Geant4.jl

Author JuliaHEP
Popularity
22 Stars
Updated Last
2 Months Ago
Started In
January 2023

Geant4

Dev Build Status Codecov

Julia bindings for the Geant4 particle transportation toolkit. It is using CxxWrap.jl package to wrap C++ types and functions to Julia. Since the Geant4 toolkit is rather large and complex, writing the wrapper code by hand is not really an option. For this, we use the package WrapIt that automates the generation of the wrapper code making use of the clang library.

Installation

The Geant4.jl package does no require any special installation. Stable releases are registered into the Julia general registry, and therefore can be deployed with the standard Pkg Julia package manager.

julia> using Pkg
julia> Pkg.add("Geant4")

Examples are located in a separate repository G4Examples to minimize dependencies since they use additional functionality such as graphics, plotting, analysis tools, etc. To use and play with the examples, the user can clone the examples repository and setup a complete Julia environment with:

$ git clone https://github.com/JuliaHEP/G4Examples.jl.git
$ julia --project=G4Examples.jl -e 'import Pkg; Pkg.instantiate()'

Getting started

Import the Geant4 module. All the wrapped Geant4 classes are exported since they are prefixed by G4 minimizing the chances of a name clash with other Julia symbols.

julia> using Geant4
julia> runManager = G4RunManager()
**************************************************************
 Geant4 version Name: geant4-11-01-patch-01 [MT]   (10-February-2023)
                       Copyright : Geant4 Collaboration
                      References : NIM A 506 (2003), 250-303
                                 : IEEE-TNS 53 (2006), 270-278
                                 : NIM A 835 (2016), 186-225
                             WWW : http://geant4.org/
**************************************************************

Geant4.G4RunManagerAllocated(Ptr{Nothing} @0x00007f9fcb6f9c50)

julia> methodswith(G4RunManager, supertypes=true)
[1] convert(t::Type{G4RunManager}, x::T) where T<:G4RunManager in Geant4 at /Users/mato/.julia/packages/CxxWrap/IdOJa/src/CxxWrap.jl:676
[2] AbortEvent(arg1::Union{CxxWrap.CxxWrapCore.CxxRef{<:G4RunManager}, Union{CxxWrap.CxxWrapCore.SmartPointer{T2}, T2} where T2<:G4RunManager}) in Geant4 at /Users/mato/.julia/packages/CxxWrap/IdOJa/src/CxxWrap.jl:618
...
[94] rndmSaveThisRun(arg1::Union{CxxWrap.CxxWrapCore.CxxRef{<:G4RunManager}, Union{CxxWrap.CxxWrapCore.SmartPointer{T2}, T2} where T2<:G4RunManager}) in Geant4 at /Users/mato/.julia/packages/CxxWrap/IdOJa/src/CxxWrap.jl:618

julia> v = GetVersionString(runManager)
ConstCxxRef{G4String}(Ptr{G4String} @0x00007ffed34df2d8)

julia> String(v)
" Geant4 version Name: geant4-11-01-patch-01 [MT]   (10-February-2023)"

Note that class methods are called with the object instance as first argument. In C++ the GetVersionString method would be called as runManager->GetVersionString() while in Julia it is called as GetVersionString(runManager). Thanks to the Julia multi-dispatch we do not need to prefix the methods with the module name Geant4.GetVersionString(runManager), even for very common function names such as mag.

julia> v = G4ThreeVector(1,2,3)
Geant4.CLHEP!Hep3VectorAllocated(Ptr{Nothing} @0x00007f9fcaf2a710)

julia> mag(v)
3.7416573867739413

The Geant4 system of units and physical constants are in separate sub-modules. You can import it with

using Geant4.SystemOfUnits
using using Geant4.PhysicalConstants

Only some basic units are always exported. If you need additional ones, you can do for example:

import Geant4.SystemOfUnits:tesla, candela

Running the tests

To run the tests execute julia --project=. test/runtests.jl

Running the examples

For the time being there are only some basic examples plus some more to illustrate some of the features. Place yourself in the checkout G4Examples.jl directory.

basic/B1

This is most basic example using a more Geant4 native interface.
To run it, execute julia --project=. basic/B1/B1.j or execute the notebook B1.ipynb

basic/B2a

Basic example using a sensitive detector to collect 'hits'.
To run it, execute julia --project=. basic/B2/B2a.jl

extended/RE03

Example using the Geant4 built-in scoring mechanism.
To run it, execute julia --project=. basic/B2/B2a.jl

TestEm3

This example comes from extended/electromagnetic/TestEm3 example. Since it requires additional packages such as FHist and Plots it has its own Julia environment in the folder examples/TestEm3. It is based on user actions.
To run it, execute julia --project=. -i extended/TestEm3/TestEm3.jl

WaterPhantom

Example in a notebook format similar to RE03 but with different primary particle generator (MedicalBeam) and using the scoring mechanism. Plots are produced after each run.

HBC30

Example script and in a notebook format of a bubble chamber in which we display the particle tracks for an event that passes the trigger. To run it, execute `julia --project=. advanced/HBC30/HBC30.jl``

Building the wrapper code

We use the Geant4 libraries and data from the binary package Geant4_jll, which has been produced with the BinaryBuilder recipe. The wrapper library is downloaded from the binary package Geant4_julia_jll.

In order to re-generate locally new C++ wrapper code we need to have wrapit installed, which itself requires libclang to be installed. Use the following command to generate and build the wrappers locally.

julia --project=Geant4.jl Geant4.jl/gen/build.jl

The C++ classes that get wrapped is controlled by the file gen/Geant4.wit. See the documentation of WrapIt for more details. If the wrappers library (libGeant4Wrap.so) is found locally, it uses it at loading of the Geant4.jl module in preference to the registered module Geant4_julia_jll. This is a convenient way to test new wrapped classes. Once the wrapper code is stabilized we can move the generated code to the repository Geant4_cxxwrap to regenerate the binary package Geant4_julia_jll using the BinaryBuilder.

Used By Packages

No packages found.