public System.Drawing.Bitmap ApplyFilter(Image image, EFilter filtro, Color color = default(Color), int brightness = 0, int noise = 60, RotateFlipType RFT = RotateFlipType.RotateNoneFlipNone) { switch (filtro) { case EFilter.AutomaticAdjustmentFilter: AutomaticAdjustmentFilter AAF = new AutomaticAdjustmentFilter(); return(AAF.ApplyFilter(image.BitmapImage)); case EFilter.BlackNWhiteFilter: BlackNWhiteFilter BNWF = new BlackNWhiteFilter(); return(BNWF.ApplyFilter(image.BitmapImage)); case EFilter.BrightnessFilter: BrightnessFilter BF = new BrightnessFilter(); return(BF.ApplyFilter(image.BitmapImage, brightness)); case EFilter.ColorFilter: ColorFilter CF = new ColorFilter(); return(CF.ApplyFilter(image.BitmapImage, color)); case EFilter.InvertFilter: InvertFilter IF = new InvertFilter(); return(IF.ApplyFilter(image.BitmapImage)); case EFilter.MirrorFilter: MirrorFilter MF = new MirrorFilter(); return(MF.ApplyFilter(image.BitmapImage)); case EFilter.OldFilmFilter: OldFilmFilter OFF = new OldFilmFilter(); return(OFF.ApplyFilter(image.BitmapImage, noise)); case EFilter.RotateFlipFilter: RotateFlipFilter RFF = new RotateFlipFilter(); return(RFF.RotateFlip(image.BitmapImage, RFT)); case EFilter.SepiaFilter: SepiaFilter SF = new SepiaFilter(); return(SF.ApplyFilter(image.BitmapImage)); case EFilter.WindowsFilter: WindowsFilter WF = new WindowsFilter(); return(WF.ApplyFilter(image.BitmapImage)); } return(image.BitmapImage); }
/// <summary> /// 初始化设备 /// </summary> /// <param name="canBand"></param> /// <param name="runMode"></param> /// <param name="filter"></param> /// <param name="accCode"></param> /// <param name="accMark"></param> /// <returns></returns> public bool InitalCanBus(UInt32 canBusId, ECanBaud canBand, out string er, UInt32 accCode = 0x0, UInt32 accMark = 0xFFFFFFFF, ERunMode runMode = ERunMode.正常模式, EFilter filter = EFilter.单滤波 ) { er = string.Empty; try { if (!_devOpen) { er = "CanBus总线未打开"; return(false); } VCI_INIT_CONFIG config = new VCI_INIT_CONFIG(); config.AccCode = accCode; config.AccMask = accMark; config.Timing0 = BTR0[(int)canBand]; config.Timing1 = BTR1[(int)canBand]; config.Filter = (Byte)filter; config.Mode = (Byte)runMode; if (VCI_InitCAN(_devType, _canBusId, canBusId, ref config) != STATUS_OK) { er = "初始化【" + ((EVCI)_devType).ToString() + "】设备【" + canBusId.ToString() + "】失败"; return(false); } return(true); } catch (Exception ex) { er = ex.ToString(); return(false); } }
public void Filter(EFilter filter) { switch (filter) { case EFilter.Number: { Values = Values.OrderBy(x => (x as SHOW).SelectionWell.Number).ToList(); break; } case EFilter.Summ621: { Values = Values.OrderBy(x => (x as SHOW).summs.FirstOrDefault(y => y.Key.Contains("621")).Value).ToList(); break; } case EFilter.Summ644: { Values = Values.OrderBy(x => (x as SHOW).summs.FirstOrDefault(y => y.Key.Contains("644")).Value).ToList(); break; } } ShowDG(); }
public System.Drawing.Bitmap ApplyFilter(Image image, EFilter filtro, Color color = default(Color), int brightness = 0, int noise = 60, RotateFlipType RFT = RotateFlipType.RotateNoneFlipNone) { switch (filtro) { case EFilter.AutomaticAdjustment: AutomaticAdjustmentFilter AAF = new AutomaticAdjustmentFilter(); Bitmap ret = AAF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret); case EFilter.Grayscale: BlackNWhiteFilter BNWF = new BlackNWhiteFilter(); Bitmap ret2 = BNWF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret2); case EFilter.Brightness: BrightnessFilter BF = new BrightnessFilter(); Bitmap ret3 = BF.ApplyFilter(image.BitmapImage, brightness); GC.Collect(); return(ret3); case EFilter.Color: ColorFilter CF = new ColorFilter(); Bitmap ret4 = CF.ApplyFilter(image.BitmapImage, color); GC.Collect(); return(ret4); case EFilter.Invert: InvertFilter IF = new InvertFilter(); Bitmap ret5 = IF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret5); case EFilter.Mirror: MirrorFilter MF = new MirrorFilter(); Bitmap ret6 = MF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret6); case EFilter.OldFilm: OldFilmFilter OFF = new OldFilmFilter(); Bitmap ret7 = OFF.ApplyFilter(image.BitmapImage, noise); GC.Collect(); return(ret7); case EFilter.RotateFlip: RotateFlipFilter RFF = new RotateFlipFilter(); Bitmap ret8 = RFF.RotateFlip(image.BitmapImage, RFT); GC.Collect(); return(ret8); case EFilter.Sepia: SepiaFilter SF = new SepiaFilter(); Bitmap ret9 = SF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret9); case EFilter.Windows: WindowsFilter WF = new WindowsFilter(); Bitmap ret10 = WF.ApplyFilter(image.BitmapImage); GC.Collect(); return(ret10); } return(image.BitmapImage); }
public void setContent(EFilter iPos, string szContent) { if (iPos >= EFilter.EFilterMax) return; m_szContents[(int)iPos] = szContent; }
public CmdFilter(EFilter filter) : base(Command.Type.Filter) { _filter = filter; }
private static void FilterBitmap(ref Bitmap pBitmap, int pKernelSize, EFilter pFilter) { Bitmap copyBitmap = new Bitmap(pBitmap); for (int x = 0; x < pBitmap.Width; x++) { for (int y = 0; y < pBitmap.Height; y++) { Color color = pBitmap.GetPixel(x, y); if (pFilter == EFilter.ColorOrMax || pFilter == EFilter.ColorOrBlur) { if (IsTreeColoured(color)) { continue; } } int origVal = color.R; if (origVal > 0) { continue; } int definedCount = 0; int valueSum = 0; int maxValue = 0; int minValue = 0; for (int i = -pKernelSize; i < pKernelSize; i++) { for (int j = -pKernelSize; j < pKernelSize; j++) { int _x = x + i; int _y = y + j; if (IsOOB(_x, _y, pBitmap)) { continue; } int val = pBitmap.GetPixel(_x, _y).R; if (val > 0) { valueSum += val; definedCount++; if (val > maxValue) { maxValue = val; } if (val < minValue) { minValue = val; } } } } int newVal = 0; switch (pFilter) { case EFilter.Blur: case EFilter.ColorOrBlur: newVal = definedCount > 0 ? valueSum / definedCount : 0; break; case EFilter.Max: case EFilter.ColorOrMax: newVal = maxValue; break; case EFilter.Min: newVal = minValue; break; } Color newColor = Color.FromArgb(newVal, newVal, newVal); if (newColor.R > 255) { CDebug.Error("color.R = " + newColor.R); } copyBitmap.SetPixel(x, y, newColor); } } pBitmap = copyBitmap; }
/// <summary>Fill a surface of this texture from a file</summary> public void LoadSurface(string tex_filepath, int level, Rectangle src_rect, Rectangle dst_rect, EFilter filter, uint colour_key) { View3D_TextureLoadSurface(Handle, level, tex_filepath, new [] { dst_rect }, new [] { src_rect }, filter, colour_key); View3D_TextureGetInfo(Handle, out Info); }
/// <summary>Fill a surface of this texture from a file</summary> public void LoadSurface(string tex_filepath, int level, EFilter filter, uint colour_key) { View3D_TextureLoadSurface(Handle, level, tex_filepath, null, null, filter, colour_key); View3D_TextureGetInfo(Handle, out Info); }
/// <summary>Set the filtering and addressing modes to be used on the texture</summary> public void SetFilterAndAddrMode(EFilter filter, EAddrMode addrU, EAddrMode addrV) { View3D_TextureSetFilterAndAddrMode(Handle, filter, addrU, addrV); }