As of MATLAB R2015b, MinGW is officially supported!
It's now at the top of the list of supported compilers.
See here for the official instructions for downloading MinGW (they recommend TDB-GCC).
There are several limitations and caveats listed (e.g. don't link with libraries compiled with other compilers, you have to catch your exceptions inside the MEX file, etc.).
Below is my old way of making an XML file to do the same thing.
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.
- 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).
MINGWROOT environment variable.
mex -setup:[xmlfile] [C|C++].
For MinGW-w64, I do the following to set it up:
- 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).
- 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.
- 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.
- 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
setenv, or just once with the Windows properties dialog or the native Windows 7 setx.exe command.
mex -setup:C:\actual\configFilePath.xml C++. For example, using the .xml file to set up C++ MEX file compilation:
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
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:
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: