Class TiffFrame
Nazwa przestrzeń: Aspose.Imaging.FileFormats.Tiff Zgromadzenie: Aspose.Imaging.dll (25.4.0)
Ramy z tyfem.
[JsonObject(MemberSerialization.OptIn)]
public sealed class TiffFrame : RasterCachedImage, IDisposable, IObjectWithBounds, IRasterImageArgb32PixelLoader, IRasterImageRawDataLoader, IHasExifData, IHasXmpData, IHasMetadataInheritance
object ← DisposableObject ← DataStreamSupporter ← Image ← RasterImage ← RasterCachedImage ← TiffFrame
Implements
IDisposable , IObjectWithBounds , IRasterImageArgb32PixelLoader , IRasterImageRawDataLoader , IHasExifData , IHasXmpData , IHasMetadata
Dziedziczeni członkowie
RasterCachedImage.CacheData() , RasterCachedImage.Blend(Point, RasterImage, Rectangle, byte) , RasterCachedImage.Resize(int, int, ResizeType) , RasterCachedImage.Resize(int, int, ImageResizeSettings) , RasterCachedImage.RotateFlip(RotateFlipType) , RasterCachedImage.Rotate(float, bool, Color) , RasterCachedImage.Crop(Rectangle) , RasterCachedImage.Dither(DitheringMethod, int, IColorPalette) , RasterCachedImage.Grayscale() , RasterCachedImage.NormalizeHistogram() , RasterCachedImage.BinarizeFixed(byte) , RasterCachedImage.BinarizeOtsu() , RasterCachedImage.BinarizeBradley(double, int) , RasterCachedImage.BinarizeBradley(double) , RasterCachedImage.AdjustBrightness(int) , RasterCachedImage.AdjustContrast(float) , RasterCachedImage.AdjustGamma(float, float, float) , RasterCachedImage.AdjustGamma(float) , RasterCachedImage.IsCached , RasterImage.RemoveMetadata() , RasterImage.Save(Stream, ImageOptionsBase, Rectangle) , RasterImage.GetModifyDate(bool) , RasterImage.Dither(DitheringMethod, int) , RasterImage.Dither(DitheringMethod, int, IColorPalette) , RasterImage.GetDefaultPixels(Rectangle, IPartialArgb32PixelLoader) , RasterImage.GetDefaultRawData(Rectangle, IPartialRawDataLoader, RawDataSettings) , RasterImage.GetDefaultArgb32Pixels(Rectangle) , RasterImage.GetDefaultRawData(Rectangle, RawDataSettings) , RasterImage.GetArgb32Pixel(int, int) , RasterImage.GetPixel(int, int) , RasterImage.SetArgb32Pixel(int, int, int) , RasterImage.SetPixel(int, int, Color) , RasterImage.ReadScanLine(int) , RasterImage.ReadArgb32ScanLine(int) , RasterImage.WriteScanLine(int, Color[]) , RasterImage.WriteArgb32ScanLine(int, int[]) , RasterImage.LoadPartialArgb32Pixels(Rectangle, IPartialArgb32PixelLoader) , RasterImage.LoadPartialPixels(Rectangle, IPartialPixelLoader) , RasterImage.LoadArgb32Pixels(Rectangle) , RasterImage.LoadArgb64Pixels(Rectangle) , RasterImage.LoadPartialArgb64Pixels(Rectangle, IPartialArgb64PixelLoader) , RasterImage.LoadPixels(Rectangle) , RasterImage.LoadCmykPixels(Rectangle) , RasterImage.LoadCmyk32Pixels(Rectangle) , RasterImage.LoadRawData(Rectangle, RawDataSettings, IPartialRawDataLoader) , RasterImage.LoadRawData(Rectangle, Rectangle, RawDataSettings, IPartialRawDataLoader) , RasterImage.SaveRawData(byte[], int, Rectangle, RawDataSettings) , RasterImage.SaveArgb32Pixels(Rectangle, int[]) , RasterImage.SavePixels(Rectangle, Color[]) , RasterImage.SaveCmykPixels(Rectangle, CmykColor[]) , RasterImage.SaveCmyk32Pixels(Rectangle, int[]) , RasterImage.SetResolution(double, double) , RasterImage.SetPalette(IColorPalette, bool) , RasterImage.Resize(int, int, ImageResizeSettings) , RasterImage.Rotate(float, bool, Color) , RasterImage.Rotate(float) , RasterImage.BinarizeFixed(byte) , RasterImage.BinarizeOtsu() , RasterImage.BinarizeBradley(double) , RasterImage.BinarizeBradley(double, int) , RasterImage.Blend(Point, RasterImage, Rectangle, byte) , RasterImage.Blend(Point, RasterImage, byte) , RasterImage.Grayscale() , RasterImage.NormalizeHistogram() , RasterImage.AdjustBrightness(int) , RasterImage.AdjustContrast(float) , RasterImage.AdjustGamma(float, float, float) , RasterImage.AdjustGamma(float) , RasterImage.GetSkewAngle() , RasterImage.NormalizeAngle() , RasterImage.NormalizeAngle(bool, Color) , RasterImage.Filter(Rectangle, FilterOptionsBase) , RasterImage.ReplaceColor(Color, byte, Color) , RasterImage.ReplaceColor(int, byte, int) , RasterImage.ReplaceNonTransparentColors(Color) , RasterImage.ReplaceNonTransparentColors(int) , RasterImage.ToBitmap() , RasterImage.PremultiplyComponents , RasterImage.UseRawData , RasterImage.UpdateXmpData , RasterImage.XmpData , RasterImage.RawIndexedColorConverter , RasterImage.RawCustomColorConverter , RasterImage.RawFallbackIndex , RasterImage.RawDataSettings , RasterImage.UsePalette , RasterImage.RawDataFormat , RasterImage.RawLineSize , RasterImage.IsRawDataAvailable , RasterImage.HorizontalResolution , RasterImage.VerticalResolution , RasterImage.HasTransparentColor , RasterImage.HasAlpha , RasterImage.TransparentColor , RasterImage.ImageOpacity , Image.CanLoad(string) , Image.CanLoad(string, LoadOptions) , Image.CanLoad(Stream) , Image.CanLoad(Stream, LoadOptions) , Image.Create(ImageOptionsBase, int, int) , Image.Create(Image[]) , Image.Create(MultipageCreateOptions) , Image.Create(string[], bool) , Image.Create(string[]) , Image.Create(Image[], bool) , Image.GetFileFormat(string) , Image.GetFileFormat(Stream) , Image.GetFittingRectangle(Rectangle, int, int) , Image.GetFittingRectangle(Rectangle, int[], int, int) , Image.Load(string, LoadOptions) , Image.Load(string) , Image.Load(Stream, LoadOptions) , Image.Load(Stream) , Image.GetProportionalWidth(int, int, int) , Image.GetProportionalHeight(int, int, int) , Image.RemoveMetadata() , Image.CanSave(ImageOptionsBase) , Image.Resize(int, int) , Image.Resize(int, int, ResizeType) , Image.Resize(int, int, ImageResizeSettings) , Image.GetDefaultOptions(object[]) , Image.GetOriginalOptions() , Image.ResizeWidthProportionally(int) , Image.ResizeHeightProportionally(int) , Image.ResizeWidthProportionally(int, ResizeType) , Image.ResizeHeightProportionally(int, ResizeType) , Image.ResizeWidthProportionally(int, ImageResizeSettings) , Image.ResizeHeightProportionally(int, ImageResizeSettings) , Image.RotateFlip(RotateFlipType) , Image.Rotate(float) , Image.Crop(Rectangle) , Image.Crop(int, int, int, int) , Image.Save() , Image.Save(string) , Image.Save(string, ImageOptionsBase) , Image.Save(string, ImageOptionsBase, Rectangle) , Image.Save(Stream, ImageOptionsBase) , Image.Save(Stream, ImageOptionsBase, Rectangle) , Image.GetSerializedStream(ImageOptionsBase, Rectangle, out int) , Image.SetPalette(IColorPalette, bool) , Image.BitsPerPixel , Image.Bounds , Image.Container , Image.Height , Image.Palette , Image.UsePalette , Image.Size , Image.Width , Image.InterruptMonitor , Image.BufferSizeHint , Image.AutoAdjustPalette , Image.HasBackgroundColor , Image.FileFormat , Image.BackgroundColor , DataStreamSupporter.CacheData() , DataStreamSupporter.Save() , DataStreamSupporter.Save(Stream) , DataStreamSupporter.Save(string) , DataStreamSupporter.Save(string, bool) , DataStreamSupporter.DataStreamContainer , DataStreamSupporter.IsCached , DisposableObject.Dispose() , DisposableObject.Disposed , object.GetType() , object.ToString() , object.Equals(object?) , object.Equals(object?, object?) , object.ReferenceEquals(object?, object?) , object.GetHashCode()
Examples
Ten przykład pokazuje, jak utworzyć obraz TIFF z skraju i przechowywać go do pliku.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions createOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
createOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
createOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
createOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Set the RGB color model.
createOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// All color components will be stored within a single plane.
createOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
// Note that you don't have to dispose a frame explicitly if it is included into TiffImage.
// When the container is disposed all frames will be disposed automatically.
Aspose.Imaging.FileFormats.Tiff.TiffFrame firstFrame = new Aspose.Imaging.FileFormats.Tiff.TiffFrame(createOptions, 100, 100);
// Fill the entire frame with the blue-yellow gradient.
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(firstFrame.Width, firstFrame.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(firstFrame);
graphics.FillRectangle(gradientBrush, firstFrame.Bounds);
// Create a TIFF image.
using (Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = new Aspose.Imaging.FileFormats.Tiff.TiffImage(firstFrame))
{
tiffImage.Save(dir + "output.tif");
}Constructors
TiffFrame(Stream)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(Stream stream)Parameters
stream Stream
Strumień do pobierania obrazu z i inicjalizacja pikseli ramy i danych palety z.
TiffFrame(Strumień, Opcje)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(Stream stream, TiffOptions options)Parameters
stream Stream
Strumień do pobierania obrazu z i inicjalizacja pikseli ramy i danych palety z.
options TiffOptions
Opcje do użycia dla nowo utworzonej ramki.
TiffFrame(strumień)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(string path)Parameters
path string
Ścieżka do pobierania obrazu i inicjalizowania pikseli ramowych i danych paletowych.
TiffFrame(String, Opcje Tiff)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(string path, TiffOptions options)Parameters
path string
Ścieżka do pobierania obrazu i inicjalizowania pikseli ramowych i danych paletowych.
options TiffOptions
Opcje do użycia dla nowo utworzonej ramki.
TiffFrame(RasterImage)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(RasterImage image)Parameters
image RasterImage
Zdjęcie do inicjalizacji pikseli ramowych i danych paletowych z.
Examples
Poniższy przykład pokazuje, jak skomponować mutlipage TIFF z poszczególnych obrazów rasterowych.
Aspose.Imaging.ImageOptions.TiffOptions createTiffOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
createTiffOptions.Source = new Aspose.Imaging.Sources.FileCreateSource("c:\\temp\\multipage.tif", false);
createTiffOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
createTiffOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
using (Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = (Aspose.Imaging.FileFormats.Tiff.TiffImage)Image.Create(createTiffOptions, 100, 100))
{
// This is Font and Brush for drawing text on individual frames.
Aspose.Imaging.Font font = new Aspose.Imaging.Font("Arial", 64);
Aspose.Imaging.Brushes.SolidBrush brush = new Aspose.Imaging.Brushes.SolidBrush(Aspose.Imaging.Color.White);
// Create 5 frames
for (int i = 1; i <= 5; i++)
{
Aspose.Imaging.ImageOptions.PngOptions createPngOptions = new Aspose.Imaging.ImageOptions.PngOptions();
createPngOptions.Source = new Aspose.Imaging.Sources.StreamSource(new System.IO.MemoryStream());
// Create a PNG image and draw the number of page on it.
Aspose.Imaging.FileFormats.Png.PngImage pngImage = (Aspose.Imaging.FileFormats.Png.PngImage)Image.Create(createPngOptions, 100, 100);
Aspose.Imaging.Graphics gr = new Aspose.Imaging.Graphics(pngImage);
gr.DrawString(i.ToString(), font, brush, 10, 10);
// Create a frame based on the PNG image.
Aspose.Imaging.FileFormats.Tiff.TiffFrame frame = new Aspose.Imaging.FileFormats.Tiff.TiffFrame(pngImage);
// Add the frame to the TIFF image.
tiffImage.AddFrame(frame);
}
// The image was created with a single default frame. Let's remove it.
Aspose.Imaging.FileFormats.Tiff.TiffFrame activeFrame = tiffImage.ActiveFrame;
tiffImage.ActiveFrame = tiffImage.Frames[1];
tiffImage.RemoveFrame(0);
// Don't forget to dispose the frame if you won't add it to some other TiffImage
activeFrame.Dispose();
tiffImage.Save();
}TiffFrame(Opcje RasterImage, TiffOptions)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(RasterImage image, TiffOptions options)Parameters
image RasterImage
Zdjęcie do inicjalizacji pikseli ramowych i danych paletowych z.
options TiffOptions
Opcje do użycia dla nowo utworzonej ramki.
TiffFrame(Opcje opcjonalne: int, int)
Inicjalizuje nową instancję klasy Aspose.Imaging.FileFormats.Tiff. TiffFrame.
public TiffFrame(TiffOptions options, int width, int height)Parameters
options TiffOptions
Opcje ramowe .
width int
i szerokości .
height int
i wysokość .
Examples
Ten przykład pokazuje, jak utworzyć obraz TIFF z skraju i przechowywać go do pliku.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions createOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
createOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
createOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
createOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Set the RGB color model.
createOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// All color components will be stored within a single plane.
createOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
// Note that you don't have to dispose a frame explicitly if it is included into TiffImage.
// When the container is disposed all frames will be disposed automatically.
Aspose.Imaging.FileFormats.Tiff.TiffFrame firstFrame = new Aspose.Imaging.FileFormats.Tiff.TiffFrame(createOptions, 100, 100);
// Fill the entire frame with the blue-yellow gradient.
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(firstFrame.Width, firstFrame.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(firstFrame);
graphics.FillRectangle(gradientBrush, firstFrame.Bounds);
// Create a TIFF image.
using (Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = new Aspose.Imaging.FileFormats.Tiff.TiffImage(firstFrame))
{
tiffImage.Save(dir + "output.tif");
}Ten przykład pokazuje, jak utworzyć obraz TIFF z 2 ramami i przechowywać go do pliku.
string dir = "c:\\temp\\";
// Options for the first frame
Aspose.Imaging.ImageOptions.TiffOptions createOptions1 = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
createOptions1.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
createOptions1.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
createOptions1.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Set the RGB color model.
createOptions1.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// All color components will be stored within a single plane.
createOptions1.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create the first TIFF frame of 100x100 px.
// Note that you don't have to dispose frames explicitly if they are included into TiffImage.
// When the container is disposed all frames will be disposed automatically.
Aspose.Imaging.FileFormats.Tiff.TiffFrame frame1 = new Aspose.Imaging.FileFormats.Tiff.TiffFrame(createOptions1, 100, 100);
// Fill the first frame with the blue-yellow gradient.
Aspose.Imaging.Brushes.LinearGradientBrush gradientBrush = new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(frame1.Width, frame1.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(frame1);
graphics.FillRectangle(gradientBrush, frame1.Bounds);
// Options for the first frame
Aspose.Imaging.ImageOptions.TiffOptions createOptions2 = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 1 bit per pixel for a B/W image.
createOptions2.BitsPerSample = new ushort[] { 1 };
// Set the Little Endian byte order (Intel)
createOptions2.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.LittleEndian;
// Set the CCITT Group 3 Fax compression.
createOptions2.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.CcittFax3;
// Set the B/W color model where 0 is black, 1 is white.
createOptions2.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.MinIsBlack;
// Create the second TIFF frame of 200x200px.
Aspose.Imaging.FileFormats.Tiff.TiffFrame frame2 = new Aspose.Imaging.FileFormats.Tiff.TiffFrame(createOptions2, 200, 200);
// Fill the second frame with the blue-yellow gradient.
// It will be automatically converted to the B/W format due to the corresponding settings of the frame.
Aspose.Imaging.Graphics graphics2 = new Aspose.Imaging.Graphics(frame2);
graphics2.FillRectangle(gradientBrush, frame2.Bounds);
// Create a TIFF image.
using (Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = new Aspose.Imaging.FileFormats.Tiff.TiffImage(
new Aspose.Imaging.FileFormats.Tiff.TiffFrame[] { frame1, frame2 }))
{
tiffImage.Save(dir + "output.mutliframe.tif");
}Exceptions
Parametry opcji są zero.
Properties
BackgroundColor
Otrzymuje lub ustawia wartość dla koloru tła.
public override Color BackgroundColor { get; set; }Wartość nieruchomości
BitsPerPixel
Otrzymuje bity obrazu na liczbę pikseli.
public override int BitsPerPixel { get; }Wartość nieruchomości
ExifData
Dostęp lub ustawienie danych EXIF z ramki.
public ExifData ExifData { get; set; }Wartość nieruchomości
FrameOptions
Ramy tworzą opcje.
public TiffOptions FrameOptions { get; }Wartość nieruchomości
HasAlpha
Otrzymuje wartość wskazującą, czy ta instancja ma alfa.
public override bool HasAlpha { get; }Wartość nieruchomości
Examples
Poniższy przykład pobiera obraz TIFF i drukuje informacje na temat formatu surowych danych i kanału alfa.
string dir = "c:\\temp\\";
string fileName = dir + "sample.tif";
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(fileName))
{
Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = (Aspose.Imaging.FileFormats.Tiff.TiffImage)image;
// If the active TIFF frame has alpha channel, then the entire TIFF image is considered to have alpha channel.
System.Console.WriteLine("ImageFile={0}, FileFormat={1}, HasAlpha={2}", fileName, tiffImage.RawDataFormat, tiffImage.HasAlpha);
int i = 0;
foreach (Aspose.Imaging.FileFormats.Tiff.TiffFrame frame in tiffImage.Frames)
{
System.Console.WriteLine("Frame={0}, FileFormat={1}, HasAlpha={2}", ++i, frame.RawDataFormat, frame.HasAlpha);
}
}
// The output may look like this:
// ImageFile=c:\temp\sample.tif, FileFormat=RgbIndexed1Bpp, used channels: 1, HasAlpha=False
// Frame=1, FileFormat=RgbIndexed1Bpp, used channels: 1, HasAlpha=False
// Frame=2, FileFormat=RgbIndexed1Bpp, used channels: 1, HasAlpha=FalseHasTransparentColor
Otrzymuje wartość wskazującą, czy obraz ma przejrzysty kolor.
public override bool HasTransparentColor { get; set; }Wartość nieruchomości
Height
Otrzymuje wysokość obrazu.
public override int Height { get; }Wartość nieruchomości
HorizontalResolution
Otrzymuje lub ustawia rozdzielczość horyzontalną, w pikselach na cala, tego Aspose.Imaging.RasterImage.
public override double HorizontalResolution { get; set; }Wartość nieruchomości
Examples
Poniższy przykład pokazuje, jak ustawić rozdzielczość horyzontalną / pionową odrębnego ramka TIFF.
string dir = "c:\\temp\\";
// Load a TIFF image from a file.
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(dir + "sample.tif"))
{
Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = (Aspose.Imaging.FileFormats.Tiff.TiffImage)image;
int i = 0;
foreach (Aspose.Imaging.FileFormats.Tiff.TiffFrame frame in tiffImage.Frames)
{
// Get horizontal and vertical resolution of the TiffFrame.
double horizontalResolution = frame.HorizontalResolution;
double verticalResolution = frame.VerticalResolution;
System.Console.WriteLine("The horizontal resolution of frame {0}, pixels per inch: {1}", i, horizontalResolution);
System.Console.WriteLine("The vertical resolution, of frame {0}, pixels per inch: {1}", i, verticalResolution);
if (horizontalResolution != 96.0 || verticalResolution != 96.0)
{
// Use the SetResolution method for updating both resolution values in a single call.
System.Console.WriteLine("Set resolution values to 96 dpi");
frame.SetResolution(96.0, 96.0);
System.Console.WriteLine("The horizontal resolution of frame {0}, pixels per inch: {1}", i, horizontalResolution);
System.Console.WriteLine("The vertical resolution, of frame {0}, pixels per inch: {1}", i, verticalResolution);
}
++i;
}
}PathResources
Uzyskuje lub ustawia zasoby drogi.
public List<pathresource> PathResources { get; set; }Wartość nieruchomości
List • < PathResource >
Examples
Przekazywanie ścieżek klipowania podczas eksportu z TIFF do obrazu PSD.
using (var image = Image.Load("Sample.tif"))
{
image.Save("SampleWithPaths.psd", new PsdOptions());
}Poniższy przykład pokazuje, jak odzyskać ścieżki z obrazu TIFF i wyświetlić ich nazwy na konsoli.
using (var image = (TiffImage)Image.Load("Sample.tif"))
{
foreach (var path in image.ActiveFrame.PathResources)
{
Console.WriteLine(path.Name);
}
}Poniższy przykład pokazuje, jak modyfikować już istniejące ścieżki kliknięcia. na przykład, można zachować tylko jeden Wstęp w obrazie.
using (var image = (TiffImage)Image.Load("Sample.tif"))
{
var paths = image.ActiveFrame.PathResources;
image.ActiveFrame.PathResources = paths.Take(1).ToList();
image.Save();
}Poniższy przykład pokazuje, jak utworzyć ścieżkę kliknięcia w obrazie TIFF. Aby to zrobić, musisz stworzyć instancję klasy PathResource.
var options = new TiffOptions(TiffExpectedFormat.Default);
var frame = new TiffFrame(options, 800, 600);
using (var image = new TiffImage(frame))
{
image.ActiveFrame.PathResources = new List<pathresource>
{
new PathResource
{
BlockId = 2000,
Name = "My Clipping Path",
Records = new List<vectorpathrecord>()
}
};
image.Save("ImageWithEmptyPath.tiff");
}</vectorpathrecord></pathresource>Tworzenie Clipping Path ręcznie.
static void Main()
{
using (var image = (TiffImage)Image.Load("Sample.tif"))
{
image.ActiveFrame.PathResources = new List<pathresource> { new PathResource
{
BlockId = 2000, // Block Id according to Photoshop specification
Name = "My Clipping Path", // Path name
Records = CreateRecords(0.2f, 0.2f, 0.8f, 0.2f, 0.8f, 0.8f, 0.2f, 0.8f) // Create path records using coordinates
}};
image.Save("ImageWithPath.tif");
}
}
private static List<vectorpathrecord> CreateRecords(params float[] coordinates)
{
var records = CreateBezierRecords(coordinates); // Create Bezier records using coordinates
records.Insert(0, new LengthRecord // LengthRecord required by Photoshop specification
{
IsOpen = false, // Lets create closed path
RecordCount = (ushort)records.Count // Record count in the path
});
return records;
}
private static List<vectorpathrecord> CreateBezierRecords(float[] coordinates)
{
return CoordinatesToPoints(coordinates)
.Select(CreateBezierRecord)
.ToList();
}
private static IEnumerable<pointf> CoordinatesToPoints(float[] coordinates)
{
for (var index = 0; index < coordinates.Length; index += 2)
yield return new PointF(coordinates[index], coordinates[index + 1]);
}
private static VectorPathRecord CreateBezierRecord(PointF point)
{
return new BezierKnotRecord { PathPoints = new[] { point, point, point } };
}</pointf></vectorpathrecord></vectorpathrecord></pathresource>VerticalResolution
Otrzymuje lub ustawia rozdzielczość pionową, w pikselach na cala, tego Aspose.Imaging.RasterImage.
public override double VerticalResolution { get; set; }Wartość nieruchomości
Examples
Poniższy przykład pokazuje, jak ustawić rozdzielczość horyzontalną / pionową odrębnego ramka TIFF.
string dir = "c:\\temp\\";
// Load a TIFF image from a file.
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(dir + "sample.tif"))
{
Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = (Aspose.Imaging.FileFormats.Tiff.TiffImage)image;
int i = 0;
foreach (Aspose.Imaging.FileFormats.Tiff.TiffFrame frame in tiffImage.Frames)
{
// Get horizontal and vertical resolution of the TiffFrame.
double horizontalResolution = frame.HorizontalResolution;
double verticalResolution = frame.VerticalResolution;
System.Console.WriteLine("The horizontal resolution of frame {0}, pixels per inch: {1}", i, horizontalResolution);
System.Console.WriteLine("The vertical resolution, of frame {0}, pixels per inch: {1}", i, verticalResolution);
if (horizontalResolution != 96.0 || verticalResolution != 96.0)
{
// Use the SetResolution method for updating both resolution values in a single call.
System.Console.WriteLine("Set resolution values to 96 dpi");
frame.SetResolution(96.0, 96.0);
System.Console.WriteLine("The horizontal resolution of frame {0}, pixels per inch: {1}", i, horizontalResolution);
System.Console.WriteLine("The vertical resolution, of frame {0}, pixels per inch: {1}", i, verticalResolution);
}
++i;
}
}Width
Uzyskuje szerokość obrazu.
public override int Width { get; }Wartość nieruchomości
XmpData
Dostęp lub ustawienie danych Xmp.
public override XmpPacketWrapper XmpData { get; set; }Wartość nieruchomości
Methods
AlignResolutions()
Metoda pomocna, aby rozdzielczość horyzontalna i pionowa była równa.
public void AlignResolutions()CopyFrame(TiffFrame)
Kopiuje cały ramy (duplikuje).
public static TiffFrame CopyFrame(TiffFrame tiffFrame)Parameters
tiffFrame TiffFrame
Rękawiczki do kopiowania.
Returns
Niedawno zarejestrowany TIFF.
CreateFrameFrom(Opcje i opcje TiffFrame)
Stwórz ramy z określonego tiffFrame’ przy użyciu określonej opcji <cod class=parmref".Dane piksela są zachowane, ale konwertowane do pożądanej formatu.
public static TiffFrame CreateFrameFrom(TiffFrame tiffFrame, TiffOptions options)Parameters
tiffFrame TiffFrame
Rękawiczki do tworzenia.
options TiffOptions
Nowe opcje do wykorzystania.
Returns
Nowo utworzone ramy.
Examples
Poniższy przykład pokazuje, jak utworzyć kopię grayscale istniejącego ramy i dodać ją do obrazu TIFF.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions createTiffOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Create a permanent, not temporary file source.
createTiffOptions.Source = new Aspose.Imaging.Sources.FileCreateSource(dir + "multipage.tif", false);
createTiffOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
createTiffOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
using (Aspose.Imaging.FileFormats.Tiff.TiffImage tiffImage = (Aspose.Imaging.FileFormats.Tiff.TiffImage)Image.Create(createTiffOptions, 100, 100))
{
// The linear gradient from the left-top to the right-bottom corner of the image.
Aspose.Imaging.Brushes.LinearGradientBrush brush =
new Aspose.Imaging.Brushes.LinearGradientBrush(
new Aspose.Imaging.Point(0, 0),
new Aspose.Imaging.Point(tiffImage.Width, tiffImage.Height),
Aspose.Imaging.Color.Red,
Aspose.Imaging.Color.Green);
// Fill the active frame with a linear gradient brush.
Aspose.Imaging.Graphics gr = new Aspose.Imaging.Graphics(tiffImage.ActiveFrame);
gr.FillRectangle(brush, tiffImage.Bounds);
// Grayscale options
Aspose.Imaging.ImageOptions.TiffOptions createTiffFrameOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
createTiffFrameOptions.Source = new Aspose.Imaging.Sources.StreamSource(new System.IO.MemoryStream());
createTiffFrameOptions.Photometric = Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.MinIsBlack;
createTiffFrameOptions.BitsPerSample = new ushort[] { 8 };
// Create a grayscale copy of the active frame.
// The pixel data is preserved but converted to the desired format.
Aspose.Imaging.FileFormats.Tiff.TiffFrame grayscaleFrame = Aspose.Imaging.FileFormats.Tiff.TiffFrame.CreateFrameFrom(tiffImage.ActiveFrame, createTiffFrameOptions);
// Add the newly created frame to the TIFF image.
tiffImage.AddFrame(grayscaleFrame);
tiffImage.Save();
}Crop(Rectangle)
Krzucanie obrazu.
public override void Crop(Rectangle rectangle)Parameters
rectangle Rectangle
z rektangulą .
GetOriginalOptions()
Otrzymuje opcje oparte na oryginalnych ustawieniach pliku.To może być przydatne, aby utrzymać głębokość i inne parametry oryginalnego obrazu niezmienione.Na przykład, jeśli ładujemy czarno-biały obraz PNG o 1 bit na piksel, a następnie przechowujemy go za pomocąAspose.Imaging.DataStreamSupporter.Save(System.String) metoda, wydajny obraz PNG z 8-bitowym na piksel zostanie wyprodukowany.Aby tego uniknąć i zaoszczędzić obraz PNG z 1 bitem na piksel, użyj tej metody, aby uzyskać odpowiednie opcje oszczędnościowe i przejść jedo metody Aspose.Imaging.Image.Save(System.String,_Wl17.ImageOptionsBase) jako drugiego parametru.
public override ImageOptionsBase GetOriginalOptions()Returns
Opcje oparte na oryginalnych ustawieniach pliku.
ReleaseManagedResources()
Upewnij się, że nie zarządzane zasoby nie są tutaj uwalniane, ponieważ mogą być już uwalniane.
protected override void ReleaseManagedResources()RemoveMetadata()
Usunąć te metadane przykładu obrazu poprzez ustawienie tych wartości Aspose.Imaging.Xmp.IHasXMPData.xmpDate i Wl17.Exif.IHasexifDato. zero.
public override void RemoveMetadata()Resize(int, int, resizeType)
Odśwież obraz.
public override void Resize(int newWidth, int newHeight, ResizeType resizeType)Parameters
newWidth int
Nowa szerokość .
newHeight int
Nowa wysokość .
resizeType ResizeType
Ten rodzaj rewizji.
Rotate(Float, Bool, Kolor)
Rotacja obrazu wokół centrum.
public override void Rotate(float angle, bool resizeProportionally, Color backgroundColor)Parameters
angle float
Kąt obrotowy w stopniach. wartości pozytywne będą obrotować zegarem.
resizeProportionally bool
Jeśli ustawione na “prawdziwe”, zmieni się rozmiar obrazu w zależności od obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu obrazu.
backgroundColor Color
Kolor z tła.
SaveData(Stream)
Oszczędzaj dane.
protected override void SaveData(Stream stream)Parameters
stream Stream
Przepływ do przechowywania danych do.
UpdateDimensions(i int, int)
Aktualizacja wymiarów obrazu.
protected override void UpdateDimensions(int newWidth, int newHeight)Parameters
newWidth int
Nowy widok obrazu.
newHeight int
Nowa wysokość obrazu.
