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Merge pull request #10172 from ElenaGvozdeva:eg/HAL_sobel

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* add HAL for SobelFilter
* add HAL for pyrDown
* add HAL for Scharr
pull/10215/head
Elena Gvozdeva 7 years ago committed by Maksim Shabunin
parent a2811d93dd
commit 6185f7209e
3 changed files with 98 additions and 31 deletions
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  1. 72
      modules/imgproc/src/deriv.cpp
  2. 55
      modules/imgproc/src/hal_replacement.hpp
  3. 2
      modules/imgproc/src/pyramids.cpp

72
modules/imgproc/src/deriv.cpp
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@ -44,6 +44,7 @@
#include "opencl_kernels_imgproc.hpp" #include "opencl_kernels_imgproc.hpp"
#include "opencv2/core/openvx/ovx_defs.hpp" #include "opencv2/core/openvx/ovx_defs.hpp"
#include "filter.hpp"
/****************************************************************************************\ /****************************************************************************************\
Sobel & Scharr Derivative Filters Sobel & Scharr Derivative Filters
@ -421,22 +422,6 @@ void cv::Sobel( InputArray _src, OutputArray _dst, int ddepth, int dx, int dy,
int dtype = CV_MAKE_TYPE(ddepth, cn); int dtype = CV_MAKE_TYPE(ddepth, cn);
_dst.create( _src.size(), dtype ); _dst.create( _src.size(), dtype );
#ifdef HAVE_TEGRA_OPTIMIZATION
if (tegra::useTegra() && scale == 1.0 && delta == 0)
{
Mat src = _src.getMat(), dst = _dst.getMat();
if (ksize == 3 && tegra::sobel3x3(src, dst, dx, dy, borderType))
return;
if (ksize == -1 && tegra::scharr(src, dst, dx, dy, borderType))
return;
}
#endif
CV_OVX_RUN(true,
openvx_sobel(_src, _dst, dx, dy, ksize, scale, delta, borderType))
CV_IPP_RUN(!(ocl::isOpenCLActivated() && _dst.isUMat()), ipp_Deriv(_src, _dst, dx, dy, ksize, scale, delta, borderType));
int ktype = std::max(CV_32F, std::max(ddepth, sdepth)); int ktype = std::max(CV_32F, std::max(ddepth, sdepth));
Mat kx, ky; Mat kx, ky;
@ -451,11 +436,30 @@ void cv::Sobel( InputArray _src, OutputArray _dst, int ddepth, int dx, int dy,
ky *= scale; ky *= scale;
} }
CV_OCL_RUN(_dst.isUMat() && _src.dims() <= 2 && ksize == 3 && CV_OCL_RUN(ocl::isOpenCLActivated() && _dst.isUMat() && _src.dims() <= 2 && ksize == 3 &&
(size_t)_src.rows() > ky.total() && (size_t)_src.cols() > kx.total(), (size_t)_src.rows() > ky.total() && (size_t)_src.cols() > kx.total(),
ocl_sepFilter3x3_8UC1(_src, _dst, ddepth, kx, ky, delta, borderType)); ocl_sepFilter3x3_8UC1(_src, _dst, ddepth, kx, ky, delta, borderType));
sepFilter2D( _src, _dst, ddepth, kx, ky, Point(-1, -1), delta, borderType ); CV_OCL_RUN(ocl::isOpenCLActivated() && _dst.isUMat() && _src.dims() <= 2 && (size_t)_src.rows() > kx.total() && (size_t)_src.cols() > kx.total(),
ocl_sepFilter2D(_src, _dst, ddepth, kx, ky, Point(-1, -1), 0, borderType))
Mat src = _src.getMat();
Mat dst = _dst.getMat();
Point ofs;
Size wsz(src.cols, src.rows);
if(!(borderType & BORDER_ISOLATED))
src.locateROI( wsz, ofs );
CALL_HAL(sobel, cv_hal_sobel, src.ptr(), src.step, dst.ptr(), dst.step, src.cols, src.rows, sdepth, ddepth, cn,
ofs.x, ofs.y, wsz.width - src.cols - ofs.x, wsz.height - src.rows - ofs.y, dx, dy, ksize, scale, delta, borderType&~BORDER_ISOLATED);
CV_OVX_RUN(true,
openvx_sobel(src, dst, dx, dy, ksize, scale, delta, borderType))
CV_IPP_RUN_FAST(ipp_Deriv(src, dst, dx, dy, ksize, scale, delta, borderType));
sepFilter2D(src, dst, ddepth, kx, ky, Point(-1, -1), delta, borderType );
} }
@ -470,17 +474,6 @@ void cv::Scharr( InputArray _src, OutputArray _dst, int ddepth, int dx, int dy,
int dtype = CV_MAKETYPE(ddepth, cn); int dtype = CV_MAKETYPE(ddepth, cn);
_dst.create( _src.size(), dtype ); _dst.create( _src.size(), dtype );
#ifdef HAVE_TEGRA_OPTIMIZATION
if (tegra::useTegra() && scale == 1.0 && delta == 0)
{
Mat src = _src.getMat(), dst = _dst.getMat();
if (tegra::scharr(src, dst, dx, dy, borderType))
return;
}
#endif
CV_IPP_RUN(!(ocl::isOpenCLActivated() && _dst.isUMat()), ipp_Deriv(_src, _dst, dx, dy, 0, scale, delta, borderType));
int ktype = std::max(CV_32F, std::max(ddepth, sdepth)); int ktype = std::max(CV_32F, std::max(ddepth, sdepth));
Mat kx, ky; Mat kx, ky;
@ -495,11 +488,28 @@ void cv::Scharr( InputArray _src, OutputArray _dst, int ddepth, int dx, int dy,
ky *= scale; ky *= scale;
} }
CV_OCL_RUN(_dst.isUMat() && _src.dims() <= 2 && CV_OCL_RUN(ocl::isOpenCLActivated() && _dst.isUMat() && _src.dims() <= 2 &&
(size_t)_src.rows() > ky.total() && (size_t)_src.cols() > kx.total(), (size_t)_src.rows() > ky.total() && (size_t)_src.cols() > kx.total(),
ocl_sepFilter3x3_8UC1(_src, _dst, ddepth, kx, ky, delta, borderType)); ocl_sepFilter3x3_8UC1(_src, _dst, ddepth, kx, ky, delta, borderType));
sepFilter2D( _src, _dst, ddepth, kx, ky, Point(-1, -1), delta, borderType ); CV_OCL_RUN(ocl::isOpenCLActivated() && _dst.isUMat() && _src.dims() <= 2 &&
(size_t)_src.rows() > kx.total() && (size_t)_src.cols() > kx.total(),
ocl_sepFilter2D(_src, _dst, ddepth, kx, ky, Point(-1, -1), 0, borderType))
Mat src = _src.getMat();
Mat dst = _dst.getMat();
Point ofs;
Size wsz(src.cols, src.rows);
if(!(borderType & BORDER_ISOLATED))
src.locateROI( wsz, ofs );
CALL_HAL(scharr, cv_hal_scharr, src.ptr(), src.step, dst.ptr(), dst.step, src.cols, src.rows, sdepth, ddepth, cn,
ofs.x, ofs.y, wsz.width - src.cols - ofs.x, wsz.height - src.rows - ofs.y, dx, dy, scale, delta, borderType&~BORDER_ISOLATED);
CV_IPP_RUN_FAST(ipp_Deriv(src, dst, dx, dy, 0, scale, delta, borderType));
sepFilter2D( src, dst, ddepth, kx, ky, Point(-1, -1), delta, borderType );
} }
#ifdef HAVE_OPENCL #ifdef HAVE_OPENCL

55
modules/imgproc/src/hal_replacement.hpp
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@ -701,6 +701,61 @@ inline int hal_ni_gaussianBlur(const uchar* src_data, size_t src_step, uchar* ds
#define cv_hal_gaussianBlur hal_ni_gaussianBlur #define cv_hal_gaussianBlur hal_ni_gaussianBlur
//! @endcond //! @endcond
/**
@brief Computes Sobel derivatives
@param src_depth,dst_depth Depths of source and destination image
@param src_data,src_step Source image
@param dst_data,dst_step Destination image
@param width,height Source image dimensions
@param cn Number of channels
@param margin_left,margin_top,margin_right,margin_bottom Margins for source image
@param dx,dy orders of the derivative x and y respectively
@param ksize Size of kernel
@param scale Scale factor for the computed derivative values
@param delta Delta value that is added to the results prior to storing them in dst
@param border_type Border type
*/
inline int hal_ni_sobel(const uchar* src_data, size_t src_step, uchar* dst_data, size_t dst_step, int width, int height, int src_depth, int dst_depth, int cn, int margin_left, int margin_top, int margin_right, int margin_bottom, int dx, int dy, int ksize, double scale, double delta, int border_type) { return CV_HAL_ERROR_NOT_IMPLEMENTED; }
//! @cond IGNORED
#define cv_hal_sobel hal_ni_sobel
//! @endcond
/**
@brief Computes Scharr filter
@param src_depth,dst_depth Depths of source and destination image
@param src_data,src_step Source image
@param dst_data,dst_step Destination image
@param width,height Source image dimensions
@param cn Number of channels
@param margin_left,margin_top,margin_right,margin_bottom Margins for source image
@param dx,dy orders of the derivative x and y respectively
@param scale Scale factor for the computed derivative values
@param delta Delta value that is added to the results prior to storing them in dst
@param border_type Border type
*/
inline int hal_ni_scharr(const uchar* src_data, size_t src_step, uchar* dst_data, size_t dst_step, int width, int height, int src_depth, int dst_depth, int cn, int margin_left, int margin_top, int margin_right, int margin_bottom, int dx, int dy, double scale, double delta, int border_type) { return CV_HAL_ERROR_NOT_IMPLEMENTED; }
//! @cond IGNORED
#define cv_hal_scharr hal_ni_scharr
//! @endcond
/**
@brief Perform Gaussian Blur and downsampling for input tile.
@param depth Depths of source and destination image
@param src_data,src_step Source image
@param dst_data,dst_step Destination image
@param src_width,src_height Source image dimensions
@param dst_width,dst_height Destination image dimensions
@param cn Number of channels
@param border_type Border type
*/
inline int hal_ni_pyrdown(const uchar* src_data, size_t src_step, int src_width, int src_height, uchar* dst_data, size_t dst_step, int dst_width, int dst_height, int depth, int cn, int border_type) { return CV_HAL_ERROR_NOT_IMPLEMENTED; }
//! @cond IGNORED
#define cv_hal_pyrdown hal_ni_pyrdown
//! @endcond
//! @} //! @}
#if defined __GNUC__ #if defined __GNUC__

2
modules/imgproc/src/pyramids.cpp
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@ -1353,6 +1353,8 @@ void cv::pyrDown( InputArray _src, OutputArray _dst, const Size& _dsz, int borde
Mat dst = _dst.getMat(); Mat dst = _dst.getMat();
int depth = src.depth(); int depth = src.depth();
CALL_HAL(pyrDown, cv_hal_pyrdown, src.data, src.step, src.cols, src.rows, dst.data, dst.step, dst.cols, dst.rows, depth, src.channels(), borderType);
#ifdef HAVE_TEGRA_OPTIMIZATION #ifdef HAVE_TEGRA_OPTIMIZATION
if(borderType == BORDER_DEFAULT && tegra::useTegra() && tegra::pyrDown(src, dst)) if(borderType == BORDER_DEFAULT && tegra::useTegra() && tegra::pyrDown(src, dst))
return; return;

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