The .NET Color Conversion provides direct color conversion to an image. Generic YUV conversion provides the ability to convert any YUV format to any supported color space, using the ConversionYuvParameters class and adhering to the restrictions listed below. After defining the YUV format, you can proceed with the conversion normally, just like any other conversion. Use Convert method to perform the conversion and call Stop method to free the conversion resources used. Currently the conversion from any color space to Generic YUV is not supported.
Generic YUV conversion currently has the following restrictions:
Examples
Converting Y41P to RGB using Generic YUV Conversion:
using Leadtools;
using Leadtools.Codecs;
using Leadtools.ColorConversion;
// This example converts Y41P to RGB color space using Generic YUV Conversion.
private byte[] TestConvertGenericY41PToRgb(byte[] yuvBuffer, int width, int height)
{
// StartUp the ColorConversion.
RasterColorConverter.Startup();
// Initialize the Lab buffer array
byte[] rgbBuffer = new byte[yuvBuffer.Length];
// Byte ordering of the format; for Y41P:
// U0 Y0 V0 Y1 U4 Y2 V4 Y3 Y4 Y5 Y6 Y7
// 0 1 2 3 4 5 6 7 8 9 10 11
// Put the Y component order first, then the U and V last as follows:
// Y positions: 1,3,5,7,8,9,10,11
// U positions: 0,4
// V positions: 2,6
int[] offset = { 1, 3, 5, 7, 8, 9, 10, 11, 0, 4, 2, 6 };
// Initialize a new ConversionParameters class object.
ConversionParameters convParams = new ConversionParameters();
// Initialize the YuvParameters class property.
ConversionYuvParameters yuvParameters = ConversionYuvParameters.Empty;
// Determine the horizontal sub-sampling of U
yuvParameters.UH = 4;
// Determine the vertical sub-sampling of U
yuvParameters.UV = 1;
// Determine the horizontal sub-sampling of V
yuvParameters.VH = 4;
// Determine the vertical sub-sampling of V
yuvParameters.VV = 1;
// Set the byte ordering
yuvParameters.Offsets = offset;
// The YUV values range
yuvParameters.Range = ConversionYuvRange.UseFull;
// This represents the macro pixels(smallest group of pixels allowed),
// which indicates how many actual pixels are in the macro pixel.
// This value is important only in non - planar format
yuvParameters.MacroPixel = 8;
// This is a Boolean value that represents the type of the YUV format (Planar = true, or non - Planar = false.)
yuvParameters.Planar = false;
convParams.YuvParameters = yuvParameters;
// Determine the type of conversion to be used in the conversion, for YUVGeneric, only use UseBuiltIn
convParams.Method = ConversionMethodFlags.UseBuiltIn;
// Determine the type of conversion to be activated. For YUVGeneric, only UseBuiltIn
convParams.ActiveMethod = ConversionMethodFlags.UseBuiltIn;
// Initialize a new Converter object
RasterColorConverter converter = new RasterColorConverter();
try
{
//Initialize the conversion
converter.Start(ConversionColorFormat.Yuv, ConversionColorFormat.Rgb, convParams);
// Convert the Buffer from Yuv to Rgb
converter.Convert(yuvBuffer, 0, rgbBuffer, 0, width, height, 0, 0);
// Stop the conversion
converter.Stop();
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
return null;
}
// Shutdown the ColorConversion.
RasterColorConverter.Shutdown();
// return the converted buffer.
return rgbBuffer;
}
Converting YVU9 (Planar) to RGB using Generic YUV Conversion:
using Leadtools;
using Leadtools.Codecs;
using Leadtools.ColorConversion;
// This example converts YVU9 (Planar) to RGB color space using Generic YUV Conversion.
private byte[] TestConvertGenericYVU9ToRGB(byte[] yuvBuffer, int width, int height)
{
// StartUp the ColorConversion.
RasterColorConverter.Startup();
// Initialize the Lab buffer array
byte[] rgbBuffer = new byte[yuvBuffer.Length];
// This array of integers specifies the byte order of the yuv format. For planar formats it takes only a single value that represents the plane sequence in the buffer:
// YUV, YVU, UYV, UVY, VYU, or VUY.
int[] offset = { ConversionYuvParameters.PlanarYvu };
//PlanarYuv means the Y plane comes first in the buffer, then the V plane, and the U plane is last.
// Initialize a new Converter object
RasterColorConverter converter = new RasterColorConverter();
// Initialize a new ConversionParameters class object.
ConversionParameters convParams = new ConversionParameters();
// Initialize the YuvParameters property class.
ConversionYuvParameters yuvParameters = ConversionYuvParameters.Empty;
// Set the horizontal sub-sampling of U.
yuvParameters.UH = 4;
// Set the vertical sub-sampling of U.
yuvParameters.UV = 4;
// Set the horizontal sub-sampling of V.
yuvParameters.VH = 4;
// Set the vertical sub-sampling of V.
yuvParameters.VV = 4;
// Pass the byte order array.
yuvParameters.Offsets = offset;
// The range value determines the YUV range values.
yuvParameters.Range = ConversionYuvRange.UseFull;
// This represents the macro pixels(smallest group of pixels allowed),
// which indicates how many actual pixels are in the macro pixel.
// This value is important only in non - planar format
yuvParameters.MacroPixel = 16;
// This is a Boolean value that represents the type of the YUV format (Planar, or non - Planar).
yuvParameters.Planar = true;
convParams.YuvParameters = yuvParameters;
// Set the type of conversion to be used. For YUVGeneric, use only UseBuiltIn.
convParams.Method = ConversionMethodFlags.UseBuiltIn;
// Set the type of conversion to be activated. For YUVGeneric, use only UseBuiltIn.
convParams.ActiveMethod = ConversionMethodFlags.UseBuiltIn;
try
{
// Initialize the conversion.
converter.Start(ConversionColorFormat.Yuv, ConversionColorFormat.Rgb, convParams);
// Convert the buffer.
converter.Convert(yuvBuffer, 0, rgbBuffer, 0, width, height, 0, 0);
// Stop the conversion.
converter.Stop();
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
return null;
}
// Shutdown the ColorConversion.
RasterColorConverter.Shutdown();
// return the converted buffer.
return rgbBuffer;
}