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XResolution Property

Summary
Gets or sets the horizontal resolution to use when rasterization document files.
Syntax
C#
Objective-C
C++/CLI
Java
Python
public int XResolution { get; set; } 
@property (nonatomic, assign) NSUInteger xResolution; 
public int getXResolution() 
public void setXResolution(int value) 
public: 
property int XResolution { 
   int get(); 
   void set (    int ); 
} 
XResolution # get and set (CodecsRasterizeDocumentLoadOptions) 

Property Value

An Int32 value that indicates the horizontal resolution to use when rasterization occurs on document files such as PDF and XPS:

Value Description
0 To use the current screen resolution
150 The default value
Remarks

The resolution controls the pixel density of the resulting raster image. For example, if you specify 8.5 by 11 inches page width and height and a resolution of 96, the resulting image will have a pixel width and height of (8.5 * 96 = 816) and (11 * 96 = 1056) pixels. This is suitable for viewing at a 100 percent zoom but when you start zooming in, the image will get pixelated. Pixelation can also occur when sending the raster image to a printer, since printers usually have much higher resolution than a screen.

If zooming in or high quality printing is a requirement in your code, then a higher resolution value must be specified, for example 300 by 300. For an 8.5 by 11 inches document, this results in a raster image size if (8.5 * 300 = 2550) and (11 * 300 = 3300) pixels. More than suitable for printing or zooming in. Keep in mind that increasing the resolution will increase the memory used to hold the image data. Finding the right balance between pixel density and memory consumption depends on your application needs.

After the RasterImage is loaded, the image resolution set in RasterImage.XResolution and RasterImage.YResolution will be the same as XResolution and YResolution.

The vertical resolution is specified in YResolution. For most normal usage, the values of XResolution and YResolution should be equal.

Example
C#
using Leadtools; 
using Leadtools.Codecs; 
 
using Leadtools.ImageProcessing.Core; 
 
public void CodecsPdfOptionsExample() 
{ 
   RasterCodecs codecs = new RasterCodecs(); 
   string srcFileName = Path.Combine(LEAD_VARS.ImagesDir, "PDFSegmentation.pdf"); 
   string destFileName1 = Path.Combine(LEAD_VARS.ImagesDir, "PdfOptions.pdf"); 
   string destFileName2 = Path.Combine(LEAD_VARS.ImagesDir, "PdfOptions.bmp"); 
   CodecsImageInfo info = codecs.GetInformation(srcFileName, true); 
 
   codecs.Options.Pdf.InitialPath = @"C:\MyApp\Bin"; 
 
   info = codecs.GetInformation(srcFileName, true); 
   Debug.WriteLine("Information for: {0}", srcFileName); 
   Debug.WriteLine(string.Format("Document: {0}", info.Document)); // CodecsDocumentImageInfo reference 
   Debug.WriteLine(string.Format("Document: {0}", info.Document.IsDocumentFile)); 
   Debug.WriteLine(string.Format("Document: {0}", info.Document.PageHeight)); 
   Debug.WriteLine(string.Format("Document: {0}", info.Document.PageWidth)); 
   Debug.WriteLine(string.Format("Document: {0}", info.Document.Unit)); 
   Debug.WriteLine(string.Format("Document: {0}", info.IsGray8Alpha)); 
   Debug.WriteLine(string.Format("Palette: {0}", info.GetPalette())); 
 
   // Check if the PDF engine is installed then get the load and save options of the PDF files. 
   if (codecs.Options.Pdf.IsEngineInstalled) 
   { 
      // Resulting image pixel depth. 
      // CodecsPdfOptions & CodecsPdfLoadOptions reference 
      codecs.Options.Pdf.Load.DisplayDepth = 24; 
      codecs.Options.Pdf.Load.GraphicsAlpha = 4; 
      codecs.Options.Pdf.Load.DisableCieColors = false; 
      codecs.Options.Pdf.Load.DisableCropping = false; 
      codecs.Options.Pdf.Load.EnableInterpolate = false; 
      codecs.Options.Pdf.Load.Password = ""; 
 
      // Type of font anti-aliasing to use. 
      codecs.Options.Pdf.Load.TextAlpha = 1; 
      codecs.Options.Pdf.Load.UseLibFonts = true; 
 
      // Horizontal,vertical  display resolution in dots per inch. 
      codecs.Options.RasterizeDocument.Load.XResolution = 150; 
      codecs.Options.RasterizeDocument.Load.YResolution = 150; 
 
      // CodecsRasterizeDocumentOptions & CodecsRasterizeDocumentLoadOptions reference 
      codecs.Options.RasterizeDocument.Load.BottomMargin = 0.1; 
      codecs.Options.RasterizeDocument.Load.LeftMargin = 0.1; 
      codecs.Options.RasterizeDocument.Load.PageHeight = 11; 
      codecs.Options.RasterizeDocument.Load.PageWidth = 8.5; 
      codecs.Options.RasterizeDocument.Load.Resolution = 150; 
      codecs.Options.RasterizeDocument.Load.RightMargin = 1.25; 
      codecs.Options.RasterizeDocument.Load.SizeMode = CodecsRasterizeDocumentSizeMode.None; // CodecsRasterizeDocumentSizeMode Enumeration reference 
      codecs.Options.RasterizeDocument.Load.TopMargin = 1.0; 
      codecs.Options.RasterizeDocument.Load.Unit = CodecsRasterizeDocumentUnit.Pixel; // CodecsRasterizeDocumentUnit Enumeration reference 
 
      using (RasterImage image = codecs.Load(srcFileName, 0, CodecsLoadByteOrder.BgrOrGray, 1, 1)) 
      { 
         // Set access rights for the user when he\she opens the file we create 
         // CodecsPdfSaveOptions reference 
         codecs.Options.Pdf.Save.AssembleDocument = true; 
         codecs.Options.Pdf.Save.ExtractText = true; 
         codecs.Options.Pdf.Save.ExtractTextGraphics = true; 
         codecs.Options.Pdf.Save.PrintDocument = false; 
         codecs.Options.Pdf.Save.FillForm = true; 
         codecs.Options.Pdf.Save.ModifyAnnotation = true; 
         codecs.Options.Pdf.Save.ModifyDocument = true; 
         codecs.Options.Pdf.Save.OwnerPassword = "LEAD Technologies"; 
         codecs.Options.Pdf.Save.PrintFaithful = false; 
         codecs.Options.Pdf.Save.TextEncoding = CodecsPdfTextEncoding.Hex; 
         codecs.Options.Pdf.Save.Use128BitEncryption = true; 
         codecs.Options.Pdf.Save.UserPassword = "LEAD"; 
 
         // Set the PDF version to be v1.4 
         codecs.Options.Pdf.Save.Version = CodecsRasterPdfVersion.V14; 
 
         // Save it as linearized (optimized for web view) 
         codecs.Options.Pdf.Save.Linearized = true; 
         codecs.Options.Pdf.Save.LowMemoryUsage = false; 
         codecs.Options.Pdf.Save.SavePdfA = false; 
         codecs.Options.Pdf.Save.SavePdfv13 = false; 
         codecs.Options.Pdf.Save.SavePdfv14 = false; 
         codecs.Options.Pdf.Save.SavePdfv15 = false; 
         codecs.Options.Pdf.Save.SavePdfv16 = false; 
         codecs.Options.Pdf.Save.SavePdfv17 = false; 
         codecs.Options.Pdf.Save.UseImageResolution = true; 
 
         // Save the image back as PDF 
         codecs.Save(image, destFileName1, RasterImageFormat.RasPdf, 24); 
      } 
 
      // And load it back before saving it as BMP 
      using (RasterImage image = codecs.Load(destFileName1)) 
      { 
         codecs.Save(image, destFileName2, RasterImageFormat.Bmp, image.BitsPerPixel); 
      } 
   } 
   else 
   { 
      Debug.WriteLine("PDF Engine is not found!"); 
   } 
 
   // Clean up 
   codecs.Dispose(); 
} 
 
static class LEAD_VARS 
{ 
   public const string ImagesDir = @"C:\LEADTOOLS22\Resources\Images"; 
} 
Requirements

Target Platforms

Help Version 22.0.2023.5.5
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Leadtools.Codecs Assembly
Products | Support | Contact Us | Intellectual Property Notices
© 1991-2023 LEAD Technologies, Inc. All Rights Reserved.