df016_vecOps.py

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## \file
## \ingroup tutorial_dataframe
## \notebook -draw
## This tutorial shows the potential of the VecOps approach for treating collections
## stored in datasets, a situation very common in HEP data analysis.
##
## \macro_image
## \macro_code
##
## \date February 2018
## \author Danilo Piparo
 
import ROOT
 
df = ROOT.RDataFrame(1024)
coordDefineCode = '''ROOT::VecOps::RVec<double> {0}(len);
                     std::transform({0}.begin(), {0}.end(), {0}.begin(), [](double){{return gRandom->Uniform(-1.0, 1.0);}});
                     return {0};'''
d = df.Define("len", "gRandom->Uniform(0, 16)")\
      .Define("x", coordDefineCode.format("x"))\
      .Define("y", coordDefineCode.format("y"))
 
# Now we have in hands d, a RDataFrame with two columns, x and y, which
# hold collections of coordinates. The size of these collections vary.
# Let's now define radii out of x and y. We'll do it treating the collections
# stored in the columns without looping on the individual elements.
d1 = d.Define("r", "sqrt(x*x + y*y)")
 
# Now we want to plot 2 quarters of a ring with radii .5 and 1
# Note how the cuts are performed on RVecs, comparing them with integers and
# among themselves
ring_h = d1.Define("rInFig", "r > .4 && r < .8 && x*y < 0")\
           .Define("yFig", "y[rInFig]")\
           .Define("xFig", "x[rInFig]")\
           .Histo2D(("fig", "Two quarters of a ring", 64, -1, 1, 64, -1, 1), "xFig", "yFig")
 
cring = ROOT.TCanvas()
ring_h.Draw("Colz")