MVATrainer.h

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#ifndef PhysicsTools_MVATrainer_MVATrainer_h
#define PhysicsTools_MVATrainer_MVATrainer_h

#include <memory>
#include <string>
#include <map>

#include <xercesc/dom/DOM.hpp>

#include "FWCore/Utilities/interface/Exception.h"

#include "PhysicsTools/MVAComputer/interface/AtomicId.h"
#include "PhysicsTools/MVAComputer/interface/Calibration.h"
#include "PhysicsTools/MVAComputer/interface/Variable.h"
#include "PhysicsTools/MVAComputer/interface/MVAComputer.h"

#include "PhysicsTools/MVATrainer/interface/XMLDocument.h"
#include "PhysicsTools/MVATrainer/interface/SourceVariable.h"
#include "PhysicsTools/MVATrainer/interface/SourceVariableSet.h"
#include "PhysicsTools/MVATrainer/interface/TrainerMonitoring.h"

namespace PhysicsTools {

class Source;
class TrainProcessor;

class MVATrainer {
    public:
    MVATrainer(const std::string &fileName, bool useXSLT = false,
               const char *styleSheet = 0);
    ~MVATrainer();

    inline void setAutoSave(bool autoSave) { doAutoSave = autoSave; }
    inline void setCleanup(bool cleanup) { doCleanup = cleanup; }
    inline void setMonitoring(bool monitoring) { doMonitoring = monitoring; }
    inline void setRandomSeed(UInt_t seed) { randomSeed = seed; }
    inline void setCrossValidation(double split) { crossValidation = split; }

    void loadState();
    void saveState();

    Calibration::MVAComputer *getTrainCalibration() const;
    void doneTraining(Calibration::MVAComputer *trainCalibration) const;

    Calibration::MVAComputer *getCalibration() const;

    // used by TrainProcessors

    std::string trainFileName(const TrainProcessor *proc,
                              const std::string &ext,
                              const std::string &arg = "") const;

    inline const std::string &getName() const { return name; }

    TrainerMonitoring::Module *bookMonitor(const std::string &name);

    // constants

    static const AtomicId kTargetId;
    static const AtomicId kWeightId;

    struct CalibratedProcessor {
        CalibratedProcessor(TrainProcessor *processor,
                            Calibration::VarProcessor *calib) :
            processor(processor), calib(calib) {}

        TrainProcessor          *processor;
        Calibration::VarProcessor   *calib;
    };

    private:
    SourceVariable *getVariable(AtomicId source, AtomicId name) const;

    SourceVariable *createVariable(Source *source, AtomicId name,
                                   Variable::Flags flags);

    void fillInputVars(SourceVariableSet &vars,
                       XERCES_CPP_NAMESPACE_QUALIFIER DOMElement *xml);

    void fillOutputVars(SourceVariableSet &vars, Source *source,
                        XERCES_CPP_NAMESPACE_QUALIFIER DOMElement *xml);

    void makeProcessor(XERCES_CPP_NAMESPACE_QUALIFIER DOMElement *elem,
                       AtomicId id, const char *name);

    void connectProcessors(Calibration::MVAComputer *calib,
                           const std::vector<CalibratedProcessor> &procs,
                           bool withTarget) const;

    Calibration::MVAComputer *
    makeTrainCalibration(const AtomicId *compute,
                         const AtomicId *train) const;

    void
    findUntrainedComputers(std::vector<AtomicId> &compute,
                           std::vector<AtomicId> &train) const;

    std::vector<AtomicId> findFinalProcessors() const;

    std::map<AtomicId, Source*>     sources;
    std::vector<SourceVariable*>        variables;
    std::vector<AtomicId>           processors;
    Source                  *input;
    TrainProcessor              *output;

    std::auto_ptr<TrainerMonitoring>    monitoring;
    std::auto_ptr<XMLDocument>      xml;
    std::string             trainFileMask;
    std::string             name;
    bool                    doAutoSave;
    bool                    doCleanup;
    bool                    doMonitoring;

    UInt_t                  randomSeed;
    double                  crossValidation;
};

} // namespace PhysicsTools

#endif // PhysicsTools_MVATrainer_MVATrainer_h