/*************************************************************************
* matlab.h
* ---------
*
* matlab.h is a "plugin" for the CImg library that allows to convert
* CImg<T> images from/to MATLAB arrays, so that CImg can be used to write
* MATLAB mex files. It also swaps the "x" and "y" coordinates when going
* from / to MATLAB array, i.e. the usual image-processing annoying MATLAB
* behaviour of considering images as matrices.
*
* Added to the CImg<T> class are:
*
* - a constructor : CImg(const mxArray *matlabArray, bool vdata = false)
* the vdata serves to decide whether a 3D matlab array should give
* rise to a 3D CImg object or a "2D vectorial" one.
*
* - a assignment operator : CImg & operator=(const mxArray *matlabArray)
* (I use myself extremely seldom and might remove it in the future).
*
* - a routine converting a CImg image to a matlab array:
* mxArray *toMatlab(mxClassID classID = mxDOUBLE_CLASS,
* bool squeeze = false) const
* the squeeze argument serves the opposite purpose than the vdata from
* the constructor.
*
* For a bit more documentation, the manual is this header, see the more
* detailed comments in the source code (i.e. RTFM)
*
*
* Its usage should be straightforward:
*
* - file matlab.h must be in a directory that the compiler can locate.
* - prior to include CImg.h, mex.h must be included first, else it will
* result in a compiler error.
* - after the inclusion of mex.h, one must define the macro cimg_plugin as
* "matlab.h" or <matlab.h> or <CImg/plugins/matlab.h> or
* a variation that matches your local installation of CImg package and
* plugins probably via the appropriate specification of the include path
* "-Ipath/to/cimg/and/plugins" at mex cmdline.
*
* You would probably have this kind of declaration:
*
* // The begining of my fantastic mex file code...
* #include <mex.h>
* ...
* #define cimg_plugin <matlab.h>
* #include <CImg.h>
* ...
* // and now I can implement my new killer MATLAB function!
* ....
*
*
* Copyright (c) 2004-2008 Francois Lauze
* Licence: the Gnu Lesser General Public License
* http://www.gnu.org/licenses/lgpl.html
*
* MATLAB is copyright of The MathWorks, Inc, http://www.mathworks.com
*
* Any comments, improvements and potential bug corrections are welcome, so
* write to me at francois@diku.dk, or use CImg forums, I promise I'll try
* to read them once in a while. BTW who modified the cpMatlabData with the
* cimg::type<t>::is_float() test (good idea!)
*
***************************************************************************/
#ifndef cimg_plugin_matlab
#define cimg_plugin_matlab
#define CIMGMATLAB_VER 0102
#ifndef mex_h
#error the file mex.h must be included prior to inclusion of matlab.h
#endif
#ifndef cimg_version
#error matlab.h requires that CImg.h is included!
#endif
/**********************************************************
* introduction of mwSize and mwIndex types in relatively *
* recent versions of matlab, 7.3.0 from what I gathered. *
* here is hopefully a needed fix for older versions *
**********************************************************/
#if !defined(MX_API_VER) || MX_API_VER < 0x7030000
typedef int mwSize;
#endif
/*********************************************************
* begin of included methods *
* They are just added as member functions / constructor *
* for the CImg<T> class. *
*********************************************************/
private:
/**********************************************************************
* internally used to transfer MATLAB array values to CImg<> objects,
* check wether the array type is a "numerical" one (including logical)
*/
static int isNumericalClassID(mxClassID id) {
// all these constants are defined in matrix.h included by mex.h
switch (id) {
case mxLOGICAL_CLASS:
case mxDOUBLE_CLASS:
case mxSINGLE_CLASS:
case mxINT8_CLASS:
case mxUINT8_CLASS:
case mxINT16_CLASS:
case mxUINT16_CLASS:
case mxINT32_CLASS:
case mxUINT32_CLASS:
case mxINT64_CLASS:
case mxUINT64_CLASS: return 1;
default: return 0;
}
}
/***************************************************
* driving routine that will copy the content of
* a MATLAB array to this->_data
* The type names used are defined in matlab c/c++
* header file tmwtypes.h
*/
void makeImageFromMatlabData(const mxArray *matlabArray, mxClassID classID) {
if (classID==mxLOGICAL_CLASS) {
// logical type works a bit differently than the numerical types
mxLogical *mdata = mxGetLogicals(matlabArray);
cpMatlabData((const mxLogical *)mdata);
} else {
void *mdata = (void*)mxGetPr(matlabArray);
switch (classID) {
case mxDOUBLE_CLASS : cpMatlabData((const real64_T*)mdata); break;
case mxSINGLE_CLASS : cpMatlabData((const real32_T*)mdata); break;
case mxINT8_CLASS : cpMatlabData((const int8_T*)mdata); break;
case mxUINT8_CLASS : cpMatlabData((const uint8_T*)mdata); break;
case mxINT16_CLASS : cpMatlabData((const int16_T*)mdata); break;
case mxUINT16_CLASS : cpMatlabData((const uint16_T*)mdata); break;
case mxINT32_CLASS : cpMatlabData((const int32_T*)mdata); break;
case mxUINT32_CLASS : cpMatlabData((const uint32_T*)mdata); break;
case mxINT64_CLASS : cpMatlabData((const int64_T*)mdata); break;
case mxUINT64_CLASS : cpMatlabData((const uint64_T*)mdata); break;
}
}
}
/***********************************************************
* the actual memory copy and base type conversion is then
* performed by this routine that handles the annoying x-y
* problem of MATLAB when dealing with images: we switch
* line and column storage: the MATLAB A(x,y) becomes the
* CImg img(y,x)
*/
template <typename t> void cpMatlabData(const t* mdata) {
if (cimg::type<t>::is_float()) {
cimg_forXYZC(*this,x,y,z,v) (*this)(x,y,z,v) = (T)(mdata[((v*_depth + z)*_width + x)*_height + y]);
} else {
cimg_forXYZC(*this,x,y,z,v) (*this)(x,y,z,v) = (T)(int)(mdata[((v*_depth + z)*_width + x)*_height + y]);
}
}
public:
/******************************************************************
* Consruct a CImg<T> object from a MATLAB mxArray.
* The MATLAB array must be AT MOST 4-dimensional. The boolean
* argument vdata is employed in the case the the input mxArray
* has dimension 3, say M x N x K. In that case, if vdata is true,
* the last dimension is assumed to be "vectorial" and the
* resulting CImg<T> object has dimension N x M x 1 x K. Otherwise,
* the resulting object has dimension N x M x K x 1.
* When MATLAB array has dimension 2 or 4, vdata has no effects.
* No shared memory mechanisms are used, it would be the easiest
* to crash Matlab (from my own experience...)
*/
CImg(const mxArray *matlabArray, const bool vdata = false)
: _is_shared(false) {
mwSize nbdims = mxGetNumberOfDimensions(matlabArray);
mxClassID classID = mxGetClassID(matlabArray);
if (nbdims>4 || !isNumericalClassID(classID)) {
_data = 0; _width = _height = _depth = _spectrum = 0;
#if cimg_debug>1
cimg::warn("MATLAB array is more than 4D or/and not numerical, returning an empty image.");
#endif
} else {
const mwSize *dims = mxGetDimensions(matlabArray);
_depth = _spectrum = 1;
_width = (unsigned)dims[1];
_height = (unsigned)dims[0];
if (nbdims==4) { _depth = (unsigned)dims[2]; _spectrum = (unsigned)dims[3]; }
else if (nbdims==3) {
if (vdata) _spectrum = (unsigned)dims[2]; else _depth = (unsigned)dims[2];
}
_data = new T[size()];
makeImageFromMatlabData(matlabArray,classID);
}
}
/*******************************************************************
* operator=(). Copy mxMarray data mArray into the current image
* Works as the previous constructor, but without the vdata stuff.
* don't know if it is of any use...
*/
CImg & operator=(const mxArray *matlabArray) {
int
nbdims = (int)mxGetNumberOfDimensions(matlabArray),
classID = mxGetClassID(matlabArray);
if (nbdims>4 || !isNumericalClassID(classID)) {
delete [] _data; _data = 0;
_width = _height = _depth = _spectrum = 0;
#if cimg_debug>1
cimg::warn("MATLAB array is more than 4D or/and not numerical, returning an empty image.");
#endif
} else {
const mwSize *dims = mxGetDimensions(matlabArray);
_depth = _spectrum = 1;
_width = (unsigned)dims[1];
_height = (unsigned)dims[0];
if (nbdims>2) _depth = (unsigned)dims[2];
else if (nbdims>3) _spectrum = (unsigned)dims[3];
delete [] _data;
_data = new T[size()];
makeImageFromMatlabData(matlabArray,classID);
}
}
private:
/*****************************************************************
* private routines used for transfering a CImg<T> to a mxArray
* here also, we have to exchange the x and y dims so we get the
* expected MATLAB array.
*/
template <typename c> void populate_maltlab_array(c *const mdata) const {
cimg_forXYZC(*this,x,y,z,v) mdata[((v*_depth + z)*_width + x)*_height + y] = (c)(*this)(x,y,z,v);
}
/*************************************************
* the specialized version for "logical" entries
*/
void populate_maltlab_array(mxLogical *const mdata) const {
cimg_forXYZC(*this,x,y,z,v) mdata[((v*_depth + z)*_width + x)*_height + y] = (mxLogical)((*this)(x,y,z,v)!=0);
}
public:
/******************************************
* export a CImg image to a MATLAB array.
**/
mxArray *toMatlab(mxClassID classID=mxDOUBLE_CLASS, const bool squeeze=false) const {
if (!isNumericalClassID(classID)) {
#if cimg_debug>1
cimg::warn("Invalid MATLAB Class Id Specified.");
#endif
return 0;
}
mwSize dims[4];
dims[0] = (mwSize)_height;
dims[1] = (mwSize)_width;
dims[2] = (mwSize)_depth;
dims[3] = (mwSize)_spectrum;
if (squeeze && _depth == 1) {
dims[2] = (mwSize)_spectrum;
dims[3] = (mwSize)1;
}
mxArray *matlabArray = mxCreateNumericArray((mwSize)4,dims,classID,mxREAL);
if (classID==mxLOGICAL_CLASS) {
mxLogical *mdata = mxGetLogicals(matlabArray);
populate_maltlab_array(mdata);
} else {
void *mdata = mxGetPr(matlabArray);
switch (classID) {
case mxDOUBLE_CLASS : populate_maltlab_array((real64_T*)mdata); break;
case mxSINGLE_CLASS : populate_maltlab_array((real32_T*)mdata); break;
case mxINT8_CLASS : populate_maltlab_array((int8_T*)mdata); break;
case mxUINT8_CLASS : populate_maltlab_array((uint8_T*)mdata); break;
case mxINT16_CLASS : populate_maltlab_array((int16_T*)mdata); break;
case mxUINT16_CLASS : populate_maltlab_array((uint16_T*)mdata); break;
case mxINT32_CLASS : populate_maltlab_array((int32_T*)mdata); break;
case mxUINT32_CLASS : populate_maltlab_array((uint32_T*)mdata); break;
case mxINT64_CLASS : populate_maltlab_array((int64_T*)mdata); break;
case mxUINT64_CLASS : populate_maltlab_array((uint64_T*)mdata); break;
}
}
return matlabArray;
}
// end of matlab.h
#endif /* cimg_plugin_matlab */