//_________________________________________________________________________
// Geometry derived class for PHOS:CPV (Charged particle veto, IHEP version)
-//
-//*-- Author: Yuri Kharlov (IHEP, Protvino)
-// 14 September 2000
+// Its data members provide geometry parametrization of CPV
+// which can be changed in the constructor only.
+// Author: Yuri Kharlov (IHEP, Protvino)
+// 7 November 2000
-#include <assert.h>
+//#include "AliPHOSCPVBaseGeometry.h"
+#include "TObject.h"
-#include "AliPHOSCPVBaseGeometry.h"
-
-class AliPHOSCPVGeometry : public AliPHOSCPVBaseGeometry {
+class AliPHOSCPVGeometry : public TObject {
public:
// CPV functions
- Int_t GetNumberOfCPVLayers(void) const { return fNumberOfCPVLayers; }
- Bool_t IsLeadConverterExists(void) const { return fLeadConverterExists; }
- Int_t GetNumberOfCPVPadsPhi(void) const { return fNumberOfCPVPadsPhi ; }
- Int_t GetNumberOfCPVPadsZ(void) const { return fNumberOfCPVPadsZ ; }
- Float_t GetCPVPadSizePhi(void) const { return fCPVPadSizePhi; }
- Float_t GetCPVPadSizeZ(void) const { return fCPVPadSizeZ; }
- Float_t GetCPVBoxSize(Int_t index) const { return fCPVBoxSize[index]; }
- Float_t GetCPVActiveSize(Int_t index) const { return fCPVActiveSize[index]; }
- Int_t GetNumberOfCPVChipsPhi(void) const { return fNumberOfCPVChipsPhi; }
- Int_t GetNumberOfCPVChipsZ(void) const { return fNumberOfCPVChipsZ; }
- Float_t GetGassiplexChipSize(Int_t index) const { return fGassiplexChipSize[index]; }
- Float_t GetCPVGasThickness(void) const { return fCPVGasThickness; }
- Float_t GetCPVTextoliteThickness(void) const { return fCPVTextoliteThickness; }
- Float_t GetCPVCuNiFoilThickness(void) const { return fCPVCuNiFoilThickness; }
- Float_t GetFTPosition(Int_t index) const { return fFTPosition[index]; }
- Float_t GetCPVFrameSize(Int_t index) const { return fCPVFrameSize[index]; }
-
- // PPSD functions cannot be used for CPV
+ virtual Int_t GetNumberOfCPVLayers(void) const { return fNumberOfCPVLayers; }
+ virtual Int_t GetNumberOfCPVPadsPhi(void) const { return fNumberOfCPVPadsPhi ; }
+ virtual Int_t GetNumberOfCPVPadsZ(void) const { return fNumberOfCPVPadsZ ; }
+ virtual Float_t GetCPVPadSizePhi(void) const { return fCPVPadSizePhi; }
+ virtual Float_t GetCPVPadSizeZ(void) const { return fCPVPadSizeZ; }
+ virtual Float_t GetCPVBoxSize(Int_t index) const { return fCPVBoxSize[index]; }
+ virtual Float_t GetCPVActiveSize(Int_t index) const { return fCPVActiveSize[index]; }
+ virtual Int_t GetNumberOfCPVChipsPhi(void) const { return fNumberOfCPVChipsPhi; }
+ virtual Int_t GetNumberOfCPVChipsZ(void) const { return fNumberOfCPVChipsZ; }
+ virtual Float_t GetGassiplexChipSize(Int_t index) const { return fGassiplexChipSize[index]; }
+ virtual Float_t GetCPVGasThickness(void) const { return fCPVGasThickness; }
+ virtual Float_t GetCPVTextoliteThickness(void) const { return fCPVTextoliteThickness; }
+ virtual Float_t GetCPVCuNiFoilThickness(void) const { return fCPVCuNiFoilThickness; }
+ virtual Float_t GetFTPosition(Int_t index) const { return fFTPosition[index]; }
+ virtual Float_t GetCPVFrameSize(Int_t index) const { return fCPVFrameSize[index]; }
- Float_t GetAnodeThickness(void) { AssertPPSD(); return 0; }
- Float_t GetAvalancheGap(void) { AssertPPSD(); return 0; }
- Float_t GetCathodeThickness(void) { AssertPPSD(); return 0; }
- Float_t GetCompositeThickness(void) { AssertPPSD(); return 0; }
- Float_t GetConversionGap(void) { AssertPPSD(); return 0; }
- Float_t GetLeadConverterThickness(void) { AssertPPSD(); return 0; }
- Float_t GetLeadToMicro2Gap(void) { AssertPPSD(); return 0; }
- Float_t GetLidThickness(void) { AssertPPSD(); return 0; }
- Float_t GetMicromegas1Thickness(void) { AssertPPSD(); return 0; }
- Float_t GetMicromegas2Thickness(void) { AssertPPSD(); return 0; }
- Float_t GetMicromegasWallThickness(void) { AssertPPSD(); return 0; }
- Float_t GetMicro1ToLeadGap(void) { AssertPPSD(); return 0; }
- Float_t GetPCThickness(void) { AssertPPSD(); return 0; }
- Float_t GetPhiDisplacement(void) { AssertPPSD(); return 0; }
- Float_t GetPPSDModuleSize(Int_t index) { AssertPPSD(); return 0; }
- Float_t GetZDisplacement(void) { AssertPPSD(); return 0; }
private:
Int_t fNumberOfCPVLayers; // Number of CPV identical layers
- Bool_t fLeadConverterExists; // kTRUE if the lead converter between CPV layers exists
Int_t fNumberOfCPVPadsPhi; // Number of CPV pads in phi
Int_t fNumberOfCPVPadsZ; // Number of CPV pads in z
Float_t fCPVPadSizePhi; // CPV pad size in phi
Float_t fFTPosition[4]; // Positions of the 4 PCB vs the CPV box center
Float_t fCPVFrameSize[3]; // CPV frame size (0 - in phi, 1 - in z, 2 - thickness (along ALICE radius))
- void AssertPPSD() {
- printf("Function %s should not be called for CPV geometry\n",__PRETTY_FUNCTION__);
- assert(0==1) ;
- }
- ClassDef(AliPHOSCPVGeometry,1) // CPV geometry base class
+ ClassDef(AliPHOSCPVGeometry,2) // CPV geometry base class
} ;