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I've been given a project to run on MALTAB R2011a. As there are several .c files in there - I need to set up GCC as the MEX compiler for that project. However, I cannot seem to find any explanation as to how to set it up. I've tried a script program called gnumex - but it failed (probably set up for an older version of MATLAB).

Any idea how to set it up?

share|improve this question
    
Update to all readers: as of R2014a, MATLAB now uses an XML-based configuration system (i.e. mexopts.bat is deprecated), so if you want to compile with the mex command in MATLAB, see this new answer. To manually build outside of MATLAB (e.g. in Cygwin or MSYS/MinGW), the accepted answer is still good! –  chappjc Feb 13 at 0:57

11 Answers 11

up vote 11 down vote accepted

In Matlab 2011b, just compile and link directly in mingw64 or cygwin environment.

MINGWPATH=c:/MinGW64
CYGPATH=c:/cygwin

MATLABROOT=c:/Progra~1/MATLAB/R2011b
CC=$(MINGWPATH)/bin/x86_64-w64-mingw32-gcc 
CFLAG= -Wall -m64 -O3 -I$(MATLABROOT)/extern/include $(SRC) $(LIBS) -o $(EXE)
MEXFLAG=-m64 -shared -DMATLAB_MEX_FILE -I$(MATLABROOT)/extern/include -Wl,--export-all-symbols $(LIBS) $(MEXSRC) -o $(MEXTGT).mexw64

LIBS= -L$(MATLABROOT)/bin/win64 -L$(MATLABROOT)/extern/lib/win64/microsoft -lmex -lmx -lmwlapack -lmwblas -leng
EXE=../bin/engwindemo.exe
MEXTGT=
SRC=engwindemo.c
MEXSRC=
all:$(EXE)

$(EXE):  $(SRC)
    $(CC) $(CFLAG) -ladvapi32 -luser32 -lgdi32 -lkernel32 -lmingwex -o $(EXE)
    @rm -f *.o*

$(MEXTGT):  $(MEXSRC)
    $(CC) $(MEXFLAG) -ladvapi32 -luser32 -lgdi32 -lkernel32 -lmingwex 
    @rm -f *.o*

Put this makefile on the source code directory and make. No dll files conversion needed.

share|improve this answer

Why not adjust the mexopts.bat file in your directory? That way you can use the "mex" command transparently to compile anything, as usual in MATLAB, the same as if it was configured by MATLAB using mex -setup. I'm surprised nobody did this before.

The file below is for x64 version of Matlab and Mingw. I'm using the TDM Mingw64 distribution, which I installed in p:\mingw64-tdm. I have Matlab installed in p:\matlab\R2012a -- edit those accordingly.

This is the mexopts.bat file I'm using, copy paste this in %USERPROFILE%\AppData\Roaming\MathWorks\MATLAB\R2012a\mexopts.bat:

@echo off

set MINGWPATH=p:\mingw64-tdm
set PATH=%MINGWPATH%\bin;%PATH%

set COMPILER=gcc
set COMPFLAGS=-c -m64 -I"%MATLAB%\extern\include" -DMATLAB_MEX_FILE -Wall -std=c99
set OPTIMFLAGS=-O3 -DNDEBUG
set DEBUGFLAGS=-g
set NAME_OBJECT=-o

set LINKER=gcc
set LINKFLAGS=-shared -L"%MATLAB%\bin\win64" -L"%MATLAB%\extern\lib\win64\microsoft" -lmex -lmx -leng -lmat -lmwlapack -lmwblas
set NAME_OUTPUT=-o "%OUTDIR%%MEX_NAME%%MEX_EXT%"

Then you can just try doing this in Matlab:

mex -v p:\matlab\R2012a\extern\examples\mex\yprime.c
which yprime

Should yield b:\code\m\yprime.mexw64 (or whatever the current folder is). Then if you do:

yprime(1,1:4)

You should see:

ans =
    2.0000    8.9685    4.0000   -1.0947

Which means you're in business. Good luck!

EDIT Oct 2014: I now use an improved mexopts.bat file than the above with a different MinGW64 (yields slightly faster binary code than TDM's). See my homepage for details and downloads.

share|improve this answer
1  
Thanks; very helpful! I ran into two additional issues. First I had one of the Matlab versions where linking erroneously gets a getValidInputLinkLibraries added to the end of the command. You have to fix this by going into Matlab's bin directory and editing mex.pl to change a getValidInputLinkLibraries line to getValidInputLinkLibraries(). Second, I was getting complaint from matrix.h that char16_t was undefined. It appears uchar.h is not included properly. So I added -include uchar.h to the COMPFLAGS and that seemed to fix it. –  Chinasaur Dec 9 '13 at 5:04
    
this worked fine for me, though i had to add quotation marks, since my matlab folder was in C:\Program Files\... –  Henrik Jan 5 at 11:24
    
Fixed the double quotes issue, thanks (I'm told that the "Program Files", System32, SysWOW64 namings, as well as the Comic Sans font were all invented by the same person at Microsoft. He touched a lot of people). –  Bogdan Jan 5 at 16:22

EDIT: There seems to be a much better way with MinGW; see my other answer.

You can compile a .mex file using gcc if you have Matlab installed, from the command line. Some might say it's a little tedious the first time.

First things first - what Matlab do you use? if it's 64-bits, MinGW won't help you, because it's 32-bit. I will therefore show how to use MinGW-w64 instead. Understanding how to do this with 32-bit MinGW should be straightforward.

  1. Add C:\MinGW-64\bin\ to your path. You won't regret this :)
  2. Compile your .c files using gcc:

    x86_64-w64-mingw32-c++ -m64 -shared -I"C:\Program Files\MATLAB\R2010b\extern\include" -o bla.mexw64 -DMATLAB_MEX_FILE -Wl,--export-all-symbols *.cpp
    
  3. This will result in a bunch of linker errors, such as

    undefined reference to `mexErrMsgTxt'
    

    To solve this problem, you'll have to create an import library which connects with libmex.dll, libmx.dll, libmat.dll and libeng.dll (you might have others, but these are the main ones)

  4. List the functions you're missing, and, well, guess what dll they're coming from. Hint: mexErrMsgTxt is from libmex.dll, because it starts with "mex"...

  5. For every dll you need to export, create a .def file containing

    EXPORTS
    ... relevant function names go here, such as mexErrMsgTxt, matOpen, etc.
    
  6. Execute the following command, to create import libraries:

    x86_64-w64-mingw32-dlltool -d libmx.def --dllname libmx.dll -l libmx.a
    

    (Same for the rest of the .def files)

  7. Now you're good to go!

    x86_64-w64-mingw32-c++ -m64 -shared -I"C:\..." -DMATLAB_MEX_FILE -o bla.mexw64 -Wl,--export-all-symbols *.cpp libmex.a libmx.a libmat.a libeng.a
    

Things which can be done better - instead of --export-all-symbol, only export mexFunction (requires creating another .def file, or adding "__declspec(dllexport)" before void mexFunction(...)).

share|improve this answer
    
Crap, its 64 bit :( –  Menyh Dec 18 '11 at 21:49
    
Ok, I fixed the instructions (there are lots of fixes), and (ahem) actually did the thing and ran the result on Matlab - it seems to work for a simple mex file. It's actually quite exciting! I didn't know it's possible. And I didn't know that MinGW64 exists and works. So thanks. :) –  user1071136 Dec 18 '11 at 22:50
    
Thanks for your time mate. –  Menyh Dec 19 '11 at 7:00
    
It's not the Windows bitness that matters, but the MATLAB bitness. For example, student editions are 32-bit even on 64-bit versions of Windows. –  Ben Voigt Dec 8 '13 at 1:52

MinGW is capable of direct-linking a DLL; that is, it will create a kind of an import library on the fly when linking.

This means compilation can be performed in one step:

x86_64-w64-mingw32-c++ -m64 -shared -I"%MATLAB%/extern/include" -DMATLAB_MEX_FILE -o bla.mexw64 -Wl,--export-all-symbols *.cpp -L"%MATLAB%/bin/win64" -lmex -lmx -leng -lmat
share|improve this answer
    
Thanks; very helpful! FYI, based on issues I had with related methods (see other answers) it seems like some versions of Matlab might also require a -include uchar.h to avoid a complaint from matrix.h about missing char16_t. –  Chinasaur Dec 9 '13 at 5:15

Matlab links to external code (C++, Fortran, Java etc) using MEX files. (http://gnumex.sourceforge.net/)

Setting up Compiler:

  1. Install TDM-GCC (C++ Compiler "C:\MinGW32\bin;") from http://tdm-gcc.tdragon.net/download
  2. Install Cygwin (toolkit provides Unix tools on the Windows platform) from (http://ptolemy.eecs.berkeley.edu/ptolemyII/ptII4.0/cygwin.htm).
    Download and Install cygwingDevel.exe
  3. Obtain the gnumex archive via (https://sourceforge.net/projects/gnumex) and extract the gnumex to ($MATLABHOME\gnumex).
    Where $MATLABHOME would be for example (C:\Program Files\MATLAB\R2010a)
  4. Add this directory ($MATLABHOME\gnumex) to the Matlab path (File->Set Path in Matlab).
    Note: Run Matlab with Administrator priviledges.
  5. In Matlab, type gnumex at the prompt. Fill in appropriate paths like;

    MinGW_Root = C:\MinGW32, Cygwin_Root=C:\cygwin

  6. Do 'File->Save Config', then click 'Make Options file'. Exit from gnumex configure window.

Testing:

Copy mexopts.bat (%AppData%\MathWorks\MATLAB\R2010a\mexopts.bat) to the working directory (%UserProfile%\Documents\MATLAB) for this test.

  1. In matlab, execute the following at prompt;

    mex -f mexopts.bat "C:\Program Files\MATLAB\R2010a\extern\examples\mex\yprime.c"

  2. You get (%UserProfile%\Documents\MATLAB\yprime.mexw32) when you type;

    which yprime

  3. Run it by typing at Matlab prompt >> yprime(1,1:4) and see if you get 2.0000 8.9685 4.0000 -1.0947.

  4. Now just copy mexopts.bat to $MATLABHOME\bin and it should work from anywhere.

Matlab on Linux Platform:

  1. At Linux prompt, install the following;

    sudo apt-get install gcc g++ gfortran

  2. In Matlab, execute the following at prompt;

    mex -setup

  3. The options files available for mex are: **1**: /usr/local/MATLAB/R2012b/bin/mexopts.sh : Select option 1. To test the working, execute the following at Matlab prompt;

    mex "/usr/local/MATLAB/R2012b/extern/examples/mex/yprime.c"

    yprime(1,1:4)

In case you get the warning;

Warning: You are using gcc version "4.6.3-1ubuntu5)".  The version
         currently supported with MEX is "4.4.6".
         For a list of currently supported compilers see: 
         http://www.mathworks.com/support/compilers/current_release/

At Linux prompt:

  1. sudo apt-get install gcc-4.4 g++-4.4 gfortran-4.4
  2. sudo gedit /usr/local/MATLAB/R2012b/bin/mexopts.sh
  3. Change 'gcc' to 'gcc-4.4' ,'g++' to 'g++-4.4' , 'gfortran' to 'gfortran-4.4' at all instances of CC = 'gcc' , CXX = 'g++' and FC = 'gfortran'.
  4. Save the file and exit.
share|improve this answer

The years have gone by and MATLAB (as of R2014a) has moved to a new XML-based system for configuring MEX files. MATLAB still temporariily supports legacy .bat files, for now, but it will bother you about it. Another change is that are distinct C and C++ configurations (more later).

What has stayed the same is that you just need to download and extract a MinGW distribution and point MATLAB to it. There is still no need for MSYS, cygwin or gnumex. The only tricky part is pointing MATLAB to it, but here is a solution.

Short Version

  • Download and extract a MinGW distribution. Pick one, such as MinGW-w64 (64-bit) or TDM-GCC (32-bit and 64-bit options).
  • Customize the XML config file, using this one as a template (details in long version below).
  • Set MINGWROOT environment variable.
  • Run mex -setup:[xmlfile] [C|C++].

Long Version

For MinGW-w64, I do the following to set it up:

  1. Grab the latest revision for w64 from Sourceforge (or use the installer to choose the toolchain you want, picking a pthread or Win32 threads version depending on your needs).
  2. Extract it so that you have a path to the compiler like C:\mingw-w64\x86_64-4.9.2-release-posix-seh-rt_v3-rev1\bin\x86_64-w64-mingw32-g++.exe. There is no need for MSYS, cygwin, or any other environment if you plan on compiling in MATLAB with the mex command. Check your PATH environment variable to make sure you don't have multiple compilers (g++) on your path, preferably none. Verify with a fresh command prompt.
  3. Set it up with a custom XML configuration file. On my GitHub repo, I have posted C++ configurations for MinGW-w64 in both file types: mex_C++_mingw-w64.xml and legacy mingw_mexopts.bat. Start with that as a template and (optionally) edit the XML file with a descriptive name and version of the MinGW distribution you downloaded and extracted.
  4. Set (or create) the MINGWROOT environment variable. This is what allows the mex command to locate the compiler. You can do this in MATLAB (and every time MATLAB starts with a startup.m script in userpath) with setenv, or just once with the Windows properties dialog or the native Windows 7 setx.exe command.
  5. Run mex -setup:C:\actual\configFilePath.xml C++. For example, using the .xml file to set up C++ MEX file compilation:

    setenv('MINGWROOT','H:\mingw-w64\x86_64-4.9.2-release-posix-seh-rt_v3-rev1')
    mex -setup:H:\building\GitHub\MATLAB\MinGW\mex_C++_mingw-w64.xml C++
    

    The output should look like this:

    MEX configured to use 'MinGW-w64 GCC 4.9.2 posixthreads seh' for C++ language compilation.

If needed, set up the C compiler in a similar manner with a new XML config file specifying the C language, the C compiler frontend (e.g. "x86_64-w64-mingw32-gcc.exe" which won't automatically link the C++ standard library), adjust the link libraries as needed, compiler flags (e.g. change -std=c++11 to -std=c99), etc.


Note about static vs. dynamic linking of runtime libraries

Libraries such as a MEX file created with MinGW-w64 as above may depend on a few DLLs (at runtime): LIBGCC_S_SEH-1.DLL (for the seh exception distributions) and LIBSTDC++-6.DLL, and possibly libwinpthread-1.dll if you chose a pthreads distribution instead of Win32 threads. If you don't want to copy these files around, you can statically link the runtime libraries into your MEX file by adding the following switches:

-static-libgcc -static-libstdc++

There's a comment in the XML template about this. See here for info about libpthread-1.dll.

With TDM-GCC, the opposite is true: the runtimes (including pthread) are statically linked automatically. To link dynamically, which will require the DLLs but reduce your MEX file size, you need:

-shared-libgcc -shared-libstdc++
share|improve this answer

This one works on Matlab 2012b under Windows 8:

https://github.com/DynareTeam/dynare/blob/master/windows/mexopts-win64.bat

Modify cgwin directory or replace it with mingw directory if used. You can also echange the compiler-exe if you switch to a 64 bit version.

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In Windows 64 bit with R2011a it worked with http://tdm-gcc.tdragon.net/ and http://gnumex.sourceforge.net/ but I have to change maxopt.bat line entry GM_ADD_LIBS as follows:

rem Add path to where dlls are:

set DLL_PATH="C:\Program Files\MATLAB\R2011a\bin\win64"

rem Add every dll needed:

set GM_ADD_LIBS=%DLL_PATH%\libmx.dll %DLL_PATH%\libmex.dll %DLL_PATH%\libmat.dll 

It took me a long time to get to this point, good luck.

share|improve this answer

I originally thought this sounded like a form of torture, but based on the above answer by @user10171136 I actually found it pretty straightforward to cross-compile for Windows mex from Fedora Linux. Fedora has mingw and mingw64 packages, so:

  1. sudo yum install mingw64-gcc mingw64-gcc-c++
  2. Copy over from a Windows Matlab install both the extern/include and bin/win64 directories (actually you probably only need a subset of the headers and a small subset of the dlls; libmat.dll libmex.dll libmx.dll might be all you need. I put these two directories into a new R2010a-w64 directory under my existing Linux MATLAB directory; change the below commands appropriate for where you stashed the Windows headers and libs.
  3. There was one problem I ran into, which is that char16_t was needed in matrix.h and wasn't defined. I guess matrix.h forgot to include uchar.h? I worked around with an -include directive; see below.
  4. x86_64-w64-mingw32-gcc -m64 -shared -include uchar.h -I/opt/MATLAB/R2010a-w64/extern/include -DMATLAB_MEX_FILE -L/opt/MATLAB/R2010a-w64/bin/win64 -o bla.mexw64 bla.c -lmx -lmex
  5. (You may need additional libraries for linking, e.g. -lmat -leng -lm, etc.)
  6. This successfully generates a mex file that is executable under Windows Matlab for my setup. So far I've only tested this with pretty simple C programs.

Interested to hear if this sounds reasonable; I don't have much experience with cross-compiling.

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This is a detailed walkthorugh of this answer. Therefore, all the credit should go to that answer.

1 Install MinGW-w64:

1.1 Download this MinGW64-w64 build and its update:

(http://sourceforge.net/projects/mingw-w64/files/Toolchains%20targetting%20Win64/Personal%20Builds/sezero_4.5_20111101/mingw-w64-bin_x86_64-mingw_20111101_sezero.zip/download)

(http://sourceforge.net/projects/mingw-w64/files/Toolchains%20targetting%20Win64/Personal%20Builds/sezero_4.5_20111101/sezero_20111101-w64-update-rev.5747.zip/download)

(http://sourceforge.net/projects/mingw-w64/files/Toolchains%20targetting%20Win64/Personal%20Builds/sezero_4.5_20111101/README-mingw-w64-20111101_sezero.txt/download)

1.2 Install (unzip) the downloaded archives:

1.2.1 Unzip the build file and move the resulting mingw64\ folder in c:\

1.2.2 Unzip and copy (overwrite) the update file on c:\mingw64

1.3 Add C:\mingw64\bin to the Path variable:

set PATH=C:\mingw64\bin;%PATH%

2 On a commandline (outside Matlab environment), compile your *.c files: For example, CCODEFILE.c (Assuming Matlab 2012b installed in C:\Program Files\MATLAB\R2012b\ folder):

"c:\mingw64\bin\x86_64-w64-mingw32-g++.exe" -m64 -shared -I"C:/Program Files/MATLAB/R2012b/extern/include" -DMATLAB_MEX_FILE -o CCODEFILE.mexw64 -Wl,--export-all-symbols CCODEFILE.c -L"C:/Program Files/MATLAB/R2012b/bin/win64" -lmex -lmx -leng -lmat

3 Then, any Matlab code should work fine when it calls the CCODEFILE function.

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On linux, if you type mex -setup, you can choose the compiler.

On windows, you should try to install lcc, you can do so for instance by installing Microsoft Visual Studio Express, which is free.

share|improve this answer
    
On Windows you can't. –  user1071136 Dec 18 '11 at 15:49
    
ok, I edited, I did not get that he was on windows. But are you sure that mex -setup does not work on windows? I think I already used it. I am too lazy to reboot my laptop on windows to check... –  Oli Dec 18 '11 at 16:01
2  
lcc is not the Microsoft compiler. –  rubenvb Dec 18 '11 at 16:01
1  
lcc comes bundled along the 32 bits version of Matlab for Windows. 64 bits version doesn't come with any bundled compiler. The free Visual Studio Express is also deprecated since 2008 and isn't supported anymore in newest versions of Matlab. –  Soravux Oct 5 '13 at 17:49
    
@Soravux: Visual Studio Express certainly isn't deprecated. Perhaps you meant to speak only about MATLAB support for it? –  Ben Voigt Dec 8 '13 at 1:53

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