add set and getter for neutral energy fraction
[u/mrichter/AliRoot.git] / EMCAL / AliEMCALSpaceFrame.h
CommitLineData
e3697737 1#ifndef ALIEMCALSPACEFRAME_H
2#define ALIEMCALSPACEFRAME_H
3/* Copyright(c) 2008, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6
7/////////////////////////////////////////////////
8// class for EMCAL Space Frame //
9// Author: Ryan M. Ward //
10// California Polytechnic State Univeristy //
11// rmward@calpoly.edu //
12/////////////////////////////////////////////////
13
14#include <TNamed.h>
15
16class AliEMCALSpaceFrame : public TNamed
17{
18
19public:
20
21 AliEMCALSpaceFrame();
22 virtual ~AliEMCALSpaceFrame() {}
23
24 AliEMCALSpaceFrame(const AliEMCALSpaceFrame& calFrame);
25 AliEMCALSpaceFrame & operator = (const AliEMCALSpaceFrame & /*rvalue*/) {
26 Fatal("operator =", "not implemented");
27 return *this;
28 }
29
30 //This method assembles the Geometries and places them into the
31 //Alice master volume
32 void CreateGeometry();
33
34protected:
35
36private:
37
38 //space frame parameters from "SINGLE FRAME ASSEMBLY 27D624H.pdf"
39 //provided by Lawrence Berkeley Labs, USA
40 Int_t fNumCross; // Total number of cross beams including end pieces
41 Int_t fNumSubSets; // Total Number of Cross Beam sections in each Half Section
42 Double_t fTotalHalfWidth; // Half the width of each Half Section
43 Double_t fBeginPhi; // Begining Phi of Cal Frame
44 Double_t fEndPhi; // Ending Phi of Cal Frame
45 Double_t fTotalPhi; // Total Phi range of Cal Frame
46 Double_t fBeginRadius; // Begining Radius of Cal Frame
47 Double_t fHalfFrameTrans; // z-direction translation for each half frame
48 //flange and rib dimensions
49 Double_t fFlangeHeight; // Ending Radius of Flange (Flange is a TGeoTubeSeg)
50 Double_t fFlangeWidth; // Thickness of Flange in z-direction
51 Double_t fRibHeight; // Ending Radius of Rib
52 Double_t fRibWidth; // Thickness of Rib in z-direction
53 //cross beam sections - Cross beams come in two sections- top and bottom
54 Double_t fCrossBottomWidth; // Width along z direction
55 Double_t fCrossTopWidth; // Width along z direction
56 Double_t fCrossBottomHeight; // Tangental thickness relative to CalFrame arc
57 Double_t fCrossBottomRadThick; // Radial thickness relative to center of geometry
58 Double_t fCrossBeamArcLength; // For calulating placement of
59 Double_t fCrossBottomStartRadius; // Radial position relative to center of geometry
60 Double_t fCrossTopHeight; // Tangental thickness relative to the center of geometry
61 Double_t fCrossTopRadThick; // Radial thickness relative to CalFrame arc
62 Double_t fCrossTopStart; // Radial position relative to center of geometry
63 Double_t fEndRadius; // Ending Radius of Mother Volume
64 Double_t fEndBeamRadThick; // Radial Thickness of the End Beams
65 Double_t fEndBeamBeginRadius; // Starting Radius for End Beams
66
67 ClassDef(AliEMCALSpaceFrame,1) //Class for EMCAL Space Frame
68};
69
70#endif //ALIEMCALSPACEFRAME_H