Class TiffOptions
Class TiffOptions
Namn på plats: Aspose.Imaging.ImageOptions Församling: Aspose.Imaging.dll (25.4.0)
TIFF filformat alternativ.Observera att bredd och höjd taggar kommer att överskridas på bildskapande av bredd och höjd parametrar så det finns inget behov av att ange dem direkt.Observera att många alternativ returnerar ett standardvärde men det betyder inte att detta alternativ ställs uttryckligen som ett tagvärde.
[JsonObject(MemberSerialization.OptIn)]
public class TiffOptions : ImageOptionsBase, IDisposable, ICloneable, IHasExifData, IHasXmpData, IHasMetadataInheritance
object ← DisposableObject ← ImageOptionsBase ← TiffOptions
Derived
Implements
IDisposable , ICloneable , IHasExifData , IHasXmpData , IHasMetadata
Arvsmedlemmar
ImageOptionsBase.Clone() , ImageOptionsBase.ReleaseManagedResources() , ImageOptionsBase.KeepMetadata , ImageOptionsBase.XmpData , ImageOptionsBase.Source , ImageOptionsBase.Palette , ImageOptionsBase.ResolutionSettings , ImageOptionsBase.VectorRasterizationOptions , ImageOptionsBase.BufferSizeHint , ImageOptionsBase.MultiPageOptions , ImageOptionsBase.FullFrame , ImageOptionsBase.ProgressEventHandler , DisposableObject.Dispose() , DisposableObject.ReleaseManagedResources() , DisposableObject.ReleaseUnmanagedResources() , DisposableObject.VerifyNotDisposed() , DisposableObject.Disposed , object.GetType() , object.MemberwiseClone() , object.ToString() , object.Equals(object?) , object.Equals(object?, object?) , object.ReferenceEquals(object?, object?) , object.GetHashCode()
Examples
Detta exempel visar användningen av olika klasser från SaveOptions Namespace för exportändamål. En bild av typ Gif laddas in i en instans av Bild och exporteras sedan till flera format.
string dir = "c:\\temp\\";
//Load an existing image (of type Gif) in an instance of Image class
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(dir + "sample.gif"))
{
//Export to BMP file format using the default options
image.Save(dir + "output.bmp", new Aspose.Imaging.ImageOptions.BmpOptions());
//Export to JPEG file format using the default options
image.Save(dir + "output.jpg", new Aspose.Imaging.ImageOptions.JpegOptions());
//Export to PNG file format using the default options
image.Save(dir + "output.png", new Aspose.Imaging.ImageOptions.PngOptions());
//Export to TIFF file format using the default options
image.Save(dir + "output.tif", new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default));
}Följande exempel visar hur man konverterar en flersidig vektorbild till TIFF-format i allmänhet utan att hänvisa till en viss bildtyp.
string dir = "C:\\aspose.imaging\\net\\misc\\ImagingReleaseQATester\\Tests\\testdata\\2548";
string inputFilePath = System.IO.Path.Combine(dir, "Multipage.cdr");
string outputFilePath = System.IO.Path.Combine(dir, "Multipage.cdr.tiff");
Aspose.Imaging.ImageOptionsBase exportOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Aspose.Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Load(inputFilePath))
{
exportOptions.MultiPageOptions = null;
// Export only first two pages. These pages will be presented as frames in the output TIFF.
Aspose.Imaging.IMultipageImage multipageImage = image as Aspose.Imaging.IMultipageImage;
if (multipageImage != null && (multipageImage.Pages != null && multipageImage.PageCount > 2))
{
exportOptions.MultiPageOptions = new Aspose.Imaging.ImageOptions.MultiPageOptions(new Aspose.Imaging.IntRange(0, 2));
}
if (image is Aspose.Imaging.VectorImage)
{
exportOptions.VectorRasterizationOptions = (Aspose.Imaging.ImageOptions.VectorRasterizationOptions)image.GetDefaultOptions(new object[] { Aspose.Imaging.Color.White, image.Width, image.Height });
exportOptions.VectorRasterizationOptions.TextRenderingHint = Aspose.Imaging.TextRenderingHint.SingleBitPerPixel;
exportOptions.VectorRasterizationOptions.SmoothingMode = Aspose.Imaging.SmoothingMode.None;
}
image.Save(outputFilePath, exportOptions);
}Dessa exempel använder GraphicsPath och Graphics klass för att skapa och manipulera Figurer på en bild yta. Exempel skapar en ny bild (typ Tiff), rengör ytan och drar vägar med hjälp av GraphicsPath klass.
//Create an instance of FileStream
using (System.IO.FileStream stream = new System.IO.FileStream(@"C:\temp\output.tiff", System.IO.FileMode.Create))
{
//Create an instance of TiffOptions and set its various properties
Aspose.Imaging.ImageOptions.TiffOptions tiffOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
//Set the source for the instance of ImageOptions
tiffOptions.Source = new Aspose.Imaging.Sources.StreamSource(stream);
//Create an instance of Image
using (Aspose.Imaging.Image image = Aspose.Imaging.Image.Create(tiffOptions, 500, 500))
{
//Create and initialize an instance of Graphics class
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
//Clear Graphics surface
graphics.Clear(Color.Wheat);
//Create an instance of GraphicsPath class
Aspose.Imaging.GraphicsPath graphicspath = new Aspose.Imaging.GraphicsPath();
//Create an instance of Figure class
Aspose.Imaging.Figure figure = new Aspose.Imaging.Figure();
//Add Shapes to Figure object
figure.AddShape(new Aspose.Imaging.Shapes.RectangleShape(new Aspose.Imaging.RectangleF(10f, 10f, 300f, 300f)));
figure.AddShape(new Aspose.Imaging.Shapes.EllipseShape(new Aspose.Imaging.RectangleF(50f, 50f, 300f, 300f)));
figure.AddShape(new Aspose.Imaging.Shapes.PieShape(new Aspose.Imaging.RectangleF(new Aspose.Imaging.PointF(250f, 250f), new Aspose.Imaging.SizeF(200f, 200f)), 0f, 45f));
//Add Figure object to GraphicsPath
graphicspath.AddFigure(figure);
//Draw path with Pen object of color Black
graphics.DrawPath(new Aspose.Imaging.Pen(Aspose.Imaging.Color.Black, 2), graphicspath);
// save all changes.
image.Save();
}
}Constructors
TiffOptions(TiffExpectedFormat, TiffByteOrder)
Initialiserar en ny instans av Aspose.Imaging.ImageOptions.TiffOptions klass.
public TiffOptions(TiffExpectedFormat expectedFormat, TiffByteOrder byteOrder)Parameters
expectedFormat TiffExpectedFormat
Den förväntade tiff filformat.
byteOrder TiffByteOrder
Den tiff filformat byte order att använda.
TiffOptions(TiffExpectedFormat)
Initialiserar en ny instans av Aspose.Imaging.ImageOptions.TiffOptions klass.
public TiffOptions(TiffExpectedFormat expectedFormat)Parameters
expectedFormat TiffExpectedFormat
Den förväntade tiff filformat.
Examples
Följande exempel visar hur man skapar en grayscale kopia av en befintlig ram och lägger den till en TIFF-bild.
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();
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}TiffOptions(TiffOptions)
Initialiserar en ny instans av Aspose.Imaging.ImageOptions.TiffOptions klass.
public TiffOptions(TiffOptions options)Parameters
options TiffOptions
Alternativ att kopiera från.
TiffOptions(TiffDataType[])
Initialiserar en ny instans av Aspose.Imaging.ImageOptions.TiffOptions klass.
public TiffOptions(TiffDataType[] tags)Parameters
tags TiffDataType
[ ]
Taggarna för att initialisera alternativ med.
Properties
AlphaStorage
Få eller ställa in alternativet alfa lagring. alternativ annat än Aspose.Imaging.FileFormats.Tiff.Enums.TiffAlphaStorage.Unspecifikanvänds när det finns mer än 3 Aspose.Imaging.ImageOptions.TiffOptions.SamlarPerPixel definieras.
public TiffAlphaStorage AlphaStorage { get; set; }Fastighetsvärde
Artist
Få eller sätta konstnären.
public string Artist { get; set; }Fastighetsvärde
BitsPerPixel
Få bitar per pixel.
public int BitsPerPixel { get; }Fastighetsvärde
BitsPerSample
Få eller sätta bitarna per prov.
public ushort[] BitsPerSample { get; set; }Fastighetsvärde
ushort [ ]
Examples
Det här exemplet visar hur man skapar en TIFF-bild från skrapan och sparar den till en fil.
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");
}Följande exempel visar hur man samlar en mutlipage TIFF från enskilda rasterbilder.
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();
}Följande exempel visar hur man skapar en grayscale kopia av en befintlig ram och lägger den till en TIFF-bild.
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();
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Detta exempel visar hur man skapar en TIFF-bild med 2 ramar och sparar den i en fil.
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");
}Remarks
När du ställer in detta värde, kom ihåg att det också kommer att ställa in SamplesPerPixel värde för att sortera längd. Dessa 2 egenskaper är mycket tätt kopplade så att det kan ställas in allt helt.
ByteOrder
Få eller ange ett värde som indikerar tiff byte order.
public TiffByteOrder ByteOrder { get; set; }Fastighetsvärde
Examples
Det här exemplet visar hur man skapar en TIFF-bild från skrapan och sparar den till en fil.
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");
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Detta exempel visar hur man skapar en TIFF-bild med 2 ramar och sparar den i en fil.
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");
}ColorMap
Få eller ställa in färgkarta.
public ushort[] ColorMap { get; set; }Fastighetsvärde
ushort [ ]
Exceptions
värde
Färgkartan kan definieras för prover per pixel som är lika med 1 endast.ellerBits per prov definieras inte.
värde;Array längd måste matcha efterföljande formel: 3 * (2**BitsPerSample).
CompressedQuality
Få eller ställa in komprimerad bildkvalitet.Används med JPEG kompression.
public int CompressedQuality { get; set; }Fastighetsvärde
Examples
Detta exempel visar hur man skapar en TIFF-bild med Jpeg-kompressionen och den angivna komprimerade bildkvaliteten.
using (Aspose.Imaging.FileFormats.Tiff.TiffImage image = (Aspose.Imaging.FileFormats.Tiff.TiffImage)Aspose.Imaging.Image.Load("c:\\temp\\zeebra.tif"))
{
Aspose.Imaging.ImageOptions.TiffOptions tiffOptions = new TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set the RGB color model.
tiffOptions.Photometric = TiffPhotometrics.Rgb;
// Set the Jpeg compression.
tiffOptions.Compression = TiffCompressions.Jpeg;
tiffOptions.CompressedQuality = 50;
// Set 8 bits for each color component.
tiffOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
image.Save("zeebra.tif-50.tiff", tiffOptions);
}Compression
Får eller sätter kompressionen.
public TiffCompressions Compression { get; set; }Fastighetsvärde
Examples
Det här exemplet visar hur man skapar en TIFF-bild från skrapan och sparar den till en fil.
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");
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Detta exempel visar hur man skapar en TIFF-bild med 2 ramar och sparar den i en fil.
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");
}Copyright
får eller ställer upp upphovsrätt.
public string Copyright { get; set; }Fastighetsvärde
DateTime
Få eller ställa in datum och tid.
public string DateTime { get; set; }Fastighetsvärde
DefaultMemoryAllocationLimit
Få eller ställa in standardminne tilldelningsgränsen.
[Obsolete("Use Aspose.Imaging.Image.BufferSizeHint, Aspose.Imaging.ImageOptionsBase.BufferSizeHint or Aspose.Imaging.LoadOptions.BufferSizeHint instead.")]
public int DefaultMemoryAllocationLimit { get; set; }Fastighetsvärde
DisableIccExport
Få eller ange ett värde som anger om ICC-profilexporten är inaktiverad (ICC-profilen tillämpas på källpixlarna i förväg).
[JsonProperty]
public bool DisableIccExport { get; set; }Fastighetsvärde
DocumentName
Få eller ange namnet på dokumentet.
public string DocumentName { get; set; }Fastighetsvärde
ExifData
Få eller sätta Exif-data.
public ExifData ExifData { get; set; }Fastighetsvärde
ExifIfd
Få eller ställa in pekaren till EXIF IFD.
public TiffExifIfd ExifIfd { get; }Fastighetsvärde
ExtraSamples
Få de extra provvärdena.
public ushort[] ExtraSamples { get; }Fastighetsvärde
ushort [ ]
FaxT4Options
Få eller ställa in fax t4 alternativ.
public Group3Options FaxT4Options { get; set; }Fastighetsvärde
FileStandard
Få eller ställa in TIFF-filstandarden.
public TiffFileStandards FileStandard { get; set; }Fastighetsvärde
FillOrder
Få eller ställa in bytesbiterna fyll i order.
public TiffFillOrders FillOrder { get; set; }Fastighetsvärde
HalfToneHints
Får eller sätter halvsignalen.
public ushort[] HalfToneHints { get; set; }Fastighetsvärde
ushort [ ]
Exceptions
värde
värde;Halftone teckningar array längd måste vara lika med 2.
IccProfile
Få eller ställa in Icc-profilström.
public MemoryStream IccProfile { get; set; }Fastighetsvärde
ImageDescription
Få eller ställa in bildbeskrivningen.
public string ImageDescription { get; set; }Fastighetsvärde
ImageLength
Få eller ställa in bilden längd.
public uint ImageLength { get; set; }Fastighetsvärde
ImageWidth
Få eller ställa in bild bredd.
public uint ImageWidth { get; set; }Fastighetsvärde
InkNames
Få eller ange inknamnen.
public string InkNames { get; set; }Fastighetsvärde
IsExtraSamplesPresent
Få ett värde som indikerar om de extra proverna är närvarande.
public bool IsExtraSamplesPresent { get; }Fastighetsvärde
IsTiled
Det får ett värde som indikerar om bilden är täckt.
public bool IsTiled { get; }Fastighetsvärde
IsValid
Få ett värde som indikerar om Aspose.Imaging.ImageOptions.TiffOptions har konfigurerats korrekt.
public bool IsValid { get; }Fastighetsvärde
MaxSampleValue
Få eller ange max provvärdet.
public ushort[] MaxSampleValue { get; set; }Fastighetsvärde
ushort [ ]
Exceptions
värde
värde;Array längd måste matcha prover per pixel räkning.
MinSampleValue
Få eller ange min provvärdet.
public ushort[] MinSampleValue { get; set; }Fastighetsvärde
ushort [ ]
Exceptions
värde
värde;Array längd måste matcha prover per pixel räkning.
Orientation
Få eller ställa in orienteringen.
public TiffOrientations Orientation { get; set; }Fastighetsvärde
PageName
Få eller ange sidnamnet.
public string PageName { get; set; }Fastighetsvärde
PageNumber
Få eller ange sidan nummer tag.
public ushort[] PageNumber { get; set; }Fastighetsvärde
ushort [ ]
Exceptions
värde
värde;Väntat 2 värden i raden: PageNumber[0] är sidnummer och PageNumber[1] är det totala antalet sidor i dokumentet.
Palette
Få eller ställa in färgpaletten.
public override IColorPalette Palette { get; set; }Fastighetsvärde
Photometric
Får eller sätter fotometrin.
public TiffPhotometrics Photometric { get; set; }Fastighetsvärde
Examples
Det här exemplet visar hur man skapar en TIFF-bild från skrapan och sparar den till en fil.
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");
}Följande exempel visar hur man samlar en mutlipage TIFF från enskilda rasterbilder.
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();
}Följande exempel visar hur man skapar en grayscale kopia av en befintlig ram och lägger den till en TIFF-bild.
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();
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Detta exempel visar hur man skapar en TIFF-bild med 2 ramar och sparar den i en fil.
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");
}PlanarConfiguration
Få eller ställa in planarkonfigurationen.
public TiffPlanarConfigs PlanarConfiguration { get; set; }Fastighetsvärde
Examples
Det här exemplet visar hur man skapar en TIFF-bild från skrapan och sparar den till en fil.
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");
}Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Detta exempel visar hur man skapar en TIFF-bild med 2 ramar och sparar den i en fil.
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");
}Predictor
Få eller ställa in prediktorn för LZW-kompression.
public TiffPredictor Predictor { get; set; }Fastighetsvärde
Examples
Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}PremultiplyComponents
Det får eller ställer in ett värde som anger om komponenterna måste förökas.
[JsonProperty]
public bool PremultiplyComponents { get; set; }Fastighetsvärde
ResolutionSettings
Få eller ställa in resolutionsinställningar.
public override ResolutionSetting ResolutionSettings { get; set; }Fastighetsvärde
ResolutionUnit
Få eller ställa upp resolutionsenheten.
public TiffResolutionUnits ResolutionUnit { get; set; }Fastighetsvärde
RowsPerStrip
Få eller sätta raderna per sträng.
public uint RowsPerStrip { get; set; }Fastighetsvärde
SampleFormat
Få eller ställa in provformat.
public TiffSampleFormats[] SampleFormat { get; set; }Fastighetsvärde
Exceptions
värde
värde;Array längd måste matcha prover per pixel räkning.
SamplesPerPixel
För att ändra denna egendom värde använder du Aspose.Imaging.ImageOptions.TiffOptions.BitsPerSample egendom setter.
public ushort SamplesPerPixel { get; }Fastighetsvärde
ScannerManufacturer
Få eller ställa in skannern tillverkare.
public string ScannerManufacturer { get; set; }Fastighetsvärde
ScannerModel
Få eller ställa in skannerns modell.
public string ScannerModel { get; set; }Fastighetsvärde
SmaxSampleValue
Värdet har en fälttyp som bäst matchar provdata (Byte, Short eller Long typ).
public uint[] SmaxSampleValue { get; set; }Fastighetsvärde
uint [ ]
SminSampleValue
Värdet har en fälttyp som bäst matchar provdata (Byte, Short eller Long typ).
public uint[] SminSampleValue { get; set; }Fastighetsvärde
uint [ ]
SoftwareType
Få eller ställa in typ av programvara.
public string SoftwareType { get; set; }Fastighetsvärde
StripByteCounts
Får eller sätter strängen byte räknas.
public ulong[] StripByteCounts { get; set; }Fastighetsvärde
ulong [ ]
StripOffsets
Får eller sätter strängen offset.
public ulong[] StripOffsets { get; set; }Fastighetsvärde
ulong [ ]
SubFileType
Få eller ange en allmän indikation på vilken typ av data som finns i den här underfilen.
public TiffNewSubFileTypes SubFileType { get; set; }Fastighetsvärde
TagCount
Få tagg räkning.
public int TagCount { get; }Fastighetsvärde
Tags
Få eller sätta taggarna.
public TiffDataType[] Tags { get; set; }Fastighetsvärde
TiffDataType [ ]
TargetPrinter
Få eller ställa in målskrivaren.
public string TargetPrinter { get; set; }Fastighetsvärde
Threshholding
Får eller sätter tröskeln.
public TiffThresholds Threshholding { get; set; }Fastighetsvärde
TileByteCounts
Få eller sätta tile byte räknas.
public ulong[] TileByteCounts { get; set; }Fastighetsvärde
ulong [ ]
TileLength
Gets ot sätter tile längd.
public uint TileLength { get; set; }Fastighetsvärde
TileOffsets
Få eller sätta tile offset.
public ulong[] TileOffsets { get; set; }Fastighetsvärde
ulong [ ]
TileWidth
Gets ot sätter tile bredd.
public uint TileWidth { get; set; }Fastighetsvärde
TotalPages
Få hela sidorna.
public ushort TotalPages { get; }Fastighetsvärde
ValidTagCount
Detta är inte det totala antalet taggar men antalet taggar som kan bevaras.
public int ValidTagCount { get; }Fastighetsvärde
Författare Xpauthor
Få eller ställa in bildförfattare, som används av Windows Explorer.
public string XPAuthor { get; set; }Fastighetsvärde
XPkommentar
Få eller ställa in kommentarer på en bild som används av Windows Explorer.
public string XPComment { get; set; }Fastighetsvärde
XPKeywords
Få eller ställa in ämnesbilden, som används av Windows Explorer.
public string XPKeywords { get; set; }Fastighetsvärde
XPSubjekt
Få eller ange information om bild, som används av Windows Explorer.
public string XPSubject { get; set; }Fastighetsvärde
XTitle
Få eller ange information om bild, som används av Windows Explorer.
public string XPTitle { get; set; }Fastighetsvärde
Xposition
Få eller ställa in x-positionen.
public TiffRational Xposition { get; set; }Fastighetsvärde
Xresolution
Få eller ställa in x-resolution.
public TiffRational Xresolution { get; set; }Fastighetsvärde
YCbCrCoefficienter
Få eller ställa in YCbCrCoefficienter.
public TiffRational[] YCbCrCoefficients { get; set; }Fastighetsvärde
TiffRational [ ]
Exceptions
Invalid räkning av rationella coefficientvärden. måste vara lika med 3.
värde
YCbCrSubsampling
Få eller ställa in subsamlingsfaktorerna för YCbCr fotometrisk.
public ushort[] YCbCrSubsampling { get; set; }Fastighetsvärde
ushort [ ]
Examples
Detta exempel visar hur man sparar en rasterbild i TIFF-format med olika alternativ.
string dir = "c:\\temp\\";
Aspose.Imaging.ImageOptions.TiffOptions saveOptions = new Aspose.Imaging.ImageOptions.TiffOptions(Imaging.FileFormats.Tiff.Enums.TiffExpectedFormat.Default);
// Set 8 bits for each color component.
saveOptions.BitsPerSample = new ushort[] { 8, 8, 8 };
// Set the Big Endian byte order (Motorola)
saveOptions.ByteOrder = Aspose.Imaging.FileFormats.Tiff.Enums.TiffByteOrder.BigEndian;
// Set the LZW compression.
saveOptions.Compression = Aspose.Imaging.FileFormats.Tiff.Enums.TiffCompressions.Lzw;
// Allow to reduce the size of continuous-tone images.
// Currently this field is used only with LZW encoding because LZW is probably the only TIFF encoding scheme
// that benefits significantly from a predictor step.
saveOptions.Predictor = Imaging.FileFormats.Tiff.Enums.TiffPredictor.Horizontal;
// Set the RGB color model.
saveOptions.Photometric = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPhotometrics.Rgb;
// For YCbCr, you can use one of the following choices:
// YCbCrSubSampling field JPEG sampling factors
// ----------------------------------------------
// 1,1 1x1, 1x1, 1x1
// 2,1 2x1, 1x1, 1x1
// 2,2(default value) 2x2, 1x1, 1x1
// saveOptions.YCbCrSubsampling = new ushort[] { 2, 2 };
// All color components will be stored within a singel plane.
saveOptions.PlanarConfiguration = Aspose.Imaging.FileFormats.Tiff.Enums.TiffPlanarConfigs.Contiguous;
// Create a TIFF Frame of 100x100 px.
using (Aspose.Imaging.Image image = new Aspose.Imaging.FileFormats.Bmp.BmpImage(100, 100))
{
// Fill the entire image 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(image.Width, image.Height),
Aspose.Imaging.Color.Blue,
Aspose.Imaging.Color.Yellow);
Aspose.Imaging.Graphics graphics = new Aspose.Imaging.Graphics(image);
graphics.FillRectangle(gradientBrush, image.Bounds);
image.Save(dir + "output.tif", saveOptions);
}Exceptions
Invalid fältlängd. YCbCrSubsamplingfältet måste innehålla två värden.
värde
Yposition
Får eller sätter y position.
public TiffRational Yposition { get; set; }Fastighetsvärde
Yresolution
får eller ställer in en resolution.
public TiffRational Yresolution { get; set; }Fastighetsvärde
Methods
AddTag(TiffDataType)
Lägg till ett nytt tag.
public void AddTag(TiffDataType tagToAdd)Parameters
tagToAdd TiffDataType
Taggen att lägga till.
AddTags(TiffDataType[])
Lägg till taggarna.
public void AddTags(TiffDataType[] tagsToAdd)Parameters
tagsToAdd TiffDataType
[ ]
Taggarna att lägga till.
Clone()
Klonera denna instans.
public override ImageOptionsBase Clone()Returns
En djup klon återvänder.
GetTagByType(TiffTags)
Få exempel på taggen per typ.
public TiffDataType GetTagByType(TiffTags tagKey)Parameters
tagKey TiffTags
Nyckeln till taggen.
Returns
Instans av taggen om det finns eller noll på annat sätt.
GetValidTagsCount(TiffDataType[])
Få de giltiga taggarna räkna.
public static int GetValidTagsCount(TiffDataType[] tags)Parameters
tags TiffDataType
[ ]
Taggarna för att validera.
Returns
De giltiga taggarna räknas.
IsTagPresent(TiffTags)
Det bestämmer om taggen är närvarande i alternativen eller inte.
public bool IsTagPresent(TiffTags tag)Parameters
tag TiffTags
Tag ID att kontrollera.
Returns
’true’ om taggen är närvarande; annars, ‘falsk’.
RemoveTag(TiffTags)
Ta bort taggen.
public bool RemoveTag(TiffTags tag)Parameters
tag TiffTags
Taggen att ta bort.
Returns
Sanningen om framgångsrikt avlägsnat
RemoveTags(Föregående TiffTags[])
Ta bort taggarna.
public bool RemoveTags(params TiffTags[] tags)Parameters
tags TiffTags
[ ]
Taggarna att ta bort.
Returns
sann om tagkollektionsstorleken ändras.
Validate()
Validerar om alternativen har en giltig kombination av taggar
public void Validate()