/// \file /// \ingroup tutorial_dataframe /// \notebook -draw /// This tutorial shows how to write out datasets in ROOT formatusing the RDataFrame /// \macro_code /// /// \date April 2017 /// \author Danilo Piparo // A simple helper function to fill a test tree: this makes the example // stand-alone. void fill_tree(const char *treeName, const char *fileName) { ROOT::RDataFrame d(10000); int i(0); d.Define("b1", [&i]() { return i; }) .Define("b2", [&i]() { float j = i * i; ++i; return j; }) .Snapshot(treeName, fileName); } int df007_snapshot() { // We prepare an input tree to run on auto fileName = "df007_snapshot.root"; auto outFileName = "df007_snapshot_output.root"; auto outFileNameAllColumns = "df007_snapshot_output_allColumns.root"; auto treeName = "myTree"; fill_tree(treeName, fileName); // We read the tree from the file and create a RDataFrame. ROOT::RDataFrame d(treeName, fileName); // ## Select entries // We now select some entries in the dataset auto d_cut = d.Filter("b1 % 2 == 0"); // ## Enrich the dataset // Build some temporary columns: we'll write them out auto d2 = d_cut.Define("b1_square", "b1 * b1") .Define("b2_vector", [](float b2) { std::vector v; for (int i = 0; i < 3; i++) v.push_back(b2 * i); return v; }, {"b2"}); // ## Write it to disk in ROOT format // We now write to disk a new dataset with one of the variables originally // present in the tree and the new variables. // The user can explicitly specify the types of the columns as template // arguments of the Snapshot method, otherwise they will be automatically // inferred. d2.Snapshot(treeName, outFileName, {"b1", "b1_square", "b2_vector"}); // Open the new file and list the columns of the tree TFile f1(outFileName); auto t = f1.Get(treeName); std::cout << "These are the columns b1, b1_square and b2_vector:" << std::endl; for (auto branch : *t->GetListOfBranches()) { std::cout << "Branch: " << branch->GetName() << std::endl; } f1.Close(); // We are not forced to write the full set of column names. We can also // specify a regular expression for that. In case nothing is specified, all // columns are persistified. d2.Snapshot(treeName, outFileNameAllColumns); // Open the new file and list the columns of the tree TFile f2(outFileNameAllColumns); t = f2.Get(treeName); std::cout << "These are all the columns available to this dataframe:" << std::endl; for (auto branch : *t->GetListOfBranches()) { std::cout << "Branch: " << branch->GetName() << std::endl; } f2.Close(); // We can also get a fresh RDataFrame out of the snapshot and restart the // analysis chain from it. The default columns are the one selected. // Notice also how we can decide to be more explicit with the types of the // columns. auto snapshot_df = d2.Snapshot(treeName, outFileName, {"b1_square"}); auto h = snapshot_df->Histo1D(); auto c = new TCanvas(); h->DrawClone(); return 0; }