Skip to content

VukanJ/root_ranger

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

61 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

root_ranger

Tool for performing standard operations on root tuples

Prerequisites

  • A recent version of ROOT compiled using the C++17 standard
  • C++17 compiler

Installation

    make

Usage

Ranger can be imported into C++ and python scripts. User-friendly python bindings are defined in root_ranger.py. The working principle of Ranger is to define one or multiple "jobs" for each tree that should be applied in sequence and to execute them on one or multiple files.

Scope

Ranger is especially useful when working with array variables in root files that were created by the DecayTreeFitter

Features

  • Copying trees with selections and branch selections
  • Flattening of leaves with array dimension
  • Best primary vertex selection
  • Adding branches using arbitrarily complex formulas

Limitations

Ranger does not yet support boolean leaves

Example 1:

Copy a tree with a selection and rename the tree in the new file

    from root_ranger import Ranger

    ranger = Ranger("DTT.root")
    ranger.copy_tree("DecayTree", cut="BKGCAT==0",  dest="DecayTreeSignal")
    ranger.run("DTT_signal.root")

Example 2:

Copy the tree containing the integrated luminosity, perform a best primary vertex selection (assuming we used DecayTreeFitter) on another tree and only keep a subset of branches and apply a selection and repeat this procedure with 10 different files that have a similar structure.

    from root_ranger import Ranger

    ranger = Ranger("DTT_0.root")
    ranger.bpv_selection("DecayTree", branches=["B0_Fit*", "piminus*"],
                         bpv_branches="B0_Fit*",
                         cut=["some_chi2<30", "piminus_PT>1000"])
    ranger.copy_tree("GetIntegratedLuminosity/LumiTuple", dest="LumiTuple")

    ranger.run("DTT_truth_0.root")
    for i in range(1, 10):
        ranger.set_input_file("DTT_{0}.root".format(i))
        ranger.run("DTT_out{0}.root".format(i))

Here, we are keeping all branches that start with "B0_Fit" or "piminus". Wildcards can be used anywhere in the selection strings.

Example 3:

Do a bpv selection and flatten the array dimension of the same tree, but store the results in two different trees in the output file.

    from root_ranger import Ranger

    ranger = Ranger("DTT.root")
    ranger.bpv_selection("DecayTree", bpv_branches="B0_Fit*",  dest="DecayTree_bpv")
    ranger.flatten_tree("DecayTree",  flat_branches="B0_Fit*", dest="DecayTree_flat")

    ranger.run("DTT_out.root")

The same is possible using only the method 'add_selection'.

Example 4:

    from root_ranger import Ranger

    ranger = Ranger("DTT.root")
    ranger.add_selection("DecayTree", dest="DecayTree", cut="B0_M>5000", flat_branches="", bpv_branches="")
    ranger.add_selection("DecayTree", dest="DecayTree_flat", cut="B0_M>5000", flat_branches="B0_Fit*", bpv_branches="")
    ranger.add_selection("DecayTree", dest="DecayTree_bpv", cut="B0_M>5000", flat_branches="", bpv_branches="B0_Fit*")
    ranger.run("DTT_out.root")

It is not possible to flatten a tree and perform a best PV selection at the same time.

Example 5:

Apply a certain operation to a tree in a file, but then do something different with another file.

    from root_ranger import Ranger

    ranger = Ranger("DTT.root")
    ranger.bpv_selection("DecayTree", bpv_branches="B0_Fit*")

    ranger.run("DTT_out.root")

    ranger.reset() # Reset all previous job descriptions
    ranger.change_file("DTT_2.root")
    ranger.flatten_tree("DecayTree", flat_branches="B0_Fit*")

    ranger.run("DTT_2_out.root")

Alternatively, multiple Ranger instances can be used

Example 6:

Add the transverse momentum of kaons to the tuple and simultaneously apply a cut to it. Only write a certain list of branches to the new file.

    from root_ranger import Ranger

    keep_branches = [
        "*PT",       # All branches ending with PT
        "*M",        # All branches ending with M
        "KS0_P[XY]", # KS0_PX and KS0_PY
        "Kaon_PT"
    ]

    ranger = Ranger("DTT.root")
    ranger.add_formula("Kaon_PT", "TMath::Sqrt(#KS0_PX**2+#KS0_PY**2)")
    ranger.copy_tree("DecayTree", branches=keep_branches, cut="Kaon_PT>500")

    ranger.run("DTT_out.root")

The add_formula command adds another formula to a list of formulas that are added when the next tree is written. Branch names in formulas must start with '#'

About

No description or website provided.

Topics

Resources

License

Stars

Watchers

Forks

Packages

No packages published