- Inherits from TSelector: Can be used with TTree::Process(), PROOF.
Improvements over TSelectors
- You can access the data in the C-style branches from C++ interface classes. After initial setup, using these classes incurs almost no overhead. With these classes, data can be easily passed into external functions, unlike the hard-coded-in-your-header-file TSelector data members. This enables the creation and usage of library code that can be shared amongst collaborators, including analysis actions.
- The TTree knows what your reaction was, so when you generate your DSelector code is automatically generated with this in mind: DParticleCombo + example code.
- Array sizes are no longer hard-coded (they are adaptively expanded). This means that you can generate your DSelector with one TTree, and keep using it regardless how much more data you get. With basic TSelector's, you have to regenerate your TSelector each time you get more data, in case it contains an event that needs a larger array size.
- You can use the exact same code when running directly over a tree, or with PROOF. With just a TSelector, you have to change a lot of code to switch between them.
Setting up the software & environment
1) Go to the directory where you want the source code to go. Checkout the software here:
git clone https://github.com/JeffersonLab/gluex_root_analysis
2) Set the path to the checked-out gluex_root_analysis directory to be the variable:
3) After sourcing your standard GlueX sim-recon environment file, source the environment file:
4) Build and install the software
cd $ROOT_ANALYSIS_HOME ./make_all.sh
Creating a DSelector
1) Run the MakeDSelector program to make a DSelector for your TTree. Run it with no arguments for usage instructions.
2) You can run the DSelector straight out of the box if you want to see what it does.
3) When customizing your DSelector be very careful to read ALL of the pre-generated comments. They are there for a reason.
4) Write code similar to the pre-generated code, and everything will work fine.
Using a DSelector
root -l -b my_tree_file.root .x $ROOT_ANALYSIS_HOME/scripts/Load_DSelector.C my_tree_name->Process("my_selector.C+"); .q
Using DSelector's with PROOF-Lite
- PROOF is ROOT's solution for running over a TChain multi-threaded.
- PROOF is for distributed computing, whereas PROOF-Lite is for running multi-threaded on your local machine.
- Note that each thread has it's own copy of ROOT histograms, and then they are merged together at the end. So, watch your memory usage, because it multiplies.
- The DSelector is automatically setup to work either with or without PROOF (or PROOF-Lite).
- Note: "cout" statements are written to log files, not to screen. If you want to print to screen, call:
1) It is highly recommended that you add the below line to your ~/.rootrc file (create it if it doesn't exist). This is the maximum number of previous sessions (thread files) that PROOF-Lite will keep on your disk. Once the max is reached, it will delete the oldest ones. At the moment the default is 10, so if you execute 2 simultaneous instances of PROOF-Lite with 8 threads each, it will break the first one, unless you increase this value.
2) After each time the DSelector library is built, (re-)build the PROOF DSelector package (this is done automatically by the "make_all.sh" file):
cd $ROOT_ANALYSIS_HOME/MakePROOFPackage/ ./build.sh
3) Launch ROOT, and load the DSelector library:
- Note: PROOF-Lite will launch a GUI, so run ROOT with -b if you don't want it. It's useful for viewing log files though.
root -l .x $ROOT_ANALYSIS_HOME/scripts/Load_DSelector.C
4) Run PROOF-Lite:
DPROOFLiteManager::Process_Tree("my_tree_file.root", "my_tree_name", "my_selector.C+", "my_outfile.root", my_num_threads); //my_num_threads = unsigned int