00001 #ifndef PhysicsTools_MVATrainer_MVATrainerLooper_h 00002 #define PhysicsTools_MVATrainer_MVATrainerLooper_h 00003 00004 #include <string> 00005 #include <vector> 00006 #include <memory> 00007 00008 #include <boost/shared_ptr.hpp> 00009 00010 #include "FWCore/Framework/interface/ESProducerLooper.h" 00011 #include "FWCore/ParameterSet/interface/ParameterSet.h" 00012 00013 #include "CondFormats/PhysicsToolsObjects/interface/MVAComputer.h" 00014 #include "PhysicsTools/MVATrainer/interface/MVATrainer.h" 00015 00016 namespace PhysicsTools { 00017 00018 class MVATrainerLooper : public edm::ESProducerLooper { 00019 public: 00020 MVATrainerLooper(const edm::ParameterSet ¶ms); 00021 virtual ~MVATrainerLooper(); 00022 00023 virtual void startingNewLoop(unsigned int iteration); 00024 virtual Status duringLoop(const edm::Event &ev, 00025 const edm::EventSetup &es); 00026 virtual Status endOfLoop(const edm::EventSetup &es, 00027 unsigned int iteration); 00028 00029 typedef boost::shared_ptr<Calibration::MVAComputer> TrainObject; 00030 typedef boost::shared_ptr<Calibration::MVAComputerContainer> 00031 TrainContainer; 00032 00033 template<class T> 00034 static inline bool isUntrained(const T *ptr); 00035 00036 protected: 00037 class Trainer { 00038 public: 00039 Trainer(const edm::ParameterSet ¶ms); 00040 virtual ~Trainer() {} 00041 00042 inline const MVATrainer *getTrainer() const 00043 { return trainer.get(); } 00044 inline const TrainObject getCalibration() const 00045 { return trainCalib; } 00046 00047 private: 00048 friend class MVATrainerLooper; 00049 00050 std::auto_ptr<MVATrainer> trainer; 00051 TrainObject trainCalib; 00052 }; 00053 00054 class TrainerContainer { 00055 public: 00056 ~TrainerContainer(); 00057 void clear(); 00058 00059 typedef std::vector<Trainer*>::const_iterator const_iterator; 00060 00061 inline const_iterator begin() const { return content.begin(); } 00062 inline const_iterator end() const { return content.end(); } 00063 inline bool empty() const { return content.empty(); } 00064 00065 inline void add(Trainer *trainer) 00066 { content.push_back(trainer); } 00067 00068 private: 00069 std::vector<Trainer*> content; 00070 }; 00071 00072 class UntrainedMVAComputer : public Calibration::MVAComputer {}; 00073 class UntrainedMVAComputerContainer : 00074 public Calibration::MVAComputerContainer {}; 00075 00076 void addTrainer(Trainer *trainer) { trainers.add(trainer); } 00077 00078 inline const TrainerContainer &getTrainers() const { return trainers; } 00079 00080 private: 00081 TrainerContainer trainers; 00082 }; 00083 00084 template<> inline bool 00085 MVATrainerLooper::isUntrained(const Calibration::MVAComputer *ptr) 00086 { return dynamic_cast<const UntrainedMVAComputer*>(ptr) != 0; } 00087 00088 template<> inline bool 00089 MVATrainerLooper::isUntrained(const Calibration::MVAComputerContainer *ptr) 00090 { return dynamic_cast<const UntrainedMVAComputerContainer*>(ptr) != 0; } 00091 00092 } // namespace PhysicsTools 00093 00094 #endif // PhysicsTools_MVATrainer_MVATrainerLooper_h