Leadtools.Codecs Namespace > RasterCodecs Class > SaveAsync Method : SaveAsync(RasterImage,ILeadStream,RasterImageFormat,Int32) Method |
public IAsyncAction SaveAsync( RasterImage image, ILeadStream stream, RasterImageFormat format, int bitsPerPixel )
'Declaration Public Overloads Function SaveAsync( _ ByVal image As RasterImage, _ ByVal stream As ILeadStream, _ ByVal format As RasterImageFormat, _ ByVal bitsPerPixel As Integer _ ) As IAsyncAction
'Usage Dim instance As RasterCodecs Dim image As RasterImage Dim stream As ILeadStream Dim format As RasterImageFormat Dim bitsPerPixel As Integer Dim value As IAsyncAction value = instance.SaveAsync(image, stream, format, bitsPerPixel)
public IAsyncAction SaveAsync( RasterImage image, ILeadStream stream, RasterImageFormat format, int bitsPerPixel )
function Leadtools.Codecs.RasterCodecs.SaveAsync(RasterImage,ILeadStream,RasterImageFormat,Int32)( image , stream , format , bitsPerPixel )
public: IAsyncAction^ SaveAsync( RasterImage^ image, ILeadStream^ stream, RasterImageFormat format, int bitsPerPixel )
If the output file format supports multipage and then all the pages in image will be saved to the file.
If the image is 8 bits per pixel or greater, use the LEAD CMP format or one of the JPEG (JTIF or JFIF) formats to save disk space.
If the image is 1-bit per pixel, use the LEAD 1-bit format or a CCITT Group 3 or 4 format to save disk space.
If the image has a region, the region stored in the image will be saved, if the image is saved as one of the TIFF file formats. For more information, refer to Saving A Region. Note, however, that the ability to save a region inside a TIFF file must be unlocked. This requires a Document Imaging or Medical Imaging toolkit.
Only TIFF and DICOM file formats are capable of saving images that have been window-leveled. Images can be window-leveled by calling RasterImage.WindowLevel and specifying RasterWindowLevelMode.PaintAndProcessing, by using the Leadtools.ImageProcessing.Core.WindowLevelCommand or by loading an image from a file format that supports Window Leveling. If a window-leveled image is saved as any other file format, the image data will be converted before being saved. For more information, refer to Saving Window-Leveled Images.
Use the CodecsSaveOptions class to set up other save options parameters before calling this method.
Use FormatSupportsMultipageSave to determine if the format supports saving into a multi-page file.
Use to the SaveImage event to provide progress feedback or to set or modify the saved image data.
This method supports signed data images, but only DICOM and TIFF formats support signed data. This method will throw an exception if you attempt to save a signed image to a format other than DICOM or TIFF.
In LEADTOOLS version 17 and up, when saving a colored image (such as a 24-bits per pixel image) to bitonal (1-bit per pixel), the RasterCodecs object will not use any dithering when converting the image data. This is done because dithering is not recommended when converting colored images containing text when performing document processing such as OCR or Barcode. The resulting text will be fuzzy and hard for a recognition engine to process. To save a colored image as bitonal with Floyd-Stein dithering (the behavior of LEADTOOLS 16.5 and earlier) use CodecsSaveOptions.UseImageDitheringMethod along with RasterImage.DitheringMethod as illustrated below:
// 'codecs' is the RasterCodecs to use when saving
// 'image' is a colored RasterImage object
// Setup FloydStein dithering:
codecs.Options.Save.UseImageDitheringMethod = true;
image.DitheringMethod = RasterDitheringMethod.FloydStein;
// Save the image as 1-bpp with auto-dithering:
codecs.Save(image, fileName, RasterImageFormat.Tif, 1);
For information about quality factors, refer to Compression Quality Factors.
RasterCodecsExamples.prototype.SaveFile1Example = function () { Tools.SetLicense(); with (Leadtools) { with (Leadtools.Codecs) { var codecs = new RasterCodecs(); var image; var srcFileName = "Assets\\Image1.cmp"; var destFileName = "Image1_SaveFile1.tif"; var saveFile; // Load the source file (make sure to load as 24 bits/pixel) return Tools.AppInstallFolder().getFileAsync(srcFileName).then(function (loadFile) { return codecs.loadAsync(LeadStreamFactory.create(loadFile), 24, CodecsLoadByteOrder.bgr, 1, 1) }) .then(function (img) { image = img; console.info("Loaded image has ", image.bitsPerPixel, " bpp"); // Save it as 1 bpp TIF return Tools.AppLocalFolder().createFileAsync(destFileName) }) .then(function (saveFileX) { saveFile = saveFileX; return codecs.saveAsync(image, LeadStreamFactory.create(saveFile), RasterImageFormat.tif, 1) }) .then(function () { image.close(); // Check if the image was saved correctly return codecs.getInformationAsync(LeadStreamFactory.create(saveFile), false, 1) }) .then(function (info) { console.info("Saved image has ", info.bitsPerPixel, " bpp"); // Clean up codecs.close(); }); } } }
using Leadtools; using Leadtools.Codecs; using Leadtools.ImageProcessing; using Leadtools.ImageProcessing.Color; public async Task SaveFile1Example() { RasterCodecs codecs = new RasterCodecs(); string srcFileName = @"Assets\Image1.cmp"; string destFileName = @"Image1_SaveFile1.tif"; // Load the source file (make sure to load as 24 bits/pixel) StorageFile loadFile = await Tools.AppInstallFolder.GetFileAsync(srcFileName); RasterImage image = await codecs.LoadAsync(LeadStreamFactory.Create(loadFile), 24, CodecsLoadByteOrder.Bgr, 1, 1); Debug.WriteLine("Loaded image has {0} bpp", image.BitsPerPixel); // Save it as 1 bpp TIF StorageFile saveFile = await Tools.AppLocalFolder.CreateFileAsync(destFileName); await codecs.SaveAsync(image, LeadStreamFactory.Create(saveFile), RasterImageFormat.Tif, 1); image.Dispose(); // Check if the image was saved correctly CodecsImageInfo info = await codecs.GetInformationAsync(LeadStreamFactory.Create(saveFile), false, 1); Debug.WriteLine("Saved image has {0} bpp", info.BitsPerPixel); // Clean up codecs.Dispose(); }