#ifndef MARS_MImgCleanStd #define MARS_MImgCleanStd #ifndef MARS_MGTask #include "MGTask.h" #endif class MGeomCam; class MGeomPix; class MSignalCam; class MPedPhotCam; class MArrivalTime; class MCameraData; //class MRawRunHeader; class MGGroupFrame; class MImgCleanStd : public MGTask { public: typedef enum { kStandard, kScaled, kDemocratic, kProbability, kAbsolute, kTime, } CleaningMethod_t; private: static const TString gsNamePedPhotCam; // default name of the 'MPedPhotCam' container static const TString gsNameGeomCam; // default name of the 'MGeomCam' container static const TString gsNameSignalCam; // default name of the 'MSignalCam' container const MGeomCam *fCam; //! MSignalCam *fEvt; //! MPedPhotCam *fPed; //! MCameraData *fData; //! // MRawRunHeader *fHeader; //! CleaningMethod_t fCleaningMethod; Float_t fCleanLvl0; Float_t fCleanLvl1; Float_t fCleanLvl2; Float_t fTimeLvl1; Float_t fTimeLvl2; UShort_t fCleanRings; Bool_t fKeepIsolatedPixels; Int_t fRecoverIsolatedPixels; Int_t fPostCleanType; TString fNamePedPhotCam; // name of the 'MPedPhotCam' container TString fNameGeomCam; // name of the 'MGeomCam' container TString fNameSignalCam; // name of the 'MSignalCam' container // MImgCleanStd Bool_t HasCoreNeighbors(const MGeomPix &gpix) const; Bool_t HasUsedNeighbors(const MGeomPix &gpix) const; void SetUsedNeighbors(const MGeomPix &gpix, Int_t r=1) const; Int_t DoCleaning(Float_t &size) const; void ResetCleaning() const; Int_t RecoverIsolatedPixels(Float_t &size) const; void CleanTime(Int_t n, Double_t lvl) const; void CleanStepTime() const; // MGTask, MTask, MParContainer void CreateGuiElements(MGGroupFrame *f); Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); void StreamPrimitive(ostream &out) const; Int_t PreProcess(MParList *pList); Int_t Process(); public: MImgCleanStd(const Float_t lvl1=3.0, const Float_t lvl2=2.5, const char *name=NULL, const char *title=NULL); void Print(Option_t *o="") const; Float_t GetCleanLvl0() const { return fCleanLvl0; } Float_t GetCleanLvl1() const { return fCleanLvl1; } Float_t GetCleanLvl2() const { return fCleanLvl2; } Float_t GetTimeLvl1() const { return fTimeLvl1; } Float_t GetTimeLvl2() const { return fTimeLvl2; } void SetCleanLvl0(Float_t lvl) { fCleanLvl0=lvl; } void SetCleanLvl1(Float_t lvl) { fCleanLvl1=lvl; } void SetCleanLvl2(Float_t lvl) { fCleanLvl2=lvl; } void SetTimeLvl1(Float_t lvl) { fTimeLvl1=lvl; } void SetTimeLvl2(Float_t lvl) { fTimeLvl2=lvl; } void SetCleanRings(UShort_t r) { fCleanRings=r; } UShort_t GetCleanRings() const { return fCleanRings;} void SetPostCleanType(Int_t t) { fPostCleanType=t; } void SetMethod(CleaningMethod_t m) { fCleaningMethod = m; } void SetKeepIsolatedPixels(Bool_t b=kTRUE) { fKeepIsolatedPixels=b; } void SetRecoverIsolatedPixels(Int_t n=-1) { fRecoverIsolatedPixels=n; } Bool_t ProcessMessage(Int_t msg, Int_t submsg, Long_t param1, Long_t param2); void SetNamePedPhotCam(const char *name) { fNamePedPhotCam = name; } void SetNameSignalCam(const char *name) { fNameSignalCam = name; } void SetNameGeomCam(const char *name) { fNameGeomCam = name; } ClassDef(MImgCleanStd, 4) // task doing the image cleaning }; #endif