yangyong/Regression/trainReg.C

#include <cstdlib>
#include <iostream> 
#include <map>
#include <string>

#include "TChain.h"
#include "TFile.h"
#include "TTree.h"
#include "TString.h"
#include "TObjString.h"
#include "TSystem.h"
#include "TROOT.h"

#include "TMVARegGui.C"

#if not defined(__CINT__) || defined(__MAKECINT__)
#include "TMVA/Tools.h"
#include "TMVA/Factory.h"
#endif

using namespace TMVA;

int trainecal; 
int trainCut; 
TCut mycut;
TChain *fChain;


vector< pair<TString,TString> > vec_trainVar; 

#include "traincut.cc"
#include "trainvar.cc"

void trainReg(int test_trainecal, TString myMethodList = "BDTG" ) 
{

  
  trainecal = test_trainecal; 
  
  // The explicit loading of the shared libTMVA is done in TMVAlogon.C, defined in .rootrc
  // if you use your private .rootrc, or run from a different directory, please copy the 
  // corresponding lines from .rootrc

   // methods to be processed can be given as an argument; use format:
   //
   // mylinux~> root -l TMVARegression.C\(\"myMethod1,myMethod2,myMethod3\"\)
   //

   //---------------------------------------------------------------
   // This loads the library
   TMVA::Tools::Instance();

   // Default MVA methods to be trained + tested
   std::map<std::string,int> Use;

   // --- Mutidimensional likelihood and Nearest-Neighbour methods
   Use["PDERS"]           = 0;

   //Use["PDEFoam"]         = 1; 
   Use["PDEFoam"]         = 0; 

   Use["KNN"]             = 0;
   // 

   // --- Linear Discriminant Analysis
   Use["LD"]                    = 0;

   // 
   // --- Function Discriminant analysis
   Use["FDA_GA"]          = 1;
   
   Use["FDA_MC"]          = 0;
   Use["FDA_MT"]          = 0;
   Use["FDA_GAMT"]        = 0;
   // 
   // --- Neural Network
   Use["MLP"]             = 1; 
   // 
   // --- Support Vector Machine 
   Use["SVM"]             = 0;
   // 
   // --- Boosted Decision Trees
   Use["BDT"]             = 0;
   Use["BDTG"]            = 1;
   // ---------------------------------------------------------------
   
   std::cout << std::endl;
   std::cout << "==> Start TMVARegression" << std::endl;

   // Select methods (don't look at this code - not of interest)
   if (myMethodList != "") {
      for (std::map<std::string,int>::iterator it = Use.begin(); it != Use.end(); it++) it->second = 0;

      std::vector<TString> mlist = gTools().SplitString( myMethodList, ',' );
      for (UInt_t i=0; i<mlist.size(); i++) {
         std::string regMethod(mlist[i]);

         if (Use.find(regMethod) == Use.end()) {
            std::cout << "Method \"" << regMethod << "\" not known in TMVA under this name. Choose among the following:" << std::endl;
            for (std::map<std::string,int>::iterator it = Use.begin(); it != Use.end(); it++) std::cout << it->first << " ";
            std::cout << std::endl;
            return;
         }
         Use[regMethod] = 1;
      }
   }
   
   // --------------------------------------------------------------------------------------------------

   // --- Here the preparation phase begins
   
   // Create a new root output file
   
   TString outfileName( "TMVARegOutput.root" );
   
   TFile* outputFile = TFile::Open( outfileName, "RECREATE" );
   
   // Create the factory object. Later you can choose the methods
   // whose performance you'd like to investigate. The factory will
   // then run the performance analysis for you.
   //
   // The first argument is the base of the name of all the
   // weightfiles in the directory weight/ 
   //
   // The second argument is the output file for the training results
   // All TMVA output can be suppressed by removing the "!" (not) in 
   // front of the "Silent" argument in the option string
   TMVA::Factory *factory = new TMVA::Factory( "TMVARegression", outputFile, 
                                               "!V:!Silent:Color:!DrawProgressBar" );
   // If you wish to modify default settings 
   // (please check "src/Config.h" to see all available global options)
   //    (TMVA::gConfig().GetVariablePlotting()).fTimesRMS = 8.0;
   //    (TMVA::gConfig().GetIONames()).fWeightFileDir = "myWeightDirectory";
   
   // Define the input variables that shall be used for the MVA training
   // note that you may also use variable expressions, such as: "3*var1/var2*abs(var3)"
   // [all types of expressions that can also be parsed by TTree::Draw( "expression" )]
   

   //factory->AddVariable( "var1", "Variable 1", "units", 'F' );
   //factory->AddVariable( "var2", "Variable 2", "units", 'F' );

   
   fChain = new TChain("Analysis");
   fChain->Add("/mnt/hadoop/user/yangyong//data/photonTree/gjs6.root");
      
   
    // Apply additional cuts on the signal and background samples (can be different)
   ///TCut mycut = ""; // for example: TCut mycut = "abs(var1)<0.5 && abs(var2-0.5)<1";
   
   setTrainingCut();
   setTrainingVar();
   
   
   for(int j=0; j<int(vec_trainVar.size());j++){
     TString var = vec_trainVar[j].first;
     TString type = vec_trainVar[j].second;
     if( type == "F"){
       factory->AddVariable(var,'F');
     }else if( type == "I"){
       factory->AddVariable(var,'I');
     }else{
       cout<<"unknow type " << type <<endl; 
       return; 
     }
   }
   cout<<"factory var added " <<endl; 
   
   // You can add so-called "Spectator variables", which are not used in the MVA training, 
   // but will appear in the final "TestTree" produced by TMVA. This TestTree will contain the 
   // input variables, the response values of all trained MVAs, and the spectator variables
   ///factory->AddSpectator( "spec1:= var1* var1 + var1 * var2 + 3 * var1 + 2 * var2 + var2* var2",  "Spectator 1", "units", 'F' );
   //factory->AddSpectator( "spec2:=var1*3",  "Spectator 2", "units", 'F' );
   
   // Add the variable carrying the regression target
   //factory->AddTarget( "etrue/escraw"); 
   
   
   //barrel 
   if(trainecal ==1){
     factory->AddTarget( "etrue/escraw"); 
   }
   //endcap
   else if(trainecal==2){
     factory->AddTarget( "etrue/(escraw+eps)"); 
   }
   
   // It is also possible to declare additional targets for multi-dimensional regression, ie:
   // -- factory->AddTarget( "fvalue2" );
   // BUT: this is currently ONLY implemented for MLP

   // Read training and test data (see TMVAClassification for reading ASCII files)
   // load the signal and background event samples from ROOT trees
   
   // global event weights per tree (see below for setting event-wise weights)
   Double_t regWeight  = 1.0;   
   // You can add an arbitrary number of regression trees

   factory->AddRegressionTree( fChain, regWeight );
   
   
   // This would set individual event weights (the variables defined in the 
   // expression need to exist in the original TTree)
   
   // tell the factory to use all remaining events in the trees after training for testing:
   
   int nselected = fChain->GetEntries(mycut);
   cout<<" nselected " << nselected <<endl; 
   
   int ntrain; 
   int ntest; 
   
   
   //barrel 
   if(trainecal ==1){
     ntrain = 1500000;
   }
   //endcap
   else if(trainecal==2){
     ntrain = 1000000;
   }
   
   if( nselected <ntrain){
     cout<<"ntrain > nselected " << nselected <<" "<< ntrain <<endl; 
     return; 
   }
   
   ntest = nselected-ntrain;
   if( ntest > ntrain){
     ntest = ntrain; 
   }
   
   TString training = "nTrain_Regression="+TString(Form("%d",ntrain)) + ":nTest_Regression=" +TString(Form("%d",ntest)) + ":SplitMode=Random:NormMode=NumEvents:!V" ;
   
   factory->PrepareTrainingAndTestTree( mycut, training);
      
   
   // If no numbers of events are given, half of the events in the tree are used 
   // for training, and the other half for testing:
   //    factory->PrepareTrainingAndTestTree( mycut, "SplitMode=random:!V" );  
   
   // ---- Book MVA methods
   //
   // please lookup the various method configuration options in the corresponding cxx files, eg:
   // src/MethoCuts.cxx, etc, or here: http://tmva.sourceforge.net/optionRef.html
   // it is possible to preset ranges in the option string in which the cut optimisation should be done:
   // "...:CutRangeMin[2]=-1:CutRangeMax[2]=1"...", where [2] is the third input variable

   // PDE - RS method
   if (Use["PDERS"])
      factory->BookMethod( TMVA::Types::kPDERS, "PDERS", 
                           "!H:!V:NormTree=T:VolumeRangeMode=Adaptive:KernelEstimator=Gauss:GaussSigma=0.3:NEventsMin=40:NEventsMax=60:VarTransform=None" );
   // And the options strings for the MinMax and RMS methods, respectively:
   //      "!H:!V:VolumeRangeMode=MinMax:DeltaFrac=0.2:KernelEstimator=Gauss:GaussSigma=0.3" );   
   //      "!H:!V:VolumeRangeMode=RMS:DeltaFrac=3:KernelEstimator=Gauss:GaussSigma=0.3" );   

   if (Use["PDEFoam"])
       factory->BookMethod( TMVA::Types::kPDEFoam, "PDEFoam", 
                            "!H:!V:MultiTargetRegression=F:TargetSelection=Mpv:TailCut=0.001:VolFrac=0.0333:nActiveCells=500:nSampl=2000:nBin=5:Compress=T:Kernel=None:Nmin=10:VarTransform=None" );

   // K-Nearest Neighbour classifier (KNN)
   if (Use["KNN"])
      factory->BookMethod( TMVA::Types::kKNN, "KNN", 
                           "nkNN=20:ScaleFrac=0.8:SigmaFact=1.0:Kernel=Gaus:UseKernel=F:UseWeight=T:!Trim" );

   // Linear discriminant
   if (Use["LD"])
      factory->BookMethod( TMVA::Types::kLD, "LD", 
                           "!H:!V:VarTransform=None" );

        // Function discrimination analysis (FDA) -- test of various fitters - the recommended one is Minuit (or GA or SA)
   if (Use["FDA_MC"]) 
      factory->BookMethod( TMVA::Types::kFDA, "FDA_MC",
                          "!H:!V:Formula=(0)+(1)*x0+(2)*x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=MC:SampleSize=100000:Sigma=0.1:VarTransform=D" );
   
   if (Use["FDA_GA"]) // can also use Simulated Annealing (SA) algorithm (see Cuts_SA options) .. the formula of this example is good for parabolas
      factory->BookMethod( TMVA::Types::kFDA, "FDA_GA",
                           "!H:!V:Formula=(0)+(1)*x0+(2)*x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=GA:PopSize=100:Cycles=3:Steps=30:Trim=True:SaveBestGen=1:VarTransform=Norm" );

   if (Use["FDA_MT"]) 
      factory->BookMethod( TMVA::Types::kFDA, "FDA_MT",
                           "!H:!V:Formula=(0)+(1)*x0+(2)*x1:ParRanges=(-100,100);(-100,100);(-100,100);(-10,10):FitMethod=MINUIT:ErrorLevel=1:PrintLevel=-1:FitStrategy=2:UseImprove:UseMinos:SetBatch" );

   if (Use["FDA_GAMT"]) 
      factory->BookMethod( TMVA::Types::kFDA, "FDA_GAMT",
                           "!H:!V:Formula=(0)+(1)*x0+(2)*x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=GA:Converger=MINUIT:ErrorLevel=1:PrintLevel=-1:FitStrategy=0:!UseImprove:!UseMinos:SetBatch:Cycles=1:PopSize=5:Steps=5:Trim" );

   // Neural network (MLP)
   if (Use["MLP"])
     factory->BookMethod( TMVA::Types::kMLP, "MLP", "!H:!V:VarTransform=Norm:NeuronType=tanh:NCycles=20000:HiddenLayers=N+20:TestRate=6:TrainingMethod=BFGS:Sampling=0.3:SamplingEpoch=0.8:ConvergenceImprove=1e-6:ConvergenceTests=15:!UseRegulator" );

   // Support Vector Machine
   if (Use["SVM"])
      factory->BookMethod( TMVA::Types::kSVM, "SVM", "Gamma=0.25:Tol=0.001:VarTransform=Norm" );

   // Boosted Decision Trees
   if (Use["BDT"])
     factory->BookMethod( TMVA::Types::kBDT, "BDT",
                           "!H:!V:NTrees=100:nEventsMin=5:BoostType=AdaBoostR2:SeparationType=RegressionVariance:nCuts=20:PruneMethod=CostComplexity:PruneStrength=30" );
   
   if (Use["BDTG"]){
     factory->BookMethod( TMVA::Types::kBDT, "BDTG","!H:!V:nEventsMin=200:NTrees=100::BoostType=Grad:Shrinkage=0.1:UseYesNoLeaf=F:nCuts=2000:MaxDepth=100:NNodesMax=100000" );
   }
   
   // --------------------------------------------------------------------------------------------------

   // ---- Now you can tell the factory to train, test, and evaluate the MVAs

   // 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 << "==> TMVARegression is done!" << std::endl;      

   delete factory;

   // Launch the GUI for the root macros
   //if (!gROOT->IsBatch()) TMVARegGui( outfileName );
}
Revision:	1.1
Committed:	Mon May 14 11:42:54 2012 UTC (12 years, 11 months ago) by yangyong
Content type:	text/plain
Branch:	MAIN
CVS Tags:	V00-00-01, HEAD
Log Message:	train regression in tmva
#	Content
1	#include <cstdlib>
2	#include <iostream>
3	#include <map>
4	#include <string>
5
6	#include "TChain.h"
7	#include "TFile.h"
8	#include "TTree.h"
9	#include "TString.h"
10	#include "TObjString.h"
11	#include "TSystem.h"
12	#include "TROOT.h"
13
14	#include "TMVARegGui.C"
15
16	#if not defined(__CINT__) \|\| defined(__MAKECINT__)
17	#include "TMVA/Tools.h"
18	#include "TMVA/Factory.h"
19	#endif
20
21	using namespace TMVA;
22
23	int trainecal;
24	int trainCut;
25	TCut mycut;
26	TChain *fChain;
27
28
29
30	vector< pair<TString,TString> > vec_trainVar;
31
32	#include "traincut.cc"
33	#include "trainvar.cc"
34
35	void trainReg(int test_trainecal, TString myMethodList = "BDTG" )
36	{
37
38
39	trainecal = test_trainecal;
40
41	// The explicit loading of the shared libTMVA is done in TMVAlogon.C, defined in .rootrc
42	// if you use your private .rootrc, or run from a different directory, please copy the
43	// corresponding lines from .rootrc
44
45	// methods to be processed can be given as an argument; use format:
46	//
47	// mylinux~> root -l TMVARegression.C\(\"myMethod1,myMethod2,myMethod3\"\)
48	//
49
50	//---------------------------------------------------------------
51	// This loads the library
52	TMVA::Tools::Instance();
53
54	// Default MVA methods to be trained + tested
55	std::map<std::string,int> Use;
56
57	// --- Mutidimensional likelihood and Nearest-Neighbour methods
58	Use["PDERS"] = 0;
59
60	//Use["PDEFoam"] = 1;
61	Use["PDEFoam"] = 0;
62
63	Use["KNN"] = 0;
64	//
65
66	// --- Linear Discriminant Analysis
67	Use["LD"] = 0;
68
69	//
70	// --- Function Discriminant analysis
71	Use["FDA_GA"] = 1;
72
73	Use["FDA_MC"] = 0;
74	Use["FDA_MT"] = 0;
75	Use["FDA_GAMT"] = 0;
76	//
77	// --- Neural Network
78	Use["MLP"] = 1;
79	//
80	// --- Support Vector Machine
81	Use["SVM"] = 0;
82	//
83	// --- Boosted Decision Trees
84	Use["BDT"] = 0;
85	Use["BDTG"] = 1;
86	// ---------------------------------------------------------------
87
88	std::cout << std::endl;
89	std::cout << "==> Start TMVARegression" << std::endl;
90
91	// Select methods (don't look at this code - not of interest)
92	if (myMethodList != "") {
93	for (std::map<std::string,int>::iterator it = Use.begin(); it != Use.end(); it++) it->second = 0;
94
95	std::vector<TString> mlist = gTools().SplitString( myMethodList, ',' );
96	for (UInt_t i=0; i<mlist.size(); i++) {
97	std::string regMethod(mlist[i]);
98
99	if (Use.find(regMethod) == Use.end()) {
100	std::cout << "Method \"" << regMethod << "\" not known in TMVA under this name. Choose among the following:" << std::endl;
101	for (std::map<std::string,int>::iterator it = Use.begin(); it != Use.end(); it++) std::cout << it->first << " ";
102	std::cout << std::endl;
103	return;
104	}
105	Use[regMethod] = 1;
106	}
107	}
108
109	// --------------------------------------------------------------------------------------------------
110
111	// --- Here the preparation phase begins
112
113	// Create a new root output file
114
115	TString outfileName( "TMVARegOutput.root" );
116
117	TFile* outputFile = TFile::Open( outfileName, "RECREATE" );
118
119	// Create the factory object. Later you can choose the methods
120	// whose performance you'd like to investigate. The factory will
121	// then run the performance analysis for you.
122	//
123	// The first argument is the base of the name of all the
124	// weightfiles in the directory weight/
125	//
126	// The second argument is the output file for the training results
127	// All TMVA output can be suppressed by removing the "!" (not) in
128	// front of the "Silent" argument in the option string
129	TMVA::Factory *factory = new TMVA::Factory( "TMVARegression", outputFile,
130	"!V:!Silent:Color:!DrawProgressBar" );
131	// If you wish to modify default settings
132	// (please check "src/Config.h" to see all available global options)
133	// (TMVA::gConfig().GetVariablePlotting()).fTimesRMS = 8.0;
134	// (TMVA::gConfig().GetIONames()).fWeightFileDir = "myWeightDirectory";
135
136	// Define the input variables that shall be used for the MVA training
137	// note that you may also use variable expressions, such as: "3var1/var2abs(var3)"
138	// [all types of expressions that can also be parsed by TTree::Draw( "expression" )]
139
140
141	//factory->AddVariable( "var1", "Variable 1", "units", 'F' );
142	//factory->AddVariable( "var2", "Variable 2", "units", 'F' );
143
144
145	fChain = new TChain("Analysis");
146	fChain->Add("/mnt/hadoop/user/yangyong//data/photonTree/gjs6.root");
147
148
149	// Apply additional cuts on the signal and background samples (can be different)
150	///TCut mycut = ""; // for example: TCut mycut = "abs(var1)<0.5 && abs(var2-0.5)<1";
151
152	setTrainingCut();
153	setTrainingVar();
154
155
156	for(int j=0; j<int(vec_trainVar.size());j++){
157	TString var = vec_trainVar[j].first;
158	TString type = vec_trainVar[j].second;
159	if( type == "F"){
160	factory->AddVariable(var,'F');
161	}else if( type == "I"){
162	factory->AddVariable(var,'I');
163	}else{
164	cout<<"unknow type " << type <<endl;
165	return;
166	}
167	}
168	cout<<"factory var added " <<endl;
169
170	// You can add so-called "Spectator variables", which are not used in the MVA training,
171	// but will appear in the final "TestTree" produced by TMVA. This TestTree will contain the
172	// input variables, the response values of all trained MVAs, and the spectator variables
173	///factory->AddSpectator( "spec1:= var1* var1 + var1 * var2 + 3 * var1 + 2 * var2 + var2* var2", "Spectator 1", "units", 'F' );
174	//factory->AddSpectator( "spec2:=var1*3", "Spectator 2", "units", 'F' );
175
176	// Add the variable carrying the regression target
177	//factory->AddTarget( "etrue/escraw");
178
179
180
181	//barrel
182	if(trainecal ==1){
183	factory->AddTarget( "etrue/escraw");
184	}
185	//endcap
186	else if(trainecal==2){
187	factory->AddTarget( "etrue/(escraw+eps)");
188	}
189
190	// It is also possible to declare additional targets for multi-dimensional regression, ie:
191	// -- factory->AddTarget( "fvalue2" );
192	// BUT: this is currently ONLY implemented for MLP
193
194	// Read training and test data (see TMVAClassification for reading ASCII files)
195	// load the signal and background event samples from ROOT trees
196
197	// global event weights per tree (see below for setting event-wise weights)
198	Double_t regWeight = 1.0;
199	// You can add an arbitrary number of regression trees
200
201	factory->AddRegressionTree( fChain, regWeight );
202
203
204
205	// This would set individual event weights (the variables defined in the
206	// expression need to exist in the original TTree)
207
208	// tell the factory to use all remaining events in the trees after training for testing:
209
210	int nselected = fChain->GetEntries(mycut);
211	cout<<" nselected " << nselected <<endl;
212
213	int ntrain;
214	int ntest;
215
216
217	//barrel
218	if(trainecal ==1){
219	ntrain = 1500000;
220	}
221	//endcap
222	else if(trainecal==2){
223	ntrain = 1000000;
224	}
225
226	if( nselected <ntrain){
227	cout<<"ntrain > nselected " << nselected <<" "<< ntrain <<endl;
228	return;
229	}
230
231	ntest = nselected-ntrain;
232	if( ntest > ntrain){
233	ntest = ntrain;
234	}
235
236	TString training = "nTrain_Regression="+TString(Form("%d",ntrain)) + ":nTest_Regression=" +TString(Form("%d",ntest)) + ":SplitMode=Random:NormMode=NumEvents:!V" ;
237
238	factory->PrepareTrainingAndTestTree( mycut, training);
239
240
241	// If no numbers of events are given, half of the events in the tree are used
242	// for training, and the other half for testing:
243	// factory->PrepareTrainingAndTestTree( mycut, "SplitMode=random:!V" );
244
245	// ---- Book MVA methods
246	//
247	// please lookup the various method configuration options in the corresponding cxx files, eg:
248	// src/MethoCuts.cxx, etc, or here: http://tmva.sourceforge.net/optionRef.html
249	// it is possible to preset ranges in the option string in which the cut optimisation should be done:
250	// "...:CutRangeMin[2]=-1:CutRangeMax[2]=1"...", where [2] is the third input variable
251
252	// PDE - RS method
253	if (Use["PDERS"])
254	factory->BookMethod( TMVA::Types::kPDERS, "PDERS",
255	"!H:!V:NormTree=T:VolumeRangeMode=Adaptive:KernelEstimator=Gauss:GaussSigma=0.3:NEventsMin=40:NEventsMax=60:VarTransform=None" );
256	// And the options strings for the MinMax and RMS methods, respectively:
257	// "!H:!V:VolumeRangeMode=MinMax:DeltaFrac=0.2:KernelEstimator=Gauss:GaussSigma=0.3" );
258	// "!H:!V:VolumeRangeMode=RMS:DeltaFrac=3:KernelEstimator=Gauss:GaussSigma=0.3" );
259
260	if (Use["PDEFoam"])
261	factory->BookMethod( TMVA::Types::kPDEFoam, "PDEFoam",
262	"!H:!V:MultiTargetRegression=F:TargetSelection=Mpv:TailCut=0.001:VolFrac=0.0333:nActiveCells=500:nSampl=2000:nBin=5:Compress=T:Kernel=None:Nmin=10:VarTransform=None" );
263
264	// K-Nearest Neighbour classifier (KNN)
265	if (Use["KNN"])
266	factory->BookMethod( TMVA::Types::kKNN, "KNN",
267	"nkNN=20:ScaleFrac=0.8:SigmaFact=1.0:Kernel=Gaus:UseKernel=F:UseWeight=T:!Trim" );
268
269	// Linear discriminant
270	if (Use["LD"])
271	factory->BookMethod( TMVA::Types::kLD, "LD",
272	"!H:!V:VarTransform=None" );
273
274	// Function discrimination analysis (FDA) -- test of various fitters - the recommended one is Minuit (or GA or SA)
275	if (Use["FDA_MC"])
276	factory->BookMethod( TMVA::Types::kFDA, "FDA_MC",
277	"!H:!V:Formula=(0)+(1)x0+(2)x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=MC:SampleSize=100000:Sigma=0.1:VarTransform=D" );
278
279	if (Use["FDA_GA"]) // can also use Simulated Annealing (SA) algorithm (see Cuts_SA options) .. the formula of this example is good for parabolas
280	factory->BookMethod( TMVA::Types::kFDA, "FDA_GA",
281	"!H:!V:Formula=(0)+(1)x0+(2)x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=GA:PopSize=100:Cycles=3:Steps=30:Trim=True:SaveBestGen=1:VarTransform=Norm" );
282
283	if (Use["FDA_MT"])
284	factory->BookMethod( TMVA::Types::kFDA, "FDA_MT",
285	"!H:!V:Formula=(0)+(1)x0+(2)x1:ParRanges=(-100,100);(-100,100);(-100,100);(-10,10):FitMethod=MINUIT:ErrorLevel=1:PrintLevel=-1:FitStrategy=2:UseImprove:UseMinos:SetBatch" );
286
287	if (Use["FDA_GAMT"])
288	factory->BookMethod( TMVA::Types::kFDA, "FDA_GAMT",
289	"!H:!V:Formula=(0)+(1)x0+(2)x1:ParRanges=(-100,100);(-100,100);(-100,100):FitMethod=GA:Converger=MINUIT:ErrorLevel=1:PrintLevel=-1:FitStrategy=0:!UseImprove:!UseMinos:SetBatch:Cycles=1:PopSize=5:Steps=5:Trim" );
290
291	// Neural network (MLP)
292	if (Use["MLP"])
293	factory->BookMethod( TMVA::Types::kMLP, "MLP", "!H:!V:VarTransform=Norm:NeuronType=tanh:NCycles=20000:HiddenLayers=N+20:TestRate=6:TrainingMethod=BFGS:Sampling=0.3:SamplingEpoch=0.8:ConvergenceImprove=1e-6:ConvergenceTests=15:!UseRegulator" );
294
295	// Support Vector Machine
296	if (Use["SVM"])
297	factory->BookMethod( TMVA::Types::kSVM, "SVM", "Gamma=0.25:Tol=0.001:VarTransform=Norm" );
298
299	// Boosted Decision Trees
300	if (Use["BDT"])
301	factory->BookMethod( TMVA::Types::kBDT, "BDT",
302	"!H:!V:NTrees=100:nEventsMin=5:BoostType=AdaBoostR2:SeparationType=RegressionVariance:nCuts=20:PruneMethod=CostComplexity:PruneStrength=30" );
303
304	if (Use["BDTG"]){
305	factory->BookMethod( TMVA::Types::kBDT, "BDTG","!H:!V:nEventsMin=200:NTrees=100::BoostType=Grad:Shrinkage=0.1:UseYesNoLeaf=F:nCuts=2000:MaxDepth=100:NNodesMax=100000" );
306	}
307
308	// --------------------------------------------------------------------------------------------------
309
310	// ---- Now you can tell the factory to train, test, and evaluate the MVAs
311
312	// Train MVAs using the set of training events
313	factory->TrainAllMethods();
314
315	// ---- Evaluate all MVAs using the set of test events
316
317	// factory->TestAllMethods();
318
319	// ----- Evaluate and compare performance of all configured MVAs
320
321	// factory->EvaluateAllMethods();
322
323	// --------------------------------------------------------------
324
325	// Save the output
326	outputFile->Close();
327
328	std::cout << "==> Wrote root file: " << outputFile->GetName() << std::endl;
329	std::cout << "==> TMVARegression is done!" << std::endl;
330
331	delete factory;
332
333	// Launch the GUI for the root macros
334	//if (!gROOT->IsBatch()) TMVARegGui( outfileName );
335	}