mirror of
https://github.com/opencv/opencv.git
synced 2024-12-05 01:39:13 +08:00
384 lines
11 KiB
C++
384 lines
11 KiB
C++
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#include "opencv2/core/mat.hpp"
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#include "opencv2/core/types_c.h"
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#include "precomp.hpp"
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// glue
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CvMatND::CvMatND(const cv::Mat& m)
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{
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cvInitMatNDHeader(this, m.dims, m.size, m.type(), m.data );
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int i, d = m.dims;
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for( i = 0; i < d; i++ )
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dim[i].step = (int)m.step[i];
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type |= m.flags & cv::Mat::CONTINUOUS_FLAG;
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}
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_IplImage::_IplImage(const cv::Mat& m)
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{
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CV_Assert( m.dims <= 2 );
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cvInitImageHeader(this, m.size(), cvIplDepth(m.flags), m.channels());
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cvSetData(this, m.data, (int)m.step[0]);
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}
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namespace cv {
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static Mat cvMatToMat(const CvMat* m, bool copyData)
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{
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Mat thiz;
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if( !m )
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return thiz;
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if( !copyData )
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{
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thiz.flags = Mat::MAGIC_VAL + (m->type & (CV_MAT_TYPE_MASK|CV_MAT_CONT_FLAG));
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thiz.dims = 2;
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thiz.rows = m->rows;
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thiz.cols = m->cols;
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thiz.datastart = thiz.data = m->data.ptr;
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size_t esz = CV_ELEM_SIZE(m->type), minstep = thiz.cols*esz, _step = m->step;
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if( _step == 0 )
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_step = minstep;
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thiz.datalimit = thiz.datastart + _step*thiz.rows;
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thiz.dataend = thiz.datalimit - _step + minstep;
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thiz.step[0] = _step; thiz.step[1] = esz;
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}
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else
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{
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thiz.datastart = thiz.dataend = thiz.data = 0;
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Mat(m->rows, m->cols, m->type, m->data.ptr, m->step).copyTo(thiz);
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}
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return thiz;
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}
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static Mat cvMatNDToMat(const CvMatND* m, bool copyData)
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{
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Mat thiz;
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if( !m )
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return thiz;
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thiz.datastart = thiz.data = m->data.ptr;
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thiz.flags |= CV_MAT_TYPE(m->type);
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int _sizes[CV_MAX_DIM];
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size_t _steps[CV_MAX_DIM];
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int d = m->dims;
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for( int i = 0; i < d; i++ )
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{
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_sizes[i] = m->dim[i].size;
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_steps[i] = m->dim[i].step;
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}
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setSize(thiz, d, _sizes, _steps);
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finalizeHdr(thiz);
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if( copyData )
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{
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Mat temp(thiz);
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thiz.release();
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temp.copyTo(thiz);
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}
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return thiz;
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}
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static Mat iplImageToMat(const IplImage* img, bool copyData)
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{
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Mat m;
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if( !img )
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return m;
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m.dims = 2;
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CV_DbgAssert(CV_IS_IMAGE(img) && img->imageData != 0);
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int imgdepth = IPL2CV_DEPTH(img->depth);
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size_t esz;
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m.step[0] = img->widthStep;
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if(!img->roi)
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{
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CV_Assert(img->dataOrder == IPL_DATA_ORDER_PIXEL);
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m.flags = Mat::MAGIC_VAL + CV_MAKETYPE(imgdepth, img->nChannels);
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m.rows = img->height;
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m.cols = img->width;
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m.datastart = m.data = (uchar*)img->imageData;
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esz = CV_ELEM_SIZE(m.flags);
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}
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else
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{
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CV_Assert(img->dataOrder == IPL_DATA_ORDER_PIXEL || img->roi->coi != 0);
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bool selectedPlane = img->roi->coi && img->dataOrder == IPL_DATA_ORDER_PLANE;
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m.flags = Mat::MAGIC_VAL + CV_MAKETYPE(imgdepth, selectedPlane ? 1 : img->nChannels);
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m.rows = img->roi->height;
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m.cols = img->roi->width;
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esz = CV_ELEM_SIZE(m.flags);
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m.datastart = m.data = (uchar*)img->imageData +
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(selectedPlane ? (img->roi->coi - 1)*m.step*img->height : 0) +
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img->roi->yOffset*m.step[0] + img->roi->xOffset*esz;
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}
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m.datalimit = m.datastart + m.step.p[0]*m.rows;
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m.dataend = m.datastart + m.step.p[0]*(m.rows-1) + esz*m.cols;
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m.flags |= (m.cols*esz == m.step.p[0] || m.rows == 1 ? Mat::CONTINUOUS_FLAG : 0);
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m.step[1] = esz;
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if( copyData )
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{
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Mat m2 = m;
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m.release();
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if( !img->roi || !img->roi->coi ||
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img->dataOrder == IPL_DATA_ORDER_PLANE)
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m2.copyTo(m);
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else
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{
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int ch[] = {img->roi->coi - 1, 0};
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m.create(m2.rows, m2.cols, m2.type());
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mixChannels(&m2, 1, &m, 1, ch, 1);
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}
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}
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return m;
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}
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Mat cvarrToMat(const CvArr* arr, bool copyData,
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bool /*allowND*/, int coiMode, AutoBuffer<double>* abuf )
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{
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if( !arr )
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return Mat();
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if( CV_IS_MAT_HDR_Z(arr) )
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return cvMatToMat((const CvMat*)arr, copyData);
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if( CV_IS_MATND(arr) )
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return cvMatNDToMat((const CvMatND*)arr, copyData );
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if( CV_IS_IMAGE(arr) )
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{
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const IplImage* iplimg = (const IplImage*)arr;
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if( coiMode == 0 && iplimg->roi && iplimg->roi->coi > 0 )
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CV_Error(CV_BadCOI, "COI is not supported by the function");
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return iplImageToMat(iplimg, copyData);
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}
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if( CV_IS_SEQ(arr) )
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{
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CvSeq* seq = (CvSeq*)arr;
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int total = seq->total, type = CV_MAT_TYPE(seq->flags), esz = seq->elem_size;
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if( total == 0 )
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return Mat();
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CV_Assert(total > 0 && CV_ELEM_SIZE(seq->flags) == esz);
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if(!copyData && seq->first->next == seq->first)
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return Mat(total, 1, type, seq->first->data);
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if( abuf )
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{
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abuf->allocate(((size_t)total*esz + sizeof(double)-1)/sizeof(double));
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double* bufdata = *abuf;
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cvCvtSeqToArray(seq, bufdata, CV_WHOLE_SEQ);
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return Mat(total, 1, type, bufdata);
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}
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Mat buf(total, 1, type);
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cvCvtSeqToArray(seq, buf.ptr(), CV_WHOLE_SEQ);
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return buf;
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}
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CV_Error(CV_StsBadArg, "Unknown array type");
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}
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void extractImageCOI(const CvArr* arr, OutputArray _ch, int coi)
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{
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Mat mat = cvarrToMat(arr, false, true, 1);
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_ch.create(mat.dims, mat.size, mat.depth());
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Mat ch = _ch.getMat();
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if(coi < 0)
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{
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CV_Assert( CV_IS_IMAGE(arr) );
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coi = cvGetImageCOI((const IplImage*)arr)-1;
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}
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CV_Assert(0 <= coi && coi < mat.channels());
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int _pairs[] = { coi, 0 };
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mixChannels( &mat, 1, &ch, 1, _pairs, 1 );
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}
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void insertImageCOI(InputArray _ch, CvArr* arr, int coi)
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{
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Mat ch = _ch.getMat(), mat = cvarrToMat(arr, false, true, 1);
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if(coi < 0)
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{
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CV_Assert( CV_IS_IMAGE(arr) );
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coi = cvGetImageCOI((const IplImage*)arr)-1;
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}
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CV_Assert(ch.size == mat.size && ch.depth() == mat.depth() && 0 <= coi && coi < mat.channels());
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int _pairs[] = { 0, coi };
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mixChannels( &ch, 1, &mat, 1, _pairs, 1 );
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}
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} // cv::
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// operations
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CV_IMPL void cvSetIdentity( CvArr* arr, CvScalar value )
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{
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cv::Mat m = cv::cvarrToMat(arr);
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cv::setIdentity(m, value);
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}
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CV_IMPL CvScalar cvTrace( const CvArr* arr )
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{
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return cv::trace(cv::cvarrToMat(arr));
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}
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CV_IMPL void cvTranspose( const CvArr* srcarr, CvArr* dstarr )
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{
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cv::Mat src = cv::cvarrToMat(srcarr), dst = cv::cvarrToMat(dstarr);
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CV_Assert( src.rows == dst.cols && src.cols == dst.rows && src.type() == dst.type() );
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transpose( src, dst );
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}
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CV_IMPL void cvCompleteSymm( CvMat* matrix, int LtoR )
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{
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cv::Mat m = cv::cvarrToMat(matrix);
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cv::completeSymm( m, LtoR != 0 );
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}
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CV_IMPL void cvCrossProduct( const CvArr* srcAarr, const CvArr* srcBarr, CvArr* dstarr )
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{
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cv::Mat srcA = cv::cvarrToMat(srcAarr), dst = cv::cvarrToMat(dstarr);
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CV_Assert( srcA.size() == dst.size() && srcA.type() == dst.type() );
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srcA.cross(cv::cvarrToMat(srcBarr)).copyTo(dst);
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}
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CV_IMPL void
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cvReduce( const CvArr* srcarr, CvArr* dstarr, int dim, int op )
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{
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cv::Mat src = cv::cvarrToMat(srcarr), dst = cv::cvarrToMat(dstarr);
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if( dim < 0 )
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dim = src.rows > dst.rows ? 0 : src.cols > dst.cols ? 1 : dst.cols == 1;
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if( dim > 1 )
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CV_Error( CV_StsOutOfRange, "The reduced dimensionality index is out of range" );
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if( (dim == 0 && (dst.cols != src.cols || dst.rows != 1)) ||
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(dim == 1 && (dst.rows != src.rows || dst.cols != 1)) )
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CV_Error( CV_StsBadSize, "The output array size is incorrect" );
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if( src.channels() != dst.channels() )
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CV_Error( CV_StsUnmatchedFormats, "Input and output arrays must have the same number of channels" );
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cv::reduce(src, dst, dim, op, dst.type());
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}
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CV_IMPL CvArr*
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cvRange( CvArr* arr, double start, double end )
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{
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CvMat stub, *mat = (CvMat*)arr;
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int step;
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double val = start;
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if( !CV_IS_MAT(mat) )
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mat = cvGetMat( mat, &stub);
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int rows = mat->rows;
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int cols = mat->cols;
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int type = CV_MAT_TYPE(mat->type);
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double delta = (end-start)/(rows*cols);
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if( CV_IS_MAT_CONT(mat->type) )
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{
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cols *= rows;
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rows = 1;
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step = 1;
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}
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else
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step = mat->step / CV_ELEM_SIZE(type);
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if( type == CV_32SC1 )
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{
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int* idata = mat->data.i;
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int ival = cvRound(val), idelta = cvRound(delta);
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if( fabs(val - ival) < DBL_EPSILON &&
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fabs(delta - idelta) < DBL_EPSILON )
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{
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for( int i = 0; i < rows; i++, idata += step )
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for( int j = 0; j < cols; j++, ival += idelta )
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idata[j] = ival;
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}
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else
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{
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for( int i = 0; i < rows; i++, idata += step )
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for( int j = 0; j < cols; j++, val += delta )
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idata[j] = cvRound(val);
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}
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}
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else if( type == CV_32FC1 )
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{
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float* fdata = mat->data.fl;
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for( int i = 0; i < rows; i++, fdata += step )
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for( int j = 0; j < cols; j++, val += delta )
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fdata[j] = (float)val;
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}
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else
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CV_Error( CV_StsUnsupportedFormat, "The function only supports 32sC1 and 32fC1 datatypes" );
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return arr;
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}
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CV_IMPL void
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cvSort( const CvArr* _src, CvArr* _dst, CvArr* _idx, int flags )
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{
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cv::Mat src = cv::cvarrToMat(_src);
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if( _idx )
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{
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cv::Mat idx0 = cv::cvarrToMat(_idx), idx = idx0;
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CV_Assert( src.size() == idx.size() && idx.type() == CV_32S && src.data != idx.data );
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cv::sortIdx( src, idx, flags );
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CV_Assert( idx0.data == idx.data );
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}
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if( _dst )
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{
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cv::Mat dst0 = cv::cvarrToMat(_dst), dst = dst0;
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CV_Assert( src.size() == dst.size() && src.type() == dst.type() );
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cv::sort( src, dst, flags );
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CV_Assert( dst0.data == dst.data );
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}
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}
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CV_IMPL int
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cvKMeans2( const CvArr* _samples, int cluster_count, CvArr* _labels,
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CvTermCriteria termcrit, int attempts, CvRNG*,
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int flags, CvArr* _centers, double* _compactness )
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{
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cv::Mat data = cv::cvarrToMat(_samples), labels = cv::cvarrToMat(_labels), centers;
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if( _centers )
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{
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centers = cv::cvarrToMat(_centers);
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centers = centers.reshape(1);
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data = data.reshape(1);
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CV_Assert( !centers.empty() );
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CV_Assert( centers.rows == cluster_count );
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CV_Assert( centers.cols == data.cols );
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CV_Assert( centers.depth() == data.depth() );
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}
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CV_Assert( labels.isContinuous() && labels.type() == CV_32S &&
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(labels.cols == 1 || labels.rows == 1) &&
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labels.cols + labels.rows - 1 == data.rows );
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double compactness = cv::kmeans(data, cluster_count, labels, termcrit, attempts,
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flags, _centers ? cv::_OutputArray(centers) : cv::_OutputArray() );
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if( _compactness )
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*_compactness = compactness;
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return 1;
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}
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