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This guide provides a step-by-step walkthrough covering package and tool installation.
Work Area
The SLIC package and its dependencies will be installed into a common work area.
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Tip |
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The $sim_work/setup.sh script will henceforth be referred to as setup.sh. At the end, it will have all of the environment variables required by SLIC and its dependencies. Throughout the guide, any time a line is added to setup.sh, you should also execute this line in your current bash shell. Probably the easiest way to do this is by adding to the script first and then (re)sourcing it. |
Java
Java is required for LCIO installation.
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Info |
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Technically, installation of the LCIO C++ libraries only requires a Java JRE, but the JDK is useful for doing reconstruction and analysis where you may want to compile Java programs. |
Proceed to Package Installation!
You are now ready to install the simulation packages.
Tip |
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The same shell window should be used throughout the installation process in order to preserve the environment variables. |
Package Installations
CLHEP
CLHEP has installation instructions for version 1.9 and up. But you should not need them to setup the package.
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Now that the CLHEP dependency is satisfied, you should be able to install Geant4.
Geant4
Geant4 is probably the most difficult application to install of SLIC's dependencies, because there are a lot of options, it takes a long time, and it requires several different make commands. I will describe a minimal installation procedure with support for built-in UI and visualization drivers. You can always update the libraries later if you decide to change these settings.
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Hopefully, Geant4 has been installed successfully, and you don't have too many more gray hairs.
LCPhys
SLIC requires a special physics list written by Dennis Wright for Linear Collider physics.
- Go back to the work dir.
No Format cd $sim_wrk
- Checkout the physics list from CVS.
No Format cvs -d :pserver:anonymous@cvs.freehep.org:/cvs/lcd checkout LCPhys
- Assuming that the environment from the Geant4 installation is still in place, you can build this like any other physics list, and the library should be installed into $G4INSTALL/lib/plists/WIN32-g++.
No Format cd LCPhys make
- Set the LCPhys variable in setup.sh.
No Format LCPHYS_BASE=$sim_wrk/LCPhys
LCIO
LCIO provides binary output capabilities.
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- Go back to the work dir.
No Format cd $sim_wrk
- Checkout LCIO from CVS.
No Format cvs -d :pserver:anonymous@cvs.freehep.org:/cvs/lcio checkout lcio
- Add these lines to your setup.sh.
No Format export LCIO=${sim_wrk}/lcio export PATH=$LCIO/tools:$LCIO/bin:$PATH
- Build the libraries using the bundled aid and ant tools.
No Format ant aid.generate cpp
Xerces-C++
- Go back to the work dir, create a subdir for Xerces-C++, and go into it.
No Format cd $sim_wrk mkdir xercesc cd xercesc
- Download the Xerces tarball.
No Format wget http://www.apache.org/dist/xml/xerces-c/xerces-c-src_2_6_0.tar.gz
- Unzip the tarball.
No Format tar -zxvf xerces-c-src_2_6_0.tar.gz
- Set XERCESCROOT for the build in your environment, only.
No Format export XERCESCROOT=${sim_work}/xerces-c-src_2_6_0
- Go into the Xerces-C++ build area.
No Format cd xerces-c-src_2_6_0/src/xercesc
- Configure the build.
No Format runConfigure -plinux -cgcc -xg++ -minmem -nsocket -tnative -rpthread -P `cd ../../..; pwd`
- Build and install it.
No Format make make install
- In setup.sh, set XERCESCROOT to the installation area and add the DLL location to the PATH.
No Format export XERCESCROOT=${sim_work}/xercesc export PATH=$XERCESCROOT/bin:$PATH
Tip |
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When rebuilding Xerces-C++, which you will probably not need to do once you get it working, XERCESCROOT needs to be set back to the Xerces-C++ source area rather than the installation base. |
GDML
GDML's CVS is not directly accessible from the command line, but a tarball is available through a WWW interface.
- Download a snapshot of the current CVS head using this link in your browser: http://simu.cvs.cern.ch/cgi-bin/simu.cgi/simu/GDML2/GDML2.tar.gz?tarball=1.
- Save the tarball to sim_wrk, which should be C:\sim.
- Unzip the tarball.
No Format tar -zxvf GDML2.tar.gz
- Change into the CPPGDML directory.
No Format cd GDML2/CPPGDML
- Set GDML_BASE and PLATFORM in setup.sh.
No Format export GDML_BASE=${sim_work}/GDML2/CPPGDML export PLATFORM=cygwin_g++
- Configure the build.
No Format ./configure --enable-geant4-vis --enable-geant4-ui --with-geant4-libtype=granular --with-platform=cygwin_g++
- Build it.
No Format make
LCDD
- Go to the work dir and checkout LCDD.
No Format cd ${sim_work} cvs -d CVSROOT=:pserver:anonymous@cvs.freehep.org:/cvs/lcd checkout lcdd
- Go into the LCDD dir.
No Format cd lcdd
- Configure the build.
No Format ./configure
- Build the library.
No Format make
- Set the LCDD_BASE variable in setup.sh.
No Format export LCDD_BASE=${sim_work}/lcdd
SLIC
Finally, you are ready to install the simulation "hub" package. After this, you will have a fully-featured Geant4 simulator on your Windows machine.
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If the build completes successfully, you should see SLIC's usage statement from the test run.
Running SLIC after Installation
When you want to run later in a Cygwin shell, $XERCESCROOT/bin should be in the PATH, so that Windows can find the DLL at runtime. Since the other applications were linked-in statically, this should be the only setup requirement.
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If you receive an error message about a missing DLL cygxerces-c26.dll, then make sure that the PATH is setup correctly and Xerces-C++ was properly installed.
Final Setup Script
The final version of setup.sh should be similar to this.
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The above should be sufficient to "bootstrap" any future (re)builds.
Done!
That's it.
Happy simulating!
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If you think this guide could be improved in any way, then please contact the author