gradientPercent2) / 2.0)), (int)(num20 + (float)colors[3].G * (float)((1.0 - (double)gradientPercent2) / 2.0)), (int)(num21 + (float)colors[3].B * (float)((1.0 - (double)gradientPercent2) / 2.0))); goto label_8; } } color = colors[0]; label_8: return(color); }
public static Color GetBackColor(LightVisualElement element) { RadElement radElement = (RadElement)element; Color color = Color.Empty; LightVisualElement lightVisualElement = (LightVisualElement)null; if (element.BackColor.A < (byte)200 || !element.DrawFill) { while (radElement.Parent != null) { radElement = radElement.Parent; lightVisualElement = radElement as LightVisualElement; if (lightVisualElement != null && (lightVisualElement.BackColor.A > (byte)200 && lightVisualElement.DrawFill)) { break; } } } else { lightVisualElement = radElement as LightVisualElement; } if (lightVisualElement != null) { color = GridExportUtils.ColorMixer(lightVisualElement.GradientStyle, lightVisualElement.NumberOfColors, lightVisualElement.GradientPercentage, lightVisualElement.GradientPercentage2, lightVisualElement.BackColor, lightVisualElement.BackColor2, lightVisualElement.BackColor3, lightVisualElement.BackColor4); } else { RootRadElement rootRadElement = radElement as RootRadElement; if (rootRadElement != null) { color = rootRadElement.BackColor; } } return(color); }
public static SizeF ConvertDipToMmSize(SizeF value) { return(new SizeF((float)GridExportUtils.DipToMm((double)value.Width), (float)GridExportUtils.DipToMm((double)value.Height))); }