[u/mrichter/AliRoot.git] / FMD / AliFMD3.cxx

/**************************************************************************
 * Copyright(c) 2004, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/
/* $Id$ */
/** @file    AliFMD3.cxx
    @author  Christian Holm Christensen <cholm@nbi.dk>
    @date    Sun Mar 26 18:26:12 2006
    @brief   Concrete implementation of AliFMDDetector for FMD3
*/
//____________________________________________________________________
//                                                                          
// Concrete implementation of AliFMDDetector 
//
// This implements the geometry for FMD3.
// This has 2 rings.
// The support of the FMD3 is a carbon-fibre cone, attached to the ITS
// support via flanges.  The cone also supports the beam-pipe.
// The support is a special cone of carbon-fibre made by a Danish
// Yacht company.
//

#include <TMath.h>		// ROOT_TMath

#include "AliFMD3.h"		// ALIFMD3_H 
#include "AliFMDDebug.h"		// ALIFMDDEBUG_H ALILOG_H
#include "AliFMDRing.h"		// ALIFMDRING_H 
#include <TVector3.h>

//====================================================================
ClassImp(AliFMD3)
#if 0
  ; // This is here to keep Emacs for indenting the next line
#endif

//____________________________________________________________________
AliFMD3::AliFMD3(AliFMDRing* inner, AliFMDRing* outer) 
  : AliFMDDetector(3, inner, outer),
    // fNoseZ(16.54667)
    fNoseZ(18.13 - inner->GetModuleDepth()-inner->GetModuleSpacing()/2),    // From drawing
    fFlangeDepth(0),
    fFlangeHighR(49.25), // From drawing 
    fFlangeLength(0),
    fFlangeWidth(6),     // From drawing 
    fFiducialRadius(.25),
    fConeInnerAngle(0),
    fConeOuterAngle(0),
    fHoleOffset(6.9),    // From drawing
    fHoleDepth(2),       // What's needed
    fHoleLength(31.2),   // From drawing
    fHoleLowWidth(3), // 4),    // What's needed
    fHoleHighWidth(18.5), // 17.5), // 18),  // What's needed
    fBoltLength(1),      // Guessed
    fBoltRadius(0.15),   // Estimate
    fConeRadii(6),    
    fFiducialHoles(4)
{
  // Constructor. 
  Double_t off = 0; // -0.39615-0.10185; // -0.25;
  if (off != 0) 
    AliWarning(Form("Z position of FMD3 rings may be off by %fcm!", off));

  SetInnerZ(-62.8+off);             // By design
  SetOuterZ(-75.2+off);             // By design

  SetInnerHoneyLowR(4.18207);   // From drawing
  SetInnerHoneyHighR(19.74922); // From drawing
  SetOuterHoneyLowR(13.4776);   // From drawing
  SetOuterHoneyHighR(31.01964); // From drawing
  
  // These are from the drawings
  fConeRadii.Add(new TVector3( 0,       5.55,  6.25));
  fConeRadii.Add(new TVector3( 2.35,    5.55,  6.25));
  fConeRadii.Add(new TVector3( 2.9935,  5.55,  6.88479));
  fConeRadii.Add(new TVector3(28.9435, 31.50, 32.75850));
  fConeRadii.Add(new TVector3(29.5,    31.50, 33.4));
  fConeRadii.Add(new TVector3(30.9,    31.50, 33.4));

  // These are from the drawings
  fFiducialHoles.Add(new TVector2(29.666, 32.495));
  fFiducialHoles.Add(new TVector2(31.082, 33.910));
  fFiducialHoles.Add(new TVector2(32.674, 35.503));
  fFiducialHoles.Add(new TVector2(33.403, 34.818));
}

//____________________________________________________________________
void
AliFMD3::Init() 
{
  // Initialize 
  AliFMDDetector::Init();
  // TVector3& v0 = *(static_cast<TVector3*>(fConeRadii.At(0)));
  TVector3& v1 = *(static_cast<TVector3*>(fConeRadii.At(1)));
  TVector3& v2 = *(static_cast<TVector3*>(fConeRadii.At(2)));
  TVector3& v3 = *(static_cast<TVector3*>(fConeRadii.At(3)));
  TVector3& v4 = *(static_cast<TVector3*>(fConeRadii.At(4)));
  TVector3& v5 = *(static_cast<TVector3*>(fConeRadii.At(5)));
  
  fFlangeDepth     = v5.X() - v4.X();
  fFlangeLength    = fFlangeHighR - v5.Y();
  
  fConeInnerAngle  = TMath::ATan2(v4.Z()-v1.Z(), v4.X()-v1.X());
  fConeOuterAngle  = TMath::ATan2(v3.Y()-v2.Y(), v3.X()-v2.X());
  
#if 0
  Double_t    hz1  = -fHoleOffset+fInnerZ+fNoseZ;
  fHoleLength      = TMath::Sqrt(TMath::Power(v4.Z()-ConeR(hz1),2) + 
				 TMath::Power(v4.X()-fHoleOffset,2));  
#endif
}

//____________________________________________________________________
Double_t
AliFMD3::ConeR(Double_t z, Option_t* opt) const
{
  // Calculate the cone radius at Z
  // TVector3& v0 = *(static_cast<TVector3*>(fConeRadii.At(0)));
  TVector3& v1 = *(static_cast<TVector3*>(fConeRadii.At(1)));
  TVector3& v2 = *(static_cast<TVector3*>(fConeRadii.At(2)));
  TVector3& v3 = *(static_cast<TVector3*>(fConeRadii.At(3)));
  TVector3& v4 = *(static_cast<TVector3*>(fConeRadii.At(4)));
  TVector3& v5 = *(static_cast<TVector3*>(fConeRadii.At(5)));

  if (z > fInnerZ + fNoseZ) {
    AliWarning(Form("z=%lf is before start of cone %lf", z, fInnerZ + fNoseZ));
    return -1;
  }
  if (z < fInnerZ + fNoseZ - v5.Z()) {
    AliWarning(Form("z=%lf is after end of cone %lf", z, 
		    fInnerZ + fNoseZ - v5.Z()));
    return -1;
  }
  Double_t rz    = -(z-fInnerZ-fNoseZ);
  Bool_t   inner = opt[0] == 'I' || opt[1] == 'i';
  if (inner  && rz <= v2.X()) return v2.Y();
  if (!inner && rz <= v1.X()) return v1.Z();
  if (inner  && rz >  v3.X()) return v3.Y();
  if (!inner && rz >  v4.X()) return v4.Z();
  
  rz             -= (inner ? v2.X() : v1.X());
  Double_t sr    =  (inner ? v2.Y() : v1.Z());
  Double_t ang   =  (inner ? fConeInnerAngle : fConeOuterAngle);
  return sr + rz * TMath::Tan(ang);
}


//____________________________________________________________________
//
// EOF
//
Commit	Line	Data
	1	/**************************************************************************
	2	* Copyright(c) 2004, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15	/* $Id$ */
	16	/** @file AliFMD3.cxx
	17	@author Christian Holm Christensen <cholm@nbi.dk>
	18	@date Sun Mar 26 18:26:12 2006
	19	@brief Concrete implementation of AliFMDDetector for FMD3
	20	*/
	21	//____________________________________________________________________
	22	//
	23	// Concrete implementation of AliFMDDetector
	24	//
	25	// This implements the geometry for FMD3.
	26	// This has 2 rings.
	27	// The support of the FMD3 is a carbon-fibre cone, attached to the ITS
	28	// support via flanges. The cone also supports the beam-pipe.
	29	// The support is a special cone of carbon-fibre made by a Danish
	30	// Yacht company.
	31	//
	32
	33	#include <TMath.h> // ROOT_TMath
	34
	35	#include "AliFMD3.h" // ALIFMD3_H
	36	#include "AliFMDDebug.h" // ALIFMDDEBUG_H ALILOG_H
	37	#include "AliFMDRing.h" // ALIFMDRING_H
	38	#include <TVector3.h>
	39
	40	//====================================================================
	41	ClassImp(AliFMD3)
	42	#if 0
	43	; // This is here to keep Emacs for indenting the next line
	44	#endif
	45
	46	//____________________________________________________________________
	47	AliFMD3::AliFMD3(AliFMDRing* inner, AliFMDRing* outer)
	48	: AliFMDDetector(3, inner, outer),
	49	// fNoseZ(16.54667)
	50	fNoseZ(18.13 - inner->GetModuleDepth()-inner->GetModuleSpacing()/2), // From drawing
	51	fFlangeDepth(0),
	52	fFlangeHighR(49.25), // From drawing
	53	fFlangeLength(0),
	54	fFlangeWidth(6), // From drawing
	55	fFiducialRadius(.25),
	56	fConeInnerAngle(0),
	57	fConeOuterAngle(0),
	58	fHoleOffset(6.9), // From drawing
	59	fHoleDepth(2), // What's needed
	60	fHoleLength(31.2), // From drawing
	61	fHoleLowWidth(3), // 4), // What's needed
	62	fHoleHighWidth(18.5), // 17.5), // 18), // What's needed
	63	fBoltLength(1), // Guessed
	64	fBoltRadius(0.15), // Estimate
	65	fConeRadii(6),
	66	fFiducialHoles(4)
	67	{
	68	// Constructor.
	69	Double_t off = 0; // -0.39615-0.10185; // -0.25;
	70	if (off != 0)
	71	AliWarning(Form("Z position of FMD3 rings may be off by %fcm!", off));
	72
	73	SetInnerZ(-62.8+off); // By design
	74	SetOuterZ(-75.2+off); // By design
	75
	76	SetInnerHoneyLowR(4.18207); // From drawing
	77	SetInnerHoneyHighR(19.74922); // From drawing
	78	SetOuterHoneyLowR(13.4776); // From drawing
	79	SetOuterHoneyHighR(31.01964); // From drawing
	80
	81	// These are from the drawings
	82	fConeRadii.Add(new TVector3( 0, 5.55, 6.25));
	83	fConeRadii.Add(new TVector3( 2.35, 5.55, 6.25));
	84	fConeRadii.Add(new TVector3( 2.9935, 5.55, 6.88479));
	85	fConeRadii.Add(new TVector3(28.9435, 31.50, 32.75850));
	86	fConeRadii.Add(new TVector3(29.5, 31.50, 33.4));
	87	fConeRadii.Add(new TVector3(30.9, 31.50, 33.4));
	88
	89	// These are from the drawings
	90	fFiducialHoles.Add(new TVector2(29.666, 32.495));
	91	fFiducialHoles.Add(new TVector2(31.082, 33.910));
	92	fFiducialHoles.Add(new TVector2(32.674, 35.503));
	93	fFiducialHoles.Add(new TVector2(33.403, 34.818));
	94	}
	95
	96	//____________________________________________________________________
	97	void
	98	AliFMD3::Init()
	99	{
	100	// Initialize
	101	AliFMDDetector::Init();
	102	// TVector3& v0 = (static_cast<TVector3>(fConeRadii.At(0)));
	103	TVector3& v1 = (static_cast<TVector3>(fConeRadii.At(1)));
	104	TVector3& v2 = (static_cast<TVector3>(fConeRadii.At(2)));
	105	TVector3& v3 = (static_cast<TVector3>(fConeRadii.At(3)));
	106	TVector3& v4 = (static_cast<TVector3>(fConeRadii.At(4)));
	107	TVector3& v5 = (static_cast<TVector3>(fConeRadii.At(5)));
	108
	109	fFlangeDepth = v5.X() - v4.X();
	110	fFlangeLength = fFlangeHighR - v5.Y();
	111
	112	fConeInnerAngle = TMath::ATan2(v4.Z()-v1.Z(), v4.X()-v1.X());
	113	fConeOuterAngle = TMath::ATan2(v3.Y()-v2.Y(), v3.X()-v2.X());
	114
	115	#if 0
	116	Double_t hz1 = -fHoleOffset+fInnerZ+fNoseZ;
	117	fHoleLength = TMath::Sqrt(TMath::Power(v4.Z()-ConeR(hz1),2) +
	118	TMath::Power(v4.X()-fHoleOffset,2));
	119	#endif
	120	}
	121
	122	//____________________________________________________________________
	123	Double_t
	124	AliFMD3::ConeR(Double_t z, Option_t* opt) const
	125	{
	126	// Calculate the cone radius at Z
	127	// TVector3& v0 = (static_cast<TVector3>(fConeRadii.At(0)));
	128	TVector3& v1 = (static_cast<TVector3>(fConeRadii.At(1)));
	129	TVector3& v2 = (static_cast<TVector3>(fConeRadii.At(2)));
	130	TVector3& v3 = (static_cast<TVector3>(fConeRadii.At(3)));
	131	TVector3& v4 = (static_cast<TVector3>(fConeRadii.At(4)));
	132	TVector3& v5 = (static_cast<TVector3>(fConeRadii.At(5)));
	133
	134	if (z > fInnerZ + fNoseZ) {
	135	AliWarning(Form("z=%lf is before start of cone %lf", z, fInnerZ + fNoseZ));
	136	return -1;
	137	}
	138	if (z < fInnerZ + fNoseZ - v5.Z()) {
	139	AliWarning(Form("z=%lf is after end of cone %lf", z,
	140	fInnerZ + fNoseZ - v5.Z()));
	141	return -1;
	142	}
	143	Double_t rz = -(z-fInnerZ-fNoseZ);
	144	Bool_t inner = opt[0] == 'I' \|\| opt[1] == 'i';
	145	if (inner && rz <= v2.X()) return v2.Y();
	146	if (!inner && rz <= v1.X()) return v1.Z();
	147	if (inner && rz > v3.X()) return v3.Y();
	148	if (!inner && rz > v4.X()) return v4.Z();
	149
	150	rz -= (inner ? v2.X() : v1.X());
	151	Double_t sr = (inner ? v2.Y() : v1.Z());
	152	Double_t ang = (inner ? fConeInnerAngle : fConeOuterAngle);
	153	return sr + rz * TMath::Tan(ang);
	154	}
	155
	156
	157	//____________________________________________________________________
	158	//
	159	// EOF
	160	//