mirror/opencv
1
0
Fork 0
mirror of https://github.com/opencv/opencv.git synced 2024-11-26 12:10:49 +08:00
Code Issues Actions Packages Projects Releases Wiki Activity

Added IPP function for resize()

Browse Source
This commit is contained in:
Elena Gvozdeva 2014-02-20 14:01:22 +04:00
parent ccbceb56c4
commit e013d31715
1 changed files with 227 additions and 42 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

269
modules/imgproc/src/imgwarp.cpp
View File

@ -55,12 +55,14 @@ static IppStatus sts = ippInit();
namespace cv
{
#if defined (HAVE_IPP) && ((IPP_VERSION_MAJOR == 7 && IPP_VERSION_MINOR >= 1) || IPP_VERSION_MAJOR > 7)
typedef IppStatus (CV_STDCALL* ippiResizeFunc)(const void*, int, const void*, int, IppiPoint, IppiSize, IppiBorderType, void*, void*, Ipp8u*);
#endif
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
typedef IppStatus (CV_STDCALL* ippiSetFunc)(const void*, void *, int, IppiSize);
typedef IppStatus (CV_STDCALL* ippiWarpPerspectiveBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [3][3], int);
typedef IppStatus (CV_STDCALL* ippiWarpAffineBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [2][3], int);
typedef IppStatus (CV_STDCALL* ippiResizeSqrPixelFunc)(const void*, IppiSize, int, IppiRect, void*, int, IppiRect, double, double, double, double, int, Ipp8u *);
template <int channels, typename Type>
bool IPPSetSimple(cv::Scalar value, void *dataPointer, int step, IppiSize &size, ippiSetFunc func)
@ -1862,30 +1864,204 @@ static int computeResizeAreaTab( int ssize, int dsize, int cn, double scale, Dec
return k;
}
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
#if defined (HAVE_IPP) && ((IPP_VERSION_MAJOR == 7 && IPP_VERSION_MINOR >= 1) || IPP_VERSION_MAJOR > 7)
class IPPresizeInvoker :
public ParallelLoopBody
{
public:
IPPresizeInvoker(Mat &_src, Mat &_dst, double &_inv_scale_x, double &_inv_scale_y, int _mode, ippiResizeSqrPixelFunc _func, bool *_ok) :
ParallelLoopBody(), src(_src), dst(_dst), inv_scale_x(_inv_scale_x), inv_scale_y(_inv_scale_y), mode(_mode), func(_func), ok(_ok)
IPPresizeInvoker(Mat &_src, Mat &_dst, double _inv_scale_x, double _inv_scale_y, int _mode, bool *_ok) :
ParallelLoopBody(), src(_src), dst(_dst), inv_scale_x(_inv_scale_x), inv_scale_y(_inv_scale_y), mode(_mode), ok(_ok)
{
IppStatus status = ippStsNotSupportedModeErr;
*ok = true;
IppiSize srcSize, dstSize;
int type = src.type();
int specSize = 0, initSize = 0;
srcSize.width = src.cols;
srcSize.height = src.rows;
dstSize.width = dst.cols;
dstSize.height = dst.rows;
if (mode == (int)ippLinear)
{
func =
type == CV_8UC1 ? (ippiResizeFunc)ippiResizeLinear_8u_C1R :
type == CV_8UC3 ? (ippiResizeFunc)ippiResizeLinear_8u_C3R :
type == CV_8UC4 ? (ippiResizeFunc)ippiResizeLinear_8u_C4R :
type == CV_16UC1 ? (ippiResizeFunc)ippiResizeLinear_16u_C1R :
type == CV_16UC3 ? (ippiResizeFunc)ippiResizeLinear_16u_C3R :
type == CV_16UC4 ? (ippiResizeFunc)ippiResizeLinear_16u_C4R :
type == CV_16SC1 ? (ippiResizeFunc)ippiResizeLinear_16s_C1R :
type == CV_16SC3 ? (ippiResizeFunc)ippiResizeLinear_16s_C3R :
type == CV_16SC4 ? (ippiResizeFunc)ippiResizeLinear_16s_C4R :
type == CV_32FC1 ? (ippiResizeFunc)ippiResizeLinear_32f_C1R :
type == CV_32FC3 ? (ippiResizeFunc)ippiResizeLinear_32f_C3R :
type == CV_32FC4 ? (ippiResizeFunc)ippiResizeLinear_32f_C4R :
type == CV_64FC1 ? (ippiResizeFunc)ippiResizeLinear_64f_C1R :
type == CV_64FC3 ? (ippiResizeFunc)ippiResizeLinear_64f_C3R :
type == CV_64FC4 ? (ippiResizeFunc)ippiResizeLinear_64f_C4R :
0;
}
else if (mode == (int)ippCubic)
{
func =
type == CV_8UC1 ? (ippiResizeFunc)ippiResizeCubic_8u_C1R :
type == CV_8UC3 ? (ippiResizeFunc)ippiResizeCubic_8u_C3R :
type == CV_8UC4 ? (ippiResizeFunc)ippiResizeCubic_8u_C4R :
type == CV_16UC1 ? (ippiResizeFunc)ippiResizeCubic_16u_C1R :
type == CV_16UC3 ? (ippiResizeFunc)ippiResizeCubic_16u_C3R :
type == CV_16UC4 ? (ippiResizeFunc)ippiResizeCubic_16u_C4R :
type == CV_16SC1 ? (ippiResizeFunc)ippiResizeCubic_16s_C1R :
type == CV_16SC3 ? (ippiResizeFunc)ippiResizeCubic_16s_C3R :
type == CV_16SC4 ? (ippiResizeFunc)ippiResizeCubic_16s_C4R :
type == CV_32FC1 ? (ippiResizeFunc)ippiResizeCubic_32f_C1R :
type == CV_32FC3 ? (ippiResizeFunc)ippiResizeCubic_32f_C3R :
type == CV_32FC4 ? (ippiResizeFunc)ippiResizeCubic_32f_C4R :
0;
}
switch (src.depth())
{
case CV_8U:
status = ippiResizeGetSize_8u(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize);
break;
case CV_16U:
status = ippiResizeGetSize_16u(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize);
break;
case CV_16S:
status = ippiResizeGetSize_16s(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize);
break;
case CV_32F:
status = ippiResizeGetSize_32f(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize);
break;
case CV_64F:
status = ippiResizeGetSize_64f(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize);
break;
}
if (status != ippStsNoErr)
{
*ok = false;
return;
}
specBuf.allocate(specSize);
pSpec = (uchar*)specBuf;
status = ippStsNotSupportedModeErr;
if (mode == (int)ippLinear)
{
switch (src.depth())
{
case CV_8U:
status = ippiResizeLinearInit_8u(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec);
break;
case CV_16U:
status = ippiResizeLinearInit_16u(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec);
break;
case CV_16S:
status = ippiResizeLinearInit_16s(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec);
break;
case CV_32F:
status = ippiResizeLinearInit_32f(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec);
break;
case CV_64F:
status = ippiResizeLinearInit_64f(srcSize, dstSize, (IppiResizeSpec_64f*)pSpec);
break;
}
if (status != ippStsNoErr)
{
*ok = false;
return;
}
}
else if (mode == (int)ippCubic)
{
AutoBuffer<uchar> buf(initSize);
uchar* pInit = (uchar*)buf;
switch (src.depth())
{
case CV_8U:
status = ippiResizeCubicInit_8u(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit);
break;
case CV_16U:
status = ippiResizeCubicInit_16u(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit);
break;
case CV_16S:
status = ippiResizeCubicInit_16s(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit);
break;
case CV_32F:
status = ippiResizeCubicInit_32f(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit);
break;
}
if (status != ippStsNoErr) *ok = false;
}
}
~IPPresizeInvoker()
{
}
virtual void operator() (const Range& range) const
{
if (*ok == false) return;
int cn = src.channels();
IppiRect srcroi = { 0, range.start, src.cols, range.end - range.start };
int dsty = CV_IMIN(cvRound(range.start * inv_scale_y), dst.rows);
int dstwidth = CV_IMIN(cvRound(src.cols * inv_scale_x), dst.cols);
int dstwidth = CV_IMIN(cvRound(src.cols * inv_scale_x), dst.cols);
int dstheight = CV_IMIN(cvRound(range.end * inv_scale_y), dst.rows);
IppiRect dstroi = { 0, dsty, dstwidth, dstheight - dsty };
int bufsize;
ippiResizeGetBufSize( srcroi, dstroi, cn, mode, &bufsize );
IppiPoint dstOffset = { 0, dsty }, srcOffset = {0, 0};
IppiSize dstSize = { dstwidth, dstheight - dsty };
int bufsize = 0, itemSize = 0;
IppStatus status = ippStsNotSupportedModeErr;
switch (src.depth())
{
case CV_8U:
itemSize = 1;
status = ippiResizeGetBufferSize_8u((IppiResizeSpec_32f*)pSpec, dstSize, cn, &bufsize);
if (status == ippStsNoErr)
status = ippiResizeGetSrcOffset_8u((IppiResizeSpec_32f*)pSpec, dstOffset, &srcOffset);
break;
case CV_16U:
itemSize = 2;
status = ippiResizeGetBufferSize_16u((IppiResizeSpec_32f*)pSpec, dstSize, cn, &bufsize);
if (status == ippStsNoErr)
status = ippiResizeGetSrcOffset_16u((IppiResizeSpec_32f*)pSpec, dstOffset, &srcOffset);
break;
case CV_16S:
itemSize = 2;
status = ippiResizeGetBufferSize_16s((IppiResizeSpec_32f*)pSpec, dstSize, cn, &bufsize);
if (status == ippStsNoErr)
status = ippiResizeGetSrcOffset_16s((IppiResizeSpec_32f*)pSpec, dstOffset, &srcOffset);
break;
case CV_32F:
itemSize = 4;
status = ippiResizeGetBufferSize_32f((IppiResizeSpec_32f*)pSpec, dstSize, cn, &bufsize);
if (status == ippStsNoErr)
status = ippiResizeGetSrcOffset_32f((IppiResizeSpec_32f*)pSpec, dstOffset, &srcOffset);
break;
case CV_64F:
itemSize = 4;
status = ippiResizeGetBufferSize_64f((IppiResizeSpec_64f*)pSpec, dstSize, cn, &bufsize);
if (status == ippStsNoErr)
status = ippiResizeGetSrcOffset_64f((IppiResizeSpec_64f*)pSpec, dstOffset, &srcOffset);
break;
}
if (status != ippStsNoErr)
{
*ok = false;
return;
}
Ipp8u* pSrc = (Ipp8u*)src.data + (int)src.step[0] * srcOffset.y + srcOffset.x * cn * itemSize;
Ipp8u* pDst = (Ipp8u*)dst.data + (int)dst.step[0] * dstOffset.y + dstOffset.x * cn * itemSize;
AutoBuffer<uchar> buf(bufsize + 64);
uchar* bufptr = alignPtr((uchar*)buf, 32);
if( func( src.data, ippiSize(src.cols, src.rows), (int)src.step[0], srcroi, dst.data, (int)dst.step[0], dstroi, inv_scale_x, inv_scale_y, 0, 0, mode, bufptr ) < 0 )
if( func( pSrc, (int)src.step[0], pDst, (int)dst.step[0], dstOffset, dstSize, ippBorderRepl, 0, pSpec, bufptr ) < 0 )
*ok = false;
}
private:
@ -1893,8 +2069,10 @@ private:
Mat &dst;
double inv_scale_x;
double inv_scale_y;
void *pSpec;
AutoBuffer<uchar> specBuf;
int mode;
ippiResizeSqrPixelFunc func;
ippiResizeFunc func;
bool *ok;
const IPPresizeInvoker& operator= (const IPPresizeInvoker&);
};
@ -2218,35 +2396,40 @@ void cv::resize( InputArray _src, OutputArray _dst, Size dsize,
int depth = src.depth(), cn = src.channels();
double scale_x = 1./inv_scale_x, scale_y = 1./inv_scale_y;
int k, sx, sy, dx, dy;
/*
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
int mode = interpolation == INTER_LINEAR ? IPPI_INTER_LINEAR : 0;
int type = src.type();
ippiResizeSqrPixelFunc ippFunc =
type == CV_8UC1 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_8u_C1R :
type == CV_8UC3 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_8u_C3R :
type == CV_8UC4 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_8u_C4R :
type == CV_16UC1 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16u_C1R :
type == CV_16UC3 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16u_C3R :
type == CV_16UC4 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16u_C4R :
type == CV_16SC1 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16s_C1R :
type == CV_16SC3 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16s_C3R :
type == CV_16SC4 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_16s_C4R :
type == CV_32FC1 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_32f_C1R :
type == CV_32FC3 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_32f_C3R :
type == CV_32FC4 ? (ippiResizeSqrPixelFunc)ippiResizeSqrPixel_32f_C4R :
0;
if( ippFunc && mode != 0 )
#if defined (HAVE_IPP) && ((IPP_VERSION_MAJOR == 7 && IPP_VERSION_MINOR >= 1) || IPP_VERSION_MAJOR > 7)
#define IPP_RESIZE_EPS 1.e-10
double ex = fabs((double)dsize.width/src.cols - inv_scale_x)/inv_scale_x;
double ey = fabs((double)dsize.height/src.rows - inv_scale_y)/inv_scale_y;
if ((ex < IPP_RESIZE_EPS && ey < IPP_RESIZE_EPS && depth != CV_64F) ||
(ex == 0 && ey == 0 && depth == CV_64F))
{
bool ok;
Range range(0, src.rows);
IPPresizeInvoker invoker(src, dst, inv_scale_x, inv_scale_y, mode, ippFunc, &ok);
parallel_for_(range, invoker, dst.total()/(double)(1<<16));
if( ok )
return;
int mode = 0;
if (interpolation == INTER_LINEAR && src.rows >= 2 && src.cols >= 2)
{
mode = ippLinear;
}
else if (interpolation == INTER_CUBIC && src.rows >= 4 && src.cols >= 4)
{
mode = ippCubic;
}
if( mode != 0 && (cn == 1 || cn ==3 || cn == 4) &&
(depth == CV_8U || depth == CV_16U || depth == CV_16S || depth == CV_32F ||
(depth == CV_64F && mode == ippLinear)))
{
bool ok = true;
Range range(0, src.rows);
IPPresizeInvoker invoker(src, dst, inv_scale_x, inv_scale_y, mode, &ok);
parallel_for_(range, invoker, dst.total()/(double)(1<<16));
if( ok )
return;
}
}
#undef IPP_RESIZE_EPS
#endif
*/
if( interpolation == INTER_NEAREST )
{
resizeNN( src, dst, inv_scale_x, inv_scale_y );
@ -2366,14 +2549,14 @@ void cv::resize( InputArray _src, OutputArray _dst, Size dsize,
if( sx < ksize2-1 )
{
xmin = dx+1;
if( sx < 0 )
if( sx < 0 && (interpolation != INTER_CUBIC && interpolation != INTER_LANCZOS4))
fx = 0, sx = 0;
}
if( sx + ksize2 >= ssize.width )
{
xmax = std::min( xmax, dx );
if( sx >= ssize.width-1 )
if( sx >= ssize.width-1 && (interpolation != INTER_CUBIC && interpolation != INTER_LANCZOS4))
fx = 0, sx = ssize.width-1;
}
@ -2571,15 +2754,17 @@ struct RemapVec_8u
int operator()( const Mat& _src, void* _dst, const short* XY,
const ushort* FXY, const void* _wtab, int width ) const
{
int cn = _src.channels(), x = 0, sstep = (int)_src.step;
int cn = _src.channels();
if( (cn != 1 && cn != 3 && cn != 4) || !checkHardwareSupport(CV_CPU_SSE2) ||
sstep > 0x8000 )
if( (cn != 1 && cn != 3 && cn != 4) || !checkHardwareSupport(CV_CPU_SSE2))
return 0;
const uchar *S0 = _src.data, *S1 = _src.data + _src.step;
const short* wtab = cn == 1 ? (const short*)_wtab : &BilinearTab_iC4[0][0][0];
uchar* D = (uchar*)_dst;
int x = 0, sstep = (int)_src.step;
__m128i delta = _mm_set1_epi32(INTER_REMAP_COEF_SCALE/2);
__m128i xy2ofs = _mm_set1_epi32(cn + (sstep << 16));
__m128i z = _mm_setzero_si128();