/*
// Copyright 2015 2018 Intel Corporation All Rights Reserved.
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*/
// An example of performing The code example shows how these functions can be used to organize the separable convolution as a step of
// image processing pipeline.implemented with Intel(R) Integrated Primitives (Intel(R) IPP) functions :
// ippiFilterRowBorderPipelineGetBufferSize_Low_16s_C1R
// ippiFilterColumnPipeline_Low_16s_C1R
// ippiFilterColumnPipelineGetBufferSize_Low_16s_C1R
// ippiFilterRowBorderPipeline_Low_16s_C1R
#include <stdio.h>
#include "ipp.h"
#define WIDTH 128 /* image width */
#define HEIGHT 64 /* image height */
/* Next two defines are created to simplify code reading and understanding */
#define EXIT_MAIN exitLine: /* Label for Exit */
#define check_sts(st) if((st) != ippStsNoErr) goto exitLine; /* Go to Exit if Intel(R) IPP function returned status different from ippStsNoErr */
/* Results of ippMalloc() are not validated because Intel(R) IPP functions perform bad arguments check and will return an appropriate status */
int main(void)
{
IppStatus status = ippStsNoErr;
const Ipp16s **pGet = NULL;
Ipp16s* src = NULL, *dst = NULL;
int kernelSize = 3;
int xAnchor = kernelSize >> 1; /* The anchor value, (0 <= xAnchor < kernelSize) */
Ipp16s pKerX[3] = { 1, 2, 1 }, pKerY[3] = { 1, 0, 1 }; /* The pointer to the kernels */
Ipp16s* pSrc = NULL, *pDst = NULL; /* Pointers to source/destination images */
int srcStep = 0, dstStep = 0; /* Steps, in bytes, through the source/destination images */
IppiSize roiSize = { WIDTH, HEIGHT }; /* Size of source/destination ROI in pixels */
IppiSize roi = { WIDTH, 1 }; /* Size of destination ROI in pixels */
int divisor = 1; /* The value to divide output pixels by */
Ipp8u borderValue = 0;
Ipp8u *pBufRow = NULL, *pBufCol = NULL;/* Pointer to the work buffer */
int sizeRow = 0, sizeCol = 0; /* Common work buffer size */
int todo = roiSize.height, bufLen;
int mStep = (roiSize.width + 7)&(~7);
int sStep = 0, dStep = 0;
bufLen = mStep * 3 + 4;
pGet = (const Ipp16s**)ippsMalloc_16s(bufLen);
pSrc = ippiMalloc_16s_C1(roiSize.width, roiSize.height, &srcStep);
pDst = ippiMalloc_16s_C1(roiSize.width, roiSize.height, &dstStep);
dst = pDst; src = pSrc;
sStep = srcStep >> 1, dStep = dstStep >> 1;
pGet[0] = pGet[1] = (Ipp16s*)(pGet + 4);
pGet[2] = pGet[1] + mStep;
pGet[3] = pGet[2] + mStep;
check_sts( status = ippiFilterRowBorderPipelineGetBufferSize_Low_16s_C1R(roiSize, 3, &sizeRow) )
check_sts( status = ippiFilterColumnPipelineGetBufferSize_Low_16s_C1R(roiSize, 3, &sizeCol) )
pBufRow = ippsMalloc_8u(sizeRow);
pBufCol = ippsMalloc_8u(sizeCol);
check_sts( status = ippiFilterRowBorderPipeline_Low_16s_C1R(pSrc, srcStep, ( Ipp16s**)pGet, roi, pKerX, kernelSize, xAnchor, ippBorderRepl, borderValue, divisor, pBufRow) )
todo--;
if (todo==0)
{
pGet[2] = pGet[0];
}
else {
pGet[2] = pGet[0] + mStep; pGet[3] = pGet[2] + mStep;
for (; todo>0;src += sStep, dst += dStep, todo--)
{
check_sts( status = ippiFilterRowBorderPipeline_Low_16s_C1R(src, srcStep, (Ipp16s**)(pGet + 2), roi, pKerX, kernelSize, xAnchor, ippBorderRepl, borderValue, divisor, pBufRow) )
check_sts( status = ippiFilterColumnPipeline_Low_16s_C1R(pGet, dst, dstStep, roi, pKerY, kernelSize, divisor, pBufCol) )
pGet[0] = pGet[1]; pGet[1] = pGet[2]; pGet[2] = pGet[3]; pGet[3] = pGet[0];
}
}
check_sts( status = ippiFilterColumnPipeline_Low_16s_C1R(pGet, dst, dstStep, roi, pKerY, kernelSize, divisor, pBufCol) )
EXIT_MAIN
ippiFree(pSrc);
ippsFree(pBufRow);
ippsFree(pBufCol);
ippiFree(pDst);
printf("Exit status %d (%s)\n", (int)status, ippGetStatusString(status));
return (int)status;
}