#include #include #include #include #include "TChain.h" #include "TFile.h" #include "TTree.h" #include "TString.h" #include "TObjString.h" #include "TSystem.h" #include "TROOT.h" #ifndef __CINT__ #include "TMVA/Tools.h" #include "TMVA/Factory.h" #endif using namespace TMVA; void Boost(){ // This loads the library TMVA::Tools::Instance(); // to get access to the GUI and all tmva macros TString tmva_dir(TString(gRootDir) + "/tmva"); if(gSystem->Getenv("TMVASYS")) tmva_dir = TString(gSystem->Getenv("TMVASYS")); gROOT->SetMacroPath(tmva_dir + "/test/:" + gROOT->GetMacroPath() ); gROOT->ProcessLine(".L TMVAGui.C"); TString outfileName = "boost.root"; TFile* outputFile = TFile::Open( outfileName, "RECREATE" ); TMVA::Factory *factory = new TMVA::Factory( "TMVAClassification", outputFile, "!V:!Silent:Color:DrawProgressBar:Transformations=I;D;P;G,D" ); factory->AddVariable( "var0", 'F' ); factory->AddVariable( "var1", 'F' ); TFile *input(0); TString fname = "./data.root"; if (!gSystem->AccessPathName( fname )) { // first we try to find tmva_example.root in the local directory std::cout << "--- BOOST : Accessing " << fname << std::endl; input = TFile::Open( fname ); } else { gROOT->LoadMacro( "./createData.C"); create_circ(20000); cout << " created data.root with data and circle arranged in half circles"<Get("TreeS"); TTree *background = (TTree*)input->Get("TreeB"); Double_t signalWeight = 1.0; Double_t backgroundWeight = 1.0; gROOT->cd( outfileName+TString(":/") ); factory->AddSignalTree ( signal, signalWeight ); factory->AddBackgroundTree( background, backgroundWeight ); factory->PrepareTrainingAndTestTree( "", "", "nTrain_Signal=0:nTrain_Background=0:SplitMode=Random:NormMode=NumEvents:!V" ); TString fisher="H:!V"; TString mlp = "H:!V:NeuronType=tanh:NCycles=100:HiddenLayers=N:TestRate=5:!UseRegulator"; factory->BookMethod( TMVA::Types::kFisher, "Fisher", fisher ); factory->BookMethod( TMVA::Types::kFisher, "FisherBoost", fisher+":Boost_Num=10:Boost_Type=AdaBoost" ); factory->BookMethod(TMVA::Types::kMLP, "MLP", mlp); factory->BookMethod(TMVA::Types::kMLP, "BoostedMLP", mlp+":Boost_Num=3:Boost_Type=AdaBoost:Boost_Transform=linear:" ); //factory->BookMethod( TMVA::Types::kFisher, "FisherBoostLog", fisher+":Boost_Num=100:Boost_Transform=log:Boost_Type=AdaBoost:Boost_AdaBoostBeta=1.0" ); //factory->BookMethod( TMVA::Types::kFisher, "FisherBoostLog2", fisher+":Boost_Num=100:Boost_Transform=log:Boost_Type=AdaBoost:Boost_AdaBoostBeta=2.0" ); //factory->BookMethod( TMVA::Types::kFisher, "FisherBoostStep", fisher+":Boost_Num=100:Boost_Transform=step:Boost_Type=AdaBoost:Boost_AdaBoostBeta=1.0" ); //factory->BookMethod( TMVA::Types::kFisher, "FisherBoostStep2", fisher+":Boost_Num=100:Boost_Transform=step:Boost_Type=AdaBoost:Boost_AdaBoostBeta=1.2" ); //factory->BookMethod( TMVA::Types::kFisher, "FisherBoostStep3", fisher+":Boost_Num=100:Boost_Transform=step:Boost_Type=AdaBoost:Boost_AdaBoostBeta=1.5" ); // Train MVAs using the set of training events factory->TrainAllMethods(); // ---- Evaluate all MVAs using the set of test events factory->TestAllMethods(); // ----- Evaluate and compare performance of all configured MVAs factory->EvaluateAllMethods(); // -------------------------------------------------------------- // Save the output outputFile->Close(); std::cout << "==> Wrote root file: " << outputFile->GetName() << std::endl; std::cout << "==> TMVAClassification is done!" << std::endl; delete factory; // Launch the GUI for the root macros if (!gROOT->IsBatch()) TMVAGui( outfileName ); }