# Getting started¶

## Quick start¶

Acts is developed in C++ and is built using CMake. Building the core library requires a C++17 compatible compiler, Boost, and Eigen. The following commands will clone the repository, configure, and build the core library:

$git clone https://github.com/acts-project/acts <source-dir>$ cmake -B <build-dir> -S <source-dir>
$cmake --build <build-dir>  For a full list of dependencies, including specific versions, see the Prerequisites section below. Build options to activate additional components are described in the Build options section. ## Prerequisites¶ The following dependencies are required to build the Acts core library: • A C++17 compatible compiler (recent versions of either gcc and clang should work) • CMake >= 3.14 • Boost >= 1.71 with filesystem, program_options, and unit_test_framework • Eigen >= 3.3.7 The following dependencies are optional and are needed to build additional components: There are some additional dependencies that are automatically provided as part of the build system. These are usually not available through the system package manager and can be found in the thirdparty directory. All external dependencies must be provided prior to building Acts. Compatible versions of all dependencies are provided e.g. by the LCG releases starting from LCG 97apython3. Other options are also available and are discussed in the Building Acts section. ## Building Acts¶ Acts uses CMake to configure, build, and install the software. After checking out the repository code into a <source> directory, CMake is called first to configure the build into a separate <build> directory. A typical setup is to create a <source>/build directory within the sources, but this is just a convention; not a requirement. The following command runs the configuration and searches for the dependencies. The <build> directory is automatically created. $ cmake -B <build> -S <source>


The build can be configured via various options that are listed in detail in the Build options section. Options are set on the command line. The previous command could be e.g. modified to

$cmake -B <build> -S <source> -DACTS_BUILD_UNITTESTS=on -DACTS_BUILD_FATRAS=on  After the configuration succeeded, the software is build. This is also done with cmake via the following command $ cmake --build <build>


This automatically calls the configure build tool, e.g. Make or Ninja. To build only a specific target, the target names has to be separated from the CMake options by --, i.e.

$cmake --build <build> -- ActsFatras # to build the Fatras library  The build commands are the same regardless of where you are building the software. Depending on your build environment, there are different ways how to make the dependencies available. ### With a LCG release on CVMFS¶ If you have access to a machine running CVMFS, e.g. CERNs lxplus login machines, the dependencies can be easily satisfied via a LCG releases available through CVMFS. A setup script is provided to activate a compatible releases that can be used as follows: $ cd <source>
$source CI/setup_cvmfs_lcg.sh  After sourcing the setup script, you can build Acts as described above. The following commands will build Acts in the <source>/build directory with the Fatras component. $ cd <source>
$source CI/setup_cvmfs_lcg.sh$ cmake -B build -S . -DACTS_BUILD_FATRAS=on
$cmake --build build  ### In a container¶ A set of container images is available through the Acts container registry. The following containers are used as part of the continous integration setup and come with all dependencies pre-installed. • centos7-lcg97apython3-gcc9: based on CentOS 7 with HEP-specific software from LCG 97apython3 using the GCC 9 compiler • centos7-lcg98python3-gcc10: based on CentOS 7 with HEP-specific software from LCG 98python3 using the GCC 10 compiler • ubuntu2004: based on Ubuntu 20.04 with manual installation of HEP-specific software To use these locally, you first need to pull the relevant images from the registry. Stable versions are tagged as vX where X is the version number. The latest, potentially unstable, version is tagged as latest. To list all available tags, e.g. for the ubuntu2004 image, you can use the following command: $ docker search --list-tags ghcr.io/acts-project/ubuntu2004


The following command then downloads a stable tag of the ubuntu2004 image:

$docker pull ghcr.io/acts-project/ubuntu2004:v9  This should print the image id as part of the output. You can also find out the image id by running docker images to list all your locally available container images. Now, you need to start a shell within the container to run the build. Assuming that <source> is the path to your source checkout on your host machine, the following command will make the source directory available as /acts in the container and start an interactive bash shell $ docker run --volume=<source>:/acts:ro --interactive --tty <image> /bin/bash


where <image> is the image id that was previously mentioned. If you are using the Ubuntu-based image you are already good to go. For the images based on LCG releases, you can now activate the LCG release in the container shell by sourcing a setup script:

container $source /opt/lcg_view/setup.sh  Building Acts follows the instructions above with /acts as the source directory, e.g. container$ cmake -B build -S /acts -DACTS_BUILD_FATRAS=on
container $cmake --build build  ### On your local machine¶ Building and running Acts on your local machine is not offically supported. However, if you have the necessary prerequisites installed it is possible to use it locally. Acts developers regularly use different Linux distributions and macOS to build and develop Acts. ## Building the documentation¶ The documentation uses Doxygen to extract the source code documentation and Sphinx with the Breathe and Exhale extensions to generate the documentation website. To build the documentation locally, you need to have Doxygen installed from your package manager. Sphinx and its extensions can be installed using the Python package manager via $ cd <path/to/repository>
# --user installs to a user-specific directory instead of the system
$pip install --user -r docs/requirements.txt  To activate the documentation build targets, the ACTS_BUILD_DOCS option has to be set $ cmake -B <build-dir> -S <path/to/repository> -DACTS_BUILD_DOCS=on


Then the documentation can be build with either of the following two build targets

$cmake --build <build-dir> docs # default fast option # or$ cmake --build <build-dir> docs-with-api # full documentation


The default option includes the Doxygen, Sphinx, and the Breathe extension, i.e. the source code information can be used in the manually written documentation but the full API documentation is not generated. The second target builds the full documentation using Exhale to automatically generate the API documentation. This is equivalent to the public Read the Docs documentation, but the build takes around ten minutes to finish.

## Build options¶

CMake options can be set by adding -D<OPTION>=<VALUE> to the configuration command. The following command would e.g. enable the unit tests

$cmake -B <build-dir> -S <source-dir> -DACTS_BUILD_UNITTESTS=ON  Multiple options can be given. cmake caches the options so that only changed options must be specified in subsequent calls to configure the project. The following options are available to configure the project and enable optional components. Option Description ACTS_BUILD_EVERYTHING Build with most options enabled (except HepMC3 and documentation) ACTS_BUILD_PLUGIN_CUDA Build CUDA plugin ACTS_BUILD_PLUGIN_DD4HEP Build DD4hep geometry plugin ACTS_BUILD_PLUGIN_DIGITIZATION Build Digitization plugin ACTS_BUILD_PLUGIN_IDENTIFICATION Build Identification plugin ACTS_BUILD_PLUGIN_JSON Build Json plugin ACTS_BUILD_PLUGIN_LEGACY Build legacy plugin ACTS_BUILD_PLUGIN_ONNX Build ONNX plugin ACTS_BUILD_PLUGIN_SYCL Build SYCL plugin ACTS_BUILD_PLUGIN_TGEO Build TGeo plugin ACTS_BUILD_FATRAS Build FAst TRAcking Simulation package ACTS_BUILD_EXAMPLES Build standalone examples ACTS_BUILD_EXAMPLES_DD4HEP Build DD4hep-based code in the examples ACTS_BUILD_EXAMPLES_GEANT4 Build Geant4-based code in the examples ACTS_BUILD_EXAMPLES_HEPMC3 Build HepMC3-based code in the examples ACTS_BUILD_EXAMPLES_PYTHIA8 Build Pythia8-based code in the examples ACTS_BUILD_BENCHMARKS Build benchmarks ACTS_BUILD_INTEGRATIONTESTS Build integration tests ACTS_BUILD_UNITTESTS Build unit tests ACTS_BUILD_DOCS Build documentation ACTS_LOG_FAILURE_THRESHOLD Automatically fail when a log above the specified debug level is emitted (useful for automated tests) ACTS_PARAMETER_DEFINITIONS_HEADER Use a different (track) parameter definitions header ACTS_USE_SYSTEM_AUTODIFF Use autodiff provided by the system instead of the bundled version ACTS_USE_SYSTEM_NLOHMANN_JSON Use nlohmann::json provided by the system instead of the bundled version All Acts-specific options are disabled or empty by default and must be specifically requested. Some of the options have interdependencies that are automatically handled, e.g. enabling any of the specific ACTS_BUILD_EXAMPLES_... options will also enable the overall ACTS_BUILD_EXAMPLES option. You only need to tell the build system what you want and it will figure out the rest. In addition to the Acts-specific options, many generic options are available that modify various aspects of the build. The following options are some of the most common ones. For more details, have a look at the annotated list of useful CMake variables or at the CMake documentation. Option Description CMAKE_BUILD_TYPE Build type, e.g. Debug or Release; affects compiler flags (if not specified RelWithDebInfo will be used as a default) CMAKE_CXX_COMPILER Which C++ compiler to use, e.g. g++ or clang++ CMAKE_INSTALL_PREFIX Where to install Acts to CMAKE_PREFIX_PATH Search path for external packages The build is also affected by some environment variables. They can be set by prepending them to the configuration call: $ DD4hep_DIR=<path/to/dd4hep> cmake -B <build-dir> -S <source-dir>


The following environment variables might be useful.

Environment variable Description
DD4hep_DIR Search path for the DD4hep installation
HepMC3_DIR Search path for the HepMC3 installation
Pythia8_DIR Search path for the Pythia8 installation

## Using Acts¶

When using Acts in your own CMake-based project, you need to include the following lines in your CMakeLists.txt file:

find_package (Acts COMPONENTS comp1 comp2 ...)


where compX are the required components from the Acts project. See the cmake output for more information about which components are available.