The Filter-Value analysis package

Caleb Fangmeier ba6411da77 Adds basic event selection 7 years ago
examples 9a4380809f Adds example code for filval and the beginnings of TMVA integration in filval_root 7 years ago
README.md c778e95685 Introduces the filval analysis fromwork wip 8 years ago
api.hpp 4427df6a66 Finishes implementing TMVA integration 7 years ago
argparse.hpp d050852cda Adds ability to save fv::root containers to root files. 7 years ago
container.hpp 4850bd64ac Adds calculation of Top(Tri-jet) invarient mass 7 years ago
dataset.hpp 4427df6a66 Finishes implementing TMVA integration 7 years ago
filter.hpp ba6411da77 Adds basic event selection 7 years ago
filval.hpp 7cee2c915b changes MapOver to no longer require template arguments to be wrapped in tuple 7 years ago
log.hpp d050852cda Adds ability to save fv::root containers to root files. 7 years ago
value.hpp 4427df6a66 Finishes implementing TMVA integration 7 years ago

README.md

A FILter-VALue System

This is a header-only, generic, data analysis system that allows for creating performant generation of Plots. Plots contain Values and can make use of Filters. Filters can also depend of Values, and Values can depend on other Values. A Dataset is a generic object that contains a series of observations. The individual observations consist of a series of Observed Values. One can also define Derived Values which are calculated from Observed Values or other Derived Values. Care is taken automatically so Derived Values are calculated at most once per observation.

MyDataSet myDataSet("somefile.root", "tree"); // MyDataSet subclasses DataSet
TTreeValue<int> countmyDataSet;
myDataSet.addValue

Hist1D myplot(count, myDataSet, ); // Hist1D subclasses Plot