# Mac Installation¶

## Requirements¶

• C++11 compiler (C++14 preferred).
• git
• ZeroMQ 4.1.4 or newer (if ZeroMQ support is needed)
• MPI-2 implementation (if MPI support is needed)

## Useful Resources¶

Some basics on using the macOS Terminal (or any Unix/Linux shell) will be useful to fully understand this guide. Articles and tutorials you may find useful include:

## Setup¶

Note: Keep in mind that your cmake version should be newer than the boost version. If you have an older cmake, you may want an older boost version. Alternatively, you can choose to upgrade your version of cmake.

1. (if needed) Install git on your system for easy access to the HELICS source. Download from git-scm. This installs the command line which is described here. GUI’s interfaces such as SourceTree are another option.

2. (if desired) Many required libraries are easiest installed using the homebrew package manager. These directions assume this approach, so unless you prefer to track these libraries and dependencies down yourself, install it if you don’t have it yet.

3. (if needed) Setup a command-line compile environment

a) Install a C++11 compiler (C++14 preferred). e.g. clang from the Xcode command line tools. These can be installed from the command line in Terminal by typing xcode-select --install and following the on-screen prompts. b) Install cmake with brew install cmake. Alternately, a DMG file is available for cmake from their website.

4. Install most dependencies using homebrew.

brew install boost
brew install zeromq
brew install cmake

5. Make sure cmake and git are available in the Command Prompt with which cmake and which git If they aren’t, add them to the system PATH variable.

Getting and building from source:

1. Use git clone to check out a copy of HELICS.

2. Create a build folder. Run cmake and give it the path that HELICS was checked out into.

git clone https://github.com/GMLC-TDC/HELICS
cd HELICS
mkdir build
cd build


## Compile and Install¶

There are a number of different options and approaches at this point depending on your needs, in particular with respect to programming language support.

Note: For any of these options, if you want to install in a custom location, you can add the following CMake argument: -DCMAKE_INSTALL_PREFIX=/path/to/install/folder/. There are also many other options, and you can check them out by running ccmake . in the build folder.

Keep in mind running HELICS commands like helics_app will not work from just any old random folder with a custom install folder. You will either need to run them from inside the bin subfolder of your custom install, or provide a more complete path to the command. To run HELICS commands from any folder, you must add the bin subfolder of your custom install to the PATH environment variable. See the first link in the Useful Resources section for details.

### Basic Install (without language bindings)¶

Run the following:

cmake ../
ccmake . # optional, to change install path or other configuration settings
make
make install


### Building HELICS with python support¶

Run the following:

cmake -DBUILD_PYTHON_INTERFACE=ON -DCMAKE_INSTALL_PREFIX=$HOME/local/helics-master/ .. make -j8 make install  Add the following to your ~/.bashrc file. export PYTHONPATH=$HOME/local/helics-master/python:$PYTHONPATH  ### Building HELICS with MATLAB support¶ To install HELICS with MATLAB support, you will need to add run cmake with the -DBUILD_MATLAB_INTERFACE=ON option. The important thing to note is that the MATLAB binaries are in the PATH. Specifically, mex must be available in the PATH. Note: To check if mex is in the PATH, type which mex and see if it returns a PATH to the mex compiler. If it does not, you should install MATLAB and add the path to all the MATLAB binaries to your PATH. export PATH="/Applications/MATLAB_R2017b.app/bin/:$PATH"

git clone https://github.com/GMLC-TDC/HELICS
cd HELICS
mkdir build-osx
cd build-osx
cmake -DBUILD_MATLAB_INTERFACE=ON -DCMAKE_INSTALL_PREFIX=$HOME/local/helics-master/ .. make -j8 make install  ### Building HELICS MATLAB support manually¶ If you have changed the C-interface and want to regenerate the SWIG MATLAB bindings, you will need to use a custom version of SWIG to build the MATLAB interface. To do that, you can follow the following instructions. • Install SWIG with MATLAB • ./configure --prefix=$HOME/local/swig_install; make; make install;
• Ensure that SWIG and MATLAB are in the PATH

The below generates the MATLAB interface using SWIG.

cd ~/GitRepos/GMLC-TDC/HELICS/interfaces/
mkdir matlab
swig -I../src/helics/shared_api_library -outdir ./matlab -matlab ./helics.i
mv helics_wrap.cxx matlab/helicsMEX.cxx


You can copy these files into the respective HELICS/interfaces/matlab/ folder and run the cmake command above. Alternatively, you wish to build the MATLAB interface without using CMake, and you can do the following.

cd ~/GitRepos/GMLC-TDC/HELICS/interfaces/
mex -I../src/helics/shared_api_library ./matlab/helics_wrap.cxx -lhelicsSharedLib -L/path/to/helics_install/lib/helics/
mv helicsMEX.* matlab/


You will need HELICS installed correctly before the above can be run successfully.

### Building HELICS using gcc and python¶

Firstly, you’ll need gcc. You can brew install gcc. Depending on the version of gcc you’ll need to modify the following instructions slightly. These instructions are for gcc-8.2.0.

First you will need to build boost using gcc from source. Download the latest version of boost from the boost.org website. In the following example we are doing to use boost v1.69.0 Keep in mind that your cmake version should be newer than the boost version, so if you have an older cmake you may want an older boost version. Alternatively, you can choose to upgrade your version of cmake as well.

Unzip the folder boost_1_69_0 to any location, for example Downloads.

$cd ~/Downloads/boost_1_69_0$ ./bootstrap.sh --prefix=/ --prefix=$HOME/local/boost-gcc-1.69.0  Open project-config.jam and changes the lines as follows: # Compiler configuration. This definition will be used unless # you already have defined some toolsets in your user-config.jam # file. # if ! darwin in [ feature.values <toolset> ] # { # using darwin ; # } # project : default-build <toolset>darwin ; using gcc : 8.2 : /usr/local/bin/g++-8 ;  $ ./b2
$./b2 install$ # OR
$./bjam cxxflags='-fPIC' cflags='-fPIC' -a link=static install # For static linking  This will install boost in the ~/local/boost-gcc-1.69.0 folder Next, you will need to build HELICS and tell it what the BOOST_ROOT is. $ cmake -DCMAKE_INSTALL_PREFIX="$HOME/local/helics-gcc-X.X.X/" -DBOOST_ROOT="$HOME/local/boost-gcc-1.69.0" -DBUILD_PYTHON_INTERFACE=ON -DCMAKE_C_COMPILER=/usr/local/Cellar/gcc/8.2.0/bin/gcc-8 -DCMAKE_CXX_COMPILER=/usr/local/Cellar/gcc/8.2.0/bin/g++-8 ../
$make clean; make -j 4; make install  ## Testing HELICS¶ ### Basic test (without language bindings)¶ A quick test is to double check the versions of the HELICS player and recorder: cd /path/to/helics_install/bin$ helics_player --version
x.x.x (20XX-XX-XX)

$helics_recorder --version x.x.x (20XX-XX-XX)  ### Testing HELICS with python support¶ If you open a interactive Python session and import helics, you should be able to get the version of helics and an output that is similar to the following. $ ipython
Python 3.6.4 |Anaconda, Inc.| (default, Jan 16 2018, 12:04:33)
IPython 6.2.1 -- An enhanced Interactive Python. Type '?' for help.

In [1]: import helics

In [2]: helics.helicsGetVersion()
Out[2]: 'x.x.x (20XX-XX-XX)'


### Testing HELICS with MATLAB support¶

To run the MATLAB HELICS extension, one would have to load the helicsSharedLib in the MATLAB file. This is run by the helicsStartup function in the generated MATLAB files. You can test this by opening MATLAB from the terminal or using the icon.

/Applications/MATLAB_R2017b.app/bin/matlab -nodesktop -nosplash -nojvm


and running

>> helicsStartup


Note: See https://github.com/GMLC-TDC/HELICS/issues/763 if your installation doesn’t point the dylib to the correct location.

You can run the following in two separate windows to test an example from the following repository:

git clone https://github.com/GMLC-TDC/HELICS-examples


Run the following in one MATLAB instance

matlab -nodesktop -nosplash
cd ~/GitRepos/GMLC-TDC/HELICS-examples/matlab

matlab -nodesktop -nosplash