/*
// Copyright 2015 2016 Intel Corporation All Rights Reserved.
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*/
// A simple example of performing bilinear warping of an image
// using Intel IPP functions:
// ippiWarpBilinearGetBufferSize
// ippiGetBilinearTransform
// ippiWarpBilinear_32f_C1R
// ippiWarpBilinearBack_32f_C1R
#include <stdio.h>
#include "ipp.h"
#define WIDTH 8 /* source image width */
#define HEIGHT 8 /* source 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 IPP function returned status different from ippStsNoErr */
static Ipp32f pSrc[WIDTH*HEIGHT] =/* Pointers to source images */
{
1.f, 1.f, 1.f, 1.f, 1.f, 1.f, 1.f, 1.f,
1.f, 1.f, 1.f, 5.f, 5.f, 1.f, 1.f, 1.f,
1.f, 1.f, 5.f, 5.f, 5.f, 5.f, 1.f, 1.f,
1.f, 5.f, 5.f, 5.f, 5.f, 5.f, 5.f, 1.f,
1.f, 5.f, 5.f, 5.f, 5.f, 5.f, 5.f, 1.f,
1.f, 1.f, 5.f, 5.f, 5.f, 5.f, 1.f, 1.f,
1.f, 1.f, 1.f, 5.f, 5.f, 1.f, 1.f, 1.f,
1.f, 1.f, 1.f, 1.f, 1.f, 1.f, 1.f, 1.f };
static const double quad[4][2] = /* Vertex coordinates of the quadrangle */
{
{ 1.0, 1.0 },
{ 8.0, 0.0 },
{ 6.0, 8.0 },
{ 2.0, 6.0 } };
/* Results of ippMalloc() are not validated because Intel(R) Integrated Performance Primitives functions perform bad arguments check and will return an appropriate status */
int main(void)
{
IppStatus status = ippStsNoErr;
IppiSize srcSize = { WIDTH, HEIGHT }; /* Size of source ROI in pixels */
IppiRect srcRoi = { 0, 0, WIDTH, HEIGHT };/* Region of interest in the source image */
int srcStep = WIDTH * sizeof(Ipp32f), dstStep = srcStep, dstbStep = srcStep; /* Steps, in bytes, through the source/destination/back destination images */
Ipp32f pDst[WIDTH*HEIGHT], pDstB[WIDTH*HEIGHT];/* Pointers to destination/back destination images */
IppiSize dstSize = { WIDTH, HEIGHT };
IppiRect dstbRoi = { 0, 0, WIDTH, HEIGHT }; /* Region of interest in the back destination image */
IppiRect dstRoi = { 0, 0, WIDTH, HEIGHT }; /* Region of interest in the destination image */
double coeffs[2][4] = {0};
int bufSize = 0, bufSizeB = 0; /* Work buffers size */
Ipp8u* pBuffer = NULL,*pBufferB = NULL;
check_sts( status = ippiSet_32f_C1R(2, pDst, srcStep, srcSize) )
check_sts( status = ippiSet_32f_C1R(3, pDstB, srcStep, srcSize) )
/* Computes bilinear transform matrix */
check_sts( status = ippiGetBilinearTransform(srcRoi, quad, (double(*)[4])coeffs) )
/* Computes the size of external buffer for bilinear transform */
check_sts( status = ippiWarpBilinearGetBufferSize(srcSize, srcRoi, dstRoi, ippWarpForward, coeffs, IPPI_INTER_NN, &bufSize) )
/* Computes the size of external buffer for Back bilinear transform */
check_sts( status = ippiWarpBilinearGetBufferSize(dstSize, dstRoi, dstbRoi, ippWarpBackward, coeffs, IPPI_INTER_NN, &bufSizeB) )
pBuffer = ippsMalloc_8u(bufSize);
pBufferB = ippsMalloc_8u(bufSizeB);
/* Performs bilinear warping of an image */
check_sts( status = ippiWarpBilinear_32f_C1R(pSrc, srcSize, srcStep, srcRoi, pDst, dstStep, dstRoi, coeffs, IPPI_INTER_NN, pBuffer) )
/* Performs an inverse bilinear warping of an image */
check_sts( status = ippiWarpBilinearBack_32f_C1R(pDst, dstSize, dstStep, dstRoi, pDstB, dstbStep, dstbRoi, coeffs, IPPI_INTER_NN, pBuffer) )
EXIT_MAIN
ippsFree(pBuffer);
ippsFree(pBufferB);
printf("Exit status %d (%s)\n", (int)status, ippGetStatusString(status));
return (int)status;
}