If you are on lxplus, all the necessary software is preinstalled if you use a recent LCG or Key4hep stack release.
On Mac OS or Ubuntu, you need to install the following software.
Install ROOT 6.08.06 (or later) and set up your ROOT environment:
source <root_path>/bin/thisroot.sh
Podio uses Catch2 v3 for some
unittests. By default it will look for a suitable external version of this
library already installed (an available on the CMAKE_PREFIX_PATH
) and use that
if possible. In case no suitable version is found podio will fetch a copmatible
version and build that automatically. This behavior is controlled via the
USE_EXTERNAL_CATCH2
cmake variable. It defaults to AUTO
but can also be set
to ON
or OFF
to fully control the desired behavior.
Check your Python version by doing:
python --version
or
python3 --version
depending on your used system.
Podio requires the yaml
and jinja2
python modules.
Check that the yaml
and jinja2
python modules are available
python
>>> import yaml
>>> import jinja2
If the import goes fine (no message), you're all set. If not, the necessary modules need to be installed. This is most easily done via (first install pip if you don't have it yet)
pip install -r requirements.txt
In order for the yaml
module to be working it might also be necessary to install the C++ yaml library. On Mac OS, The easiest way to do that is to use homebrew (install homebrew if you don't have it yet):
brew install libyaml
Check that you can now import the yaml
and jinja2
modules in python.
Some tools have additional dependencies that are not required for code generation or library use
graphviz
is required forpodio-vis
tabulate
is required forpodio-dump
Full use of PODIO requires you to set the PODIO
environment variable
and modify LD_LIBRARY_PATH
and PYTHONPATH
. Some convenience scripts
are provided:
# Set PODIO install area to `./install` and setup environment accordingly
source ./init.sh
or
# Setup environment based on current value of `PODIO`
source ./env.sh
Or you can setup the environment entirely under your control: see init.sh
and env.sh
.
If you are using the easy setup from init.sh
then create separate build
and install areas, and trigger the build:
mkdir build
mkdir install
cd build
cmake -DCMAKE_INSTALL_PREFIX=../install ..
make -j 4 install
To see a list of options, do this in the build-directory:
cmake -LH ..
After compilation you can run unit tests as well as some integration level tests that check the full I/O circle via
ctest --output-on-failure
These tests also create some example files and read them back.
A recipe for building podio is included with the spack package manager, so podio can also installed with:
spack install podio
Note that if you do not have any previous installations or registered system packages, this will compile ROOT and all its dependencies, which may be time-consuming.
Podio features an example event data model, fully described in the yaml file tests/datalayout.yaml. The C++ in tests/datamodel/ has been fully generated by a code generation script, python/podio_class_generator.py.
To run the code generation script, do
python ../python/podio_class_generator.py ../tests/datalayout.yaml ../Tmp data ROOT
The generation script has the following additional options:
--clangformat
(-c
): Apply clang-format after file creation (uses option-style=file
with llvm as backup style), needs clang-format in$PATH
.--quiet
(-q
): Suppress all print out to STDOUT--dryrun
(-d
): Only run the generation logic and validate yaml, do not write files to disk--lang
(-l
): Specify the programming language (default: cpp), choices: cpp, julia
To run workflows manually (for example, when working on your own fork) go to
Actions
then click on the workflow that you want to run (for example
edm4hep
). Then if the workflow has the workflow_dispatch
trigger you will be
able to run it by clicking Run workflow
and selecting on which branch it will
run.
It is possible to instrument the complete podio build with sanitizers using the
USE_SANITIZER
cmake option. Currently Address
, Memory[WithOrigin]
,
Undefined
and Thread
are available. Given the sanitizers limitations they
are more or less mutually exclusive, with the exception of Address;Undefined
.
Currently some of the tests will fail with sanitizers enabled
(issue). In order to allow for a
smoother development experience with sanitizers enabled, these failing tests are
labelled (e.g. [ASAN-FAIL]
or [THREAD-FAIL]
) and will not be run by default
if the corresponding sanitizer is enabled. It is possible to force all tests to
be run via the FORCE_RUN_ALL_TESTS
cmake option.
There is a tool to generate a diagram of the relationships between the elements
in a model. To generate a diagram run python python/tools/podio-vis model.yaml
and use --help
for checking the possible options. In particular there is the
option --graph-conf
that can be used to pass a configuration file defining
groups that will be clustered together in the diagram, like it is shown in. The
syntax is
group label:
- datatype1
- datatype2
another group label:
- datatype3
- datatype4
Additionally, it is possible to remove from the diagram any
data type (let's call it removed_datatype
) by adding to this configuration file:
Filter:
- removed_datatype