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310 lines
14 KiB
C++
310 lines
14 KiB
C++
/*
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#
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# File : ipl.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->IPL and IPL->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 : Hon-Kwok Fung (oldfung@graduate.hku.hk)
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#
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# License : CeCILL v2.0
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# ( http://www.cecill.info/licences/Licence_CeCILL_V2-en.html )
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#
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# This software is governed by the CeCILL license under French law and
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# abiding by the rules of distribution of free software. You can use,
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# modify and/ or redistribute the software under the terms of the CeCILL
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# license as circulated by CEA, CNRS and INRIA at the following URL
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# "http://www.cecill.info".
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#
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# As a counterpart to the access to the source code and rights to copy,
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# modify and redistribute granted by the license, users are provided only
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# with a limited warranty and the software's author, the holder of the
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# economic rights, and the successive licensors have only limited
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# liability.
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#
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# In this respect, the user's attention is drawn to the risks associated
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# with loading, using, modifying and/or developing or reproducing the
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# software by the user in light of its specific status of free software,
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# that may mean that it is complicated to manipulate, and that also
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# therefore means that it is reserved for developers and experienced
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# professionals having in-depth computer knowledge. Users are therefore
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# encouraged to load and test the software's suitability as regards their
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# requirements in conditions enabling the security of their systems and/or
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# data to be ensured and, more generally, to use and operate it in the
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# same conditions as regards security.
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#
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# The fact that you are presently reading this means that you have had
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# knowledge of the CeCILL license and that you accept its terms.
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#
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#
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#
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# Usage :
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#
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# In your application code, #define the path of this plugin file as
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# something like
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#
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# #define cimg_plugin1 "../some_directory/ipl.h"
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#
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# You should define such macro before the line #include <CImg.h>. The source
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# code of CImg provides eight slots cimg_plugin1, cimg_plugin2, ...,
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# cimg_plugin8 for insertion of plugins. You may assign a different slot to
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# this plugin if cimg_plugin1 is already occupied.
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#
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# You need also to include prior to CImg.h the following files :
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#
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# #include <cstdlib>
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# #include <typeinfo>
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#
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# To create an IplImage from a CImg instance, you may write:
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#
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# // Given a CImg instance, say, c_img, ...
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# IplImage *img = c_img.get_IplImage(); // (a) copy construction of IplImage
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#
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# CImg supports any number of color channels, while IplImage supports up to 4
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# channels. When the number of channels is 1 or 2, it is hard to tell if these
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# channels have genuine color semantics. Even if the number of channels is 3,
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# CImg and IplImage can have different channel orders (IplImage: usually BGR;
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# CImg: always RGB). The default behaviour of get_IplImage() is to assume that
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# the IplImage instance has a BGR channel order (which is the default order in
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# OpenCV) and swap the channel order in the destination image buffer. That is,
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# the default is to map OpenCV's blue (1st) and red (3rd) channels to CImg's
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# blue (2nd) and red (0th) channel respectively. If the user wants to specify
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# this default option explicitly, he/she can write:
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#
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# IplImage *img = c_img.get_IplImage(CV_CVTIMG_SWAP_RB); // identical to (a)
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#
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# where CV_CVTIMG_SWAP_RB is a flag value defined by OpenCV. If the user wants
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# to keep the channel order unchanged (i.e. maps IplImage's 1st, 2nd, ...
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# channels to CImg's 0th, 1st, ... channels resp.), he/she can use a zero flag
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# value:
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#
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# IplImage *img = c_img.get_IplImage(0);
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#
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# However, when the number of channels is smaller than 3, this option will be
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# ignored and the default behaviour (flag value CV_CVTIMG_SWAP_RB) will be
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# assumed.
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#
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# CImg also differs from IplImage in that the latter represents a 2D image but
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# the former can be a 3D image. If the size of the z-dimension (depth) of the
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# CImg instance is larger than 1, one must choose which slice to copy:
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#
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# IplImage *img1 = c_img.get_IplImage(0, z);
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# IplImage *img2 = c_img.get_IplImage(CV_CVTIMG_SWAP_RB, z);
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#
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# The default z-value is 0.
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#
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# To do conversion in another direction, write something like this:
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#
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# // Suppose img1 and img2 are two pointers to IplImage, where
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# // img1->depth == IPL_DEPTH_8U and img2->depth == IPL_DEPTH_32F.
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# CImg<unsigned char> c_img1(img1); // (b)
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# CImg<unsigned char> c_img1(img1,CV_CVTIMG_SWAP_RB); // identical to (b)
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# CImg<float> c_img2(img2); // (c)
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# CImg<float> c_img2(img2,CV_CVTIMG_SWAP_RB); // identical to (c)
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#
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# Again, if one wants to keep the channel order unchanged when the number of
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# channels is >= 3, one can write:
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#
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# CImg<unsigned char> c_img1(img1,0);
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# CImg<float> c_img2(img2,0);
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#
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# All such conversions are deep copy constructions, because CImg and IplImage
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# have different internal memory layouts.
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#
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# Technically, we can write code to do conversion between an IplImage instance
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# and a CImg instance with different pixel types (e.g. between an IPL_DEPTH_8S
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# IplImage instance and a CImg<unsigned char> instance), but such conversion is
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# problematic because either the semantics of the pixel type is lost or some
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# casting is needed. Therefore, the conversion code in this plugin only allows
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# conversions of images of identical pixel types. For instance, in line (b) of
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# the example code above, if one writes
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#
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# CImg<char> c_img1(img1); // error; img1's pixel type is IPL_DEPTH_8U
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#
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# the conversion will generate a runtime error, despite sizeof(char) is equal
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# to sizeof(unsigned char). The is certainly inconvenient to some users as
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# the pixel type of CImg has to be defined at compile time but the pixel type
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# of IplImage is determined at runtime.
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#
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# Some architecture-dependent code is contained in the two helper functions
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#
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# bool not_pixel_type_of(const IplImage*)
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#
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# and
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#
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# int get_ipl_bit_depth() const
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#
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# which establish correspondences between IplImage's pixel type and C++ data
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# type. For example, they assume that IPL_DEPTH_16S corresponds to a signed
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# short and IPL_DEPTH_64F corresponds to a signed double, etc.. Change the
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# code if necessary.
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#
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# Currently, this plugin provides only conversions of OpenCV IplImage instances
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# to and from CImg instances. Conversions of general IplImage instances (e.g.
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# those with bit-depth IPL_DEPTH_1U or those with origin==1) are not supported.
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# Yet the conversion code has taken care of the data alignment to 4-byte or
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# 8-byte boundary as well as the use of both interleaved and non-interleaved
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# color channels in IplImage.
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*/
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#ifndef cimg_plugin_ipl
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#define cimg_plugin_ipl
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//----------------------------
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// Architecture-dependent helper functions; change to suit your needs
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//----------------------------
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// Check if this CImg<T> instance and a given IplImage have identical pixel types.
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bool not_pixel_type_of(const IplImage *const img) const {
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// to do : handle IPL_DEPTH_1U?
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return (((unsigned int)img->depth == IPL_DEPTH_8U && typeid(T) != typeid(unsigned char)) ||
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((unsigned int)img->depth == IPL_DEPTH_8S && typeid(T) != typeid(char)) ||
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((unsigned int)img->depth == IPL_DEPTH_16U && typeid(T) != typeid(unsigned short)) ||
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((unsigned int)img->depth == IPL_DEPTH_16S && typeid(T) != typeid(unsigned)) ||
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((unsigned int)img->depth == IPL_DEPTH_32S && typeid(T) != typeid(int)) ||
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((unsigned int)img->depth == IPL_DEPTH_32F && typeid(T) != typeid(float)) ||
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((unsigned int)img->depth == IPL_DEPTH_64F && typeid(T) != typeid(double)));
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}
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// Given this CImg<T> instance, return the corresponding bit-depth flag for use in IplImage header.
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int get_ipl_bit_depth() const {
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// to do : handle IPL_DEPTH_1U?
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if (typeid(T) == typeid(unsigned char)) return IPL_DEPTH_8U;
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if (typeid(T) == typeid(char)) return IPL_DEPTH_8S;
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if (typeid(T) == typeid(unsigned short)) return IPL_DEPTH_16U;
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if (typeid(T) == typeid(short)) return IPL_DEPTH_16S;
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if (typeid(T) == typeid(int)) return IPL_DEPTH_32S;
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if (typeid(T) == typeid(float)) return IPL_DEPTH_32F;
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if (typeid(T) == typeid(double)) return IPL_DEPTH_64F;
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return 0;
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}
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//----------------------------
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// IplImage-to-CImg conversion
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//----------------------------
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// Copy constructor; the optional flag will be ignored when the number of color channels is less than 3.
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// Current flag options are 0 and CV_CVTIMG_SWAP_RB;
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// may add CV_CVTIMG_FLIP and CV_CVTIMG_FLIP|CV_CVTIMG_SWAP_RB in the future.
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CImg(const IplImage *const img, const int flag=0):
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_width(0),_height(0),_depth(0),_spectrum(0),_is_shared(false),_data(0) {
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assign(img,flag);
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}
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// In-place constructor; the optional flag will be ignored when the number of color channels is less than 3.
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// Current flag options are 0 and CV_CVTIMG_SWAP_RB;
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// may add CV_CVTIMG_FLIP and CV_CVTIMG_FLIP|CV_CVTIMG_SWAP_RB in the future.
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CImg<T> & assign(const IplImage *const img, const int flag=CV_CVTIMG_SWAP_RB) {
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if (!img) return assign();
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if (not_pixel_type_of(img))
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throw CImgInstanceException(_cimg_instance
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"assign(const IplImage*) : IplImage has no corresponding pixel type.",
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cimg_instance);
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// to do: handle roi
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const int W = img->width, H = img->height;
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const char *const dataPtrI = img->imageData;
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assign(W,H,1,img->nChannels);
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char *const dataPtrC = (char *)_data;
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const int
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byte_depth = (img->depth & 255) >> 3, // number of bytes per color
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widthStepI = img->widthStep, // to do: handle the case img->origin==1 (currently: img->origin==0)
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widthStepC = W*byte_depth,
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channelStepC = H*widthStepC;
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if (img->dataOrder==0) { // interleaved color channels
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const int pix_size = byte_depth*img->nChannels;
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for (int n = 0; n<img->nChannels; ++n) {
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const char *linePtrI = dataPtrI + n*byte_depth;
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char *linePtrC = dataPtrC + (img->nChannels>=3 && (flag & CV_CVTIMG_SWAP_RB) && n<3?(2 - n):n)*channelStepC;
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// color order is BGR in IplImage and RGB in CImg
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for (int i = 0; i<H; ++i, linePtrI+=widthStepI, linePtrC+=widthStepC) {
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const char *intensityPtrI = linePtrI;
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char *intensityPtrC = linePtrC;
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for (int j = 0; j<W; ++j, intensityPtrI+=pix_size, intensityPtrC+=byte_depth)
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std::memcpy(intensityPtrC, intensityPtrI, byte_depth);
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}
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}
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} else { // non-interleaved color channels
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for (int n = 0; n<img->nChannels; ++n) {
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const char *linePtrI = dataPtrI + n*byte_depth;
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char *linePtrC = dataPtrC + (img->nChannels >= 3 && (flag & CV_CVTIMG_SWAP_RB) && n<3?(2 - n):n)*channelStepC;
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for (int i = 0; i<H; ++i, linePtrI+=widthStepI, linePtrC+=widthStepC)
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std::memcpy(linePtrC, linePtrI, widthStepC);
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}
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}
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return *this;
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}
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//----------------------------
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// CImg-to-IplImage conversion
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//----------------------------
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// The 'get' function; the optional flag will be ignored when the number of color channels is less than 3.
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// Current flag options are 0 and CV_CVTIMG_SWAP_RB;
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// may add CV_CVTIMG_FLIP and CV_CVTIMG_FLIP|CV_CVTIMG_SWAP_RB in future.
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// z is the z-coordinate of the CImg slice that one wants to copy.
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IplImage* get_IplImage(const int flag=CV_CVTIMG_SWAP_RB, const unsigned z=0) const {
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const int bit_depth = get_ipl_bit_depth();
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if (!bit_depth)
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throw CImgInstanceException(_cimg_instance
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"get_IplImage() : IplImage has no corresponding pixel type.",
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cimg_instance);
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if (is_empty())
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throw CImgArgumentException(_cimg_instance
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"get_IplImage() : Empty instance.",
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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_IplImage() : Instance has not Z-dimension %u.",
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cimg_instance,
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z);
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if (_spectrum>4)
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cimg::warn(_cimg_instance
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"get_IplImage() : OpenCV supports only 4 channels, so only the first four will be copied.",
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cimg_instance);
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IplImage *const img = cvCreateImage(cvSize(_width,_height),bit_depth,_spectrum);
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const int
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W = _width,
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H = _height,
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byte_depth = (img->depth & 255) >> 3, // number of bytes per color
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widthStepI = img->widthStep, // to do: handle the case img->origin==1 (currently: img->origin==0)
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widthStepC = W*byte_depth,
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channelStepC = H*_depth*widthStepC;
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const char *const dataPtrC = (char*)_data + z*H*widthStepC;
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char *const dataPtrI = img->imageData;
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if (!img->dataOrder) { // interleaved color channels
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const int pix_size = byte_depth*img->nChannels;
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for (int n = 0; n<img->nChannels; ++n) {
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const char
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*linePtrC = dataPtrC + (img->nChannels >= 3 && (flag & CV_CVTIMG_SWAP_RB) && n<3?(2 - n):n)*channelStepC;
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char *linePtrI = dataPtrI + n*byte_depth;
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// color order is BGR in IplImage and RGB in CImg
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for (int i = 0; i<H; ++i, linePtrI+=widthStepI, linePtrC+=widthStepC) {
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const char *intensityPtrC = linePtrC;
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char *intensityPtrI = linePtrI;
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for (int j = 0; j<W; ++j, intensityPtrI+=pix_size, intensityPtrC+=byte_depth)
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std::memcpy(intensityPtrI, intensityPtrC, byte_depth);
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}
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}
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} else { // non-interleaved color channels
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for (int n = 0; n<img->nChannels; ++n) {
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const char
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*linePtrC = dataPtrC + (img->nChannels>= 3 && (flag & CV_CVTIMG_SWAP_RB) && n<3?(2 - n):n)*channelStepC;
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char *linePtrI = dataPtrI + n*byte_depth;
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for (int i = 0; i<H; ++i, linePtrI+=widthStepI, linePtrC+=widthStepC)
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std::memcpy(linePtrI, linePtrC, widthStepC);
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}
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}
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return img;
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}
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#endif /* cimg_plugin_ipl */
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