X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=MUON%2FAliMUONRecoParam.h;h=4510c49d8888e2df9cecfef728b8f9bd593c36e2;hb=6265ad5557e30302fab3e1a3e35bf51bda1ac0e2;hp=798143c2b144afcc88cae85b138ddddba98b36b9;hpb=6b191dea7b94a2ba12c917b83d4119ec738e1d3c;p=u%2Fmrichter%2FAliRoot.git diff --git a/MUON/AliMUONRecoParam.h b/MUON/AliMUONRecoParam.h index 798143c2b14..4510c49d888 100644 --- a/MUON/AliMUONRecoParam.h +++ b/MUON/AliMUONRecoParam.h @@ -24,6 +24,7 @@ class AliMUONRecoParam : public AliDetectorRecoParam static AliMUONRecoParam *GetLowFluxParam(); static AliMUONRecoParam *GetHighFluxParam(); static AliMUONRecoParam *GetCosmicParam(); + static AliMUONRecoParam *GetCalibrationParam(); /// set the calibration mode (see GetCalibrationMode() for possible modes) void SetCalibrationMode(Option_t* mode) { fCalibrationMode = mode; fCalibrationMode.ToUpper();} @@ -35,6 +36,22 @@ class AliMUONRecoParam : public AliDetectorRecoParam /// get the clustering (pre-clustering) mode Option_t* GetClusteringMode() const {return fClusteringMode.Data();} + /// Get the (truncated) average of sigmas of pedestal measurements, i.e. noise, of pads + Double_t AverageNoisePadCharge() const { return fAverageNoisePadCharge; } + /// Set the average of sigmas of pedestal measurements, i.e. noise, of pads + void AverageNoisePadCharge(Double_t noise) { fAverageNoisePadCharge = noise; } + + /// Get the lowest charge we allow for pads + Double_t LowestPadCharge() const { return fChargeSigmaCut*fAverageNoisePadCharge; } + + /// Get the cut applied to cut on cluster charge (the charge is cut if below fClusterChargeCut*LowestPadCharge()) + Double_t ClusterChargeCut() const { return fClusterChargeCut; } + /// Set the cut applied to cut on cluster charge (the charge is cut if below fClusterChargeCut*LowestPadCharge()) + void ClusterChargeCut(Double_t n) { fClusterChargeCut=n; } + + /// Get the lowest possible cluster charge + Double_t LowestClusterCharge() const { return ClusterChargeCut()*LowestPadCharge(); } + /// set the tracking mode void SetTrackingMode(Option_t* mode) {fTrackingMode = mode; fTrackingMode.ToUpper();} /// get the tracking mode @@ -76,13 +93,13 @@ class AliMUONRecoParam : public AliDetectorRecoParam /// return kTRUE/kFALSE if tracks are selected according to their slope/impact parameter Bool_t SelectOnTrackSlope() const {return fSelectTrackOnSlope;} - /// set the vertex dispersion (cm) in non bending plane (used for original tracking only) + /// set the vertex dispersion (cm) in non bending plane void SetNonBendingVertexDispersion(Double_t val) {fNonBendingVertexDispersion = val;} - /// return the vertex dispersion (cm) in non bending plane (used for original tracking only) + /// return the vertex dispersion (cm) in non bending plane Double_t GetNonBendingVertexDispersion() const {return fNonBendingVertexDispersion;} - /// set the vertex dispersion (cm) in bending plane (used for original tracking only) + /// set the vertex dispersion (cm) in bending plane void SetBendingVertexDispersion(Double_t val) {fBendingVertexDispersion = val;} - /// return the vertex dispersion (cm) in bending plane (used for original tracking only) + /// return the vertex dispersion (cm) in bending plane Double_t GetBendingVertexDispersion() const {return fBendingVertexDispersion;} /// set the maximum distance to the track to search for compatible cluster(s) in non bending direction @@ -109,7 +126,7 @@ class AliMUONRecoParam : public AliDetectorRecoParam Double_t GetSigmaCutForImprovement() const {return fSigmaCutForImprovement;} /// set the cut in sigma to apply on track during trigger hit pattern search - void SetSigmaCutForTrigger(Double_t val) {fSigmaCutForTrigger = val;} + void SetSigmaCutForTrigger(Double_t val) {fSigmaCutForTrigger = val; fMaxNormChi2MatchTrigger = val*val;} /// return the cut in sigma to apply on track during trigger hit pattern search Double_t GetSigmaCutForTrigger() const {return fSigmaCutForTrigger;} /// set the cut in strips to apply on trigger track during trigger chamber efficiency @@ -121,8 +138,6 @@ class AliMUONRecoParam : public AliDetectorRecoParam /// return the maximum search area in strips to apply on trigger track during trigger chamber efficiency Double_t GetMaxStripAreaForTrigger() const {return fMaxStripAreaForTrigger;} - /// set the maximum normalized chi2 of tracking/trigger track matching - void SetMaxNormChi2MatchTrigger(Double_t val) {fMaxNormChi2MatchTrigger = val;} /// return the maximum normalized chi2 of tracking/trigger track matching Double_t GetMaxNormChi2MatchTrigger() const {return fMaxNormChi2MatchTrigger;} @@ -185,19 +200,10 @@ class AliMUONRecoParam : public AliDetectorRecoParam /// return kTRUE if we should replace clusters in St 5 by generated clusters from trigger tracks Bool_t BypassSt5() const { return BypassSt45() || fBypassSt45==5 ; } - /// Set Low and High threshold for St12 HV - void SetHVSt12Limits(float low, float high) { fHVSt12Limits[0]=low; fHVSt12Limits[1]=high; } - /// Retrieve low limit for St12's HV - Float_t HVSt12LowLimit() const { return fHVSt12Limits[0]; } - /// Retrieve high limit for St12's HV - Float_t HVSt12HighLimit() const { return fHVSt12Limits[1]; } - - /// Set Low and High threshold for St345 HV - void SetHVSt345Limits(float low, float high) { fHVSt345Limits[0]=low; fHVSt345Limits[1]=high; } - /// Retrieve low limit for St345's HV - Float_t HVSt345LowLimit() const { return fHVSt345Limits[0]; } - /// Retrieve high limit for St345's HV - Float_t HVSt345HighLimit() const { return fHVSt345Limits[1]; } + /// Set HV threshold for chambers (chamberId=0..9, use -1 to set all chambers equal) + void SetHVLimit(Int_t chamberId, Double_t ichamber); + /// Retrieve HV limit for chamber (chamberId=0..9) + Double_t HVLimit(Int_t chamberId) const; /// Set Low and High threshold for pedestal mean void SetPedMeanLimits(float low, float high) { fPedMeanLimits[0]=low; fPedMeanLimits[1]=high; } @@ -264,14 +270,77 @@ class AliMUONRecoParam : public AliDetectorRecoParam /// Get the maximum number of track candidates above which the tracking abort Int_t GetMaxTrackCandidates() const {return fMaxTrackCandidates;} + /// Set the limits for the acceptable manu occupancy + void SetManuOccupancyLimits(float low, float high) { fManuOccupancyLimits[0]=low; fManuOccupancyLimits[1]=high; } + /// Retrieve low value of manu occupancy limit + Float_t ManuOccupancyLowLimit() const { return fManuOccupancyLimits[0]; } + /// Retrieve high value of manu occupancy limit + Float_t ManuOccupancyHighLimit() const { return fManuOccupancyLimits[1]; } + + /// Set the limits for the acceptable bp occupancy + void SetBuspatchOccupancyLimits(float low, float high) { fBuspatchOccupancyLimits[0]=low; fBuspatchOccupancyLimits[1]=high; } + /// Retrieve low value of bp occupancy limit + Float_t BuspatchOccupancyLowLimit() const { return fBuspatchOccupancyLimits[0]; } + /// Retrieve high value of bp occupancy limit + Float_t BuspatchOccupancyHighLimit() const { return fBuspatchOccupancyLimits[1]; } + + /// Set the limits for the acceptable DE occupancy + void SetDEOccupancyLimits(float low, float high) { fDEOccupancyLimits[0]=low; fDEOccupancyLimits[1]=high; } + /// Retrieve low value of DE occupancy limit + Float_t DEOccupancyLowLimit() const { return fDEOccupancyLimits[0]; } + /// Retrieve high value of DE occupancy limit + Float_t DEOccupancyHighLimit() const { return fDEOccupancyLimits[1]; } + + /// Set the fraction of buspatches outside the occupancy limits + void SetFractionOfBuspatchOutsideOccupancyLimit(float v) { fFractionOfBuspatchOutsideOccupancyLimit = v; } + /// Get the fraction of buspatches outside the occupancy limits + Float_t FractionOfBuspatchOutsideOccupancyLimit() const { return fFractionOfBuspatchOutsideOccupancyLimit; } + virtual void Print(Option_t *option = "") const; + /// Get the max event size (soft limit) + virtual Double_t EventSizeSoftLimit() const { return fEventSizeSoftLimit; } - private: + /// Get the max event size (hard limit) + virtual Double_t EventSizeHardLimit() const { return fEventSizeHardLimit; } + + /// Set the max event size limits + virtual void SetEventSizeLimits(Double_t soft, Double_t hard) { fEventSizeSoftLimit=soft; fEventSizeHardLimit=hard; } + + /// Get the percentage of token lost error we allow + virtual Double_t TokenLostLimit() const { return fTokenLostLimit; } + + /// Set the percentage of token lost error we allow + virtual void SetTokenLostLimit(Double_t limit) { fTokenLostLimit = limit; } + + /// Whether or not we try to recover corrupted raw data + virtual Bool_t TryRecover() const { return fTryRecover; } + + /// Set the try recover corrupted raw data (use kTRUE only if you know what you are doing. Should be left to kFALSE by default) + virtual void TryRecover(Bool_t flag) { fTryRecover = flag; } + + /// Discard or not the mono-cathod clusters by assigning to them different resolutions (use default values) + void DiscardMonoCathodClusters(Bool_t flag) { fDiscardMonoCathodClusters = flag; } + /// Discard or not the mono-cathod clusters by assigning to them different resolutions (use given values) + void DiscardMonoCathodClusters(Bool_t flag, Double_t resNB, Double_t resB) { fDiscardMonoCathodClusters = flag; + fMonoCathodClNonBendingRes = resNB; fMonoCathodClBendingRes = resB; } + /// Check whether to discard or not the mono-cathod clusters + Bool_t DiscardMonoCathodClusters() const { return fDiscardMonoCathodClusters; } + /// Get the non-bending resolution of mono-cathod clusters when the non-bending plane is missing + Double_t GetMonoCathodClNonBendingRes() const { return fMonoCathodClNonBendingRes; } + /// Get the bending resolution of mono-cathod clusters when the bending plane is missing + Double_t GetMonoCathodClBendingRes() const { return fMonoCathodClBendingRes; } + + /// Create object ready to be put in OCDB + static TObjArray* Create(const char* settings); + + /// Show what is the OCDB for that run + static void Show(Int_t runNumber, const char* ocdbPath="raw://"); + +private: void SetDefaultLimits(); - private: /// clustering mode: NOCLUSTERING, PRECLUSTER, PRECLUSTERV2, PRECLUSTERV3, COG, 
@@ -324,7 +393,7 @@ class AliMUONRecoParam : public AliDetectorRecoParam
   
   Bool_t     fSaveFullClusterInESD; ///< kTRUE to save all cluster info (including pads) in ESD
   
-  /// calibration mode:  GAIN, NOGAIN, GAINCONSTANTCAPA
+  /// calibration mode:  GAIN, NOGAIN, GAINCONSTANTCAPA, INJECTIONGAIN
   TString    fCalibrationMode; ///<\brief calibration mode
   
   Int_t      fBypassSt45; ///< non-zero to use trigger tracks to generate "fake" clusters in St 4 and 5. Can be 0, 4, 5 or 45 only
@@ -336,8 +405,8 @@ class AliMUONRecoParam : public AliDetectorRecoParam
   Double32_t fGainA1Limits[2]; ///< Low and High threshold for gain a0 parameter
   Double32_t fGainA2Limits[2]; ///< Low and High threshold for gain a1 parameter
   Double32_t fGainThresLimits[2]; ///< Low and High threshold for gain threshold parameter
-  Double32_t fHVSt12Limits[2]; ///< Low and High threshold for St12 HV
-  Double32_t fHVSt345Limits[2]; ///< Low and High threshold for St345 HV
+  Double32_t fHVSt12Limits[2]; ///< DEPRECATED. See fHVLimits
+  Double32_t fHVSt345Limits[2]; ///< DEPRECATED. See fHVLimits
   Double32_t fPedMeanLimits[2]; ///< Low and High threshold for pedestal mean
   Double32_t fPedSigmaLimits[2]; ///< Low and High threshold for pedestal sigma
   
@@ -355,13 +424,38 @@ class AliMUONRecoParam : public AliDetectorRecoParam
   
   Bool_t     fSelectTrackOnSlope; ///< select track candidates according to their slope (instead of their impact parameter)
   
+  Double32_t fManuOccupancyLimits[2]; ///< low and high thresholds for manu occupancy cut
+  Double32_t fBuspatchOccupancyLimits[2]; ///< low and high thresholds for bus patch occupancy cut
+  Double32_t fDEOccupancyLimits[2]; ///< low and high thresholds for DE occupancy cut
+
+  Double32_t fMissingPadFractionLimit; ///< DEPRECATED
+  Double32_t fFractionOfBuspatchOutsideOccupancyLimit; ///< above this limit, we consider we have too many buspatches out of the allowed occupancy range
+
+  Double32_t fAverageNoisePadCharge; ///< the (truncated, typically at 10%) mean of the sigma of the pedestals, in femto-coulomb
+  Double32_t fClusterChargeCut; ///< the cluster is cut if its charge is below fClusterChargeCut*LowestPadCharge()
+  
+  Double32_t fEventSizeSoftLimit; ///< (soft) limit on mean event size per event (KB)
+  Double32_t fEventSizeHardLimit; ///< (hard) limit on mean event size per event (KB)
+  
+  Double32_t fTokenLostLimit; ///< limit on the fraction of token lost error per event we allow
+  
+  Bool_t     fTryRecover; ///< try to recover corrupted raw data
+
+  Double32_t fHVLimit[10]; // HV limit (below which we consider that chamber efficiency is to be considered zero)
+  
+  Double32_t fDiscardMonoCathodClusters; // assign a different resolution to mono-cathod clusters in the direction of the missing plane
+  Double32_t fMonoCathodClNonBendingRes; // resolution of mono-cathod clusters in the non-bending direction when the non-bending plane is missing
+  Double32_t fMonoCathodClBendingRes; // resolution of mono-cathod clusters in the bending direction when the bending plane is missing
+  
   // functions
   void SetLowFluxParam();
   void SetHighFluxParam();
   void SetCosmicParam();
+  void SetCalibrationParam();
   
-  
-  ClassDef(AliMUONRecoParam,13) // MUON reco parameters
+  ClassDef(AliMUONRecoParam,170) // MUON reco parameters
+  // we're at 167 not because we had that many versions, but because at some point (version 15->16)
+  // 166 was committed by error, and we did not to go reverse afterwards...
 };
 
 #endif