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To contribute to Dynare and participate in the Dynare community, please see: [CONTRIBUTING.md](https://github.com/DynareTeam/dynare/blob/master/CONTRIBUTING.md)
- using a source snapshot of the unstable version, from <http://www.dynare.org/download/dynare-unstable/source-snapshot>
Note that if you obtain the source code via git, you will need to install more tools (see below).
The first section of this page gives general instructions, which apply to all platforms. Then some specific platforms are discussed.
**NB**: Here, when we refer to 32-bit or 64-bit, we refer to the type of MATLAB installation, not the type of Windows installation. It is perfectly possible to run a 32-bit MATLAB on a 64-bit Windows: in that case, instructions for Windows 32-bit should be followed. To determine the type of your MATLAB installation, type:
```matlab
>> computer
```
at the MATLAB prompt: if it returns `PCWIN`, then you have a 32-bit MATLAB; if it returns `PCWIN64`, then you have a 64-bit MATLAB.
A number of tools and libraries are needed in order to recompile everything. You don't necessarily need to install everything, depending on what you want to compile.
- A POSIX compliant shell and an implementation of Make (mandatory)
- The [GNU Compiler Collection](http://gcc.gnu.org/), with gcc, g++ and gfortran (mandatory)
- [Flex](http://flex.sourceforge.net/), version 2.5.4 or later (only if you get the source through Git)
- [Autoconf](http://www.gnu.org/software/autoconf/), version 2.62 or later (only if you get the source through Git) (see [Installing an updated version of Autoconf in your own directory, in GNU/Linux](http://www.dynare.org/DynareWiki/AutoMake))
- [Automake](http://www.gnu.org/software/automake/), version 1.11.2 or later (only if you get the source through Git) (see [Installing an updated version of AutoMake in your own directory, in GNU/Linux](http://www.dynare.org/DynareWiki/AutoMake))
- [CWEB](http://www-cs-faculty.stanford.edu/%7Eknuth/cweb.html), with its tools `ctangle` and `cweave` (only if you want to build Dynare++ and get the source through Git)
- An implementation of BLAS and LAPACK: either [ATLAS](http://math-atlas.sourceforge.net/), [OpenBLAS](http://xianyi.github.com/OpenBLAS/), Netlib ([BLAS](http://www.netlib.org/blas/), [LAPACK](http://www.netlib.org/lapack/)) or [MKL](http://software.intel.com/en-us/intel-mkl/) (only if you want to build Dynare++)
- An implementation of [POSIX Threads](http://en.wikipedia.org/wiki/POSIX_Threads) (optional, for taking advantage of multi-core)
- [MAT File I/O library](http://sourceforge.net/projects/matio/) (if you want to compile Markov-Switching code, the estimation DLL, k-order DLL and Dynare++)
The last line runs Autoconf and Automake in order to prepare the build environment (this is not necessary if you got the sources from an official source archive or the source snapshot).
### Configuring the build tree
Simply launch the configure script from a terminal:
```
./configure
```
If you have MATLAB, you need to indicate both the MATLAB location and version. For example, on GNU/Linux:
Note that the MATLAB version can also be specified via the MATLAB family product release (R2009a, R2008b, ...).
**NB**: For MATLAB versions strictly older than 7.1, you need to explicitly give the MEX extension, via `MEXEXT` variable of the configure script (for example, `MEXEXT=dll` for Windows with MATLAB \< 7.1).
Alternatively, you can disable the compilation of MEX files for MATLAB with the `--disable-matlab` flag, and MEX files for Octave with `--disable-octave`.
You may need to specify additional options to the configure script, see the platform specific instructions below.
Note that if you don't want to compile the C/C++ programs with debugging information, you can specify the `CFLAGS` and `CXXFLAGS` variables to the configure script, such as:
If you want to give a try to the parallelized versions of some mex files (`A_times_B_kronecker_C` and `sparse_hessian_times_B_kronecker_C` used to get the reduced form of the second order approximation of the model) you can add the `--enable-openmp` flag, for instance:
A summary of the results is available in `tests/run_test_matlab_output.txt` or `tests/run_test_octave_output.txt`. Often, it does not make sense
to run the complete testsuite. For instance, if you modify codes only related to the perfect foresight model solver, you can decide to run only a
subset of the integration tests, with:
```
make deterministic_simulations
```
This will run all the integration tests in `tests/deterministic_simulations` with Matlab and Octave. Again, it is possible to do this only with Matlab:
We no longer support compilation on Windows. To use the unstable version of Dynare on a Windows system, please download it from the [Dynare website](http://www.dynare.org/download/dynare-unstable).
Dynare can also be compiled from source for the Windows Subsystem for Linux (WSL). The WSL offers Windows 10 Anniversary Update users easy access to a Linux environment. To install the WSL, see https://msdn.microsoft.com/en-us/commandline/wsl/install_guide
To install most of the build dependencies, make sure that the local `rootfs/etc/apt/sources.list` contains
```
deb-src http://archive.ubuntu.com/ubuntu trusty main restricted universe multiverse
deb-src http://archive.ubuntu.com/ubuntu trusty-updates main restricted universe multiverse
deb-src http://security.ubuntu.com/ubuntu trusty-security main restricted universe multiverse
```
in addition to the regular ```deb``` entries.
NB: you cannot edit this file from Windows as this will make the file unreadable for the WSL (rendering WSL unable to detect any package). Therefore, use any Linux editor of your choice.
After that, run
```
apt update
apt-get build-dep dynare
```
If you are building the unstable version, you might also need to install other packages required, e.g
```apt-get install texlive-fonts-extra```
NB: it might be necessary to preface your calls by ```sudo``` in case you do not have root access with the current user
After this, prepare the source and configure the build tree as described for Linux above.
-`./configure --disable-octave --with-matlab=/Applications/MATLAB_R2017b.app MATLAB_VERSION=R2017b`, adjusting the Matlab path and version to accord with your local installation. If you don't have Matlab, simply type `./configure --disable-octave`
-`make -j`
- **(Optional)** To then build mex files for Octave, run