- void SetPedSigmaLimits(float low, float high) { fPedSigmaLimits[0]=low; fPedSigmaLimits[1]=high; }
- /// Retrieve low limit of ped sigma
- Float_t PedSigmaLowLimit() const { return fPedSigmaLimits[0]; }
- /// Retrieve high limit of ped sigma
- Float_t PedSigmaHighLimit() const { return fPedSigmaLimits[1]; }
-
- /// Set Low and High threshold for gain a0 term
- void SetGainA1Limits(float low, float high) { fGainA1Limits[0]=low; fGainA1Limits[1]=high; }
- /// Retrieve low limit of a1 (linear term) gain parameter
- Float_t GainA1LowLimit() const { return fGainA1Limits[0]; }
- /// Retrieve high limit of a1 (linear term) gain parameter
- Float_t GainA1HighLimit() const { return fGainA1Limits[1]; }
-
- /// Set Low and High threshold for gain a1 term
- void SetGainA2Limits(float low, float high) { fGainA2Limits[0]=low; fGainA2Limits[1]=high; }
- /// Retrieve low limit of a2 (quadratic term) gain parameter
- Float_t GainA2LowLimit() const { return fGainA2Limits[0]; }
- /// Retrieve high limit of a2 (quadratic term) gain parameter
- Float_t GainA2HighLimit() const { return fGainA2Limits[1]; }
-
- /// Set Low and High threshold for gain threshold term
- void SetGainThresLimits(float low, float high) { fGainThresLimits[0]=low; fGainThresLimits[1]=high; }
- /// Retrieve low limit on threshold gain parameter
- Float_t GainThresLowLimit() const { return fGainThresLimits[0]; }
- /// Retrieve high limit on threshold gain parameter
- Float_t GainThresHighLimit() const { return fGainThresLimits[1]; }
-
- /// Set the goodness mask (see AliMUONPadStatusMapMaker)
- void SetPadGoodnessMask(UInt_t mask) { fPadGoodnessMask=mask; }
- /// Get the goodness mask
- UInt_t PadGoodnessMask() const { return fPadGoodnessMask; }
-
- virtual void Print(Option_t *option = "") const;
+ void SetPedSigmaLimits(float low, float high) { fPedSigmaLimits[0]=low; fPedSigmaLimits[1]=high; }
+ /// Retrieve low limit of ped sigma
+ Float_t PedSigmaLowLimit() const { return fPedSigmaLimits[0]; }
+ /// Retrieve high limit of ped sigma
+ Float_t PedSigmaHighLimit() const { return fPedSigmaLimits[1]; }
+
+ /// Set Low and High threshold for gain a0 term
+ void SetGainA1Limits(float low, float high) { fGainA1Limits[0]=low; fGainA1Limits[1]=high; }
+ /// Retrieve low limit of a1 (linear term) gain parameter
+ Float_t GainA1LowLimit() const { return fGainA1Limits[0]; }
+ /// Retrieve high limit of a1 (linear term) gain parameter
+ Float_t GainA1HighLimit() const { return fGainA1Limits[1]; }
+
+ /// Set Low and High threshold for gain a1 term
+ void SetGainA2Limits(float low, float high) { fGainA2Limits[0]=low; fGainA2Limits[1]=high; }
+ /// Retrieve low limit of a2 (quadratic term) gain parameter
+ Float_t GainA2LowLimit() const { return fGainA2Limits[0]; }
+ /// Retrieve high limit of a2 (quadratic term) gain parameter
+ Float_t GainA2HighLimit() const { return fGainA2Limits[1]; }
+
+ /// Set Low and High threshold for gain threshold term
+ void SetGainThresLimits(float low, float high) { fGainThresLimits[0]=low; fGainThresLimits[1]=high; }
+ /// Retrieve low limit on threshold gain parameter
+ Float_t GainThresLowLimit() const { return fGainThresLimits[0]; }
+ /// Retrieve high limit on threshold gain parameter
+ Float_t GainThresHighLimit() const { return fGainThresLimits[1]; }
+
+ /// Set the goodness mask (see AliMUONPadStatusMapMaker)
+ void SetPadGoodnessMask(UInt_t mask) { fPadGoodnessMask=mask; }
+ /// Get the goodness mask
+ UInt_t PadGoodnessMask() const { return fPadGoodnessMask; }