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RasterImageTypeConverter Class

Summary

RasterImageTypeConverter is a class that can be used to convert RasterImage objects from other data types.

Syntax
C#
C++/CLI
Python
public class RasterImageTypeConverter : TypeConverter 
public ref class RasterImageTypeConverter : public System.ComponentModel.TypeConverter  
class RasterImageTypeConverter(TypeConverter): 
Remarks

NOTE: This topic is part of RasterCodecs Async support using the .NET System.ComponentMode.AsyncOperation model. For .NET async/await support this type/member is not used. Instead, refer to RasterCodecs Async Operations.

This class derives from the standard .NET TypeConverter class to provides functionality for converting RasterImage objects from other data types.

The following data types are supported:

  • Uri containing the URL to the image file with optional parameters.
  • String containing the path to the image file with optional parameters.
  • Stream containing the data of the image file.
  • An array of Byte containing the data of the image file.

The CanConvertFrom method will return true if any of the supported object types is passed into the sourceType parameter. However, this does not mean that the conversion operation will succeed, this depends on whether the data contains a valid image that LEADTOOLS can load.

The ConvertFrom method will try to convert the object passed into the value parameter to a valid RasterImage object.

For Uri and String source objects, LEADTOOLS supports optional extra parameters passed as standard HTML query string to fine tune the loading of RasterImage objects. The following table lists these parameters:

Parameter Description
LeadBitsPerPixel

Resulting image pixel depth. This should be a string representation of an integer. Valid values are:

value Meaning
0 Keep the original file's pixel depth (Do not convert).
1 to 8 The specified bits per pixel in the resulting image.
12 12 bits per pixel in the resulting image.
16 16 bits per pixel in the resulting image.
24 24 bits per pixel in the resulting image.
32 32 bits per pixel in the resulting image.
48 48 bits per pixel in the resulting image.
64 64 bits per pixel in the resulting image.
LeadOrder

Color order for 16-bit, 24-bit, 32-bit, 48-bit, and 64-bit images. If the resulting image is less than 16 bits per pixel, this will have no effect since palletized images have no order. This must be one of the following string values:

Value Meaning
Rgb Red, green, and blue color order in memory
Bgr Blue, green, and red color order in memory
Gray 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are only supported in the Document/Medical Imaging editions.
RgbOrGray Load the image as red, green, blue OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions
BgrOrGray Load the image as blue, green, red OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions
Romm ROMM order. ROMM only supports 24 and 48-bit images
BgrOrGrayOrRomm Load the image as blue, green, red OR as a 12 or 16-bit grayscale image OR as ROMM. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions only. ROMM only supports 24 and 48-bit color images.
LeadFirstPage

A string that contains an integer representation of the 1-based index of the first page to load.

LeadLastPage

A string that contains an integer representation of the 1-based index of last page to load. Must be greater than or equal to "LeadFirstPage" if specified.

LeadUseWriteableBitmap

This value is no longer supported.

LeadUseNativeLoad

This value is no longer supported.

value Meaning
0 Keep the original file's pixel depth (Do not convert).
1 to 8 The specified bits per pixel in the resulting image.
12 12 bits per pixel in the resulting image.
16 16 bits per pixel in the resulting image.
24 24 bits per pixel in the resulting image.
32 32 bits per pixel in the resulting image.
48 48 bits per pixel in the resulting image.
64 64 bits per pixel in the resulting image.
Value Meaning
Rgb Red, green, and blue color order in memory
Bgr Blue, green, and red color order in memory
Gray 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are only supported in the Document/Medical Imaging editions.
RgbOrGray Load the image as red, green, blue OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions
BgrOrGray Load the image as blue, green, red OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions
Romm ROMM order. ROMM only supports 24 and 48-bit images
BgrOrGrayOrRomm Load the image as blue, green, red OR as a 12 or 16-bit grayscale image OR as ROMM. 12 and 16-bit grayscale images are supported in the Document/Medical Imaging editions only. ROMM only supports 24 and 48-bit color images.

All these parameters are optional and should be passed as a standard HTML query string. The order is not important. Here are a few examples of valid strings:

// Load all the pages in the TIF file hosted at an HTTP URL 
http://tempuri.org/MyImage.tif 
// Load the first page only of the multipage TIF file hosted at an HTTP URL 
http://tempuri.org/MyImage.tif?LeadFirstPage=1&LeadLastPage=1 
// Load the second and third page of the multipage TIF file hosted at an HTTP URL as 24 bits/pixel with RGB color order 
http://tempuri.org/MyImage.tif?LeadBitsPerPixel=24&LeadOrder=Rgb&LeadFirstPage=2&LeadLastPage=3 
// Load all the pages in the TIF file hosted at an FTP site 
ftp://tempuri.org/MyImage.tif 
// Load all the pages in the TIF file in a disk file 
C:\Dir\MyImage.tif 
file:://C:/Dir/MyImage.tif 
file:://myserver/MyImage.tif 
// Load the second and third page of the multipage TIF file in a disk file as 24 bits/pixel with RGB color order 
C:\Dir\MyImage\MyImage.tif?LeadBitsPerPixel=24&LeadOrder=Rgb&LeadFirstPage=2&LeadLastPage=3 

The RasterImageTypeConverter is also used when loading a resource image from XAML as a RasterImage. Here are a few example:

// Load all the pages in the TIF file set as resource 
"MyImage.tif" 
// Load the first page only of the multipage TIF file set as a resource 
"MyImage.tif?LeadFirstPage=1&LeadLastPage=1" 
// Load the second and third page of the multipage TIF file set as a resource as 24 bits/pixel with RGB color order 
"MyImage.tif?LeadBitsPerPixel=24&LeadOrder=Rgb&LeadFirstPage=2&LeadLastPage=3" 
// Load the second and third page of the multipage TIF file set as a resource as 24 bits/pixel with RGB color order 
"MyImage.tif?LeadBitsPerPixel=24&LeadOrder=Rgb&LeadFirstPage=2&LeadLastPage=3" 
// No longer supported. 
"MyImage.tif?LeadUseWriteableBitmap=True" 
// No longer supported. 
"MyImage.tif?LeadUseWriteableBitmap=True&LeadUseNativeLoad=True" 

Query strings are not supported for String and an array of Byte data types.

The LEADTOOLS WPF controls use the RasterImageTypeConverter to load a RasterImage from a XAML file.

The image returned from the ConvertFrom method will have itsRasterImage.IsLoading property set to true since this method will load the image asynchronously. To get notified when the image has finished loading, create the RasterImageTypeConverter with your own RasterCodecs instance and subscribe to the RasterCodecs.LoadAsyncCompleted event before calling ConvertFrom as shown in the example below.

Example

This example will use the RasterImageTypeConverter to load an image from a URL.

C#
using Leadtools; 
using Leadtools.Codecs; 
 
using Leadtools.ImageProcessing.Core; 
 
public void RasterImageTypeConverterExample() 
{ 
   string srcFileName = Path.Combine(LEAD_VARS.ImagesDir, "Ocr1.tif"); 
 
   // Construct the source URL to use the source file and load the image 
   Uri uri = new Uri(srcFileName); 
 
   RasterCodecs codecs = new RasterCodecs(); 
 
   // Create a new instance of the RasterImageTypeConverter class 
   RasterImageTypeConverter rasterImageConverter = new RasterImageTypeConverter(codecs); 
 
   // We should be able to convert from a URL 
   Debug.Assert(rasterImageConverter.CanConvertFrom(uri.GetType())); 
 
   // Convert the image 
 
   // The return value from RasterImageTypeConverter.ConvertFrom might be an image that is 
   // still loading. So, we must subscribe to the RasterCodecs.LoadAsyncCompleteted 
   // event to obtain the finished image 
   codecs.LoadAsyncCompleted += new EventHandler<CodecsLoadAsyncCompletedEventArgs>(rasterImageTypeConverterExample_LoadAsyncCompleted); 
   object rasterImageObject = rasterImageConverter.ConvertFrom(uri); 
 
   // Notice that the returned rasterImageObject is a RasterImage with IsLoading set to true at this point 
   // The IsLoading will be false (and hence, the object will be usable) when the LoadAsyncCompleteted 
   // fires. 
} 
 
private void rasterImageTypeConverterExample_LoadAsyncCompleted(object sender, CodecsLoadAsyncCompletedEventArgs e) 
{ 
   // Check if the user canceled or if we have errors 
   if (e.Cancelled) 
   { 
      Debug.WriteLine("Canceled by the user"); 
   } 
   else if (e.Error != null) 
   { 
      Debug.WriteLine("Error: " + e.Error.Message); 
   } 
   else 
   { 
      // Everything is OK, get the image 
      RasterImage image = e.Image; 
 
      Debug.WriteLine("Image at {0} loaded OK, size: {1} by {2}", e.Uri, image.Width, image.Height); 
 
      image.Dispose(); 
   } 
 
   // Unsubscribe to the event and dispose the RasterCodecs object 
   RasterCodecs codecs = sender as RasterCodecs; 
   codecs.LoadAsyncCompleted -= new EventHandler<CodecsLoadAsyncCompletedEventArgs>(rasterImageTypeConverterExample_LoadAsyncCompleted); 
   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

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© 1991-2023 LEAD Technologies, Inc. All Rights Reserved.