public int TileHorizontalOffset { get; set; }
@property (nonatomic, assign) NSInteger tileHorizontalOffset;
public:
property int TileHorizontalOffset {
int get();
void set ( int value);
}
Value that indicates horizontal offset from the origin of the reference grid to the left side of the first tile.
using Leadtools;
using Leadtools.Dicom;
public void TestChangeTransferSyntax()
{
string dicomFileName = Path.Combine(LEAD_VARS.ImagesDir, "DICOM", "image3.dcm");
//Make sure to initialize the DICOM engine, this needs to be done only once
//In the whole application
DicomEngine.Startup();
using (DicomDataSet ds = new DicomDataSet())
{
//Load DICOM File
ds.Load(dicomFileName, DicomDataSetLoadFlags.None);
DicomJpeg2000Options options = ds.DefaultJpeg2000Options;
Console.WriteLine("JPEG 2000 Options:");
Console.WriteLine("DicomJpeg2000Options.UseColorTransform is : {0}", options.UseColorTransform);
Console.WriteLine("DicomJpeg2000Options.DerivedQuantization is : {0}", options.DerivedQuantization);
Console.WriteLine("DicomJpeg2000Options.TargetFileSize is : {0}", options.TargetFileSize);
Console.WriteLine("DicomJpeg2000Options.ImageAreaHorizontalOffset is : {0}", options.ImageAreaHorizontalOffset);
Console.WriteLine("DicomJpeg2000Options.ImageAreaVerticalOffset is : {0}", options.ImageAreaVerticalOffset);
Console.WriteLine("DicomJpeg2000Options.ReferenceTileWidth is : {0}", options.ReferenceTileWidth);
Console.WriteLine("DicomJpeg2000Options.ReferenceTileHeight is : {0}", options.ReferenceTileHeight);
Console.WriteLine("DicomJpeg2000Options.TileHorizontalOffset is : {0}", options.TileHorizontalOffset);
Console.WriteLine("DicomJpeg2000Options.TileVerticalOffset is : {0}", options.TileVerticalOffset);
Console.WriteLine("DicomJpeg2000Options.DecompositionLevels is : {0}", options.DecompositionLevels);
Console.WriteLine("DicomJpeg2000Options.ProgressingOrder is : {0}", options.ProgressingOrder);
Console.WriteLine("DicomJpeg2000Options.UseSopMarker is : {0}", options.UseSopMarker);
Console.WriteLine("DicomJpeg2000Options.UseEphMarker is : {0}", options.UseEphMarker);
Console.WriteLine("DicomJpeg2000Options.RegionOfInterest is : {0}", options.RegionOfInterest);
Console.WriteLine("DicomJpeg2000Options.UseRegionOfInterest is : {0}", options.UseRegionOfInterest);
Console.WriteLine("DicomJpeg2000Options.RegionOfInterestWeight is : {0}", options.RegionOfInterestWeight);
Console.WriteLine("DicomJpeg2000Options.RegionOfInterestRectangle is : {0}", options.RegionOfInterestRectangle);
options.CompressionControl = DicomJpeg2000CompressionControl.Ratio;
options.CompressionRatio = 50;
Console.WriteLine("Changed CompressionControl to DicomJpeg2000CompressionControl.Ratio and DicomJpeg2000CompressionControl.CompressionRatio to 50");
ds.Jpeg2000Options = options;
ds.ChangeTransferSyntax(DicomUidType.JPEG2000, 2, ChangeTransferSyntaxFlags.None);
ds.Save(Path.Combine(LEAD_VARS.ImagesDir, "DICOM", "DicomJ2K.dcm"), DicomDataSetSaveFlags.None);
}
DicomEngine.Shutdown();
}
static class LEAD_VARS
{
public const string ImagesDir = @"C:\LEADTOOLS23\Resources\Images";
}
Help Collections
Raster .NET | C API | C++ Class Library | HTML5 JavaScript
Document .NET | C API | C++ Class Library | HTML5 JavaScript
Medical .NET | C API | C++ Class Library | HTML5 JavaScript
Medical Web Viewer .NET
Multimedia
Direct Show .NET | C API | Filters
Media Foundation .NET | C API | Transforms
Supported Platforms
.NET, Java, Android, and iOS/macOS Assemblies
Imaging, Medical, and Document
C API/C++ Class Libraries
Imaging, Medical, and Document
HTML5 JavaScript Libraries
Imaging, Medical, and Document