C# Class ManagedCuda.NPP.NPPImage_8uC4

Inheritance: NPPImageBase

Mostrar archivo Open project: kunzmi/managedCuda Class Usage Examples

Public Methods

Method	Description
ADotProdGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for nppiDotProd_8u64f_C4R. Ignoring alpha channel.
ADotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp ) : void	Four-channel 8-bit unsigned image DotProd. Buffer is internally allocated and freed. Ignoring alpha channel.
ADotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp, CudaDeviceVariable buffer ) : void	Four-channel 8-bit unsigned image DotProd. Ignoring alpha channel.
AbsDiff ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Absolute difference of this minus src2.
Add ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.
Add ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.
Add ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
Add ( byte nConstant, int nScaleFactor ) : void	Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.
AddA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.
AddA ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.
AddA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.
AddA ( byte nConstant, int nScaleFactor ) : void	Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unmodified Alpha.
AlphaComp ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void	Four 8-bit unsigned char channel image composition using image alpha values (0 - max channel pixel value).
AlphaComp ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void	Image composition using constant alpha.
AlphaCompA ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void	Image composition using constant alpha. Not affecting alpha channel.
AlphaCompColorKeyA ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, byte colorKeyConst, NppiAlphaOp nppAlphaOp ) : void	complement color key replacement of source image 1 by source image 2 with alpha blending.
AlphaPremul ( byte alpha ) : void	In place alpha premultiplication using constant alpha.
AlphaPremul ( byte alpha, NPPImage_8uC4 dest ) : void	Image premultiplication using constant alpha.
AlphaPremulA ( ) : void	Four 8-bit unsigned char channel in place image premultiplication with pixel alpha (0 - max channel pixel value).
AlphaPremulA ( NPPImage_8uC4 dest ) : void	Four 8-bit unsigned char channel image premultiplication with pixel alpha (0 - max channel pixel value).
AlphaPremulA ( byte alpha ) : void	In place alpha premultiplication using constant alpha. Not affecting alpha channel.
AlphaPremulA ( byte alpha, NPPImage_8uC4 dest ) : void	Image premultiplication using constant alpha. Not affecting alpha channel.
And ( NPPImage_8uC4 src2 ) : void	In place image logical and.
And ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical and.
And ( byte nConstant ) : void	In place image logical and with constant.
And ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical and with constant.
AndA ( NPPImage_8uC4 src2 ) : void	In place image logical and. Unchanged Alpha.
AndA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical and. Unchanged Alpha.
AndA ( byte nConstant ) : void	In place image logical and with constant. Unchanged Alpha.
AndA ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical and with constant. Unchanged Alpha.
AverageError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void	image average error. User buffer is internally allocated and freed.
AverageError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void	image average error.
AverageErrorGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for AverageError.
AverageRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void	image average relative error. User buffer is internally allocated and freed.
AverageRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void	image average relative error.
AverageRelativeErrorGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for AverageRelativeError.
BGRToCbYCr422 ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void	4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed CbYCr422 color conversion.
BGRToCbYCr422_709HDTV ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void	4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed CbYCr422_709HDTV color conversion.
BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar HLS with alpha color conversion.
BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned planar BGR with alpha to 4 channel 8-bit unsigned planar HLS with alpha color conversion.
BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.
BGRToHLS ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned packed HLS with alpha color conversion.
BGRToYCbCr ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr color conversion.
BGRToYCbCr ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar YCbCr color conversion.
BGRToYCbCr411 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr411 color conversion.
BGRToYCbCr420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420 color conversion.
BGRToYCbCr420_709CSC ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420_709CSC color conversion.
BGRToYCbCr420_709HDTV ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420_709HDTV color conversion.
BGRToYCbCr422 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr422 color conversion.
BGRToYCbCr422 ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void	4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed YCrCb422 color conversion.
BGRToYCrCb420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCrCb420 color conversion.
BGRToYCrCb420_709CSC ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCrCb420_709CSC color conversion.
BGRToYUV ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar YUV color conversion with alpha.
BGRToYUV ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned packed YUV color conversion with alpha, not affecting alpha.
BGRToYUV420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned pacmed BGR with alpha to 3 channel 8-bit unsigned planar YUV420 color conversion.
ColorToGray ( ManagedCuda.NPP.NPPImage_8uC1 dest, float aCoeffs ) : void	Color to Gray conversion.
ColorToGrayA ( ManagedCuda.NPP.NPPImage_8uC1 dest, float aCoeffs ) : void	Color to Gray conversion, not affecting Alpha.
ColorTwist ( NPPImage_8uC4 dest, float twistMatrix ) : void	4 channel 8-bit unsigned color twist, with alpha copy. An input color twist matrix with floating-point coefficient values is applied with in ROI. Alpha channel is the last channel and is copied unmodified from the source pixel to the destination pixel.
ColorTwist ( float twistMatrix ) : void	4 channel 8-bit unsigned in place color twist, not affecting Alpha. An input color twist matrix with floating-point coefficient values is applied with in ROI. Alpha channel is the last channel and is unmodified.
ColorTwistA ( NPPImage_8uC4 dest, float twistMatrix ) : void	An input color twist matrix with floating-point pixel values is applied within ROI. Alpha channel is the last channel and is not processed.
ColorTwistA ( float aTwist ) : void	in place color twist, not affecting Alpha. An input color twist matrix with floating-point coefficient values is applied within ROI.
ColorTwistC ( NPPImage_8uC4 dest, float twistMatrix, float aConstants ) : void	4 channel 8-bit unsigned color twist with 4x4 matrix and constant vector addition. An input 4x4 color twist matrix with floating-point coefficient values with an additional constant vector addition is applied within ROI. For this particular version of the function the result is generated as shown below. \code dst[0] = aTwist[0][0] /// src[0] + aTwist[0][1] /// src[1] + aTwist[0][2] /// src[2] + aTwist[0][3] /// src[3] + aConstants[0] dst[1] = aTwist[1][0] /// src[0] + aTwist[1][1] /// src[1] + aTwist[1][2] /// src[2] + aTwist[1][3] /// src[3] + aConstants[1] dst[2] = aTwist[2][0] /// src[0] + aTwist[2][1] /// src[1] + aTwist[2][2] /// src[2] + aTwist[2][3] /// src[3] + aConstants[2] dst[3] = aTwist[3][0] /// src[0] + aTwist[3][1] /// src[1] + aTwist[3][2] /// src[2] + aTwist[3][3] /// src[3] + aConstants[3] \endcode
ColorTwistC ( float twistMatrix, float aConstants ) : void	4 channel 8-bit unsigned in place color twist with 4x4 matrix and an additional constant vector addition. An input 4x4 color twist matrix with floating-point coefficient values with an additional constant vector addition is applied within ROI. For this particular version of the function the result is generated as shown below. \code dst[0] = aTwist[0][0] /// src[0] + aTwist[0][1] /// src[1] + aTwist[0][2] /// src[2] + aTwist[0][3] /// src[3] + aConstants[0] dst[1] = aTwist[1][0] /// src[0] + aTwist[1][1] /// src[1] + aTwist[1][2] /// src[2] + aTwist[1][3] /// src[3] + aConstants[1] dst[2] = aTwist[2][0] /// src[0] + aTwist[2][1] /// src[1] + aTwist[2][2] /// src[2] + aTwist[2][3] /// src[3] + aConstants[2] dst[3] = aTwist[3][0] /// src[0] + aTwist[3][1] /// src[1] + aTwist[3][2] /// src[2] + aTwist[3][3] /// src[3] + aConstants[3] \endcode
CompColorKey ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, byte colorKeyConst ) : void	packed color complement color key replacement of source image 1 by source image 2
Compare ( NPPImage_8uC4 src2, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void	Compare pSrc1’s pixels with corresponding pixels in pSrc2.
Compare ( byte constants, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void	Compare pSrc's pixels with constant value.
CompareA ( NPPImage_8uC4 src2, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void	Compare pSrc1’s pixels with corresponding pixels in pSrc2. Not affecting Alpha.
CompareA ( byte constants, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void	Compare pSrc's pixels with constant value. Not affecting Alpha.
Convert ( ManagedCuda.NPP.NPPImage_16sC4 dst ) : void	8-bit unsigned to 16-bit signed conversion.
Convert ( ManagedCuda.NPP.NPPImage_16uC4 dst ) : void	8-bit unsigned to 16-bit unsigned conversion.
Convert ( ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	8-bit unsigned to 32-bit floating point conversion.
Convert ( ManagedCuda.NPP.NPPImage_32sC4 dst ) : void	8-bit unsigned to 32-bit signed conversion.
ConvertA ( ManagedCuda.NPP.NPPImage_16sC4 dst ) : void	8-bit unsigned to 16-bit signed conversion. Not affecting Alpha channel.
ConvertA ( ManagedCuda.NPP.NPPImage_16uC4 dst ) : void	8-bit unsigned to 16-bit unsigned conversion. Not affecting Alpha channel.
ConvertA ( ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	8-bit unsigned to 32-bit floating point conversion. Not affecting Alpha channel.
ConvertA ( ManagedCuda.NPP.NPPImage_32sC4 dst ) : void	8-bit unsigned to 32-bit signed conversion. Not affecting Alpha channel.
Copy ( ManagedCuda.NPP.NPPImage_8uC1 dst0, ManagedCuda.NPP.NPPImage_8uC1 dst1, ManagedCuda.NPP.NPPImage_8uC1 dst2, ManagedCuda.NPP.NPPImage_8uC1 dst3 ) : void	Three-channel 8-bit unsigned packed to planar image copy.
Copy ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void	Three-channel 8-bit unsigned planar to packed image copy.
Copy ( ManagedCuda.NPP.NPPImage_8uC1 dst, int channel ) : void	Image copy.
Copy ( NPPImage_8uC4 dst ) : void	Masked Operation 8-bit unsigned image copy.
Copy ( NPPImage_8uC4 dst, ManagedCuda.NPP.NPPImage_8uC1 mask ) : void	Masked Operation 8-bit unsigned image copy.
Copy ( NPPImage_8uC4 dst, int channelSrc, int channelDst ) : void	Image copy.
Copy ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, byte nValue ) : void	Copy image and pad borders with a constant, user-specifiable color.
CopyA ( NPPImage_8uC4 dst ) : void	Masked Operation 8-bit unsigned image copy. Not affecting Alpha channel.
CopyA ( NPPImage_8uC4 dst, ManagedCuda.NPP.NPPImage_8uC1 mask ) : void	Masked Operation 8-bit unsigned image copy. Not affecting Alpha channel.
CopyA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, byte nValue ) : void	Copy image and pad borders with a constant, user-specifiable color. Not affecting Alpha channel.
CopyReplicateBorder ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void	image copy with nearest source image pixel color.
CopyReplicateBorderA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void	image copy with nearest source image pixel color. Not affecting Alpha.
CopySubpix ( NPPImage_8uC4 dst, float nDx, float nDy ) : void	linearly interpolated source image subpixel coordinate color copy.
CopySubpixA ( NPPImage_8uC4 dst, float nDx, float nDy ) : void	linearly interpolated source image subpixel coordinate color copy. Not affecting Alpha.
CopyWrapBorder ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void	image copy with the borders wrapped by replication of source image pixel colors.
CopyWrapBorderA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void	image copy with the borders wrapped by replication of source image pixel colors. Not affecting Alpha.
CountInRangeA ( CudaDeviceVariable pCounts, byte nLowerBound, byte nUpperBound ) : void	image CountInRange. Not affecting Alpha.
CountInRangeA ( CudaDeviceVariable pCounts, byte nLowerBound, byte nUpperBound, CudaDeviceVariable buffer ) : void	image CountInRange. Not affecting Alpha.
CountInRangeAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CountInRange.
CrossCorrFull_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrFull_Norm.
CrossCorrFull_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrFull_Norm.
CrossCorrFull_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrFull_Norm. Not affecting Alpha.
CrossCorrFull_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrFull_Norm. Not affecting Alpha.
CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrFull_NormLevel. Buffer is internally allocated and freed.
CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrFull_NormLevel.
CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrFull_NormLevel. Buffer is internally allocated and freed.
CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrFull_NormLevel.
CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrFull_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrFull_NormLevel. Not affecting Alpha.
CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrFull_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrFull_NormLevel. Not affecting Alpha.
CrossCorrSame_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrSame_Norm.
CrossCorrSame_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrSame_Norm.
CrossCorrSame_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrSame_Norm. Not affecting Alpha.
CrossCorrSame_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrSame_Norm. Not affecting Alpha.
CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrSame_NormLevel. Buffer is internally allocated and freed.
CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrSame_NormLevel.
CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrSame_NormLevel. Buffer is internally allocated and freed.
CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrSame_NormLevel.
CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrSame_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrSame_NormLevel. Not affecting Alpha.
CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrSame_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrSame_NormLevel. Not affecting Alpha.
CrossCorrValid_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrValid_Norm.
CrossCorrValid_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrValid_Norm.
CrossCorrValid_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	image CrossCorrValid_Norm. Not affecting Alpha.
CrossCorrValid_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image CrossCorrValid_Norm. Not affecting Alpha.
CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrValid_NormLevel. Buffer is internally allocated and freed.
CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrValid_NormLevel.
CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrValid_NormLevel. Buffer is internally allocated and freed.
CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrValid_NormLevel.
CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void	CrossCorrValid_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void	CrossCorrValid_NormLevel. Not affecting Alpha.
CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	CrossCorrValid_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.
CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void	CrossCorrValid_NormLevel. Not affecting Alpha.
Dilate ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void	Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.
Dilate3x3 ( NPPImage_8uC4 dst ) : void	3x3 dilation.
Dilate3x3A ( NPPImage_8uC4 dst ) : void	3x3 dilation, not affecting Alpha.
Dilate3x3Border ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	3x3 dilation with border control.
Dilate3x3BorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	3x3 dilation with border control, ignoring alpha-channel.
DilateA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void	Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.
DilateBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control.
DilateBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control, ignoring alpha-channel.
Div ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppRoundMode rndMode, int nScaleFactor ) : void	Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
Div ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
Div ( NPPImage_8uC4 src2, NppRoundMode rndMode, int nScaleFactor ) : void	In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
Div ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
Div ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
Div ( byte nConstant, int nScaleFactor ) : void	Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.
DivA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppRoundMode rndMode, int nScaleFactor ) : void	Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
DivA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
DivA ( NPPImage_8uC4 src2, NppRoundMode rndMode, int nScaleFactor ) : void	In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
DivA ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
DivA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
DivA ( byte nConstant, int nScaleFactor ) : void	Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.
DotProdGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for nppiDotProd_8u64f_C4R.
DotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp ) : void	Four-channel 8-bit unsigned image DotProd. Buffer is internally allocated and freed.
DotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp, CudaDeviceVariable buffer ) : void	Four-channel 8-bit unsigned image DotProd.
Erode ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void	Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.
Erode3x3 ( NPPImage_8uC4 dst ) : void	3x3 erosion.
Erode3x3A ( NPPImage_8uC4 dst ) : void	3x3 erosion, not affecting Alpha.
Erode3x3Border ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	3x3 erosion with border control.
Erode3x3BorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	3x3 erosion with border control, ignoring alpha-channel.
ErodeA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void	Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.
ErodeBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control.
ErodeBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control, ignoring alpha-channel.
EvenLevels ( int nLevels, int nLowerBound, int nUpperBound ) : int[]	Compute levels with even distribution.
Filter ( NPPImage_16sC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void	convolution filter.
Filter ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void	convolution filter.
Filter ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor ) : void	Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor.
FilterA ( NPPImage_16sC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void	convolution filter. Not affecting Alpha.
FilterA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void	convolution filter. Not affecting Alpha.
FilterA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor ) : void	Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. Not affecting Alpha.
FilterBorder ( NPPImage_16sC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned to 16-bit signed convolution filter with border control. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBorder ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned convolution filter with border control. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBorder ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned convolution filter with border control. General purpose 2D convolution filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBorderA ( NPPImage_16sC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned to 16-bit signed convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType ) : void	Four channel 8-bit unsigned convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterBox ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Computes the average pixel values of the pixels under a rectangular mask.
FilterBoxA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Computes the average pixel values of the pixels under a rectangular mask. Not affecting Alpha.
FilterBoxBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Computes the average pixel values of the pixels under a rectangular mask.
FilterBoxBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Computes the average pixel values of the pixels under a rectangular mask.
FilterColumn ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void	1D column convolution.
FilterColumn ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void	Apply convolution filter with user specified 1D column of weights. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring column pixel values in the source image defined by nKernelDim and nAnchorY, divided by nDivisor.
FilterColumnA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void	1D column convolution. Not affecting Alpha.
FilterColumnA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void	Apply convolution filter with user specified 1D column of weights. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring column pixel values in the source image defined by nKernelDim and nAnchorY, divided by nDivisor. Not affecting Alpha.
FilterColumnBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void	General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterColumnBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void	General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterColumnBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void	General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterColumnBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void	General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterGauss ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel ) : void	Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients
FilterGauss ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Gauss filter.
FilterGaussA ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel ) : void	Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients
FilterGaussA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Gauss filter. Not affecting Alpha.
FilterGaussBorder ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel, NppiBorderType eBorderType ) : void	Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients
FilterGaussBorder ( NPPImage_8uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Filters the image using a Gaussian filter kernel with border control: 1/16 2/16 1/16 2/16 4/16 2/16 1/16 2/16 1/16 or 2/571 7/571 12/571 7/571 2/571 7/571 31/571 52/571 31/571 7/571 12/571 52/571 127/571 52/571 12/571 7/571 31/571 52/571 31/571 7/571 2/571 7/571 12/571 7/571 2/571
FilterGaussBorderA ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel, NppiBorderType eBorderType ) : void	Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients
FilterGaussBorderA ( NPPImage_8uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Filters the image using a Gaussian filter kernel with border control, ignoring alpha channel: 1/16 2/16 1/16 2/16 4/16 2/16 1/16 2/16 1/16 or 2/571 7/571 12/571 7/571 2/571 7/571 31/571 52/571 31/571 7/571 12/571 52/571 127/571 52/571 12/571 7/571 31/571 52/571 31/571 7/571 2/571 7/571 12/571 7/571 2/571
FilterHighPass ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	High pass filter.
FilterHighPassA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	High pass filter. Not affecting Alpha.
FilterHighPassBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	High pass filter.
FilterHighPassBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	High pass filter.
FilterLaplace ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Laplace filter.
FilterLaplaceA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Laplace filter. Not affecting Alpha.
FilterLaplaceBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Laplace filter.
FilterLaplaceBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Laplace filter.
FilterLowPass ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Low pass filter.
FilterLowPassA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void	Low pass filter. Not affecting Alpha.
FilterLowPassBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Low pass filter.
FilterLowPassBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void	Low pass filter.
FilterMax ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the maximum of pixel values under the rectangular mask region.
FilterMaxA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the maximum of pixel values under the rectangular mask region. Not affecting Alpha.
FilterMaxBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Result pixel value is the maximum of pixel values under the rectangular mask region.
FilterMaxBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Result pixel value is the maximum of pixel values under the rectangular mask region.
FilterMedian ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the median of pixel values under the rectangular mask region.
FilterMedian ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable buffer ) : void	Result pixel value is the median of pixel values under the rectangular mask region.
FilterMedianA ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.
FilterMedianA ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable buffer ) : void	Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.
FilterMedianGetBufferHostSize ( NppiSize oMaskSize ) : int	Device scratch buffer size (in bytes) for FilterMedian.
FilterMedianGetBufferHostSizeA ( NppiSize oMaskSize ) : int	Device scratch buffer size (in bytes) for FilterMedian, ignoring alpha channel.
FilterMin ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the minimum of pixel values under the rectangular mask region.
FilterMinA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void	Result pixel value is the minimum of pixel values under the rectangular mask region. Not affecting Alpha.
FilterMinBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Result pixel value is the minimum of pixel values under the rectangular mask region.
FilterMinBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void	Result pixel value is the minimum of pixel values under the rectangular mask region.
FilterPrewittHoriz ( NPPImage_8uC4 dst ) : void	horizontal Prewitt filter.
FilterPrewittHorizA ( NPPImage_8uC4 dst ) : void	horizontal Prewitt filter. Not affecting Alpha.
FilterPrewittHorizBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	horizontal Prewitt filter.
FilterPrewittHorizBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	horizontal Prewitt filter.
FilterPrewittVert ( NPPImage_8uC4 dst ) : void	vertical Prewitt filter.
FilterPrewittVertA ( NPPImage_8uC4 dst ) : void	vertical Prewitt filter. Not affecting Alpha.
FilterPrewittVertBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	vertical Prewitt filter.
FilterPrewittVertBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	vertical Prewitt filter.
FilterRobertsDown ( NPPImage_8uC4 dst ) : void	horizontal Roberts filter.
FilterRobertsDownA ( NPPImage_8uC4 dst ) : void	horizontal Roberts filter. Not affecting Alpha.
FilterRobertsDownBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	horizontal Roberts filter.
FilterRobertsDownBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	horizontal Roberts filter.
FilterRobertsUp ( NPPImage_8uC4 dst ) : void	vertical Roberts filter..
FilterRobertsUpA ( NPPImage_8uC4 dst ) : void	vertical Roberts filter. Not affecting Alpha.
FilterRobertsUpBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	vertical Roberts filter.
FilterRobertsUpBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	vertical Roberts filter.
FilterRow ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void	1D row convolution.
FilterRow ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void	Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.
FilterRowA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void	1D row convolution. Not affecting Alpha.
FilterRowA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void	Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor. Not affecting Alpha.
FilterRowBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void	General purpose 1D convolution row filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterRowBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void	Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel with border control. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.
FilterRowBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void	General purpose 1D convolution row filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterRowBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void	Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel with border control. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor. Not affecting Alpha.
FilterSharpen ( NPPImage_8uC4 dst ) : void	Sharpen filter.
FilterSharpenA ( NPPImage_8uC4 dst ) : void	Sharpen filter. Not affecting Alpha.
FilterSharpenBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	Sharpen filter.
FilterSharpenBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void	Sharpen filter.
FilterSobelHorizBorder ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	Filters the image using a horizontal Sobel filter kernel with border control.
FilterSobelHorizBorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	Filters the image using a horizontal Sobel filter kernel with border control, ignoring alpha channel.
FilterSobelVert ( NPPImage_8uC4 dst ) : void	vertical Sobel filter.
FilterSobelVertA ( NPPImage_8uC4 dst ) : void	vertical Sobel filter. Not affecting Alpha.
FilterSobelVertBorder ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	Filters the image using a vertical Sobel filter kernel with border control.
FilterSobelVertBorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void	Filters the image using a vertical Sobel filter kernel with border control, ignoring alpha channel.
FilterUnsharpBorder ( NPPImage_8uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable buffer ) : void	Filters the image using a unsharp-mask sharpening filter kernel with border control. The algorithm involves the following steps: Smooth the original image with a Gaussian filter, with the width controlled by the nRadius. Subtract the smoothed image from the original to create a high-pass filtered image. Apply any clipping needed on the high-pass image, as controlled by the nThreshold. Add a certain percentage of the high-pass filtered image to the original image, with the percentage controlled by the nWeight. In pseudocode this algorithm can be written as: HighPass = Image - Gaussian(Image) Result = Image + nWeight * HighPass * ( \|HighPass\| >= nThreshold ) where nWeight is the amount, nThreshold is the threshold, and >= indicates a Boolean operation, 1 if true, or 0 otherwise. If any portion of the mask overlaps the source image boundary, the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterUnsharpBorderA ( NPPImage_8uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable buffer ) : void	Filters the image using a unsharp-mask sharpening filter kernel with border control. The algorithm involves the following steps: Smooth the original image with a Gaussian filter, with the width controlled by the nRadius. Subtract the smoothed image from the original to create a high-pass filtered image. Apply any clipping needed on the high-pass image, as controlled by the nThreshold. Add a certain percentage of the high-pass filtered image to the original image, with the percentage controlled by the nWeight. In pseudocode this algorithm can be written as: HighPass = Image - Gaussian(Image) Result = Image + nWeight * HighPass * ( \|HighPass\| >= nThreshold ) where nWeight is the amount, nThreshold is the threshold, and >= indicates a Boolean operation, 1 if true, or 0 otherwise. If any portion of the mask overlaps the source image boundary, the requested border type operation is applied to all mask pixels which fall outside of the source image.
FilterUnsharpGetBufferSize ( float nRadius, float nSigma ) : int	Scratch-buffer size for unsharp filter.
FilterUnsharpGetBufferSizeA ( float nRadius, float nSigma ) : int	Scratch-buffer size for unsharp filter.
FullNormLevelAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel. Not affecting Alpha.
FullNormLevelGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel.
FullNormLevelScaledAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel. Not affecting Alpha.
FullNormLevelScaledGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel.
GammaA ( ) : void	Inplace image forward gamma correction. Not affecting alpha.
GammaA ( NPPImage_8uC4 dest ) : void	image forward gamma correction. Not affecting alpha.
GammaInvA ( ) : void	Inplace image inverse gamma correction. Not affecting alpha.
GammaInvA ( NPPImage_8uC4 dest ) : void	image inverse gamma correction. Not affecting alpha.
GetAffineBound ( double coeffs ) : ].double[	Calculates bounding box of the affine transform projection of the given source rectangular ROI
GetAffineQuad ( double coeffs ) : ].double[	Calculates affine transform projection of given source rectangular ROI
GetAffineTransform ( double quad ) : ].double[	Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection
GetPerspectiveBound ( double coeffs ) : ].double[	Calculates bounding box of the affine transform projection of the given source rectangular ROI
GetPerspectiveQuad ( double coeffs ) : ].double[	Calculates perspective transform projection of given source rectangular ROI
GetPerspectiveTransform ( double quad ) : ].double[	Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection
GetRotateBound ( double nAngle, double nShiftX, double nShiftY ) : ].double[	Compute bounding-box of rotated image.
GetRotateQuad ( double nAngle, double nShiftX, double nShiftY ) : ].double[	Compute shape of rotated image.
HLSToBGR ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned planar BGR with alpha color conversion.
HLSToBGR ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned planar BGR with alpha color conversion.
HLSToBGR ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.
HLSToBGR ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.
HLSToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.
HSVToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed HSV with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.
HistogramEven ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel ) : void	Histogram with evenly distributed bins. Buffer is internally allocated and freed.
HistogramEven ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel, CudaDeviceVariable buffer ) : void	Histogram with evenly distributed bins. No additional buffer is allocated.
HistogramEvenA ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel ) : void	Histogram with evenly distributed bins. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.
HistogramEvenA ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel, CudaDeviceVariable buffer ) : void	Histogram with evenly distributed bins. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.
HistogramEvenGetBufferSize ( int nLevels ) : int	Scratch-buffer size for HistogramEven.
HistogramEvenGetBufferSizeA ( int nLevels ) : int	Scratch-buffer size for HistogramEven. Not affecting Alpha channel.
HistogramRange ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels ) : void	Histogram with bins determined by pLevels array. Buffer is internally allocated and freed.
HistogramRange ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels, CudaDeviceVariable buffer ) : void	Histogram with bins determined by pLevels array. No additional buffer is allocated.
HistogramRangeA ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels ) : void	Histogram with bins determined by pLevels array. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.
HistogramRangeA ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels, CudaDeviceVariable buffer ) : void	Histogram with bins determined by pLevels array. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.
HistogramRangeGetBufferSize ( int nLevels ) : int	Scratch-buffer size for HistogramRange.
HistogramRangeGetBufferSizeA ( int nLevels ) : int	Scratch-buffer size for HistogramRange. Not affecting Alpha channel.
LShiftC ( uint nConstant ) : void	image bit shift by constant (left), inplace.
LShiftC ( uint nConstant, NPPImage_8uC4 dest ) : void	image bit shift by constant (left).
LShiftCA ( uint nConstant ) : void	image bit shift by constant (left), inplace. Unchanged Alpha.
LShiftCA ( uint nConstant, NPPImage_8uC4 dest ) : void	image bit shift by constant (left). Unchanged Alpha.
LUT ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.
LUT ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.
LUTA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.
LUTA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.
LUTCubic ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.
LUTCubic ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.
LUTCubicA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.
LUTCubicA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.
LUTLinear ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.
LUTLinearA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void	Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.
LUTPalette ( NPPImage_8uC4 dst, CudaDeviceVariable pTable, int nBitSize ) : void	range restricted palette look-up-table color conversion. The LUT is derived from a set of user defined mapping points in a palette and source pixels are then processed using a restricted bit range when looking up palette values.
LUTPaletteA ( NPPImage_8uC4 dst, CudaDeviceVariable pTable, int nBitSize ) : void	range restricted palette look-up-table color conversion. The LUT is derived from a set of user defined mapping points in a palette and source pixels are then processed using a restricted bit range when looking up palette values. Not affecting Alpha.
LUTTrilinear ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void	Four channel 8-bit unsigned 3D trilinear interpolated look-up-table color conversion, with alpha copy. Alpha channel is the last channel and is copied to the destination unmodified. The LUT is derived from a set of user defined mapping points through trilinear interpolation.
LUTTrilinearA ( CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void	Four channel 8-bit unsigned 3D trilinear interpolated look-up-table color conversion, not affecting alpha. Alpha channel is the last channel and is not processed. The LUT is derived from a set of user defined mapping points through trilinear interpolation.
LUTTrilinearA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void	Four channel 8-bit unsigned 3D trilinear interpolated look-up-table color conversion, not affecting alpha. Alpha channel is the last channel and is not processed. The LUT is derived from a set of user defined mapping points through trilinear interpolation.
LUVToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed LUV with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.
Lut ( NPPImage_8uC4 dest, CudaDeviceVariable values0, CudaDeviceVariable levels0, CudaDeviceVariable values1, CudaDeviceVariable levels1, CudaDeviceVariable values2, CudaDeviceVariable levels2, CudaDeviceVariable values3, CudaDeviceVariable levels3 ) : void	look-up-table color conversion. The LUT is derived from a set of user defined mapping points through linear interpolation.
LutA ( NPPImage_8uC4 dest, CudaDeviceVariable values0, CudaDeviceVariable levels0, CudaDeviceVariable values1, CudaDeviceVariable levels1, CudaDeviceVariable values2, CudaDeviceVariable levels2 ) : void	look-up-table color conversion. The LUT is derived from a set of user defined mapping points through linear interpolation. Not affecting alpha channel.
Max ( CudaDeviceVariable max ) : void	Image pixel maximum. Buffer is internally allocated and freed.
Max ( CudaDeviceVariable max, CudaDeviceVariable buffer ) : void	Image pixel maximum. No additional buffer is allocated.
MaxA ( CudaDeviceVariable max ) : void	Image pixel maximum. Buffer is internally allocated and freed. Not affecting alpha.
MaxA ( CudaDeviceVariable max, CudaDeviceVariable buffer ) : void	Image pixel maximum. No additional buffer is allocated. Not affecting alpha.
MaxError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void	image maximum error. User buffer is internally allocated and freed.
MaxError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void	image maximum error.
MaxErrorGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for MaxError.
MaxEvery ( NPPImage_8uC4 src2 ) : void	image MaxEvery
MaxEveryA ( NPPImage_8uC4 src2 ) : void	image MaxEvery Not affecting Alpha.
MaxGetBufferHostSize ( ) : int	Scratch-buffer size for Max.
MaxGetBufferHostSizeA ( ) : int	Scratch-buffer size for Max. Not affecting alpha.
MaxIndex ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void	Image pixel maximum. Buffer is internally allocated and freed.
MaxIndex ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated.
MaxIndexA ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void	Image pixel maximum. Buffer is internally allocated and freed. Not affecting alpha.
MaxIndexA ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated. Not affecting alpha.
MaxIndexGetBufferHostSize ( ) : int	Scratch-buffer size for MaxIndex.
MaxIndexGetBufferHostSizeA ( ) : int	Scratch-buffer size for MaxIndex. Not affecting alpha.
MaximumRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void	image maximum relative error. User buffer is internally allocated and freed.
MaximumRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void	image maximum relative error.
MaximumRelativeErrorGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for MaximumRelativeError.
Mean ( CudaDeviceVariable mean ) : void	image mean with 64-bit double precision result. Buffer is internally allocated and freed.
Mean ( CudaDeviceVariable mean, CudaDeviceVariable buffer ) : void	image mean with 64-bit double precision result. No additional buffer is allocated.
MeanA ( CudaDeviceVariable mean ) : void	image mean with 64-bit double precision result. Buffer is internally allocated and freed. Not affecting alpha.
MeanA ( CudaDeviceVariable mean, CudaDeviceVariable buffer ) : void	image mean with 64-bit double precision result. No additional buffer is allocated. Not affecting alpha.
MeanGetBufferHostSize ( ) : int	Scratch-buffer size for Mean.
MeanGetBufferHostSizeA ( ) : int	Scratch-buffer size for Mean. Not affecting alpha.
Min ( CudaDeviceVariable min ) : void	Image pixel minimum. Buffer is internally allocated and freed.
Min ( CudaDeviceVariable min, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated.
MinA ( CudaDeviceVariable min ) : void	Image pixel minimum. Buffer is internally allocated and freed. Not affecting alpha.
MinA ( CudaDeviceVariable min, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated. Not affecting alpha.
MinEvery ( NPPImage_8uC4 src2 ) : void	image MinEvery
MinEveryA ( NPPImage_8uC4 src2 ) : void	image MinEvery Not affecting Alpha.
MinGetBufferHostSize ( ) : int	Scratch-buffer size for Min.
MinGetBufferHostSizeA ( ) : int	Scratch-buffer size for Min. Not affecting alpha.
MinIndex ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void	Image pixel minimum. Buffer is internally allocated and freed.
MinIndex ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated.
MinIndexA ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void	Image pixel minimum. Buffer is internally allocated and freed. Not affecting alpha.
MinIndexA ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void	Image pixel minimum. No additional buffer is allocated. Not affecting alpha.
MinIndexGetBufferHostSize ( ) : int	Scratch-buffer size for MinIndex.
MinIndexGetBufferHostSizeA ( ) : int	Scratch-buffer size for MinIndex. Not affecting alpha.
MinMax ( CudaDeviceVariable min, CudaDeviceVariable max ) : void	Image pixel minimum and maximum. Buffer is internally allocated and freed.
MinMax ( CudaDeviceVariable min, CudaDeviceVariable max, CudaDeviceVariable buffer ) : void	Image pixel minimum and maximum. No additional buffer is allocated.
MinMaxGetBufferHostSize ( ) : int	Scratch-buffer size for MinMax.
Mirror ( NPPImage_8uC4 dest, NppiAxis flip ) : void	Mirror image.
Mirror ( NppiAxis flip ) : void	Mirror image inplace.
MirrorA ( NPPImage_8uC4 dest, NppiAxis flip ) : void	Mirror image. Not affecting Alpha.
MirrorA ( NppiAxis flip ) : void	Mirror image inplace. Not affecting Alpha.
Mul ( NPPImage_8uC4 src2 ) : void	In place image multiplication and scale by max bit width value
Mul ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image multiplication and scale by max bit width value.
Mul ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.
Mul ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.
Mul ( byte nConstant ) : void	Multiply constant to image and scale by max bit width value
Mul ( byte nConstant, NPPImage_8uC4 dest ) : void	Multiply constant to image and scale by max bit width value
Mul ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
Mul ( byte nConstant, int nScaleFactor ) : void	Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.
MulA ( NPPImage_8uC4 src2 ) : void	In place image multiplication and scale by max bit width value. Unchanged Alpha.
MulA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image multiplication and scale by max bit width value. Unchanged Alpha.
MulA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
MulA ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
MulA ( byte nConstant ) : void	Multiply constant to image and scale by max bit width value. Unchanged Alpha.
MulA ( byte nConstant, NPPImage_8uC4 dest ) : void	Multiply constant to image and scale by max bit width value. Unchanged Alpha.
MulA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
MulA ( byte nConstant, int nScaleFactor ) : void	Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.
NPPImage_8uC4 ( CUdeviceptr devPtr, NppiSize size, int pitch ) : System	Creates a new NPPImage from allocated device ptr.
NPPImage_8uC4 ( CUdeviceptr devPtr, NppiSize size, int pitch, bool isOwner ) : System	Creates a new NPPImage from allocated device ptr.
NPPImage_8uC4 ( CUdeviceptr devPtr, int width, int height, int pitch ) : System	Creates a new NPPImage from allocated device ptr. Does not take ownership of decPtr.
NPPImage_8uC4 ( CUdeviceptr devPtr, int width, int height, int pitch, bool isOwner ) : System	Creates a new NPPImage from allocated device ptr.
NPPImage_8uC4 ( CudaPitchedDeviceVariable devPtr ) : System	Creates a new NPPImage from allocated device ptr.
NPPImage_8uC4 ( CudaPitchedDeviceVariable devPtr, bool isOwner ) : System	Creates a new NPPImage from allocated device ptr.
NPPImage_8uC4 ( NPPImageBase image ) : System	Creates a new NPPImage from allocated device ptr. Does not take ownership of inner image device pointer.
NPPImage_8uC4 ( NppiSize size ) : System	Allocates new memory on device using NPP-Api.
NPPImage_8uC4 ( int nWidthPixels, int nHeightPixels ) : System	Allocates new memory on device using NPP-Api.
NormDiffInfAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_Inf. Not affecting Alpha.
NormDiffInfGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_Inf.
NormDiffL1AGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_L1. Not affecting Alpha.
NormDiffL1GetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_L1.
NormDiffL2AGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_L2. Not affecting Alpha.
NormDiffL2GetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormDiff_L2.
NormDiff_Inf ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_Inf. Buffer is internally allocated and freed.
NormDiff_Inf ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_Inf.
NormDiff_InfA ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_Inf. Buffer is internally allocated and freed. Not affecting Alpha.
NormDiff_InfA ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_Inf. Not affecting Alpha.
NormDiff_L1 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_L1. Buffer is internally allocated and freed.
NormDiff_L1 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_L1.
NormDiff_L1A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_L1. Buffer is internally allocated and freed. Not affecting Alpha.
NormDiff_L1A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_L1. Not affecting Alpha.
NormDiff_L2 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_L2. Buffer is internally allocated and freed.
NormDiff_L2 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_L2.
NormDiff_L2A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff ) : void	image NormDiff_L2. Buffer is internally allocated and freed. Not affecting Alpha.
NormDiff_L2A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormDiff, CudaDeviceVariable buffer ) : void	image NormDiff_L2. Not affecting Alpha.
NormInf ( CudaDeviceVariable norm ) : void	image infinity norm. Buffer is internally allocated and freed.
NormInf ( CudaDeviceVariable norm, CudaDeviceVariable buffer ) : void	image infinity norm. No additional buffer is allocated.
NormInfGetBufferHostSize ( ) : int	Scratch-buffer size for Norm inf.
NormL1 ( CudaDeviceVariable norm ) : void	image L1 norm. Buffer is internally allocated and freed.
NormL1 ( CudaDeviceVariable norm, CudaDeviceVariable buffer ) : void	image L1 norm. No additional buffer is allocated.
NormL1GetBufferHostSize ( ) : int	Scratch-buffer size for Norm L1.
NormL2 ( CudaDeviceVariable norm ) : void	image L2 norm. Buffer is internally allocated and freed.
NormL2 ( CudaDeviceVariable norm, CudaDeviceVariable buffer ) : void	image L2 norm. No additional buffer is allocated.
NormL2GetBufferHostSize ( ) : int	Scratch-buffer size for Norm L2.
NormRelInfAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_Inf. Not affecting Alpha.
NormRelInfGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_Inf.
NormRelL1AGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_L1. Not affecting Alpha.
NormRelL1GetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_L1.
NormRelL2AGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_L2. Not affecting Alpha.
NormRelL2GetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for NormRel_L2.
NormRel_Inf ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_Inf. Buffer is internally allocated and freed.
NormRel_Inf ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_Inf.
NormRel_InfA ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_Inf. Buffer is internally allocated and freed. Not affecting Alpha.
NormRel_InfA ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_Inf. Not affecting Alpha.
NormRel_L1 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_L1. Buffer is internally allocated and freed.
NormRel_L1 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_L1.
NormRel_L1A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_L1. Buffer is internally allocated and freed. Not affecting Alpha.
NormRel_L1A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_L1. Not affecting Alpha.
NormRel_L2 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_L2. Buffer is internally allocated and freed.
NormRel_L2 ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_L2.
NormRel_L2A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel ) : void	image NormRel_L2. Buffer is internally allocated and freed. Not affecting Alpha.
NormRel_L2A ( NPPImage_8uC4 tpl, CudaDeviceVariable pNormRel, CudaDeviceVariable buffer ) : void	image NormRel_L2. Not affecting Alpha.
Not ( ) : void	In place image logical Not.
Not ( NPPImage_8uC4 dest ) : void	Image logical Not.
NotA ( ) : void	In place image logical Not. Unchanged Alpha.
NotA ( NPPImage_8uC4 dest ) : void	Image logical Not. Unchanged Alpha.
Or ( NPPImage_8uC4 src2 ) : void	In place image logical Or.
Or ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical Or.
Or ( byte nConstant ) : void	In place image logical Or with constant.
Or ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical Or with constant.
OrA ( NPPImage_8uC4 src2 ) : void	In place image logical Or. Unchanged Alpha.
OrA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical Or. Unchanged Alpha.
OrA ( byte nConstant ) : void	In place image logical Or with constant. Unchanged Alpha.
OrA ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical Or with constant. Unchanged Alpha.
QualityIndexA ( NPPImage_8uC4 src2, CudaDeviceVariable dst ) : void	image QualityIndex. Not affecting Alpha.
QualityIndexA ( NPPImage_8uC4 src2, CudaDeviceVariable dst, CudaDeviceVariable buffer ) : void	image QualityIndex. Not affecting Alpha.
QualityIndexAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for QualityIndex.
RGBToGrayA ( NPPImage_8uC1 dest ) : void	RGB to Gray conversion, not affecting Alpha.
RGBToHLS ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned packed HLS with alpha color conversion.
RGBToHSV ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned packed HSV with alpha color conversion.
RGBToLUV ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned packed LUV with alpha color conversion.
RGBToXYZ ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned packed XYZ with alpha color conversion.
RGBToYCbCr ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed RGB with alpha to 3 channel 8-bit unsigned planar YCbCr color conversion.
RGBToYCbCr ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB to packed YCbCr color conversion. Alpha channel is the last channel and is not processed.
RGBToYCbCr411 ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed RGB with alpha to 3 channel 8-bit unsigned planar YCbCr411 color conversion.
RGBToYCrCb420 ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2 ) : void	4 channel 8-bit unsigned packed RGB with alpha to 3 channel 8-bit unsigned planar YCrCb420 color conversion.
RGBToYUV ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3 ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned planar YUV color conversion with alpha.
RGBToYUV ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed RGB with alpha to 4 channel 8-bit unsigned packed YUV color conversion with alpha, not affecting alpha.
RShiftC ( uint nConstant ) : void	image bit shift by constant (right), inplace.
RShiftC ( uint nConstant, NPPImage_8uC4 dest ) : void	image bit shift by constant (right).
RShiftCA ( uint nConstant ) : void	image bit shift by constant (right), inplace. Unchanged Alpha.
RShiftCA ( uint nConstant, NPPImage_8uC4 dest ) : void	image bit shift by constant (right). Unchanged Alpha.
Remap ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation ) : void	planar image remap.
Remap ( NPPImage_8uC4 dst, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation ) : void	image remap.
RemapA ( NPPImage_8uC4 dst, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation ) : void	image remap. Not affecting Alpha.
Resize ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3, double xFactor, double yFactor, InterpolationMode eInterpolation ) : void	resizes planar images.
Resize ( NPPImage_8uC4 dest, double xFactor, double yFactor, InterpolationMode eInterpolation ) : void	Resizes images.
ResizeA ( NPPImage_8uC4 dest, double xFactor, double yFactor, InterpolationMode eInterpolation ) : void	Resizes images. Not affecting Alpha.
ResizeSqrPixel ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation ) : void	planar image resize.
ResizeSqrPixel ( NPPImage_8uC4 dst, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation ) : void	image resize.
ResizeSqrPixelA ( NPPImage_8uC4 dst, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation ) : void	image resize. Not affecting Alpha.
Rotate ( NPPImage_8uC4 dest, double nAngle, double nShiftX, double nShiftY, InterpolationMode eInterpolation ) : void	Rotate images.
RotateA ( NPPImage_8uC4 dest, double nAngle, double nShiftX, double nShiftY, InterpolationMode eInterpolation ) : void	Rotate images. Not affecting Alpha.
SameNormLevelAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel. Not affecting Alpha.
SameNormLevelGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel.
SameNormLevelScaledAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel. Not affecting Alpha.
SameNormLevelScaledGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel.
Scale ( NPPImage_16sC4 dst ) : void	image conversion.
Scale ( NPPImage_16uC4 dst ) : void	image conversion.
Scale ( NPPImage_32fC4 dst, float nMin, float nMax ) : void	image conversion.
Scale ( NPPImage_32sC4 dst ) : void	image conversion.
ScaleA ( NPPImage_16sC4 dst ) : void	image conversion. Not affecting Alpha.
ScaleA ( NPPImage_16uC4 dst ) : void	image conversion. Not affecting Alpha.
ScaleA ( NPPImage_32fC4 dst, float nMin, float nMax ) : void	image conversion. Not affecting Alpha.
ScaleA ( NPPImage_32sC4 dst ) : void	image conversion. Not affecting Alpha.
Set ( byte nValue ) : void	Set pixel values to nValue.
Set ( byte nValue, NPPImage_8uC1 mask ) : void	Set pixel values to nValue. The 8-bit mask image affects setting of the respective pixels in the destination image. If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value.
Set ( byte nValue, int channel ) : void	Set pixel values to nValue. The 8-bit mask image affects setting of the respective pixels in the destination image. If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value.
SetA ( byte nValue ) : void	Set pixel values to nValue. The 8-bit mask image affects setting of the respective pixels in the destination image. If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value. Not affecting alpha channel.
SetA ( byte nValue, NPPImage_8uC1 mask ) : void	Set pixel values to nValue. The 8-bit mask image affects setting of the respective pixels in the destination image. If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value. Not affecting alpha channel.
SobelHoriz ( NPPImage_8uC4 dst ) : void	horizontal Sobel filter.
SobelHorizA ( NPPImage_8uC4 dst ) : void	horizontal Sobel filter. Not affecting Alpha.
Sqr ( NPPImage_8uC4 dest, int nScaleFactor ) : void	Image squared, scale by 2^(-nScaleFactor), then clamp to saturated value.
Sqr ( int nScaleFactor ) : void	Inplace image squared, scale by 2^(-nScaleFactor), then clamp to saturated value.
SqrA ( NPPImage_8uC4 dest, int nScaleFactor ) : void	Image squared, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SqrA ( int nScaleFactor ) : void	Inplace image squared, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SqrDistanceFull_Norm ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceFull_Norm.
SqrDistanceFull_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceFull_Norm.
SqrDistanceFull_NormA ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceFull_Norm. Not affecting Alpha.
SqrDistanceFull_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceFull_Norm. Not affecting Alpha.
SqrDistanceSame_Norm ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceSame_Norm.
SqrDistanceSame_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceSame_Norm.
SqrDistanceSame_NormA ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceSame_Norm. Not affecting Alpha.
SqrDistanceSame_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceSame_Norm. Not affecting Alpha.
SqrDistanceValid_Norm ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceValid_Norm.
SqrDistanceValid_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceValid_Norm.
SqrDistanceValid_NormA ( NPPImage_8uC4 tpl, NPPImage_32fC4 dst ) : void	image SqrDistanceValid_Norm. Not affecting Alpha.
SqrDistanceValid_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void	image SqrDistanceValid_Norm. Not affecting Alpha.
Sqrt ( NPPImage_8uC4 dest, int nScaleFactor ) : void	Image square root, scale by 2^(-nScaleFactor), then clamp to saturated value.
Sqrt ( int nScaleFactor ) : void	Inplace image square root, scale by 2^(-nScaleFactor), then clamp to saturated value.
SqrtA ( NPPImage_8uC4 dest, int nScaleFactor ) : void	Image square root, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SqrtA ( int nScaleFactor ) : void	Inplace image square root, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
Sub ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value.
Sub ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value.
Sub ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
Sub ( byte nConstant, int nScaleFactor ) : void	Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.
SubA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void	Image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SubA ( NPPImage_8uC4 src2, int nScaleFactor ) : void	In place image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SubA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void	Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.
SubA ( byte nConstant, int nScaleFactor ) : void	Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.
Sum ( CudaDeviceVariable result ) : void	image sum with 64-bit double precision result. Buffer is internally allocated and freed.
Sum ( CudaDeviceVariable result, CudaDeviceVariable buffer ) : void	image sum with 64-bit double precision result. No additional buffer is allocated.
Sum ( CudaDeviceVariable result ) : void	image sum with 64-bit long long result. Buffer is internally allocated and freed.
Sum ( CudaDeviceVariable result, CudaDeviceVariable buffer ) : void	image sum with 64-bit double precision result. No additional buffer is allocated.
SumA ( CudaDeviceVariable result ) : void	image sum with 64-bit double precision result. Buffer is internally allocated and freed.
SumA ( CudaDeviceVariable result, CudaDeviceVariable buffer ) : void	image sum with 64-bit double precision result. No additional buffer is allocated.
SumDoubleGetBufferHostSize ( ) : int	Scratch-buffer size for nppiSum_8u_C4R.
SumDoubleGetBufferHostSizeA ( ) : int	Scratch-buffer size for nppiSum_8u_C4R. Not affecting alpha.
SumLongGetBufferHostSize ( ) : int	Scratch-buffer size for nppiSum_8u_C4R.
SumWindowColumn ( NPPImage_32fC4 dest, int nMaskSize, int nAnchor ) : void	8-bit unsigned 1D (column) sum to 32f. Apply Column Window Summation filter over a 1D mask region around each source pixel for 4-channel 8 bit/pixel input images with 32-bit floating point output. Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring column pixel values in a mask region of the source image defined by nMaskSize and nAnchor.
SumWindowColumnBorder ( NPPImage_32fC4 dest, int nMaskSize, int nAnchor, NppiBorderType eBorderType ) : void	Apply Column Window Summation filter over a 1D mask region around each source pixel for 3-channel 8 bit/pixel input images with 32-bit floating point output. Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring column pixel values in a mask region of the source image defined by nMaskSize and nAnchor.
SumWindowRow ( NPPImage_32fC4 dest, int nMaskSize, int nAnchor ) : void	8-bit unsigned 1D (row) sum to 32f. Apply Row Window Summation filter over a 1D mask region around each source pixel for 4-channel 8-bit pixel input images with 32-bit floating point output. Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring row pixel values in a mask region of the source image defined by nKernelDim and nAnchorX.
SumWindowRowBorder ( NPPImage_32fC4 dest, int nMaskSize, int nAnchor, NppiBorderType eBorderType ) : void	Apply Row Window Summation filter over a 1D mask region around each source pixel for 3-channel 8-bit pixel input images with 32-bit floating point output. Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring row pixel values in a mask region of the source image defined by nKernelDim and nAnchorX.
SwapChannels ( NPPImage_8uC3 dest, int aDstOrder ) : void	Swap channels.
SwapChannels ( NPPImage_8uC4 dest, int aDstOrder ) : void	Swap channels.
SwapChannels ( int aDstOrder ) : void	Swap channels, in-place.
SwapChannelsA ( NPPImage_8uC4 dest, int aDstOrder ) : void	Swap channels. Not affecting Alpha
Threshold ( NPPImage_8uC4 dest, NppCmpOp eComparisonOperation, byte aThresholds ) : void	If for a comparison operations OP the predicate (sourcePixel.channel OP nThreshold) is true, the channel value is set to nThreshold, otherwise it is set to sourcePixel. Not affecting Alpha.
Threshold ( NPPImage_8uC4 dest, byte nThreshold, NppCmpOp eComparisonOperation ) : void	Image threshold. If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
Threshold ( NPPImage_8uC4 dest, byte nThreshold, byte nValue, NppCmpOp eComparisonOperation ) : void	Image threshold. If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
Threshold ( byte nThreshold, NppCmpOp eComparisonOperation ) : void	In place image threshold. If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
Threshold ( byte nThreshold, byte nValue, NppCmpOp eComparisonOperation ) : void	In place image threshold. If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
ThresholdGT ( NPPImage_8uC4 dest, byte nThreshold ) : void	Image threshold. If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
ThresholdGT ( NPPImage_8uC4 dest, byte nThreshold, byte nValue ) : void	Image threshold. If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
ThresholdGT ( byte nThreshold ) : void	In place image threshold. If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
ThresholdGT ( byte nThreshold, byte nValue ) : void	In place image threshold. If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
ThresholdLT ( NPPImage_8uC4 dest, byte nThreshold ) : void	Image threshold. If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
ThresholdLT ( NPPImage_8uC4 dest, byte nThreshold, byte nValue ) : void	Image threshold. If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
ThresholdLT ( byte nThreshold ) : void	In place image threshold. If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.
ThresholdLT ( byte nThreshold, byte nValue ) : void	In place image threshold. If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.
ThresholdLTGT ( NPPImage_8uC4 dest, byte nThresholdLT, byte nValueLT, byte nThresholdGT, byte nValueGT ) : void	Image threshold. If for a comparison operations sourcePixel is less than nThresholdLT is true, the pixel is set to nValueLT, else if sourcePixel is greater than nThresholdGT the pixel is set to nValueGT, otherwise it is set to sourcePixel.
ThresholdLTGT ( byte nThresholdLT, byte nValueLT, byte nThresholdGT, byte nValueGT ) : void	In place image threshold. If for a comparison operations sourcePixel is less than nThresholdLT is true, the pixel is set to nValueLT, else if sourcePixel is greater than nThresholdGT the pixel is set to nValueGT, otherwise it is set to sourcePixel.
ToCudaPitchedDeviceVariable ( ) : CudaPitchedDeviceVariable	Converts a NPPImage to a CudaPitchedDeviceVariable
Transpose ( NPPImage_8uC4 dest ) : void	image transpose
ValidNormLevelAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel. Not affecting Alpha.
ValidNormLevelGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel.
ValidNormLevelScaledAGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel. Not affecting Alpha.
ValidNormLevelScaledGetBufferHostSize ( ) : int	Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel.
WarpAffine ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double coeffs, InterpolationMode eInterpolation ) : void	Affine transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffine ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Affine transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineA ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Affine transform of an image. Not affecting Alpha channel.This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineBack ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double coeffs, InterpolationMode eInterpolation ) : void	Inverse affine transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineBack ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Inverse affine transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineBackA ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Inverse affine transform of an image. Not affecting Alpha channel. This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = C_00 * x + C_01 * y + C_02 Y_new = C_10 * x + C_11 * y + C_12 The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineQuad ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, double srcQuad, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double dstQuad, InterpolationMode eInterpolation ) : void	Affine transform of an image. This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineQuad ( double srcQuad, NPPImage_8uC4 dest, double dstQuad, InterpolationMode eInterpolation ) : void	Affine transform of an image. This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpAffineQuadA ( double srcQuad, NPPImage_8uC4 dest, double dstQuad, InterpolationMode eInterpolation ) : void	Affine transform of an image. Not affecting Alpha channel. This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspective ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double coeffs, InterpolationMode eInterpolation ) : void	Perspective transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspective ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Perspective transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveA ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Perspective transform of an image. Not affecting Alpha channel. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveBack ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double coeffs, InterpolationMode eInterpolation ) : void	Inverse perspective transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveBack ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Inverse perspective transform of an image. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveBackA ( NPPImage_8uC4 dest, double coeffs, InterpolationMode eInterpolation ) : void	Inverse perspective transform of an image. Not affecting Alpha channel. This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas: X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22) Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22) The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveQuad ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, double srcQuad, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, double destQuad, InterpolationMode eInterpolation ) : void	Perspective transform of an image. This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveQuad ( double srcQuad, NPPImage_8uC4 dest, double destQuad, InterpolationMode eInterpolation ) : void	Perspective transform of an image. This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
WarpPerspectiveQuadA ( double srcQuad, NPPImage_8uC4 dest, double destQuad, InterpolationMode eInterpolation ) : void	Perspective transform of an image. Not affecting Alpha channel. This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. NPPI specific recommendation: The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values `(int)((void )(pDst + dstRoi.x))` and `(int)((void )(pDst + dstRoi.x + dstRoi.width))` are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.
XYZToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed XYZ with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.
Xor ( NPPImage_8uC4 src2 ) : void	In place image logical Xor.
Xor ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical Xor.
Xor ( byte nConstant ) : void	In place image logical Xor with constant.
Xor ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical Xor with constant.
XorA ( NPPImage_8uC4 src2 ) : void	In place image logical Xor. Unchanged Alpha.
XorA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void	Image logical Xor. Unchanged Alpha.
XorA ( byte nConstant ) : void	In place image logical Xor with constant. Unchanged Alpha.
XorA ( byte nConstant, NPPImage_8uC4 dest ) : void	Image logical Xor with constant. Unchanged Alpha.
YCCToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed YCC with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.
YCbCr411ToRGB ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC4 dest, byte nAval ) : void	3 channel 8-bit unsigned planar YCbCr411 to 4 channel 8-bit unsigned packed RGB color conversion with constant alpha.
YCbCrToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit unsigned packed YCbCr to RGB color conversion. Alpha channel is the last channel and is not processed.
YUVToBGR ( NPPImage_8uC4 dest ) : void	4 channel 8-bit packed YUV with alpha to 4 channel 8-bit unsigned packed BGR color conversion with alpha, not affecting alpha.
YUVToRGB ( NPPImage_8uC4 dest ) : void	4 channel 8-bit packed YUV with alpha to 4 channel 8-bit unsigned packed RGB color conversion with alpha, not affecting alpha.

Method Details

ADotProdGetBufferHostSize() public method

Device scratch buffer size (in bytes) for nppiDotProd_8u64f_C4R. Ignoring alpha channel.

public ADotProdGetBufferHostSize ( ) : int
return	int

ADotProduct() public method

Four-channel 8-bit unsigned image DotProd. Buffer is internally allocated and freed. Ignoring alpha channel.

public ADotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp ) : void
src2	NPPImage_8uC4	2nd source image
pDp	CudaDeviceVariable	Pointer to the computed dot product of the two images. (3 * sizeof(double))
return	void

ADotProduct() public method

Four-channel 8-bit unsigned image DotProd. Ignoring alpha channel.

public ADotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pDp	CudaDeviceVariable	Pointer to the computed dot product of the two images. (3 * sizeof(double))
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

AbsDiff() public method

Absolute difference of this minus src2.

public AbsDiff ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
return	void

Add() public method

Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Add ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Add() public method

In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Add ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

Add() public method

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Add ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Values to add
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Add() public method

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

public Add ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Values to add
nScaleFactor	int	scaling factor
return	void

AddA() public method

Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

public AddA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

AddA() public method

In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

public AddA ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

AddA() public method

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

public AddA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Values to add
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

AddA() public method

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unmodified Alpha.

public AddA ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Values to add
nScaleFactor	int	scaling factor
return	void

AlphaComp() public method

Four 8-bit unsigned char channel image composition using image alpha values (0 - max channel pixel value).

public AlphaComp ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nppAlphaOp	NppiAlphaOp	alpha compositing operation
return	void

AlphaComp() public method

Image composition using constant alpha.

public AlphaComp ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void
alpha1	byte	constant alpha for this image
src2	NPPImage_8uC4	2nd source image
alpha2	byte	constant alpha for src2
dest	NPPImage_8uC4	Destination image
nppAlphaOp	NppiAlphaOp	alpha compositing operation
return	void

AlphaCompA() public method

Image composition using constant alpha. Not affecting alpha channel.

public AlphaCompA ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, NppiAlphaOp nppAlphaOp ) : void
alpha1	byte	constant alpha for this image
src2	NPPImage_8uC4	2nd source image
alpha2	byte	constant alpha for src2
dest	NPPImage_8uC4	Destination image
nppAlphaOp	NppiAlphaOp	alpha compositing operation
return	void

AlphaCompColorKeyA() public method

complement color key replacement of source image 1 by source image 2 with alpha blending.

public AlphaCompColorKeyA ( byte alpha1, NPPImage_8uC4 src2, byte alpha2, NPPImage_8uC4 dest, byte colorKeyConst, NppiAlphaOp nppAlphaOp ) : void
alpha1	byte	source1 image alpha opacity (0 - max channel pixel value).
src2	NPPImage_8uC4	source2 packed pixel format image.
alpha2	byte	source2 image alpha opacity (0 - max channel pixel value).
dest	NPPImage_8uC4	Destination image
colorKeyConst	byte	color key constants
nppAlphaOp	NppiAlphaOp	NppiAlphaOp alpha compositing operation selector (excluding premul ops).
return	void

AlphaPremul() public method

In place alpha premultiplication using constant alpha.

public AlphaPremul ( byte alpha ) : void
alpha	byte	alpha
return	void

AlphaPremul() public method

Image premultiplication using constant alpha.

public AlphaPremul ( byte alpha, NPPImage_8uC4 dest ) : void
alpha	byte	alpha
dest	NPPImage_8uC4	Destination image
return	void

AlphaPremulA() public method

Four 8-bit unsigned char channel in place image premultiplication with pixel alpha (0 - max channel pixel value).

public AlphaPremulA ( ) : void
return	void

AlphaPremulA() public method

Four 8-bit unsigned char channel image premultiplication with pixel alpha (0 - max channel pixel value).

public AlphaPremulA ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

AlphaPremulA() public method

In place alpha premultiplication using constant alpha. Not affecting alpha channel.

public AlphaPremulA ( byte alpha ) : void
alpha	byte	alpha
return	void

AlphaPremulA() public method

Image premultiplication using constant alpha. Not affecting alpha channel.

public AlphaPremulA ( byte alpha, NPPImage_8uC4 dest ) : void
alpha	byte	alpha
dest	NPPImage_8uC4	Destination image
return	void

And() public method

In place image logical and.

public And ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	2nd source image
return	void

And() public method

Image logical and.

public And ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
return	void

And() public method

In place image logical and with constant.

public And ( byte nConstant ) : void
nConstant	byte	Value (Array length = 4)
return	void

And() public method

Image logical and with constant.

public And ( byte nConstant, NPPImage_8uC4 dest ) : void
nConstant	byte	Value (Array length = 4)
dest	NPPImage_8uC4	Destination image
return	void

AndA() public method

In place image logical and. Unchanged Alpha.

public AndA ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	2nd source image
return	void

AndA() public method

Image logical and. Unchanged Alpha.

public AndA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
return	void

AndA() public method

In place image logical and with constant. Unchanged Alpha.

public AndA ( byte nConstant ) : void
nConstant	byte	Value (Array length = 4)
return	void

AndA() public method

Image logical and with constant. Unchanged Alpha.

public AndA ( byte nConstant, NPPImage_8uC4 dest ) : void
nConstant	byte	Value (Array length = 4)
dest	NPPImage_8uC4	Destination image
return	void

AverageError() public method

image average error. User buffer is internally allocated and freed.

public AverageError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
return	void

AverageError() public method

image average error.

public AverageError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the AverageError operation.
return	void

AverageErrorGetBufferHostSize() public method

Device scratch buffer size (in bytes) for AverageError.

public AverageErrorGetBufferHostSize ( ) : int
return	int

AverageRelativeError() public method

image average relative error. User buffer is internally allocated and freed.

public AverageRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
return	void

AverageRelativeError() public method

image average relative error.

public AverageRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the AverageRelativeError operation.
return	void

AverageRelativeErrorGetBufferHostSize() public method

Device scratch buffer size (in bytes) for AverageRelativeError.

public AverageRelativeErrorGetBufferHostSize ( ) : int
return	int

BGRToCbYCr422() public method

4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed CbYCr422 color conversion.

public BGRToCbYCr422 ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void
dest	ManagedCuda.NPP.NPPImage_8uC2	Destination image
return	void

BGRToCbYCr422_709HDTV() public method

4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed CbYCr422_709HDTV color conversion.

public BGRToCbYCr422_709HDTV ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void
dest	ManagedCuda.NPP.NPPImage_8uC2	Destination image
return	void

BGRToHLS() public method

4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar HLS with alpha color conversion.

public BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
dest3	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 3
return	void

BGRToHLS() public static method

4 channel 8-bit unsigned planar BGR with alpha to 4 channel 8-bit unsigned planar HLS with alpha color conversion.

public static BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void
src0	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 0
src1	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 1
src2	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
src3	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
dest3	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 3
return	void

BGRToHLS() public static method

4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.

public static BGRToHLS ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void
src0	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 0
src1	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 1
src2	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
src3	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
dest	NPPImage_8uC4	Destination image
return	void

BGRToHLS() public method

4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned packed HLS with alpha color conversion.

public BGRToHLS ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

BGRToYCbCr() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr color conversion.

public BGRToYCbCr ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr() public method

4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar YCbCr color conversion.

public BGRToYCbCr ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
dest3	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 3
return	void

BGRToYCbCr411() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr411 color conversion.

public BGRToYCbCr411 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr420() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420 color conversion.

public BGRToYCbCr420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr420_709CSC() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420_709CSC color conversion.

public BGRToYCbCr420_709CSC ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr420_709HDTV() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr420_709HDTV color conversion.

public BGRToYCbCr420_709HDTV ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr422() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCbCr422 color conversion.

public BGRToYCbCr422 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCbCr422() public method

4 channel 8-bit unsigned packed BGR with alpha to 2 channel 8-bit unsigned packed YCrCb422 color conversion.

public BGRToYCbCr422 ( ManagedCuda.NPP.NPPImage_8uC2 dest ) : void
dest	ManagedCuda.NPP.NPPImage_8uC2	Destination image
return	void

BGRToYCrCb420() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCrCb420 color conversion.

public BGRToYCrCb420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYCrCb420_709CSC() public method

4 channel 8-bit unsigned packed BGR with alpha to 3 channel 8-bit unsigned planar YCrCb420_709CSC color conversion.

public BGRToYCrCb420_709CSC ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

BGRToYUV() public method

4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned planar YUV color conversion with alpha.

public BGRToYUV ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2, ManagedCuda.NPP.NPPImage_8uC1 dest3 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
dest3	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 3
return	void

BGRToYUV() public method

4 channel 8-bit unsigned packed BGR with alpha to 4 channel 8-bit unsigned packed YUV color conversion with alpha, not affecting alpha.

public BGRToYUV ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

BGRToYUV420() public method

4 channel 8-bit unsigned pacmed BGR with alpha to 3 channel 8-bit unsigned planar YUV420 color conversion.

public BGRToYUV420 ( ManagedCuda.NPP.NPPImage_8uC1 dest0, ManagedCuda.NPP.NPPImage_8uC1 dest1, ManagedCuda.NPP.NPPImage_8uC1 dest2 ) : void
dest0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dest1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dest2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
return	void

ColorToGray() public method

Color to Gray conversion.

public ColorToGray ( ManagedCuda.NPP.NPPImage_8uC1 dest, float aCoeffs ) : void
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
aCoeffs	float	fixed size array of constant floating point conversion coefficient values, one per color channel.
return	void

ColorToGrayA() public method

Color to Gray conversion, not affecting Alpha.

public ColorToGrayA ( ManagedCuda.NPP.NPPImage_8uC1 dest, float aCoeffs ) : void
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
aCoeffs	float	fixed size array of constant floating point conversion coefficient values, one per color channel.
return	void

ColorTwist() public method

4 channel 8-bit unsigned color twist, with alpha copy. An input color twist matrix with floating-point coefficient values is applied with in ROI. Alpha channel is the last channel and is copied unmodified from the source pixel to the destination pixel.

public ColorTwist ( NPPImage_8uC4 dest, float twistMatrix ) : void
dest	NPPImage_8uC4	Destination image
twistMatrix	float	The color twist matrix with floating-point pixel values [3,4].
return	void

ColorTwist() public method

4 channel 8-bit unsigned in place color twist, not affecting Alpha. An input color twist matrix with floating-point coefficient values is applied with in ROI. Alpha channel is the last channel and is unmodified.

public ColorTwist ( float twistMatrix ) : void
twistMatrix	float	The color twist matrix with floating-point pixel values [3,4].
return	void

ColorTwistA() public method

An input color twist matrix with floating-point pixel values is applied within ROI. Alpha channel is the last channel and is not processed.

public ColorTwistA ( NPPImage_8uC4 dest, float twistMatrix ) : void
dest	NPPImage_8uC4	Destination image
twistMatrix	float	The color twist matrix with floating-point pixel values [3,4].
return	void

ColorTwistA() public method

in place color twist, not affecting Alpha. An input color twist matrix with floating-point coefficient values is applied within ROI.

public ColorTwistA ( float aTwist ) : void
aTwist	float	The color twist matrix with floating-point coefficient values. [3,4]
return	void

ColorTwistC() public method

4 channel 8-bit unsigned color twist with 4x4 matrix and constant vector addition. An input 4x4 color twist matrix with floating-point coefficient values with an additional constant vector addition is applied within ROI. For this particular version of the function the result is generated as shown below. \code dst[0] = aTwist[0][0] /// src[0] + aTwist[0][1] /// src[1] + aTwist[0][2] /// src[2] + aTwist[0][3] /// src[3] + aConstants[0] dst[1] = aTwist[1][0] /// src[0] + aTwist[1][1] /// src[1] + aTwist[1][2] /// src[2] + aTwist[1][3] /// src[3] + aConstants[1] dst[2] = aTwist[2][0] /// src[0] + aTwist[2][1] /// src[1] + aTwist[2][2] /// src[2] + aTwist[2][3] /// src[3] + aConstants[2] dst[3] = aTwist[3][0] /// src[0] + aTwist[3][1] /// src[1] + aTwist[3][2] /// src[2] + aTwist[3][3] /// src[3] + aConstants[3] \endcode

public ColorTwistC ( NPPImage_8uC4 dest, float twistMatrix, float aConstants ) : void
dest	NPPImage_8uC4	Destination image
twistMatrix	float	The color twist matrix with floating-point coefficient values [4,4].
aConstants	float	fixed size array of constant values, one per channel [4]
return	void

ColorTwistC() public method

4 channel 8-bit unsigned in place color twist with 4x4 matrix and an additional constant vector addition. An input 4x4 color twist matrix with floating-point coefficient values with an additional constant vector addition is applied within ROI. For this particular version of the function the result is generated as shown below. \code dst[0] = aTwist[0][0] /// src[0] + aTwist[0][1] /// src[1] + aTwist[0][2] /// src[2] + aTwist[0][3] /// src[3] + aConstants[0] dst[1] = aTwist[1][0] /// src[0] + aTwist[1][1] /// src[1] + aTwist[1][2] /// src[2] + aTwist[1][3] /// src[3] + aConstants[1] dst[2] = aTwist[2][0] /// src[0] + aTwist[2][1] /// src[1] + aTwist[2][2] /// src[2] + aTwist[2][3] /// src[3] + aConstants[2] dst[3] = aTwist[3][0] /// src[0] + aTwist[3][1] /// src[1] + aTwist[3][2] /// src[2] + aTwist[3][3] /// src[3] + aConstants[3] \endcode

public ColorTwistC ( float twistMatrix, float aConstants ) : void
twistMatrix	float	The color twist matrix with floating-point coefficient values [4,4].
aConstants	float	fixed size array of constant values, one per channel [4]
return	void

CompColorKey() public method

packed color complement color key replacement of source image 1 by source image 2

public CompColorKey ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, byte colorKeyConst ) : void
src2	NPPImage_8uC4	source2 packed pixel format image.
dest	NPPImage_8uC4	Destination image
colorKeyConst	byte	color key constants
return	void

Compare() public method

Compare pSrc1’s pixels with corresponding pixels in pSrc2.

public Compare ( NPPImage_8uC4 src2, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void
src2	NPPImage_8uC4	2nd source image
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
eComparisonOperation	NppCmpOp	Specifies the comparison operation to be used in the pixel comparison.
return	void

Compare() public method

Compare pSrc's pixels with constant value.

public Compare ( byte constants, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void
constants	byte	list of constants, one per color channel.
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
eComparisonOperation	NppCmpOp	Specifies the comparison operation to be used in the pixel comparison.
return	void

CompareA() public method

Compare pSrc1’s pixels with corresponding pixels in pSrc2. Not affecting Alpha.

public CompareA ( NPPImage_8uC4 src2, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void
src2	NPPImage_8uC4	2nd source image
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
eComparisonOperation	NppCmpOp	Specifies the comparison operation to be used in the pixel comparison.
return	void

CompareA() public method

Compare pSrc's pixels with constant value. Not affecting Alpha.

public CompareA ( byte constants, ManagedCuda.NPP.NPPImage_8uC1 dest, NppCmpOp eComparisonOperation ) : void
constants	byte	list of constants, one per color channel.
dest	ManagedCuda.NPP.NPPImage_8uC1	Destination image
eComparisonOperation	NppCmpOp	Specifies the comparison operation to be used in the pixel comparison.
return	void

Convert() public method

8-bit unsigned to 16-bit signed conversion.

public Convert ( ManagedCuda.NPP.NPPImage_16sC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_16sC4	Destination image
return	void

Convert() public method

8-bit unsigned to 16-bit unsigned conversion.

public Convert ( ManagedCuda.NPP.NPPImage_16uC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_16uC4	Destination image
return	void

Convert() public method

8-bit unsigned to 32-bit floating point conversion.

public Convert ( ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

Convert() public method

8-bit unsigned to 32-bit signed conversion.

public Convert ( ManagedCuda.NPP.NPPImage_32sC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_32sC4	Destination image
return	void

ConvertA() public method

8-bit unsigned to 16-bit signed conversion. Not affecting Alpha channel.

public ConvertA ( ManagedCuda.NPP.NPPImage_16sC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_16sC4	Destination image
return	void

ConvertA() public method

8-bit unsigned to 16-bit unsigned conversion. Not affecting Alpha channel.

public ConvertA ( ManagedCuda.NPP.NPPImage_16uC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_16uC4	Destination image
return	void

ConvertA() public method

8-bit unsigned to 32-bit floating point conversion. Not affecting Alpha channel.

public ConvertA ( ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

ConvertA() public method

8-bit unsigned to 32-bit signed conversion. Not affecting Alpha channel.

public ConvertA ( ManagedCuda.NPP.NPPImage_32sC4 dst ) : void
dst	ManagedCuda.NPP.NPPImage_32sC4	Destination image
return	void

Copy() public method

Three-channel 8-bit unsigned packed to planar image copy.

public Copy ( ManagedCuda.NPP.NPPImage_8uC1 dst0, ManagedCuda.NPP.NPPImage_8uC1 dst1, ManagedCuda.NPP.NPPImage_8uC1 dst2, ManagedCuda.NPP.NPPImage_8uC1 dst3 ) : void
dst0	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 0
dst1	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 1
dst2	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 2
dst3	ManagedCuda.NPP.NPPImage_8uC1	Destination image channel 3
return	void

Copy() public static method

Three-channel 8-bit unsigned planar to packed image copy.

public static Copy ( ManagedCuda.NPP.NPPImage_8uC1 src0, ManagedCuda.NPP.NPPImage_8uC1 src1, ManagedCuda.NPP.NPPImage_8uC1 src2, ManagedCuda.NPP.NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void
src0	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 0
src1	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 1
src2	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
src3	ManagedCuda.NPP.NPPImage_8uC1	Source image channel 2
dest	NPPImage_8uC4	Destination image
return	void

Copy() public method

Image copy.

public Copy ( ManagedCuda.NPP.NPPImage_8uC1 dst, int channel ) : void
dst	ManagedCuda.NPP.NPPImage_8uC1	Destination image
channel	int	Channel number. This number is added to the dst pointer
return	void

Copy() public method

Masked Operation 8-bit unsigned image copy.

public Copy ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination image
return	void

Copy() public method

Masked Operation 8-bit unsigned image copy.

public Copy ( NPPImage_8uC4 dst, ManagedCuda.NPP.NPPImage_8uC1 mask ) : void
dst	NPPImage_8uC4	Destination image
mask	ManagedCuda.NPP.NPPImage_8uC1	Mask image
return	void

Copy() public method

Image copy.

public Copy ( NPPImage_8uC4 dst, int channelSrc, int channelDst ) : void
dst	NPPImage_8uC4	Destination image
channelSrc	int	Channel number. This number is added to the src pointer
channelDst	int	Channel number. This number is added to the dst pointer
return	void

Copy() public method

Copy image and pad borders with a constant, user-specifiable color.

public Copy ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, byte nValue ) : void
dst	NPPImage_8uC4	Destination image. The image ROI defines the destination region, i.e. the region that gets filled with data from /// the source image (inner part) and constant border color (outer part).
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
nValue	byte	The pixel value to be set for border pixels.
return	void

CopyA() public method

Masked Operation 8-bit unsigned image copy. Not affecting Alpha channel.

public CopyA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination image
return	void

CopyA() public method

Masked Operation 8-bit unsigned image copy. Not affecting Alpha channel.

public CopyA ( NPPImage_8uC4 dst, ManagedCuda.NPP.NPPImage_8uC1 mask ) : void
dst	NPPImage_8uC4	Destination image
mask	ManagedCuda.NPP.NPPImage_8uC1	Mask image
return	void

CopyA() public method

Copy image and pad borders with a constant, user-specifiable color. Not affecting Alpha channel.

public CopyA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, byte nValue ) : void
dst	NPPImage_8uC4	Destination image. The image ROI defines the destination region, i.e. the region that gets filled with data from /// the source image (inner part) and constant border color (outer part).
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
nValue	byte	The pixel value to be set for border pixels.
return	void

CopyReplicateBorder() public method

image copy with nearest source image pixel color.

public CopyReplicateBorder ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void
dst	NPPImage_8uC4	Destination-Image
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
return	void

CopyReplicateBorderA() public method

image copy with nearest source image pixel color. Not affecting Alpha.

public CopyReplicateBorderA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void
dst	NPPImage_8uC4	Destination-Image
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
return	void

CopySubpix() public method

linearly interpolated source image subpixel coordinate color copy.

public CopySubpix ( NPPImage_8uC4 dst, float nDx, float nDy ) : void
dst	NPPImage_8uC4	Destination-Image
nDx	float	Fractional part of source image X coordinate.
nDy	float	Fractional part of source image Y coordinate.
return	void

CopySubpixA() public method

linearly interpolated source image subpixel coordinate color copy. Not affecting Alpha.

public CopySubpixA ( NPPImage_8uC4 dst, float nDx, float nDy ) : void
dst	NPPImage_8uC4	Destination-Image
nDx	float	Fractional part of source image X coordinate.
nDy	float	Fractional part of source image Y coordinate.
return	void

CopyWrapBorder() public method

image copy with the borders wrapped by replication of source image pixel colors.

public CopyWrapBorder ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void
dst	NPPImage_8uC4	Destination-Image
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
return	void

CopyWrapBorderA() public method

image copy with the borders wrapped by replication of source image pixel colors. Not affecting Alpha.

public CopyWrapBorderA ( NPPImage_8uC4 dst, int nTopBorderHeight, int nLeftBorderWidth ) : void
dst	NPPImage_8uC4	Destination-Image
nTopBorderHeight	int	Height (in pixels) of the top border. The height of the border at the bottom of /// the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = /// oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
nLeftBorderWidth	int	Width (in pixels) of the left border. The width of the border at the right side of /// the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = /// oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
return	void

CountInRangeA() public method

image CountInRange. Not affecting Alpha.

public CountInRangeA ( CudaDeviceVariable pCounts, byte nLowerBound, byte nUpperBound ) : void
pCounts	CudaDeviceVariable	Pointer to the number of pixels that fall into the specified range. (3 * sizeof(int))
nLowerBound	byte	Fixed size array of the lower bound of the specified range, one per channel.
nUpperBound	byte	Fixed size array of the upper bound of the specified range, one per channel.
return	void

CountInRangeA() public method

image CountInRange. Not affecting Alpha.

public CountInRangeA ( CudaDeviceVariable pCounts, byte nLowerBound, byte nUpperBound, CudaDeviceVariable buffer ) : void
pCounts	CudaDeviceVariable	Pointer to the number of pixels that fall into the specified range. (3 * sizeof(int))
nLowerBound	byte	Fixed size array of the lower bound of the specified range, one per channel.
nUpperBound	byte	Fixed size array of the upper bound of the specified range, one per channel.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CountInRangeAGetBufferHostSize() public method

Device scratch buffer size (in bytes) for CountInRange.

public CountInRangeAGetBufferHostSize ( ) : int
return	int

CrossCorrFull_Norm() public method

image CrossCorrFull_Norm.

public CrossCorrFull_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrFull_Norm() public method

image CrossCorrFull_Norm.

public CrossCorrFull_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrFull_NormA() public method

image CrossCorrFull_Norm. Not affecting Alpha.

public CrossCorrFull_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrFull_NormA() public method

image CrossCorrFull_Norm. Not affecting Alpha.

public CrossCorrFull_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrFull_NormLevel() public method

CrossCorrFull_NormLevel. Buffer is internally allocated and freed.

public CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrFull_NormLevel() public method

CrossCorrFull_NormLevel.

public CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrFull_NormLevel() public method

CrossCorrFull_NormLevel. Buffer is internally allocated and freed.

public CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrFull_NormLevel() public method

CrossCorrFull_NormLevel.

public CrossCorrFull_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrFull_NormLevelA() public method

CrossCorrFull_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrFull_NormLevelA() public method

CrossCorrFull_NormLevel. Not affecting Alpha.

public CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrFull_NormLevelA() public method

CrossCorrFull_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrFull_NormLevelA() public method

CrossCorrFull_NormLevel. Not affecting Alpha.

public CrossCorrFull_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrSame_Norm() public method

image CrossCorrSame_Norm.

public CrossCorrSame_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrSame_Norm() public method

image CrossCorrSame_Norm.

public CrossCorrSame_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrSame_NormA() public method

image CrossCorrSame_Norm. Not affecting Alpha.

public CrossCorrSame_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrSame_NormA() public method

image CrossCorrSame_Norm. Not affecting Alpha.

public CrossCorrSame_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrSame_NormLevel() public method

CrossCorrSame_NormLevel. Buffer is internally allocated and freed.

public CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrSame_NormLevel() public method

CrossCorrSame_NormLevel.

public CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrSame_NormLevel() public method

CrossCorrSame_NormLevel. Buffer is internally allocated and freed.

public CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrSame_NormLevel() public method

CrossCorrSame_NormLevel.

public CrossCorrSame_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrSame_NormLevelA() public method

CrossCorrSame_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrSame_NormLevelA() public method

CrossCorrSame_NormLevel. Not affecting Alpha.

public CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrSame_NormLevelA() public method

CrossCorrSame_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrSame_NormLevelA() public method

CrossCorrSame_NormLevel. Not affecting Alpha.

public CrossCorrSame_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrValid_Norm() public method

image CrossCorrValid_Norm.

public CrossCorrValid_Norm ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrValid_Norm() public method

image CrossCorrValid_Norm.

public CrossCorrValid_Norm ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrValid_NormA() public method

image CrossCorrValid_Norm. Not affecting Alpha.

public CrossCorrValid_NormA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination-Image
return	void

CrossCorrValid_NormA() public method

image CrossCorrValid_Norm. Not affecting Alpha.

public CrossCorrValid_NormA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination-Image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrValid_NormLevel() public method

CrossCorrValid_NormLevel. Buffer is internally allocated and freed.

public CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrValid_NormLevel() public method

CrossCorrValid_NormLevel.

public CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrValid_NormLevel() public method

CrossCorrValid_NormLevel. Buffer is internally allocated and freed.

public CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrValid_NormLevel() public method

CrossCorrValid_NormLevel.

public CrossCorrValid_NormLevel ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrValid_NormLevelA() public method

CrossCorrValid_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
return	void

CrossCorrValid_NormLevelA() public method

CrossCorrValid_NormLevel. Not affecting Alpha.

public CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, ManagedCuda.NPP.NPPImage_32fC4 dst, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	ManagedCuda.NPP.NPPImage_32fC4	Destination image
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

CrossCorrValid_NormLevelA() public method

CrossCorrValid_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

public CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
return	void

CrossCorrValid_NormLevelA() public method

CrossCorrValid_NormLevel. Not affecting Alpha.

public CrossCorrValid_NormLevelA ( NPPImage_8uC4 tpl, NPPImage_8uC4 dst, int nScaleFactor, CudaDeviceVariable buffer ) : void
tpl	NPPImage_8uC4	template image.
dst	NPPImage_8uC4	Destination image
nScaleFactor	int	Integer Result Scaling.
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

Dilate() public method

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.

public Dilate ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
return	void

Dilate3x3() public method

3x3 dilation.

public Dilate3x3 ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

Dilate3x3A() public method

3x3 dilation, not affecting Alpha.

public Dilate3x3A ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

Dilate3x3Border() public method

3x3 dilation with border control.

public Dilate3x3Border ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

Dilate3x3BorderA() public method

3x3 dilation with border control, ignoring alpha-channel.

public Dilate3x3BorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

DilateA() public method

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.

public DilateA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
return	void

DilateBorder() public method

public DilateBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

DilateBorderA() public method

public DilateBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

Div() public method

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Div ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppRoundMode rndMode, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
rndMode	NppRoundMode	Result Rounding mode to be used
nScaleFactor	int	scaling factor
return	void

Div() public method

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Div ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Div() public method

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Div ( NPPImage_8uC4 src2, NppRoundMode rndMode, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
rndMode	NppRoundMode	Result Rounding mode to be used
nScaleFactor	int	scaling factor
return	void

Div() public method

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Div ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

Div() public method

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Div ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Div() public method

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

public Div ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Value
nScaleFactor	int	scaling factor
return	void

DivA() public method

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public DivA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, NppRoundMode rndMode, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
rndMode	NppRoundMode	Result Rounding mode to be used
nScaleFactor	int	scaling factor
return	void

DivA() public method

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public DivA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

DivA() public method

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public DivA ( NPPImage_8uC4 src2, NppRoundMode rndMode, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
rndMode	NppRoundMode	Result Rounding mode to be used
nScaleFactor	int	scaling factor
return	void

DivA() public method

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public DivA ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

DivA() public method

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public DivA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

DivA() public method

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.

public DivA ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Value
nScaleFactor	int	scaling factor
return	void

DotProdGetBufferHostSize() public method

Device scratch buffer size (in bytes) for nppiDotProd_8u64f_C4R.

public DotProdGetBufferHostSize ( ) : int
return	int

DotProduct() public method

Four-channel 8-bit unsigned image DotProd. Buffer is internally allocated and freed.

public DotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp ) : void
src2	NPPImage_8uC4	2nd source image
pDp	CudaDeviceVariable	Pointer to the computed dot product of the two images. (4 * sizeof(double))
return	void

DotProduct() public method

Four-channel 8-bit unsigned image DotProd.

public DotProduct ( NPPImage_8uC4 src2, CudaDeviceVariable pDp, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pDp	CudaDeviceVariable	Pointer to the computed dot product of the two images. (4 * sizeof(double))
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

Erode() public method

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.

public Erode ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
return	void

Erode3x3() public method

3x3 erosion.

public Erode3x3 ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

Erode3x3A() public method

3x3 erosion, not affecting Alpha.

public Erode3x3A ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

Erode3x3Border() public method

3x3 erosion with border control.

public Erode3x3Border ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

Erode3x3BorderA() public method

3x3 erosion with border control, ignoring alpha-channel.

public Erode3x3BorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

ErodeA() public method

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.

public ErodeA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
return	void

ErodeBorder() public method

public ErodeBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

ErodeBorderA() public method

public ErodeBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Mask	CudaDeviceVariable	Pointer to the start address of the mask array.
aMaskSize	NppiSize	Width and Height mask array.
oAnchor	NppiPoint	X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

EvenLevels() public method

Compute levels with even distribution.

public EvenLevels ( int nLevels, int nLowerBound, int nUpperBound ) : int[]
nLevels	int	The number of levels being computed. nLevels must be at least 2, otherwise an NPP_- /// HISTO_NUMBER_OF_LEVELS_ERROR error is returned.
nLowerBound	int	Lower boundary value of the lowest level.
nUpperBound	int	Upper boundary value of the greatest level.
return	int[]

Filter() public method

convolution filter.

public Filter ( NPPImage_16sC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void
dst	NPPImage_16sC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. /// Coefficients are expected to be stored in reverse order.
oKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference
return	void

Filter() public method

convolution filter.

public Filter ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. /// Coefficients are expected to be stored in reverse order.
oKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference
return	void

Filter() public method

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor.

public Filter ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
aKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterA() public method

convolution filter. Not affecting Alpha.

public FilterA ( NPPImage_16sC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void
dst	NPPImage_16sC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. /// Coefficients are expected to be stored in reverse order.
oKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference
return	void

FilterA() public method

convolution filter. Not affecting Alpha.

public FilterA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, NppiSize oKernelSize, NppiPoint oAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. /// Coefficients are expected to be stored in reverse order.
oKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference
return	void

FilterA() public method

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. Not affecting Alpha.

public FilterA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
aKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterBorder() public method

Four channel 8-bit unsigned to 16-bit signed convolution filter with border control. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorder ( NPPImage_16sC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_16sC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBorder() public method

Four channel 8-bit unsigned convolution filter with border control. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorder ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBorder() public method

Four channel 8-bit unsigned convolution filter with border control. General purpose 2D convolution filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorder ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. /// If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBorderA() public method

Four channel 8-bit unsigned to 16-bit signed convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorderA ( NPPImage_16sC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_16sC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBorderA() public method

Four channel 8-bit unsigned convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter using floating-point weights with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBorderA() public method

Four channel 8-bit unsigned convolution filter with border control, ignoring alpha channel. General purpose 2D convolution filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
nKernelSize	NppiSize	Width and Height of the rectangular kernel.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. /// If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBox() public method

Computes the average pixel values of the pixels under a rectangular mask.

public FilterBox ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterBoxA() public method

Computes the average pixel values of the pixels under a rectangular mask. Not affecting Alpha.

public FilterBoxA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterBoxBorder() public method

Computes the average pixel values of the pixels under a rectangular mask.

public FilterBoxBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterBoxBorderA() public method

Computes the average pixel values of the pixels under a rectangular mask.

public FilterBoxBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterColumn() public method

1D column convolution.

public FilterColumn ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size /// Coefficients are expected to be stored in reverse order.
nAnchor	int	Y offset of the kernel origin frame of reference relative to the source pixel.
return	void

FilterColumn() public method

Apply convolution filter with user specified 1D column of weights. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring column pixel values in the source image defined by nKernelDim and nAnchorY, divided by nDivisor.

public FilterColumn ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	Y offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterColumnA() public method

1D column convolution. Not affecting Alpha.

public FilterColumnA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size /// Coefficients are expected to be stored in reverse order.
nAnchor	int	Y offset of the kernel origin frame of reference relative to the source pixel.
return	void

FilterColumnA() public method

public FilterColumnA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	Y offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterColumnBorder() public method

General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterColumnBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterColumnBorder() public method

General purpose 1D convolution column filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterColumnBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterColumnBorderA() public method

public FilterColumnBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterColumnBorderA() public method

public FilterColumnBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterGauss() public method

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

public FilterGauss ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel ) : void
dst	NPPImage_8uC4	Destination-Image
Kernel	CudaDeviceVariable	Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
return	void

FilterGauss() public method

Gauss filter.

public FilterGauss ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterGaussA() public method

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

public FilterGaussA ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel ) : void
dst	NPPImage_8uC4	Destination-Image
Kernel	CudaDeviceVariable	Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
return	void

FilterGaussA() public method

Gauss filter. Not affecting Alpha.

public FilterGaussA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterGaussBorder() public method

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

public FilterGaussBorder ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
Kernel	CudaDeviceVariable	Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterGaussBorder() public method

Filters the image using a Gaussian filter kernel with border control: 1/16 2/16 1/16 2/16 4/16 2/16 1/16 2/16 1/16 or 2/571 7/571 12/571 7/571 2/571 7/571 31/571 52/571 31/571 7/571 12/571 52/571 127/571 52/571 12/571 7/571 31/571 52/571 31/571 7/571 2/571 7/571 12/571 7/571 2/571

public FilterGaussBorder ( NPPImage_8uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterGaussBorderA() public method

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

public FilterGaussBorderA ( NPPImage_8uC4 dst, CudaDeviceVariable Kernel, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
Kernel	CudaDeviceVariable	Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterGaussBorderA() public method

Filters the image using a Gaussian filter kernel with border control, ignoring alpha channel: 1/16 2/16 1/16 2/16 4/16 2/16 1/16 2/16 1/16 or 2/571 7/571 12/571 7/571 2/571 7/571 31/571 52/571 31/571 7/571 12/571 52/571 127/571 52/571 12/571 7/571 31/571 52/571 31/571 7/571 2/571 7/571 12/571 7/571 2/571

public FilterGaussBorderA ( NPPImage_8uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterHighPass() public method

High pass filter.

public FilterHighPass ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterHighPassA() public method

High pass filter. Not affecting Alpha.

public FilterHighPassA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterHighPassBorder() public method

High pass filter.

public FilterHighPassBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterHighPassBorderA() public method

High pass filter.

public FilterHighPassBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterLaplace() public method

Laplace filter.

public FilterLaplace ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterLaplaceA() public method

Laplace filter. Not affecting Alpha.

public FilterLaplaceA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterLaplaceBorder() public method

Laplace filter.

public FilterLaplaceBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterLaplaceBorderA() public method

Laplace filter.

public FilterLaplaceBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterLowPass() public method

Low pass filter.

public FilterLowPass ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterLowPassA() public method

Low pass filter. Not affecting Alpha.

public FilterLowPassA ( NPPImage_8uC4 dst, MaskSize eMaskSize ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
return	void

FilterLowPassBorder() public method

Low pass filter.

public FilterLowPassBorder ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterLowPassBorderA() public method

Low pass filter.

public FilterLowPassBorderA ( NPPImage_8uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eMaskSize	MaskSize	Enumeration value specifying the mask size.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterMax() public method

Result pixel value is the maximum of pixel values under the rectangular mask region.

public FilterMax ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterMaxA() public method

Result pixel value is the maximum of pixel values under the rectangular mask region. Not affecting Alpha.

public FilterMaxA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterMaxBorder() public method

Result pixel value is the maximum of pixel values under the rectangular mask region.

public FilterMaxBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterMaxBorderA() public method

Result pixel value is the maximum of pixel values under the rectangular mask region.

public FilterMaxBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterMedian() public method

Result pixel value is the median of pixel values under the rectangular mask region.

public FilterMedian ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Median operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
return	void

FilterMedian() public method

Result pixel value is the median of pixel values under the rectangular mask region.

public FilterMedian ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable buffer ) : void
dst	NPPImage_8uC4	Destination-Image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Median operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the Median operation.
return	void

FilterMedianA() public method

Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.

public FilterMedianA ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Median operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
return	void

FilterMedianA() public method

Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.

public FilterMedianA ( NPPImage_8uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable buffer ) : void
dst	NPPImage_8uC4	Destination-Image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Median operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference relative to the source pixel.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the Median operation.
return	void

FilterMedianGetBufferHostSize() public method

Device scratch buffer size (in bytes) for FilterMedian.

public FilterMedianGetBufferHostSize ( NppiSize oMaskSize ) : int
oMaskSize	NppiSize
return	int

FilterMedianGetBufferHostSizeA() public method

Device scratch buffer size (in bytes) for FilterMedian, ignoring alpha channel.

public FilterMedianGetBufferHostSizeA ( NppiSize oMaskSize ) : int
oMaskSize	NppiSize
return	int

FilterMin() public method

Result pixel value is the minimum of pixel values under the rectangular mask region.

public FilterMin ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterMinA() public method

Result pixel value is the minimum of pixel values under the rectangular mask region. Not affecting Alpha.

public FilterMinA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
return	void

FilterMinBorder() public method

Result pixel value is the minimum of pixel values under the rectangular mask region.

public FilterMinBorder ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterMinBorderA() public method

Result pixel value is the minimum of pixel values under the rectangular mask region.

public FilterMinBorderA ( NPPImage_8uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
oMaskSize	NppiSize	Width and Height of the neighborhood region for the local Avg operation.
oAnchor	NppiPoint	X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterPrewittHoriz() public method

horizontal Prewitt filter.

public FilterPrewittHoriz ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterPrewittHorizA() public method

horizontal Prewitt filter. Not affecting Alpha.

public FilterPrewittHorizA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterPrewittHorizBorder() public method

horizontal Prewitt filter.

public FilterPrewittHorizBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterPrewittHorizBorderA() public method

horizontal Prewitt filter.

public FilterPrewittHorizBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterPrewittVert() public method

vertical Prewitt filter.

public FilterPrewittVert ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterPrewittVertA() public method

vertical Prewitt filter. Not affecting Alpha.

public FilterPrewittVertA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterPrewittVertBorder() public method

vertical Prewitt filter.

public FilterPrewittVertBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterPrewittVertBorderA() public method

vertical Prewitt filter.

public FilterPrewittVertBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRobertsDown() public method

horizontal Roberts filter.

public FilterRobertsDown ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterRobertsDownA() public method

horizontal Roberts filter. Not affecting Alpha.

public FilterRobertsDownA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterRobertsDownBorder() public method

horizontal Roberts filter.

public FilterRobertsDownBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRobertsDownBorderA() public method

horizontal Roberts filter.

public FilterRobertsDownBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRobertsUp() public method

vertical Roberts filter..

public FilterRobertsUp ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterRobertsUpA() public method

vertical Roberts filter. Not affecting Alpha.

public FilterRobertsUpA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterRobertsUpBorder() public method

vertical Roberts filter.

public FilterRobertsUpBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRobertsUpBorderA() public method

vertical Roberts filter.

public FilterRobertsUpBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRow() public method

1D row convolution.

public FilterRow ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size /// Coefficients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference relative to the source pixel.
return	void

FilterRow() public method

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.

public FilterRow ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterRowA() public method

1D row convolution. Not affecting Alpha.

public FilterRowA ( NPPImage_8uC4 dst, CudaDeviceVariable pKernel, int nAnchor ) : void
dst	NPPImage_8uC4	Destination-Image
pKernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size /// Coefficients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference relative to the source pixel.
return	void

FilterRowA() public method

public FilterRowA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
return	void

FilterRowBorder() public method

General purpose 1D convolution row filter with border control. Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterRowBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRowBorder() public method

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel with border control. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.

public FilterRowBorder ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRowBorderA() public method

public FilterRowBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nAnchor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterRowBorderA() public method

public FilterRowBorderA ( NPPImage_8uC4 dest, CudaDeviceVariable Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
Kernel	CudaDeviceVariable	Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
nKernelSize	int	Length of the linear kernel array.
nAnchor	int	X offset of the kernel origin frame of reference w.r.t the source pixel.
nDivisor	int	The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSharpen() public method

Sharpen filter.

public FilterSharpen ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterSharpenA() public method

Sharpen filter. Not affecting Alpha.

public FilterSharpenA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterSharpenBorder() public method

Sharpen filter.

public FilterSharpenBorder ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSharpenBorderA() public method

Sharpen filter.

public FilterSharpenBorderA ( NPPImage_8uC4 dst, NppiBorderType eBorderType ) : void
dst	NPPImage_8uC4	Destination-Image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSobelHorizBorder() public method

Filters the image using a horizontal Sobel filter kernel with border control.

public FilterSobelHorizBorder ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSobelHorizBorderA() public method

Filters the image using a horizontal Sobel filter kernel with border control, ignoring alpha channel.

public FilterSobelHorizBorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSobelVert() public method

vertical Sobel filter.

public FilterSobelVert ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterSobelVertA() public method

vertical Sobel filter. Not affecting Alpha.

public FilterSobelVertA ( NPPImage_8uC4 dst ) : void
dst	NPPImage_8uC4	Destination-Image
return	void

FilterSobelVertBorder() public method

Filters the image using a vertical Sobel filter kernel with border control.

public FilterSobelVertBorder ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterSobelVertBorderA() public method

Filters the image using a vertical Sobel filter kernel with border control, ignoring alpha channel.

public FilterSobelVertBorderA ( NPPImage_8uC4 dest, NppiBorderType eBorderType ) : void
dest	NPPImage_8uC4	Destination image
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
return	void

FilterUnsharpBorder() public method

Filters the image using a unsharp-mask sharpening filter kernel with border control. The algorithm involves the following steps: Smooth the original image with a Gaussian filter, with the width controlled by the nRadius. Subtract the smoothed image from the original to create a high-pass filtered image. Apply any clipping needed on the high-pass image, as controlled by the nThreshold. Add a certain percentage of the high-pass filtered image to the original image, with the percentage controlled by the nWeight. In pseudocode this algorithm can be written as: HighPass = Image - Gaussian(Image) Result = Image + nWeight * HighPass * ( |HighPass| >= nThreshold ) where nWeight is the amount, nThreshold is the threshold, and >= indicates a Boolean operation, 1 if true, or 0 otherwise. If any portion of the mask overlaps the source image boundary, the requested border type operation is applied to all mask pixels which fall outside of the source image.

public FilterUnsharpBorder ( NPPImage_8uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable buffer ) : void
dst	NPPImage_8uC4	Destination-Image
nRadius	float	The radius of the Gaussian filter, in pixles, not counting the center pixel.
nSigma	float	The standard deviation of the Gaussian filter, in pixel.
nWeight	float	The percentage of the difference between the original and the high pass image that is added back into the original.
nThreshold	float	The threshold needed to apply the difference amount.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
buffer	CudaDeviceVariable	Pointer to the user-allocated device scratch buffer required for the unsharp operation.
return	void

FilterUnsharpBorderA() public method

public FilterUnsharpBorderA ( NPPImage_8uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable buffer ) : void
dst	NPPImage_8uC4	Destination-Image
nRadius	float	The radius of the Gaussian filter, in pixles, not counting the center pixel.
nSigma	float	The standard deviation of the Gaussian filter, in pixel.
nWeight	float	The percentage of the difference between the original and the high pass image that is added back into the original.
nThreshold	float	The threshold needed to apply the difference amount.
eBorderType	NppiBorderType	The border type operation to be applied at source image border boundaries.
buffer	CudaDeviceVariable	Pointer to the user-allocated device scratch buffer required for the unsharp operation.
return	void

FilterUnsharpGetBufferSize() public method

Scratch-buffer size for unsharp filter.

public FilterUnsharpGetBufferSize ( float nRadius, float nSigma ) : int
nRadius	float	The radius of the Gaussian filter, in pixles, not counting the center pixel.
nSigma	float	The standard deviation of the Gaussian filter, in pixel.
return	int

FilterUnsharpGetBufferSizeA() public method

Scratch-buffer size for unsharp filter.

public FilterUnsharpGetBufferSizeA ( float nRadius, float nSigma ) : int
nRadius	float	The radius of the Gaussian filter, in pixles, not counting the center pixel.
nSigma	float	The standard deviation of the Gaussian filter, in pixel.
return	int

FullNormLevelAGetBufferHostSize() public method

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel. Not affecting Alpha.

public FullNormLevelAGetBufferHostSize ( ) : int
return	int

FullNormLevelGetBufferHostSize() public method

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel.

public FullNormLevelGetBufferHostSize ( ) : int
return	int

FullNormLevelScaledAGetBufferHostSize() public method

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel. Not affecting Alpha.

public FullNormLevelScaledAGetBufferHostSize ( ) : int
return	int

FullNormLevelScaledGetBufferHostSize() public method

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel.

public FullNormLevelScaledGetBufferHostSize ( ) : int
return	int

GammaA() public method

Inplace image forward gamma correction. Not affecting alpha.

public GammaA ( ) : void
return	void

GammaA() public method

image forward gamma correction. Not affecting alpha.

public GammaA ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

GammaInvA() public method

Inplace image inverse gamma correction. Not affecting alpha.

public GammaInvA ( ) : void
return	void

GammaInvA() public method

image inverse gamma correction. Not affecting alpha.

public GammaInvA ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

GetAffineBound() public method

Calculates bounding box of the affine transform projection of the given source rectangular ROI

public GetAffineBound ( double coeffs ) : ].double[
coeffs	double	Affine transform coefficients [2,3]
return	].double[

GetAffineQuad() public method

Calculates affine transform projection of given source rectangular ROI

public GetAffineQuad ( double coeffs ) : ].double[
coeffs	double	Affine transform coefficients [2,3]
return	].double[

GetAffineTransform() public method

Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection

public GetAffineTransform ( double quad ) : ].double[
quad	double	Destination quadrangle [4,2]
return	].double[

GetPerspectiveBound() public method

Calculates bounding box of the affine transform projection of the given source rectangular ROI

public GetPerspectiveBound ( double coeffs ) : ].double[
coeffs	double	Perspective transform coefficients [3,3]
return	].double[

GetPerspectiveQuad() public method

Calculates perspective transform projection of given source rectangular ROI

public GetPerspectiveQuad ( double coeffs ) : ].double[
coeffs	double	Perspective transform coefficients [3,3]
return	].double[

GetPerspectiveTransform() public method

Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection

public GetPerspectiveTransform ( double quad ) : ].double[
quad	double	Destination quadrangle [4,2]
return	].double[

GetRotateBound() public method

Compute bounding-box of rotated image.

public GetRotateBound ( double nAngle, double nShiftX, double nShiftY ) : ].double[
nAngle	double	The angle of rotation in degrees.
nShiftX	double	Shift along horizontal axis
nShiftY	double	Shift along vertical axis
return	].double[

GetRotateQuad() public method

Compute shape of rotated image.

public GetRotateQuad ( double nAngle, double nShiftX, double nShiftY ) : ].double[
nAngle	double	The angle of rotation in degrees.
nShiftX	double	Shift along horizontal axis
nShiftY	double	Shift along vertical axis
return	].double[

HLSToBGR() public method

4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned planar BGR with alpha color conversion.

public HLSToBGR ( NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3 ) : void
dest0	NPPImage_8uC1	Destination image channel 0
dest1	NPPImage_8uC1	Destination image channel 1
dest2	NPPImage_8uC1	Destination image channel 2
dest3	NPPImage_8uC1	Destination image channel 3
return	void

HLSToBGR() public static method

4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned planar BGR with alpha color conversion.

public static HLSToBGR ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC1 dest0, NPPImage_8uC1 dest1, NPPImage_8uC1 dest2, NPPImage_8uC1 dest3 ) : void
src0	NPPImage_8uC1	Source image channel 0
src1	NPPImage_8uC1	Source image channel 1
src2	NPPImage_8uC1	Source image channel 2
src3	NPPImage_8uC1	Source image channel 2
dest0	NPPImage_8uC1	Destination image channel 0
dest1	NPPImage_8uC1	Destination image channel 1
dest2	NPPImage_8uC1	Destination image channel 2
dest3	NPPImage_8uC1	Destination image channel 3
return	void

HLSToBGR() public static method

4 channel 8-bit unsigned planar HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.

public static HLSToBGR ( NPPImage_8uC1 src0, NPPImage_8uC1 src1, NPPImage_8uC1 src2, NPPImage_8uC1 src3, NPPImage_8uC4 dest ) : void
src0	NPPImage_8uC1	Source image channel 0
src1	NPPImage_8uC1	Source image channel 1
src2	NPPImage_8uC1	Source image channel 2
src3	NPPImage_8uC1	Source image channel 2
dest	NPPImage_8uC4	Destination image
return	void

HLSToBGR() public method

4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned packed BGR with alpha color conversion.

public HLSToBGR ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

HLSToRGB() public method

4 channel 8-bit unsigned packed HLS with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.

public HLSToRGB ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

HSVToRGB() public method

4 channel 8-bit unsigned packed HSV with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.

public HSVToRGB ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

HistogramEven() public method

Histogram with evenly distributed bins. Buffer is internally allocated and freed.

public HistogramEven ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel ) : void
histogram	CudaDeviceVariable	Allocated device memory of size nLevels (4 Variables)
nLowerLevel	int	Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 4
nUpperLevel	int	Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 4
return	void

HistogramEven() public method

Histogram with evenly distributed bins. No additional buffer is allocated.

public HistogramEven ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel, CudaDeviceVariable buffer ) : void
histogram	CudaDeviceVariable	Allocated device memory of size nLevels (4 Variables)
nLowerLevel	int	Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 4
nUpperLevel	int	Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 4
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

HistogramEvenA() public method

Histogram with evenly distributed bins. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.

public HistogramEvenA ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel ) : void
histogram	CudaDeviceVariable	Allocated device memory of size nLevels (3 Variables)
nLowerLevel	int	Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 3
nUpperLevel	int	Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 3
return	void

HistogramEvenA() public method

Histogram with evenly distributed bins. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.

public HistogramEvenA ( CudaDeviceVariable histogram, int nLowerLevel, int nUpperLevel, CudaDeviceVariable buffer ) : void
histogram	CudaDeviceVariable	Allocated device memory of size nLevels (3 Variables)
nLowerLevel	int	Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 3
nUpperLevel	int	Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 3
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

HistogramEvenGetBufferSize() public method

Scratch-buffer size for HistogramEven.

public HistogramEvenGetBufferSize ( int nLevels ) : int
nLevels	int
return	int

HistogramEvenGetBufferSizeA() public method

Scratch-buffer size for HistogramEven. Not affecting Alpha channel.

public HistogramEvenGetBufferSizeA ( int nLevels ) : int
nLevels	int
return	int

HistogramRange() public method

Histogram with bins determined by pLevels array. Buffer is internally allocated and freed.

public HistogramRange ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels ) : void
histogram	CudaDeviceVariable	array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 4
pLevels	CudaDeviceVariable	Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 4
return	void

HistogramRange() public method

Histogram with bins determined by pLevels array. No additional buffer is allocated.

public HistogramRange ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels, CudaDeviceVariable buffer ) : void
histogram	CudaDeviceVariable	array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 4
pLevels	CudaDeviceVariable	Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 4
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

HistogramRangeA() public method

Histogram with bins determined by pLevels array. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.

public HistogramRangeA ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels ) : void
histogram	CudaDeviceVariable	array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 3
pLevels	CudaDeviceVariable	Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 3
return	void

HistogramRangeA() public method

Histogram with bins determined by pLevels array. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.

public HistogramRangeA ( CudaDeviceVariable histogram, CudaDeviceVariable pLevels, CudaDeviceVariable buffer ) : void
histogram	CudaDeviceVariable	array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 3
pLevels	CudaDeviceVariable	Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 3
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

HistogramRangeGetBufferSize() public method

Scratch-buffer size for HistogramRange.

public HistogramRangeGetBufferSize ( int nLevels ) : int
nLevels	int
return	int

HistogramRangeGetBufferSizeA() public method

Scratch-buffer size for HistogramRange. Not affecting Alpha channel.

public HistogramRangeGetBufferSizeA ( int nLevels ) : int
nLevels	int
return	int

LShiftC() public method

image bit shift by constant (left), inplace.

public LShiftC ( uint nConstant ) : void
nConstant	uint	Constant (Array length = 4)
return	void

LShiftC() public method

image bit shift by constant (left).

public LShiftC ( uint nConstant, NPPImage_8uC4 dest ) : void
nConstant	uint	Constant (Array length = 4)
dest	NPPImage_8uC4	Destination image
return	void

LShiftCA() public method

image bit shift by constant (left), inplace. Unchanged Alpha.

public LShiftCA ( uint nConstant ) : void
nConstant	uint	Constant (Array length = 4)
return	void

LShiftCA() public method

image bit shift by constant (left). Unchanged Alpha.

public LShiftCA ( uint nConstant, NPPImage_8uC4 dest ) : void
nConstant	uint	Constant (Array length = 4)
dest	NPPImage_8uC4	Destination image
return	void

LUT() public method

Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.

public LUT ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUT() public method

look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.

public LUT ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTA() public method

Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.

public LUTA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTA() public method

look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.

public LUTA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTCubic() public method

Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

public LUTCubic ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTCubic() public method

cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

public LUTCubic ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTCubicA() public method

Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

public LUTCubicA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTCubicA() public method

cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

public LUTCubicA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTLinear() public method

Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

public LUTLinear ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTLinearA() public method

Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

public LUTLinearA ( CudaDeviceVariable pValues, CudaDeviceVariable pLevels ) : void
pValues	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
pLevels	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
return	void

LUTPalette() public method

range restricted palette look-up-table color conversion. The LUT is derived from a set of user defined mapping points in a palette and source pixels are then processed using a restricted bit range when looking up palette values.

public LUTPalette ( NPPImage_8uC4 dst, CudaDeviceVariable pTable, int nBitSize ) : void
dst	NPPImage_8uC4	Destination-Image
pTable	CudaDeviceVariable	Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT palette values.
nBitSize	int	Number of least significant bits (must be > 0 and <= 8) of each source pixel value to use as index into palette table during conversion.
return	void

LUTPaletteA() public method

public LUTPaletteA ( NPPImage_8uC4 dst, CudaDeviceVariable pTable, int nBitSize ) : void
dst	NPPImage_8uC4	Destination-Image
pTable	CudaDeviceVariable	Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT palette values.
nBitSize	int	Number of least significant bits (must be > 0 and <= 8) of each source pixel value to use as index into palette table during conversion.
return	void

LUTTrilinear() public method

Four channel 8-bit unsigned 3D trilinear interpolated look-up-table color conversion, with alpha copy. Alpha channel is the last channel and is copied to the destination unmodified. The LUT is derived from a set of user defined mapping points through trilinear interpolation.

public LUTTrilinear ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Device pointer to aLevels[2] number of contiguous 2D x,y planes of 4-byte packed RGBX values /// containing the user defined base OUTPUT values at that x,y, and z (R,G,B) level location. Each level must contain x * y 4-byte /// packed pixel values (4th byte is used for alignement only and is ignored) in row (x) order.
pLevels0	int	array, cube edge 0, with user defined INPUT level values.
pLevels1	int	array, cube edge 1, with user defined INPUT level values.
pLevels2	int	array, cube edge 2, with user defined INPUT level values.
aLevels	int	Host pointer to an array of 3 user defined number of input/output mapping points, one per 3D cube edge. /// aLevels[0] represents the number of x axis levels (Red), aLevels[1] represents the number of y axis levels (Green), /// and aLevels[2] represets the number of z axis levels (Blue).
return	void

LUTTrilinearA() public method

Four channel 8-bit unsigned 3D trilinear interpolated look-up-table color conversion, not affecting alpha. Alpha channel is the last channel and is not processed. The LUT is derived from a set of user defined mapping points through trilinear interpolation.

public LUTTrilinearA ( CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void
pValues	CudaDeviceVariable	Device pointer to aLevels[2] number of contiguous 2D x,y planes of 4-byte packed RGBX values /// containing the user defined base OUTPUT values at that x,y, and z (R,G,B) level location. Each level must contain x * y 4-byte /// packed pixel values (4th byte is used for alignement only and is ignored) in row (x) order.
pLevels0	int	array, cube edge 0, with user defined INPUT level values.
pLevels1	int	array, cube edge 1, with user defined INPUT level values.
pLevels2	int	array, cube edge 2, with user defined INPUT level values.
aLevels	int	Host pointer to an array of 3 user defined number of input/output mapping points, one per 3D cube edge. /// aLevels[0] represents the number of x axis levels (Red), aLevels[1] represents the number of y axis levels (Green), /// and aLevels[2] represets the number of z axis levels (Blue).
return	void

LUTTrilinearA() public method

public LUTTrilinearA ( NPPImage_8uC4 dst, CudaDeviceVariable pValues, int pLevels0, int pLevels1, int pLevels2, int aLevels ) : void
dst	NPPImage_8uC4	Destination-Image
pValues	CudaDeviceVariable	Device pointer to aLevels[2] number of contiguous 2D x,y planes of 4-byte packed RGBX values /// containing the user defined base OUTPUT values at that x,y, and z (R,G,B) level location. Each level must contain x * y 4-byte /// packed pixel values (4th byte is used for alignement only and is ignored) in row (x) order.
pLevels0	int	array, cube edge 0, with user defined INPUT level values.
pLevels1	int	array, cube edge 1, with user defined INPUT level values.
pLevels2	int	array, cube edge 2, with user defined INPUT level values.
aLevels	int	Host pointer to an array of 3 user defined number of input/output mapping points, one per 3D cube edge. /// aLevels[0] represents the number of x axis levels (Red), aLevels[1] represents the number of y axis levels (Green), /// and aLevels[2] represets the number of z axis levels (Blue).
return	void

LUVToRGB() public method

4 channel 8-bit unsigned packed LUV with alpha to 4 channel 8-bit unsigned packed RGB with alpha color conversion.

public LUVToRGB ( NPPImage_8uC4 dest ) : void
dest	NPPImage_8uC4	Destination image
return	void

Lut() public method

look-up-table color conversion. The LUT is derived from a set of user defined mapping points through linear interpolation.

public Lut ( NPPImage_8uC4 dest, CudaDeviceVariable values0, CudaDeviceVariable levels0, CudaDeviceVariable values1, CudaDeviceVariable levels1, CudaDeviceVariable values2, CudaDeviceVariable levels2, CudaDeviceVariable values3, CudaDeviceVariable levels3 ) : void
dest	NPPImage_8uC4	Destination image
values0	CudaDeviceVariable	array of user defined OUTPUT values, channel 0
levels0	CudaDeviceVariable	array of user defined INPUT values, channel 0
values1	CudaDeviceVariable	array of user defined OUTPUT values, channel 1
levels1	CudaDeviceVariable	array of user defined INPUT values, channel 1
values2	CudaDeviceVariable	array of user defined OUTPUT values, channel 2
levels2	CudaDeviceVariable	array of user defined INPUT values, channel 2
values3	CudaDeviceVariable	array of user defined OUTPUT values, channel 3
levels3	CudaDeviceVariable	array of user defined INPUT values, channel 3
return	void

LutA() public method

look-up-table color conversion. The LUT is derived from a set of user defined mapping points through linear interpolation. Not affecting alpha channel.

public LutA ( NPPImage_8uC4 dest, CudaDeviceVariable values0, CudaDeviceVariable levels0, CudaDeviceVariable values1, CudaDeviceVariable levels1, CudaDeviceVariable values2, CudaDeviceVariable levels2 ) : void
dest	NPPImage_8uC4	Destination image
values0	CudaDeviceVariable	array of user defined OUTPUT values, channel 0
levels0	CudaDeviceVariable	array of user defined INPUT values, channel 0
values1	CudaDeviceVariable	array of user defined OUTPUT values, channel 1
levels1	CudaDeviceVariable	array of user defined INPUT values, channel 1
values2	CudaDeviceVariable	array of user defined OUTPUT values, channel 2
levels2	CudaDeviceVariable	array of user defined INPUT values, channel 2
return	void

Max() public method

Image pixel maximum. Buffer is internally allocated and freed.

public Max ( CudaDeviceVariable max ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
return	void

Max() public method

Image pixel maximum. No additional buffer is allocated.

public Max ( CudaDeviceVariable max, CudaDeviceVariable buffer ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MaxA() public method

Image pixel maximum. Buffer is internally allocated and freed. Not affecting alpha.

public MaxA ( CudaDeviceVariable max ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
return	void

MaxA() public method

Image pixel maximum. No additional buffer is allocated. Not affecting alpha.

public MaxA ( CudaDeviceVariable max, CudaDeviceVariable buffer ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MaxError() public method

image maximum error. User buffer is internally allocated and freed.

public MaxError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
return	void

MaxError() public method

image maximum error.

public MaxError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the MaxError operation.
return	void

MaxErrorGetBufferHostSize() public method

Device scratch buffer size (in bytes) for MaxError.

public MaxErrorGetBufferHostSize ( ) : int
return	int

MaxEvery() public method

image MaxEvery

public MaxEvery ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	Source-Image
return	void

MaxEveryA() public method

image MaxEvery Not affecting Alpha.

public MaxEveryA ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	Source-Image
return	void

MaxGetBufferHostSize() public method

Scratch-buffer size for Max.

public MaxGetBufferHostSize ( ) : int
return	int

MaxGetBufferHostSizeA() public method

Scratch-buffer size for Max. Not affecting alpha.

public MaxGetBufferHostSizeA ( ) : int
return	int

MaxIndex() public method

Image pixel maximum. Buffer is internally allocated and freed.

public MaxIndex ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
return	void

MaxIndex() public method

Image pixel minimum. No additional buffer is allocated.

public MaxIndex ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MaxIndexA() public method

Image pixel maximum. Buffer is internally allocated and freed. Not affecting alpha.

public MaxIndexA ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
return	void

MaxIndexA() public method

Image pixel minimum. No additional buffer is allocated. Not affecting alpha.

public MaxIndexA ( CudaDeviceVariable max, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void
max	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MaxIndexGetBufferHostSize() public method

Scratch-buffer size for MaxIndex.

public MaxIndexGetBufferHostSize ( ) : int
return	int

MaxIndexGetBufferHostSizeA() public method

Scratch-buffer size for MaxIndex. Not affecting alpha.

public MaxIndexGetBufferHostSizeA ( ) : int
return	int

MaximumRelativeError() public method

image maximum relative error. User buffer is internally allocated and freed.

public MaximumRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
return	void

MaximumRelativeError() public method

image maximum relative error.

public MaximumRelativeError ( NPPImage_8uC4 src2, CudaDeviceVariable pError, CudaDeviceVariable buffer ) : void
src2	NPPImage_8uC4	2nd source image
pError	CudaDeviceVariable	Pointer to the computed error.
buffer	CudaDeviceVariable	Pointer to the user-allocated scratch buffer required for the MaximumRelativeError operation.
return	void

MaximumRelativeErrorGetBufferHostSize() public method

Device scratch buffer size (in bytes) for MaximumRelativeError.

public MaximumRelativeErrorGetBufferHostSize ( ) : int
return	int

Mean() public method

image mean with 64-bit double precision result. Buffer is internally allocated and freed.

public Mean ( CudaDeviceVariable mean ) : void
mean	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(double)
return	void

Mean() public method

image mean with 64-bit double precision result. No additional buffer is allocated.

public Mean ( CudaDeviceVariable mean, CudaDeviceVariable buffer ) : void
mean	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(double)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MeanA() public method

image mean with 64-bit double precision result. Buffer is internally allocated and freed. Not affecting alpha.

public MeanA ( CudaDeviceVariable mean ) : void
mean	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(double)
return	void

MeanA() public method

image mean with 64-bit double precision result. No additional buffer is allocated. Not affecting alpha.

public MeanA ( CudaDeviceVariable mean, CudaDeviceVariable buffer ) : void
mean	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(double)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MeanGetBufferHostSize() public method

Scratch-buffer size for Mean.

public MeanGetBufferHostSize ( ) : int
return	int

MeanGetBufferHostSizeA() public method

Scratch-buffer size for Mean. Not affecting alpha.

public MeanGetBufferHostSizeA ( ) : int
return	int

Min() public method

Image pixel minimum. Buffer is internally allocated and freed.

public Min ( CudaDeviceVariable min ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
return	void

Min() public method

Image pixel minimum. No additional buffer is allocated.

public Min ( CudaDeviceVariable min, CudaDeviceVariable buffer ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MinA() public method

Image pixel minimum. Buffer is internally allocated and freed. Not affecting alpha.

public MinA ( CudaDeviceVariable min ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
return	void

MinA() public method

Image pixel minimum. No additional buffer is allocated. Not affecting alpha.

public MinA ( CudaDeviceVariable min, CudaDeviceVariable buffer ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MinEvery() public method

image MinEvery

public MinEvery ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	Source-Image
return	void

MinEveryA() public method

image MinEvery Not affecting Alpha.

public MinEveryA ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	Source-Image
return	void

MinGetBufferHostSize() public method

Scratch-buffer size for Min.

public MinGetBufferHostSize ( ) : int
return	int

MinGetBufferHostSizeA() public method

Scratch-buffer size for Min. Not affecting alpha.

public MinGetBufferHostSizeA ( ) : int
return	int

MinIndex() public method

Image pixel minimum. Buffer is internally allocated and freed.

public MinIndex ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
return	void

MinIndex() public method

Image pixel minimum. No additional buffer is allocated.

public MinIndex ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(int)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MinIndexA() public method

Image pixel minimum. Buffer is internally allocated and freed. Not affecting alpha.

public MinIndexA ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
return	void

MinIndexA() public method

Image pixel minimum. No additional buffer is allocated. Not affecting alpha.

public MinIndexA ( CudaDeviceVariable min, CudaDeviceVariable indexX, CudaDeviceVariable indexY, CudaDeviceVariable buffer ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(byte)
indexX	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
indexY	CudaDeviceVariable	Allocated device memory with size of at least 3 * sizeof(int)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MinIndexGetBufferHostSize() public method

Scratch-buffer size for MinIndex.

public MinIndexGetBufferHostSize ( ) : int
return	int

MinIndexGetBufferHostSizeA() public method

Scratch-buffer size for MinIndex. Not affecting alpha.

public MinIndexGetBufferHostSizeA ( ) : int
return	int

MinMax() public method

Image pixel minimum and maximum. Buffer is internally allocated and freed.

public MinMax ( CudaDeviceVariable min, CudaDeviceVariable max ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
return	void

MinMax() public method

Image pixel minimum and maximum. No additional buffer is allocated.

public MinMax ( CudaDeviceVariable min, CudaDeviceVariable max, CudaDeviceVariable buffer ) : void
min	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
max	CudaDeviceVariable	Allocated device memory with size of at least 4 * sizeof(byte)
buffer	CudaDeviceVariable	Allocated device memory with size of at
return	void

MinMaxGetBufferHostSize() public method

Scratch-buffer size for MinMax.

public MinMaxGetBufferHostSize ( ) : int
return	int

Mirror() public method

Mirror image.

public Mirror ( NPPImage_8uC4 dest, NppiAxis flip ) : void
dest	NPPImage_8uC4	Destination image
flip	NppiAxis	Specifies the axis about which the image is to be mirrored.
return	void

Mirror() public method

Mirror image inplace.

public Mirror ( NppiAxis flip ) : void
flip	NppiAxis	Specifies the axis about which the image is to be mirrored.
return	void

MirrorA() public method

Mirror image. Not affecting Alpha.

public MirrorA ( NPPImage_8uC4 dest, NppiAxis flip ) : void
dest	NPPImage_8uC4	Destination image
flip	NppiAxis	Specifies the axis about which the image is to be mirrored.
return	void

MirrorA() public method

Mirror image inplace. Not affecting Alpha.

public MirrorA ( NppiAxis flip ) : void
flip	NppiAxis	Specifies the axis about which the image is to be mirrored.
return	void

Mul() public method

In place image multiplication and scale by max bit width value

public Mul ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	2nd source image
return	void

Mul() public method

Image multiplication and scale by max bit width value.

public Mul ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
return	void

Mul() public method

Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Mul ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Mul() public method

In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Mul ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

Mul() public method

Multiply constant to image and scale by max bit width value

public Mul ( byte nConstant ) : void
nConstant	byte	Value
return	void

Mul() public method

Multiply constant to image and scale by max bit width value

public Mul ( byte nConstant, NPPImage_8uC4 dest ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
return	void

Mul() public method

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

public Mul ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

Mul() public method

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

public Mul ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Value
nScaleFactor	int	scaling factor
return	void

MulA() public method

In place image multiplication and scale by max bit width value. Unchanged Alpha.

public MulA ( NPPImage_8uC4 src2 ) : void
src2	NPPImage_8uC4	2nd source image
return	void

MulA() public method

Image multiplication and scale by max bit width value. Unchanged Alpha.

public MulA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
return	void

MulA() public method

Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public MulA ( NPPImage_8uC4 src2, NPPImage_8uC4 dest, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

MulA() public method

In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public MulA ( NPPImage_8uC4 src2, int nScaleFactor ) : void
src2	NPPImage_8uC4	2nd source image
nScaleFactor	int	scaling factor
return	void

MulA() public method

Multiply constant to image and scale by max bit width value. Unchanged Alpha.

public MulA ( byte nConstant ) : void
nConstant	byte	Value
return	void

MulA() public method

Multiply constant to image and scale by max bit width value. Unchanged Alpha.

public MulA ( byte nConstant, NPPImage_8uC4 dest ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
return	void

MulA() public method

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

public MulA ( byte nConstant, NPPImage_8uC4 dest, int nScaleFactor ) : void
nConstant	byte	Value
dest	NPPImage_8uC4	Destination image
nScaleFactor	int	scaling factor
return	void

MulA() public method

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.

public MulA ( byte nConstant, int nScaleFactor ) : void
nConstant	byte	Value
nScaleFactor	int	scaling factor
return	void