Transforms an image to the tilted integral representation.
Syntax
IppStatus ippiTiltedIntegral_8u32s_C1R(const Ipp8u* pSrc, int srcStep, Ipp32s* pDst, int dstStep, IppiSize roiSize, Ipp32s val);
IppStatus ippiTiltedIntegral_8u32f_C1R(const Ipp8u* pSrc, int srcStep, Ipp32f* pDst, int dstStep, IppiSize roiSize, Ipp32f val);
Parameters
pSrc |
Pointer to the source image ROI. |
srcStep |
Distance in bytes between starts of consecutive lines in the source image. |
pDst |
Pointer to the ROI in the destination integral image. |
dstStep |
Distance in bytes between starts of consecutive lines in the destination image. |
roiSize |
Size of source image ROI in pixels. |
val |
The value to add to pDst image pixels |
Description
The function ippiTiltedIntegral is declared
in the ippcv.h file. It operates with ROI (see Regions of
Interest in Intel IPP). This function transforms a source image pSrc to
the tilted integral image pDst. Pixel values
of the destination image pDst are computed using
pixel values of the source image pSrc and the
specified value val in accordance with the following
formula:
where i,j are coordinates of the destination image pixels (see Figure “Operation of the Integral and TiltedIntegral functions”)varying in the range i = 2 ,..., roiSize.height + 1, j = 0,..., roiSize.width + 1. Pixel values of rows 0 and 1 of the destination image pDst ( i=0) is set to val.
The size of the destination images is (roiSize.width + 2) x (roiSize.height + 2).
Figure “Operation of the Integral and TiltedIntegral functions” shows what pixels (red circles) of the source image are used in computation new pixel values in the i,j coordinates.
Return Values
ippStsNoEr |
Indicates no error. |
ippStsNullPtrErr |
Indicates an error if pSrc or pDst is NULL. |
ippStsSizeErr |
Indicates an error condition if roiSize has a field with zero or negative value. |
ippStsStepErr |
Indicates an error condition if srcStep is less than roiSize.width * <pixelSize>, or dstStep is less than (roiSize.width+2) * <pixelSize> . |
ippStsNotEvenStepErr |
Indicates an error condition if one dstStep is not divisible by 4. |