Merge branch 'master' of https://git.cern.ch/reps/AliRoot

[u/mrichter/AliRoot.git] / ITS / UPGRADE / AliITSUv1Layer.h

diff --git a/ITS/UPGRADE/AliITSUv1Layer.h b/ITS/UPGRADE/AliITSUv1Layer.h
index a363b5e57dae137b414c306d7fb20c497264da1b..a021f1185a90c6cfd1f552e45e7012cb40385d35 100644 (file)
--- a/ITS/UPGRADE/AliITSUv1Layer.h
+++ b/ITS/UPGRADE/AliITSUv1Layer.h
@@ -26,6 +26,9 @@
 class TGeoVolume;
 
 class AliITSUv1Layer : public AliITSv11Geometry {
+  public:
+  enum {kStave,kHalfStave,kModule,kChip,kNHLevels};
+
   public:
     AliITSUv1Layer();
     AliITSUv1Layer(Int_t debug);
@@ -42,22 +45,28 @@ class AliITSUv1Layer : public AliITSv11Geometry {
     Double_t  GetStaveWidth() const {return fStaveWidth;};
     Double_t  GetSensorThick() const {return fSensorThick;};
     Double_t  GetNStaves()    const {return fNStaves;};
-    Double_t  GetNChips()    const {return fNChips;};
+    Double_t  GetNChips()      const {return fNChips;};
     Double_t  GetRadius()      const {return fLayRadius;};
     Double_t  GetPhi0()        const {return fPhi0;};
     Double_t  GetZLength()     const {return fZLength;};
-    Int_t     GetChipType()     const {return fChipTypeID;}
+    Int_t     GetChipType()    const {return fChipTypeID;}
+    //
+    Int_t     GetNStavesPerParent()     const {return fHierarchy[kStave];}
+    Int_t     GetNHalfStavesPerParent() const {return fHierarchy[kHalfStave];}
+    Int_t     GetNModulesPerParent()    const {return fHierarchy[kModule];}
+    Int_t     GetNChipsPerParent()      const {return fHierarchy[kChip];}
+    //
     AliITSUv1::AliITSUModel_t GetStaveModel() const {return fStaveModel;}
     //
-    void      SetStaveThick(Double_t t)    {fStaveThick = t;};
+    void      SetStaveThick(Double_t t)      {fStaveThick = t;};
     void      SetStaveTilt(Double_t t);
     void      SetStaveWidth(Double_t w);
-    void      SetSensorThick(Double_t t)    {fSensorThick = t;};
-    void      SetNStaves(Int_t n)          {fNStaves = n;};
-    void      SetNChips(Int_t m)          {fNChips = m;};
-    void      SetRadius(Double_t r)         {fLayRadius = r;};
-    void      SetPhi0(Double_t phi)         {fPhi0 = phi;}
-    void      SetZLength(Double_t z)        {fZLength   = z;};
+    void      SetSensorThick(Double_t t)     {fSensorThick = t;};
+    void      SetNStaves(Int_t n)            {fHierarchy[kStave] = fNStaves = n;};
+    void      SetNUnits(Int_t u);
+    void      SetRadius(Double_t r)          {fLayRadius = r;};
+    void      SetPhi0(Double_t phi)          {fPhi0 = phi;}
+    void      SetZLength(Double_t z)         {fZLength   = z;};
     void      SetChipType(Int_t tp)          {fChipTypeID = tp;}
     void      SetBuildLevel(Int_t buildLevel){fBuildLevel=buildLevel;}
     void      SetStaveModel(AliITSUv1::AliITSUModel_t model) {fStaveModel=model;}
@@ -70,10 +79,12 @@ class AliITSUv1Layer : public AliITSv11Geometry {
 
     TGeoVolume* CreateStave(const TGeoManager *mgr=gGeoManager);
     //TGeoVolume* CreateChip(Double_t x, Double_t z, const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateModuleInnerB(Double_t x,Double_t y, Double_t z, const TGeoManager *mgr=gGeoManager);
     TGeoVolume* CreateChipInnerB(Double_t x,Double_t y, Double_t z, const TGeoManager *mgr=gGeoManager);
-    TGeoVolume* CreateChipOuterB(Double_t x,Double_t y, Double_t z, const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateModuleOuterB(const TGeoManager *mgr=gGeoManager);
 
 
+    TGeoVolume* CreateStaveInnerB(Double_t x, Double_t y, Double_t z, const TGeoManager *mgr=gGeoManager);
     TGeoVolume* CreateStaveStructInnerB(Double_t x,Double_t z, const TGeoManager *mgr=gGeoManager);
     TGeoVolume* CreateStaveModelInnerBDummy(Double_t x,Double_t z, const TGeoManager *mgr=gGeoManager) const;
     TGeoVolume* CreateStaveModelInnerB0(Double_t x,Double_t z, const TGeoManager *mgr=gGeoManager);
@@ -82,13 +93,13 @@ class AliITSUv1Layer : public AliITSv11Geometry {
     TGeoVolume* CreateStaveModelInnerB22(Double_t x,Double_t z, const TGeoManager *mgr=gGeoManager);
     TGeoVolume* CreateStaveModelInnerB3(Double_t x,Double_t z, const TGeoManager *mgr=gGeoManager);
 
-    TGeoVolume* CreateStaveOuterB(Double_t x, const TGeoManager *mgr=gGeoManager);
-    TGeoVolume* CreateStaveModelOuterBDummy(Double_t x, const TGeoManager *mgr=gGeoManager) const;
-    TGeoVolume* CreateStaveModelOuterB0(Double_t x, const TGeoManager *mgr=gGeoManager) const;
-    TGeoVolume* CreateStaveModelOuterB1(Double_t x, const TGeoManager *mgr=gGeoManager);
-    TGeoVolume* CreateSpaceFrameOuterB(Double_t x, const TGeoManager *mgr=gGeoManager);
-    TGeoVolume* CreateSpaceFrameOuterBDummy(Double_t x, const TGeoManager *mgr=gGeoManager) const;
-    TGeoVolume* CreateSpaceFrameOuterB0(Double_t x, const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateStaveOuterB(const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateStaveModelOuterBDummy(const TGeoManager *mgr=gGeoManager) const;
+    TGeoVolume* CreateStaveModelOuterB0(const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateStaveModelOuterB1(const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateSpaceFrameOuterB(const TGeoManager *mgr=gGeoManager);
+    TGeoVolume* CreateSpaceFrameOuterBDummy(const TGeoManager *mgr=gGeoManager) const;
+    TGeoVolume* CreateSpaceFrameOuterB1(const TGeoManager *mgr=gGeoManager);
 
     TGeoArb8* CreateStaveSide(const char *name,
                               Double_t dz, Double_t angle, Double_t xSign,
@@ -106,12 +117,15 @@ class AliITSUv1Layer : public AliITSv11Geometry {
     Double_t  fLayRadius;   // Inner radius of this layer
     Double_t  fZLength;     // Z length of this layer
     Double_t  fSensorThick; // Sensor thickness
-    Double_t  fStaveThick; // Stave thickness
-    Double_t  fStaveWidth; // Stave width (for turbo layers only)
-    Double_t  fStaveTilt;  // Stave tilt angle (for turbo layers only) in degrees
-    Int_t     fNStaves;    // Number of staves in this layer
-    Int_t     fNChips;    // Number of chips per stave in this layer
-    UInt_t    fChipTypeID;   // detector type id
+    Double_t  fStaveThick;  // Stave thickness
+    Double_t  fStaveWidth;  // Stave width (for turbo layers only)
+    Double_t  fStaveTilt;   // Stave tilt angle (for turbo layers only) in degrees
+    Int_t     fNStaves;     // Number of staves in this layer
+    Int_t     fNModules;    // Number of modules per container if defined (HalfStave, Stave, whatever is container)
+    Int_t     fNChips;      // N. chips per container (module, HalfStave, Stave, whatever is container)
+    Int_t     fHierarchy[kNHLevels]; // array to query number of staves, hstaves, modules, chips per its parent volume
+    //    
+    UInt_t    fChipTypeID;  // detector type id
     Bool_t    fIsTurbo;     // True if this layer is a "turbo" layer
     Int_t     fBuildLevel;  // Used for material studies
 
@@ -119,19 +133,51 @@ class AliITSUv1Layer : public AliITSv11Geometry {
 
     // Parameters for the Upgrade geometry
 
+    // General Parameters
+    static const Int_t    fgkNumberOfInnerLayers;// Number of IB Layers
+
     static const Double_t fgkDefaultSensorThick; // Default sensor thickness
-    static const Double_t fgkDefaultStaveThick; // Default stave thickness
+    static const Double_t fgkDefaultStaveThick;  // Default stave thickness
+
+    // Inner Barrel Parameters
+    static const Int_t    fgkIBChipsPerRow;      // IB chips per row in module
+    static const Int_t    fgkIBNChipRows;        // IB chip rows in module
+
+    // Outer Barrel Parameters
+    static const Int_t    fgkOBChipsPerRow;      // OB chips per row in module
+    static const Int_t    fgkOBNChipRows;        // OB chip rows in module
 
     static const Double_t fgkOBHalfStaveWidth;   // OB Half Stave Width
-    static const Double_t fgkOBChipGap;        // Gap between OB chips
-    static const Double_t fgkOBFlexCable1Thick;  // Thickness of
-    static const Double_t fgkOBFlexCable2Thick;  // OB flex cables
-    static const Double_t fgkOBBusCable1Thick;   // Thickness of
-    static const Double_t fgkOBBusCable2Thick;   // OB bus cables
+    static const Double_t fgkOBModuleWidth;      // OB Module Width
+    static const Double_t fgkOBModuleGap;        // Gap between OB modules
+    static const Double_t fgkOBChipXGap;         // Gap between OB chips on X
+    static const Double_t fgkOBChipZGap;         // Gap between OB chips on Z
+    static const Double_t fgkOBFlexCableAlThick; // Thickness of FPC Aluminum
+    static const Double_t fgkOBFlexCableKapThick;// Thickness of FPC Kapton
+    static const Double_t fgkOBBusCableAlThick;  // Thickness of Bus Aluminum
+    static const Double_t fgkOBBusCableKapThick; // Thickness of Bus Kapton
     static const Double_t fgkOBCarbonPlateThick; // OB Carbon Plate Thickness
     static const Double_t fgkOBColdPlateThick;   // OB Cold Plate Thickness
     static const Double_t fgkOBGlueThick;        // OB Glue total Thickness
-    static const Double_t fgkOBChipZLength;    // OB Chip Length along Z
+    static const Double_t fgkOBModuleZLength;    // OB Chip Length along Z
+    static const Double_t fgkOBHalfStaveYTrans;  // OB half staves Y transl.
+    static const Double_t fgkOBHalfStaveXOverlap;// OB half staves X overlap
+    static const Double_t fgkOBGraphiteFoilThick;// OB graphite foil thickness
+    static const Double_t fgkOBCoolTubeInnerD;   // OB cooling inner diameter
+    static const Double_t fgkOBCoolTubeThick;    // OB cooling tube thickness
+    static const Double_t fgkOBCoolTubeXDist;    // OB cooling tube separation
+
+    static const Double_t fgkOBSpaceFrameWidth;  // OB Space Frame Width
+    static const Double_t fgkOBSpaceFrameTotHigh;// OB Total Y Height
+    static const Double_t fgkOBSFrameBeamRadius; // OB Space Frame Beam Radius
+    static const Double_t fgkOBSpaceFrameLa;     // Parameters defining...
+    static const Double_t fgkOBSpaceFrameHa;     // ...the V side shape...
+    static const Double_t fgkOBSpaceFrameLb;     // ...of the carbon...
+    static const Double_t fgkOBSpaceFrameHb;     // ...OB Space Frame
+    static const Double_t fgkOBSpaceFrameL;      // OB SF
+    static const Double_t fgkOBSFBotBeamAngle;   // OB SF bottom beam angle
+    static const Double_t fgkOBSFrameBeamSidePhi;// OB SF side beam angle
+
 
   ClassDef(AliITSUv1Layer,0) // ITS Upgrade v1 geometry
 };