// Copyright (C) 2009 Davis E. King (davis@dlib.net) // License: Boost Software License See LICENSE.txt for the full license. #ifndef DLIB_CvIMAGE_H_ #define DLIB_CvIMAGE_H_ #include #include #include "cv_image_abstract.h" #include "../algs.h" #include "../pixel.h" #include "../matrix/matrix_mat.h" #include "../image_processing/generic_image.h" namespace dlib { template < typename pixel_type > class cv_image { public: typedef pixel_type type; typedef default_memory_manager mem_manager_type; cv_image (const cv::Mat img) { DLIB_CASSERT(img.depth() == cv::DataType::basic_pixel_type>::depth && img.channels() == pixel_traits::num, "The pixel type you gave doesn't match pixel used by the open cv Mat object."); IplImage temp = img; init(&temp); } cv_image (const IplImage img) { init(&img); } cv_image (const IplImage* img) { init(img); } cv_image() : _data(0), _widthStep(0), _nr(0), _nc(0) {} unsigned long size () const { return static_cast(_nr*_nc); } inline pixel_type* operator[](const long row ) { // make sure requires clause is not broken DLIB_ASSERT(0 <= row && row < nr(), "\tpixel_type* cv_image::operator[](row)" << "\n\t you have asked for an out of bounds row " << "\n\t row: " << row << "\n\t nr(): " << nr() << "\n\t this: " << this ); return reinterpret_cast( _data + _widthStep*row); } inline const pixel_type* operator[](const long row ) const { // make sure requires clause is not broken DLIB_ASSERT(0 <= row && row < nr(), "\tconst pixel_type* cv_image::operator[](row)" << "\n\t you have asked for an out of bounds row " << "\n\t row: " << row << "\n\t nr(): " << nr() << "\n\t this: " << this ); return reinterpret_cast( _data + _widthStep*row); } long nr() const { return _nr; } long nc() const { return _nc; } long width_step() const { return _widthStep; } cv_image& operator=( const cv_image& item) { _data = item._data; _widthStep = item._widthStep; _nr = item._nr; _nc = item._nc; return *this; } cv_image& operator=( const IplImage* img) { init(img); return *this; } cv_image& operator=( const IplImage img) { init(&img); return *this; } cv_image& operator=( const cv::Mat img) { IplImage temp = img; init(&temp); return *this; } private: void init (const IplImage* img) { DLIB_CASSERT( img->dataOrder == 0, "Only interleaved color channels are supported with cv_image"); DLIB_CASSERT((img->depth&0xFF)/8*img->nChannels == sizeof(pixel_type), "The pixel type you gave doesn't match the size of pixel used by the open cv image struct"); _data = img->imageData; _widthStep = img->widthStep; _nr = img->height; _nc = img->width; } char* _data; long _widthStep; long _nr; long _nc; }; // ---------------------------------------------------------------------------------------- template < typename T > const matrix_op > > mat ( const cv_image& m ) { typedef op_array2d_to_mat > op; return matrix_op(op(m)); } // ---------------------------------------------------------------------------------------- // Define the global functions that make cv_image a proper "generic image" according to // ../image_processing/generic_image.h template struct image_traits > { typedef T pixel_type; }; template inline long num_rows( const cv_image& img) { return img.nr(); } template inline long num_columns( const cv_image& img) { return img.nc(); } template inline void* image_data( cv_image& img ) { if (img.size() != 0) return &img[0][0]; else return 0; } template inline const void* image_data( const cv_image& img ) { if (img.size() != 0) return &img[0][0]; else return 0; } template inline long width_step( const cv_image& img ) { return img.width_step(); } // ---------------------------------------------------------------------------------------- } #endif // DLIB_CvIMAGE_H_