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351 lines
13 KiB
C++
351 lines
13 KiB
C++
/*
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#
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# File : cvMat.h
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# ( C++ header file - CImg plug-in )
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#
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# Description : CImg plug-in providing the CImg->cvMat and cvMat->CImg
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# conversions for generic image types
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# ( IPL = Intel Performance Library )
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# This file is a part of the CImg Library project.
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# ( http://cimg.eu )
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#
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# Copyright : Alberto Albiol
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# alalbiol@iteam.upv.es
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#
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# How to use : In the main program include:
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# OPENCV 2.4.x
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# #include "cv.h"
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# #include "highgui.h"
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# #define cimg_plugin1 "cvMat.h"
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# #include "CImg.h"
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#
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# OPENCV 3.x.x
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# #include <opencv2/core.hpp>
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# #define cimg_plugin1 "cvMat.h"
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# #include "CImg.h"
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*/
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#ifndef cimg_plugin_cvMat
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#define cimg_plugin_cvMat
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// Conversion IPL -> CImg (constructor)
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CImg(const cv::Mat& src):_width(0),_height(0),_depth(0),_spectrum(0),_is_shared(false),_data(0) {
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assign(src);
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}
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// Conversion IPL -> CImg (in-place constructor)
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CImg<T>& assign(const cv::Mat & src) {
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if (src.isContinuous()) {
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switch (src.depth()) {
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// case CV_1U: { // 1-bit int
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// IplImage *src1 = cvCreateImage(cvGetSize(src),CV_8U,1);
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// cvConvert(src,src1);
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// CImg<ucharT>((unsigned char*)src1->imageData,src1->nChannels,src1.cols,src1.rows,1,true).
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// get_permute_axes("yzcx").move_to(*this);
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// cvReleaseImage(&src1);
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// } break;
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case CV_8U: // 8-bit unsigned int
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if (src.channels()==1) {
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CImg<ucharT>((unsigned char*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<ucharT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(uchar));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(uchar));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(uchar));
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tmp.move_to(*this);
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}
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break;
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case CV_8S: // 8-bit signed int
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if (src.channels()==1) {
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CImg<charT>((char*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<ucharT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(char));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(char));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(char));
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tmp.move_to(*this);
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}
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break;
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case CV_16U: // 16-bit unsigned int
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if (src.channels()==1) {
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CImg<ushortT>((unsigned short*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<ushortT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(unsigned short));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(unsigned short));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(unsigned short));
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tmp.move_to(*this);
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}
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break;
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case CV_16S: // 16-bit signed int
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if (src.channels()==1) {
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CImg<shortT>((short*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<shortT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(short));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(short));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(short));
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tmp.move_to(*this);
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}
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break;
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case CV_32S: // 32-bit signed int
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if (src.channels()==1) {
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CImg<intT>((int*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<intT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(int));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(int));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(int));
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tmp.move_to(*this);
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}
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break;
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case CV_32F: // 32-bit float
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if (src.channels()==1) {
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CImg<floatT>((float*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<floatT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(float));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(float));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(float));
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tmp.move_to(*this);
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}
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break;
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case CV_64F: // 64-bit double
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if (src.channels()==1) {
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CImg<doubleT>((double*)src.ptr(),src.cols,src.rows,true).move_to(*this);
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} else {
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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CImg<doubleT>
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tmp(src.cols,src.rows,1,3),
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R = tmp.get_shared_channel(2),
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G = tmp.get_shared_channel(1),
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B = tmp.get_shared_channel(0);
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std::memcpy(R.data(),channels[0].ptr(),src.cols*src.rows*sizeof(double));
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std::memcpy(G.data(),channels[1].ptr(),src.cols*src.rows*sizeof(double));
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std::memcpy(B.data(),channels[2].ptr(),src.cols*src.rows*sizeof(double));
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tmp.move_to(*this);
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}
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break;
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default:
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throw CImgInstanceException(_cimg_instance
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"assign(const cv::Mat&) : Mat depth is invalid.",
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cimg_instance);
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break;
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}
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} else {
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cv::Size size = src.size();
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switch (src.depth()) {
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case CV_8U: // 8-bit unsigned int
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if (src.channels()==1) {
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CImg<ucharT> tmp(src.cols,src.rows);
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for (int i = 0; i<size.height; ++i) {
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const unsigned char* row_i = src.ptr<unsigned char>(i);
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unsigned char *row_o = tmp.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(unsigned char));
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}
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tmp.move_to(*this);
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} else {
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CImg<ucharT> tmp(src.cols,src.rows,1,src.channels());
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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for (int c = 0; c<src.channels(); ++c) {
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CImg<ucharT> plane = tmp.get_shared_channel(src.channels() - 1 - c);
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for (int i = 0; i<size.height; ++i) {
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const unsigned char* row_i = channels[c].ptr<unsigned char>(i);
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unsigned char *row_o = plane.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(unsigned char));
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}
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}
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tmp.move_to(*this);
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}
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break;
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case CV_8S: // 8-bit int
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if (src.channels()==1) {
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CImg<charT> tmp(src.cols,src.rows);
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for (int i = 0; i<size.height; ++i) {
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const char* row_i = src.ptr<char>(i);
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char* row_o = tmp.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(charT));
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}
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tmp.move_to(*this);
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} else {
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CImg<charT> tmp(src.cols,src.rows,1,src.channels());
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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for (int c = 0; c<src.channels(); ++c) {
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CImg<charT> plane = tmp.get_shared_channel(src.channels() - 1 - c);
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for (int i = 0; i<size.height; ++i) {
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const char* row_i = channels[c].ptr<char>(i);
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char *row_o = plane.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(char));
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}
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}
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tmp.move_to(*this);
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}
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break;
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case CV_16S: // 16-bit int
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if (src.channels()==1) {
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CImg<shortT> tmp(src.cols,src.rows);
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for (int i = 0; i<size.height; ++i) {
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const short* row_i = src.ptr<short>(i);
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short *row_o = tmp.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(short));
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}
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tmp.move_to(*this);
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} else {
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CImg<shortT> tmp(src.cols,src.rows,1,src.channels());
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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for (int c = 0; c<src.channels(); ++c) {
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CImg<shortT> plane = tmp.get_shared_channel(src.channels() - 1 - c);
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for (int i = 0; i<size.height; ++i) {
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const short* row_i = channels[c].ptr<short>(i);
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short *row_o = plane.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(short));
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}
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}
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tmp.move_to(*this);
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}
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break;
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case CV_32F: // 32-bit float
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if (src.channels()==1) {
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CImg<floatT> tmp(src.cols,src.rows);
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for (int i = 0; i<size.height; ++i) {
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const float* row_i = src.ptr<float>(i);
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float *row_o = tmp.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(float));
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}
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tmp.move_to(*this);
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} else {
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CImg<floatT> tmp(src.cols,src.rows,1,src.channels());
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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for (int c = 0; c<src.channels(); ++c) {
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CImg<floatT> plane = tmp.get_shared_channel(src.channels() - 1 - c);
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for (int i = 0; i<size.height; ++i) {
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const float* row_i = channels[c].ptr<float>(i);
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float *row_o = plane.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(float));
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}
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}
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tmp.move_to(*this);
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}
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break;
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case CV_64F: // 64-bit double
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if (src.channels()==1) {
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CImg<doubleT> tmp(src.cols,src.rows);
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for (int i = 0; i<size.height; ++i) {
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const double* row_i = src.ptr<double>(i);
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double *row_o = tmp.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(double));
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}
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tmp.move_to(*this);
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} else {
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CImg<doubleT> tmp(src.cols,src.rows,1,src.channels());
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std::vector<cv::Mat> channels;
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cv::split(src,channels);
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for (int c = 0; c<src.channels(); ++c) {
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CImg<doubleT> plane = tmp.get_shared_channel(src.channels() - 1 - c);
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for (int i = 0; i<size.height; ++i) {
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const double* row_i = channels[c].ptr<double>(i);
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double *row_o = plane.data(0,i);
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std::memcpy(row_o,row_i,size.width*sizeof(double));
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}
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}
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tmp.move_to(*this);
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}
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break;
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default:
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throw CImgInstanceException(_cimg_instance
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"assign(const cv::Mat&) : Mat depth is invalid.",
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cimg_instance);
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break;
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}
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}
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// if (!std::strcmp(src->channelSeq,"BGR")) mirror('v');
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// else if (!std::strcmp(src->channelSeq,"BGRA")) get_shared_channels(0,2).mirror('v');
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return *this;
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}
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// Conversion CImg -> MAT
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cv::Mat get_MAT(const unsigned int z=0) const {
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if (is_empty())
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throw CImgInstanceException(_cimg_instance
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"get_MAT() : instance image is empty.",
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cimg_instance);
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if (z>=_depth)
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throw CImgInstanceException(_cimg_instance
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"get_MAT() : specified slice %u is out of image bounds.",
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cimg_instance,z);
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const CImg<T>
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_slice = _depth>1?get_slice(z):CImg<T>(),
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&slice = _depth>1?_slice:*this;
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CImg<T> buf(slice,true);
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int
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cols = buf.width(),
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rows = buf.height(),
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nchannels = buf.spectrum(),
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matType=-1;
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if (!cimg::strcasecmp(buf.pixel_type(),"unsigned char")) matType = CV_8UC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"char")) matType = CV_8SC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"unsigned short")) matType = CV_16UC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"short")) matType = CV_16SC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"int")) matType = CV_32SC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"float")) matType = CV_32FC1;
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if (!cimg::strcasecmp(buf.pixel_type(),"double")) matType = CV_64FC1;
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if (matType<0)
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throw CImgInstanceException(_cimg_instance
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"get_MAT() : pixel type '%s' is not supported.",
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cimg_instance,buf.pixel_type());
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cv::Mat out;
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std::vector<cv::Mat> channels(nchannels);
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if (nchannels>1) {
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for (int c = 0; c<nchannels; ++c) {
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channels[c] = cv::Mat(rows,cols,matType,const_cast<T*>(buf.data() + rows*cols*(nchannels - 1 - c)));
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} // for channels
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cv::merge(channels,out);
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} else out = cv::Mat(rows,cols,matType,const_cast<T*>(buf.data())).clone();
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return out;
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}
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#endif /* cimg_plugin_cvMat */
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