The following table summarizes the video processing functions ported from HLS Video Library into Vitis vision Library along with the API modifications.
Functions | HLS Video Library -API | xfOpenCV Library-API |
---|---|---|
addS | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void AddS(Mat<ROWS, COLS, SRC_T>&src,Scalar<HLS_MAT_CN(SRC_T), _T> scl, Mat<ROWS, COLS, DST_T>& dst) |
template<int POLICY_TYPE, int SRC_T, int ROWS, int COLS, int NPC =1> void addS(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
AddWeighted | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T, typename P_T> void AddWeighted(Mat<ROWS, COLS, SRC1_T>& src1,P_T alpha,Mat<ROWS, COLS, SRC2_T>& src2,P_T beta, P_T gamma,Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T,int DST_T, int ROWS, int COLS, int NPC = 1> void addWeighted(xf::Mat<SRC_T, ROWS, COLS, NPC> & src1,float alpha, xf::Mat<SRC_T, ROWS, COLS, NPC> & src2,float beta, float gama, xf::Mat<DST_T, ROWS, COLS, NPC> & dst) |
Cmp | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void Cmp(Mat<ROWS, COLS, SRC1_T>& src1,Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst,int cmp_op) |
template<int CMP_OP, int SRC_T, int ROWS, int COLS, int NPC =1> void compare(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, xf::Mat<SRC_T, ROWS, COLS, NPC> & _src2,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
CmpS | template<int ROWS, int COLS, int SRC_T, typename P_T, int DST_T> void CmpS(Mat<ROWS, COLS, SRC_T>& src, P_T value, Mat<ROWS, COLS, DST_T>& dst, int cmp_op) |
template<int CMP_OP, int SRC_T, int ROWS, int COLS, int NPC =1> void compare(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
Max | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void Max(Mat<ROWS, COLS, SRC1_T>& src1, Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst) |
template<int SRC_T, int ROWS, int COLS, int NPC =1> void Max(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, xf::Mat<SRC_T, ROWS, COLS, NPC> & _src2,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
MaxS | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void MaxS(Mat<ROWS, COLS, SRC_T>& src, _T value, Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T, int ROWS, int COLS, int NPC =1> void max(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
Min | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void Min(Mat<ROWS, COLS, SRC1_T>& src1, Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T, int ROWS, int COLS, int NPC =1> void Min(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, xf::Mat<SRC_T, ROWS, COLS, NPC> & _src2,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
MinS | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void MinS(Mat<ROWS, COLS, SRC_T>& src, _T value,Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T, int ROWS, int COLS, int NPC =1> void min(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
PaintMask | template<int SRC_T,int MASK_T,int ROWS,int COLS> void PaintMask( Mat<ROWS,COLS,SRC_T> &_src, Mat<ROWS,COLS,MASK_T>&_mask, Mat<ROWS,COLS,SRC_T>&_dst,Scalar<HLS_MAT_CN(SRC_T),HLS_TNAME(SRC_T)> _color) |
template< int SRC_T,int MASK_T, int ROWS, int COLS,int NPC=1> void paintmask(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat, xf::Mat<MASK_T, ROWS, COLS, NPC> & in_mask, xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst_mat, unsigned char _color[XF_CHANNELS(SRC_T,NPC)]) |
Reduce | template<typename INTER_SUM_T, int ROWS, int COLS, int SRC_T, int DST_ROWS, int DST_COLS, int DST_T> void Reduce( Mat<ROWS, COLS, SRC_T> &src, Mat<DST_ROWS, DST_COLS, DST_T> &dst, int dim, int op=HLS_REDUCE_SUM) |
template< int REDUCE_OP, int SRC_T,int DST_T, int ROWS, int COLS,int ONE_D_HEIGHT, int ONE_D_WIDTH, int NPC=1> void reduce(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat, xf::Mat<DST_T, ONE_D_HEIGHT, ONE_D_WIDTH, 1> & _dst_mat, unsigned char dim) |
Zero | template<int ROWS, int COLS, int SRC_T, int DST_T> void Zero(Mat<ROWS, COLS, SRC_T>& src, Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T, int ROWS, int COLS, int NPC =1> void zero(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
Sum | template<typename DST_T, int ROWS, int COLS, int SRC_T> Scalar<HLS_MAT_CN(SRC_T), DST_T> Sum( Mat<ROWS, COLS, SRC_T>& src) |
template< int SRC_T, int ROWS, int COLS, int NPC = 1> void sum(xf::Mat<SRC_T, ROWS, COLS, NPC> & src1, double sum[XF_CHANNELS(SRC_T,NPC)] ) |
SubS | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void SubS(Mat<ROWS, COLS, SRC_T>& src, Scalar<HLS_MAT_CN(SRC_T), _T> scl, Mat<ROWS, COLS, DST_T>& dst) |
template<int POLICY_TYPE, int SRC_T, int ROWS, int COLS, int NPC =1> void SubS(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
SubRS | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void SubRS(Mat<ROWS, COLS, SRC_T>& src, Scalar<HLS_MAT_CN(SRC_T), _T> scl, Mat<ROWS, COLS, DST_T>& dst) |
template<int POLICY_TYPE, int SRC_T, int ROWS, int COLS, int NPC =1> void SubRS(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
Set | template<int ROWS, int COLS, int SRC_T, typename _T, int DST_T> void Set(Mat<ROWS, COLS, SRC_T>& src, Scalar<HLS_MAT_CN(SRC_T), _T> scl, Mat<ROWS, COLS, DST_T>& dst) |
template< int SRC_T, int ROWS, int COLS, int NPC =1> void set(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, unsigned char _scl[XF_CHANNELS(SRC_T,NPC)],xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
Absdiff | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void AbsDiff( Mat<ROWS, COLS, SRC1_T>& src1, Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst) |
template<int SRC_T, int ROWS, int COLS, int NPC =1> void absdiff(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1,xf::Mat<SRC_T, ROWS, COLS, NPC> & _src2,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
And | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void And( Mat<ROWS, COLS, SRC1_T>& src1, Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst) |
template<int SRC_T, int ROWS, int COLS, int NPC = 1> void bitwise_and(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1, xf::Mat<SRC_T, ROWS, COLS, NPC> & _src2, xf::Mat<SRC_T, ROWS, COLS, NPC> &_dst) |
Dilate | template<int Shape_type,int ITERATIONS,int SRC_T, int DST_T, typename KN_T,int IMG_HEIGHT,int IMG_WIDTH,int K_HEIGHT,int K_WIDTH> void Dilate(Mat<IMG_HEIGHT, IMG_WIDTH, SRC_T>&_src,Mat<IMG_HEIGHT, IMG_WIDTH, DST_T&_dst,Window<K_HEIGHT,K_WIDTH,KN_T>&_kernel) |
template<int BORDER_TYPE, int TYPE, int ROWS, int COLS,int K_SHAPE,int K_ROWS,int K_COLS, int ITERATIONS, int NPC=1> void dilate (xf::Mat<TYPE, ROWS, COLS, NPC> & _src, xf::Mat<TYPE, ROWS, COLS, NPC> & _dst,unsigned char _kernel[K_ROWS*K_COLS]) |
Duplicate | template<int ROWS, int COLS, int SRC_T, int DST_T> void Duplicate(Mat<ROWS, COLS, SRC_T>& src,Mat<ROWS, COLS, DST_T>& dst1,Mat<ROWS, COLS, DST_T>& dst2) |
template<int SRC_T, int ROWS, int COLS,int NPC> void duplicateMat(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src, xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst1,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst2) |
EqualizeHist | template<int SRC_T, int DST_T,int ROW, int COL> void EqualizeHist(Mat<ROW, COL, SRC_T>&_src,Mat<ROW, COL, DST_T>&_dst) |
template<int SRC_T, int ROWS, int COLS, int NPC = 1> void equalizeHist(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src,xf::Mat<SRC_T, ROWS, COLS, NPC> & _src1,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst) |
erode | template<int Shape_type,int ITERATIONS,int SRC_T, int DST_T, typename KN_T,int IMG_HEIGHT,int IMG_WIDTH,int K_HEIGHT,int K_WIDTH> void Erode(Mat<IMG_HEIGHT, IMG_WIDTH, SRC_T>&_src,Mat<IMG_HEIGHT,IMG_WIDTH,DST_T>&_dst,Window<K_HEIGHT,K_WIDTH,KN_T>&_kernel) |
template<int BORDER_TYPE, int TYPE, int ROWS, int COLS,int K_SHAPE,int K_ROWS,int K_COLS, int ITERATIONS, int NPC=1> void erode (xf::Mat<TYPE, ROWS, COLS, NPC> & _src, xf::Mat<TYPE, ROWS, COLS, NPC> & _dst,unsigned char _kernel[K_ROWS*K_COLS]) |
FASTX | template<int SRC_T,int ROWS,int COLS> void FASTX(Mat<ROWS,COLS,SRC_T> &_src, Mat<ROWS,COLS,HLS_8UC1>&_mask,HLS_TNAME(SRC_T)_threshold,bool _nomax_supression) |
template<int NMS,int SRC_T,int ROWS, int COLS,int NPC=1> void fast(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst_mat,unsigned char _threshold) |
Filter2D | template<int SRC_T, int DST_T, typename KN_T, typename POINT_T, int IMG_HEIGHT,int IMG_WIDTH,int K_HEIGHT,int K_WIDTH> void Filter2D(Mat<IMG_HEIGHT, IMG_WIDTH, SRC_T> &_src,Mat<IMG_HEIGHT, IMG_WIDTH, DST_T> &_dst,Window<K_HEIGHT,K_WIDTH,KN_T>&_kernel,Point_<POINT_T>anchor) |
template<int BORDER_TYPE,int FILTER_WIDTH,int FILTER_HEIGHT, int SRC_T,int DST_T, int ROWS, int COLS,int NPC> void filter2D(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat,xf::Mat<DST_T, ROWS, COLS, NPC> & _dst_mat,short int filter[FILTER_HEIGHT*FILTER_WIDTH],unsigned char _shift) |
GaussianBlur | template<int KH,int KW,typename BORDERMODE,int SRC_T,int DST_T,int ROWS,int COLS> void GaussianBlur(Mat<ROWS, COLS, SRC_T> &_src, Mat<ROWS, COLS, DST_T> &_dst,double sigmaX=0,double sigmaY=0) |
template<int FILTER_SIZE, int BORDER_TYPE, int SRC_T, int ROWS, int COLS,int NPC = 1> void GaussianBlur(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src, xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst, float sigma) |
Harris | template<int blockSize,int Ksize,typename KT,int SRC_T,int DST_T,int ROWS,int COLS> void Harris(Mat<ROWS, COLS, SRC_T> &_src,Mat<ROWS, COLS, DST_T>&_dst,KT k,int threshold |
template<int FILTERSIZE,int BLOCKWIDTH, int NMSRADIUS,int SRC_T,int ROWS, int COLS,int NPC=1,bool USE_URAM=false> void cornerHarris(xf::Mat<SRC_T, ROWS, COLS, NPC> & src,xf::Mat<SRC_T, ROWS, COLS, NPC> & dst,uint16_t threshold, uint16_t k) |
CornerHarris | template<int blockSize,int Ksize,typename KT,int SRC_T,int DST_T,int ROWS,int COLS> void CornerHarris( Mat<ROWS, COLS, SRC_T>&_src,Mat<ROWS, COLS, DST_T>&_dst,KT k) |
template<int FILTERSIZE,int BLOCKWIDTH, int NMSRADIUS,int SRC_T,int ROWS, int COLS,int NPC=1,bool USE_URAM=false> void cornerHarris(xf::Mat<SRC_T, ROWS, COLS, NPC> & src,xf::Mat<SRC_T, ROWS, COLS, NPC> & dst,uint16_t threshold, uint16_t k |
HoughLines2 | template<unsigned int theta,unsigned int rho,typename AT,typename RT,int SRC_T,int ROW,int COL,unsigned int linesMax> void HoughLines2(Mat<ROW,COL,SRC_T> &_src, Polar_<AT,RT> (&_lines)[linesMax],unsigned int threshold) |
template<unsigned int RHO,unsigned int THETA,int MAXLINES,int DIAG,int MINTHETA,int MAXTHETA,int SRC_T, int ROWS, int COLS,int NPC> void HoughLines(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat,float outputrho[MAXLINES],float outputtheta[MAXLINES],short threshold,short linesmax) |
Integral | template<int SRC_T, int DST_T, int ROWS,int COLS> void Integral(Mat<ROWS, COLS, SRC_T>&_src, Mat<ROWS+1, COLS+1, DST_T>&_sum ) |
template<int SRC_TYPE,int DST_TYPE, int ROWS, int COLS, int NPC> void integral(xf::Mat<SRC_TYPE, ROWS, COLS, NPC> & _src_mat, xf::Mat<DST_TYPE, ROWS, COLS, NPC> & _dst_mat) |
Merge | template<int ROWS, int COLS, int SRC_T, int DST_T> void Merge( Mat<ROWS, COLS, SRC_T>& src0, Mat<ROWS, COLS, SRC_T>& src1, Mat<ROWS, COLS, SRC_T>& src2, Mat<ROWS, COLS, SRC_T>& src3, Mat<ROWS, COLS, DST_T>& dst) |
template<int SRC_T, int DST_T, int ROWS, int COLS, int NPC=1> void merge(xf::Mat<SRC_T, ROWS, COLS, NPC> &_src1, xf::Mat<SRC_T, ROWS, COLS, NPC> &_src2, xf::Mat<SRC_T, ROWS, COLS, NPC> &_src3, xf::Mat<SRC_T, ROWS, COLS, NPC> &_src4, xf::Mat<DST_T, ROWS, COLS, NPC> &_dst) |
MinMaxLoc | template<int ROWS, int COLS, int SRC_T, typename P_T> void MinMaxLoc(Mat<ROWS, COLS, SRC_T>& src, P_T* min_val,P_T* max_val,Point& min_loc, Point& max_loc) |
template<int SRC_T,int ROWS,int COLS,int NPC=0> void minMaxLoc(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src,int32_t *min_value, int32_t *max_value,uint16_t *_minlocx, uint16_t *_minlocy, uint16_t *_maxlocx, uint16_t *_maxlocy ) |
Mul | template<int ROWS, int COLS, int SRC1_T, int SRC2_T, int DST_T> void Mul(Mat<ROWS, COLS, SRC1_T>& src1, Mat<ROWS, COLS, SRC2_T>& src2, Mat<ROWS, COLS, DST_T>& dst) |
template<int POLICY_TYPE, int SRC_T, int ROWS, int COLS, int NPC = 1> void multiply(xf::Mat<SRC_T, ROWS, COLS, NPC> & src1, xf::Mat<SRC_T, ROWS, COLS, NPC> & src2, xf::Mat<SRC_T, ROWS, COLS, NPC> & dst,float scale) |
Not | template<int ROWS, int COLS, int SRC_T, int DST_T> void Not(Mat<ROWS, COLS, SRC_T>& src, Mat<ROWS, COLS, DST_T>& dst) |
template<int SRC_T, int ROWS, int COLS, int NPC = 1> void bitwise_not(xf::Mat<SRC_T, ROWS, COLS, NPC> & src, xf::Mat<SRC_T, ROWS, COLS, NPC> & dst) |
Range | template<int ROWS, int COLS, int SRC_T, int DST_T, typename P_T> void Range(Mat<ROWS, COLS, SRC_T>& src, Mat<ROWS, COLS, DST_T>& dst, P_T start,P_T end) |
template<int SRC_T, int ROWS, int COLS,int NPC=1> void inRange(xf::Mat<SRC_T, ROWS, COLS, NPC> & src,unsigned char lower_thresh,unsigned char upper_thresh,xf::Mat<SRC_T, ROWS, COLS, NPC> & dst) |
Resize | template<int SRC_T, int ROWS,int COLS,int DROWS,int DCOLS> void Resize ( Mat<ROWS, COLS, SRC_T> &_src, Mat<DROWS, DCOLS, SRC_T> &_dst, int interpolation=HLS_INTER_LINEAR ) |
template<int INTERPOLATION_TYPE, int TYPE, int SRC_ROWS, int SRC_COLS, int DST_ROWS, int DST_COLS, int NPC, int MAX_DOWN_SCALE> void resize (xf::Mat<TYPE, SRC_ROWS, SRC_COLS, NPC> & _src, xf::Mat<TYPE, DST_ROWS, DST_COLS, NPC> & _dst) |
sobel | template<int XORDER, int YORDER, int SIZE, int SRC_T, int DST_T, int ROWS,int COLS,int DROWS,int DCOLS> void Sobel (Mat<ROWS, COLS, SRC_T> &_src,Mat<DROWS, DCOLS, DST_T> &_dst) |
template<int BORDER_TYPE,int FILTER_TYPE, int SRC_T,int DST_T, int ROWS, int COLS,int NPC=1,bool USE_URAM = false> void Sobel(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat,xf::Mat<DST_T, ROWS, COLS, NPC> & _dst_matx,xf::Mat<DST_T, ROWS, COLS, NPC> & _dst_maty) |
split | template<int ROWS, int COLS, int SRC_T, int DST_T> void Split( Mat<ROWS, COLS, SRC_T>& src, Mat<ROWS, COLS, DST_T>& dst0, Mat<ROWS, COLS, DST_T>& dst1, Mat<ROWS, COLS, DST_T>& dst2, Mat<ROWS, COLS, DST_T>& dst3) |
template<int SRC_T, int DST_T, int ROWS, int COLS, int NPC=1> void extractChannel(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat, xf::Mat<DST_T, ROWS, COLS, NPC> & _dst_mat, uint16_t _channel) |
Threshold | template<int ROWS, int COLS, int SRC_T, int DST_T> void Threshold( Mat<ROWS, COLS, SRC_T>& src, Mat<ROWS, COLS, DST_T>& dst, HLS_TNAME(SRC_T) thresh, HLS_TNAME(DST_T) maxval, int thresh_type) |
template<int THRESHOLD_TYPE, int SRC_T, int ROWS, int COLS,int NPC=1> void Threshold(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src_mat,xf::Mat<SRC_T, ROWS, COLS, NPC> & _dst_mat,short int thresh,short int maxval ) |
Scale | template<int ROWS, int COLS, int SRC_T, int DST_T, typename P_T> void Scale(Mat<ROWS, COLS, SRC_T>& src,Mat<ROWS, COLS, DST_T>& dst, P_T scale=1.0,P_T shift=0.0) |
template< int SRC_T,int DST_T, int ROWS, int COLS, int NPC = 1> void scale(xf::Mat<SRC_T, ROWS, COLS, NPC> & src1, xf::Mat<DST_T, ROWS, COLS, NPC> & dst,float scale, float shift) |
InitUndistortRectifyMapInverse | template<typename CMT, typename DT, typename ICMT, int ROWS, int COLS, int MAP1_T, int MAP2_T, int N> void InitUndistortRectifyMapInverse ( Window<3,3, CMT> cameraMatrix,DT(&distCoeffs)[N],Window<3,3, ICMT> ir, Mat<ROWS, COLS, MAP1_T> &map1,Mat<ROWS, COLS, MAP2_T> &map2,int noRotation=false) |
template< int CM_SIZE, int DC_SIZE, int MAP_T, int ROWS, int COLS, int NPC > void InitUndistortRectifyMapInverse ( ap_fixed<32,12> *cameraMatrix, ap_fixed<32,12> *distCoeffs, ap_fixed<32,12> *ir, xf::Mat<MAP_T, ROWS, COLS, NPC> &_mapx_mat,xf::Mat<MAP_T, ROWS, COLS, NPC> &_mapy_mat,int _cm_size, int _dc_size) |
Avg, mean, AvgStddev | template<typename DST_T, int ROWS, int COLS, int SRC_T> DST_T Mean(Mat<ROWS, COLS, SRC_T>& src) |
template<int SRC_T,int ROWS, int COLS,int NPC=1>void meanStdDev(xf::Mat<SRC_T, ROWS, COLS, NPC> & _src,unsigned short* _mean,unsigned short* _stddev) |
CvtColor | template<typename CONVERSION,int SRC_T, int DST_T,int ROWS,int COLS> void CvtColor(Mat<ROWS, COLS, SRC_T> &_src, Mat<ROWS, COLS, DST_T> &_dst) |
Color Conversion |
Note: All the functions except Reduce can process N-pixels per clock where N is power of 2.