Packaging matlab to standalone
Summary
This is about compiling matlab code (.m file) and packaging it into a standalone executable.
Converting .m files can be done easily with the mcc command.
It will compile the code with gcc (beware of which gcc version you are using) and provide shell script to run the executable.
To run the code, you will also need the Matlab Compiler Runtime (MCR) which contains run time components.
The MCR is needed for running any compiled standalone. Please note, the MCR is Matlab version dependent, so make sure the target machine is running the same MCR than the compilation machine ! In some cases, a standalone can be kernel dependent ...
Building/finding the MCR
With Matlab version 2008, one can build the MCR using self-extracting files :
PlatformFile | self-extracting file | location |
---|---|---|
Windows 32-bit | MCRInstaller.exe | matlabroot\toolbox\compiler\deploy\win32 |
Windows 64-bit | MCRInstaller.exe | matlabroot\toolbox\compiler\deploy\win64 |
Linux (glnx86) | MCRInstaller.bin | matlabroot/toolbox/compiler/deploy/glnx86 |
Linux (glnxa64) | MCRInstaller.bin | matlabroot/toolbox/compiler/deploy/glnxa64 |
Mac | MCRInstaller.dmg | matlabroot/toolbox/compiler/deploy/mac |
Mac intel | MCRInstaller.dmg | matlabroot/toolbox/compiler/deploy/maci |
Solaris (sol64) | MCRInstaller.bin | matlabroot/toolbox/compiler/deploy/sol64 |
Where matlabroot is where your matlab was installed (i.e. /usr/bin/matlab2008b_PDE/ )
In older Matlab version (< 2008), one included a MCRInstaller.zip file into the distribution. This zip file could be created by running the buildmcr command. This function is now deprecated.
Compiling .mat files with mcc
Let say I have a main function callCNVs.m and that all helper functions are either standard Matlab functions or under a fun/ directory.
My callCNVs.m function looks like :
function callCNVs(input_file, varargin) if nargin < 1 error('Missing input file'); end fprintf('Processing file %s\n', input_file); end
I can then create my small distribution with
mcc -m -I /home/armand/MATLAB/COLAUS -I /home/armand/MATLAB/COLAUS/fun -d /home/armand/MATLAB/COLAUS_COMPILED callCNVs.m
Where -I specify which directories to include for compilation, -d the destination directory and callCNVs.m the main function.
This will convert callCNVs.m to C, compile it and link functions that are in the include directories.
Looking into /home/armand/MATLAB/COLAUS_COMPILED, I now have :
callCNVs: ELF 64-bit LSB executable, AMD x86-64, version 1 (SYSV), for GNU/Linux 2.4.0, \ dynamically linked (uses shared libs), not stripped callCNVs_main.c: ASCII C program text callCNVs_mcc_component_data.c: ASCII C program text callCNVs.prj: XML document text mccExcludedFiles.log: ASCII English text readme.txt: Matlab v5 mat-file run_callCNVs.sh: Bourne shell script text executable
To run the standalone, I simply use the run_callCNVs.sh script :
$ sh run_callCNVs.sh /usr/bin/matlab2008b_PDE/ test.dat ------------------------------------------ Setting up environment variables --- LD_LIBRARY_PATH is .:/usr/bin/matlab2008b_PDE//runtime/glnxa64:/usr/bin/matlab2008b_PDE//bin/glnxa64:/usr/bin/matlab2008b_PDE//sys/os/glnxa64:\ /usr/bin/matlab2008b_PDE//sys/java/jre/glnxa64/jre/lib/amd64/native_threads:/usr/bin/matlab2008b_PDE//sys/java/jre/glnxa64/jre/lib/amd64/server:\ /usr/bin/matlab2008b_PDE//sys/java/jre/glnxa64/jre/lib/amd64/client:/usr/bin/matlab2008b_PDE//sys/java/jre/glnxa64/jre/lib/amd64 Processing file test.dat