[u/mrichter/AliRoot.git] / TRD / AliTRDpadPlane.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, 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.                  *
 **************************************************************************/

/* $Id$ */

///////////////////////////////////////////////////////////////////////////////
//                                                                           //
//  Describes a pad plane of a TRD ROC                                       //
//                                                                           //
//  Contains the information on pad postions, pad dimensions,                //
//  tilting angle, etc.                                                      //
//  It also provides methods to identify the current pad number from         //
//  global coordinates.                                                      //
//  The numbering and coordinates should follow the official convention      //
//  (see David Emschermanns note on TRD convention                           //
//                                                                           //
///////////////////////////////////////////////////////////////////////////////

#include <TMath.h>

#include "AliTRDpadPlane.h"

ClassImp(AliTRDpadPlane)

//_____________________________________________________________________________
AliTRDpadPlane::AliTRDpadPlane()
  :TObject()
  ,fLayer(0)
  ,fStack(0)
  ,fLength(0)
  ,fWidth(0)
  ,fLengthRim(0)
  ,fWidthRim(0)
  ,fLengthOPad(0)
  ,fWidthOPad(0)
  ,fLengthIPad(0)
  ,fWidthIPad(0)
  ,fRowSpacing(0)
  ,fColSpacing(0)
  ,fNrows(0)
  ,fNcols(0)
  ,fTiltingAngle(0)
  ,fTiltingTan(0)
  ,fPadRow(0)
  ,fPadCol(0)
  ,fPadRowSMOffset(0)
  ,fAnodeWireOffset(0)
{
  //
  // Default constructor
  //

}

//_____________________________________________________________________________
AliTRDpadPlane::AliTRDpadPlane(Int_t layer, Int_t stack)
  :TObject()
  ,fLayer(layer)
  ,fStack(stack)
  ,fLength(0)
  ,fWidth(0)
  ,fLengthRim(0)
  ,fWidthRim(0)
  ,fLengthOPad(0)
  ,fWidthOPad(0)
  ,fLengthIPad(0)
  ,fWidthIPad(0)
  ,fRowSpacing(0)
  ,fColSpacing(0)
  ,fNrows(0)
  ,fNcols(0)
  ,fTiltingAngle(0)
  ,fTiltingTan(0)
  ,fPadRow(0)
  ,fPadCol(0)
  ,fPadRowSMOffset(0)
  ,fAnodeWireOffset(0)
{
  //
  // Constructor
  //

}

//_____________________________________________________________________________
AliTRDpadPlane::AliTRDpadPlane(const AliTRDpadPlane &p)
  :TObject(p)
  ,fLayer(p.fLayer)
  ,fStack(p.fStack)
  ,fLength(p.fLength)
  ,fWidth(p.fWidth)
  ,fLengthRim(p.fLengthRim)
  ,fWidthRim(p.fLengthRim)
  ,fLengthOPad(p.fLengthOPad)
  ,fWidthOPad(p.fWidthOPad)
  ,fLengthIPad(p.fLengthIPad)
  ,fWidthIPad(p.fWidthIPad)
  ,fRowSpacing(p.fRowSpacing)
  ,fColSpacing(p.fColSpacing)
  ,fNrows(p.fNrows)
  ,fNcols(p.fNcols)
  ,fTiltingAngle(p.fTiltingAngle)
  ,fTiltingTan(p.fTiltingTan)
  ,fPadRow(0)
  ,fPadCol(0)
  ,fPadRowSMOffset(p.fPadRowSMOffset)
  ,fAnodeWireOffset(p.fAnodeWireOffset)
{
  //
  // AliTRDpadPlane copy constructor
  //

  Int_t iBin = 0;

  fPadRow = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    fPadRow[iBin] = ((AliTRDpadPlane &) p).fPadRow[iBin];
  }                                                                             

  fPadCol = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    fPadCol[iBin] = ((AliTRDpadPlane &) p).fPadCol[iBin];
  }                                                                             

}

//_____________________________________________________________________________
AliTRDpadPlane::~AliTRDpadPlane()
{
  //
  // AliTRDpadPlane destructor
  //

  if (fPadRow) {
    delete [] fPadRow;
    fPadRow = 0;
  }

  if (fPadCol) {
    delete [] fPadCol;
    fPadCol = 0;
  }

}

//_____________________________________________________________________________
AliTRDpadPlane &AliTRDpadPlane::operator=(const AliTRDpadPlane &p)
{
  //
  // Assignment operator
  //

  if (this == &p) {
    return *this;
  }

  fLayer           = p.fLayer;
  fStack           = p.fStack;
  fLength          = p.fLength;
  fWidth           = p.fWidth;
  fLengthRim       = p.fLengthRim;
  fWidthRim        = p.fLengthRim;
  fLengthOPad      = p.fLengthOPad;
  fWidthOPad       = p.fWidthOPad;
  fLengthIPad      = p.fLengthIPad;
  fWidthIPad       = p.fWidthIPad;
  fRowSpacing      = p.fRowSpacing;
  fColSpacing      = p.fColSpacing;
  fNrows           = p.fNrows;
  fNcols           = p.fNcols;
  fTiltingAngle    = p.fTiltingAngle;
  fTiltingTan      = p.fTiltingTan;
  fPadRow          = 0;
  fPadCol          = 0;
  fPadRowSMOffset  = p.fPadRowSMOffset;
  fAnodeWireOffset = p.fAnodeWireOffset;

  Int_t iBin = 0;

  if (fPadRow) {
    delete [] fPadRow;
  }
  fPadRow = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    fPadRow[iBin] = ((AliTRDpadPlane &) p).fPadRow[iBin];
  }                                                                             

  if (fPadCol) {
    delete [] fPadCol;
  }
  fPadCol = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    fPadCol[iBin] = ((AliTRDpadPlane &) p).fPadCol[iBin];
  }                                                                             

  return *this;

}

//_____________________________________________________________________________
void AliTRDpadPlane::Copy(TObject &p) const
{
  //
  // Copy function
  //

  Int_t iBin = 0;

  ((AliTRDpadPlane &) p).fLayer           = fLayer;
  ((AliTRDpadPlane &) p).fStack           = fStack;

  ((AliTRDpadPlane &) p).fLength          = fLength;
  ((AliTRDpadPlane &) p).fWidth           = fWidth;
  ((AliTRDpadPlane &) p).fLengthRim       = fLengthRim;
  ((AliTRDpadPlane &) p).fWidthRim        = fWidthRim;
  ((AliTRDpadPlane &) p).fLengthOPad      = fLengthOPad;
  ((AliTRDpadPlane &) p).fWidthOPad       = fWidthOPad;
  ((AliTRDpadPlane &) p).fLengthIPad      = fLengthIPad;
  ((AliTRDpadPlane &) p).fWidthIPad       = fWidthIPad;

  ((AliTRDpadPlane &) p).fRowSpacing      = fRowSpacing;
  ((AliTRDpadPlane &) p).fColSpacing      = fColSpacing;

  ((AliTRDpadPlane &) p).fNrows           = fNrows;
  ((AliTRDpadPlane &) p).fNcols           = fNcols;

  ((AliTRDpadPlane &) p).fTiltingAngle    = fTiltingAngle;
  ((AliTRDpadPlane &) p).fTiltingTan      = fTiltingTan;

  ((AliTRDpadPlane &) p).fPadRowSMOffset  = fPadRowSMOffset;
  ((AliTRDpadPlane &) p).fAnodeWireOffset = fAnodeWireOffset;

  if (((AliTRDpadPlane &) p).fPadRow) {
    delete [] ((AliTRDpadPlane &) p).fPadRow;
  }
  ((AliTRDpadPlane &) p).fPadRow = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    ((AliTRDpadPlane &) p).fPadRow[iBin] = fPadRow[iBin];
  }                                                                             

  if (((AliTRDpadPlane &) p).fPadCol) {
    delete [] ((AliTRDpadPlane &) p).fPadCol;
  }
  ((AliTRDpadPlane &) p).fPadCol = new Double_t[fNrows];
  for (iBin = 0; iBin < fNrows; iBin++) {
    ((AliTRDpadPlane &) p).fPadCol[iBin] = fPadCol[iBin];
  }                                                                             

  TObject::Copy(p);

}

//_____________________________________________________________________________
void AliTRDpadPlane::SetTiltingAngle(Double_t t)
{
  //
  // Set the tilting angle of the pads
  //
 
  fTiltingAngle = t; 
  fTiltingTan   = TMath::Tan(TMath::Pi()/180.0 * fTiltingAngle); 

}

//_____________________________________________________________________________
Int_t AliTRDpadPlane::GetPadRowNumber(Double_t z) const
{
  //
  // Finds the pad row number for a given z-position in local supermodule system
  //

  Int_t row    = 0;
  Int_t nabove = 0;
  Int_t nbelow = 0;
  Int_t middle = 0;

  if ((z > GetRow0()  ) || 
      (z < GetRowEnd())) {

    row = -1;

  }
  else {

    nabove = fNrows + 1;
    nbelow = 0;
    while (nabove - nbelow > 1) {
      middle = (nabove + nbelow) / 2;
      if (z == (fPadRow[middle-1] + fPadRowSMOffset)) {
        row    = middle;
      }
      if (z  > (fPadRow[middle-1] + fPadRowSMOffset)) {
        nabove = middle;
      }
      else {
        nbelow = middle;
      }
    }
    row = nbelow - 1;

  }

  return row;

}

//_____________________________________________________________________________
Int_t AliTRDpadPlane::GetPadRowNumberROC(Double_t z) const
{
  //
  // Finds the pad row number for a given z-position in local ROC system
  //

  Int_t row    = 0;
  Int_t nabove = 0;
  Int_t nbelow = 0;
  Int_t middle = 0;

  if ((z > GetRow0ROC()  ) || 
      (z < GetRowEndROC())) {

    row = -1;

  }
  else {

    nabove = fNrows + 1;
    nbelow = 0;
    while (nabove - nbelow > 1) {
      middle = (nabove + nbelow) / 2;
      if (z == fPadRow[middle-1]) {
        row    = middle;
      }
      if (z  > fPadRow[middle-1]) {
        nabove = middle;
      }
      else {
        nbelow = middle;
      }
    }
    row = nbelow - 1;

  }

  return row;

}

//_____________________________________________________________________________
Int_t AliTRDpadPlane::GetPadColNumber(Double_t rphi) const
{
  //
  // Finds the pad column number for a given rphi-position
  //

  Int_t col    = 0;
  Int_t nabove = 0;
  Int_t nbelow = 0;
  Int_t middle = 0;

  if ((rphi < GetCol0()  ) || 
      (rphi > GetColEnd())) {

    col = -1;

  }
  else {

    nabove = fNcols;
    nbelow = 0;
    while (nabove - nbelow > 1) {
      middle = (nabove + nbelow) / 2;
      if (rphi == fPadCol[middle]) {
        col    = middle;
      }
      if (rphi  > fPadCol[middle]) {
        nbelow = middle;
      }
      else {
        nabove = middle;
      }
    }
    col = nbelow;

  }

  return col;

}
Commit	Line	Data
e0d47c25	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, 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
	16	/* $Id$ */
	17
	18	///////////////////////////////////////////////////////////////////////////////
	19	// //
	20	// Describes a pad plane of a TRD ROC //
	21	// //
	22	// Contains the information on pad postions, pad dimensions, //
	23	// tilting angle, etc. //
	24	// It also provides methods to identify the current pad number from //
	25	// global coordinates. //
3148e21a	26	// The numbering and coordinates should follow the official convention //
3148e21a	27	// (see David Emschermanns note on TRD convention //
e0d47c25	28	// //
	29	///////////////////////////////////////////////////////////////////////////////
	30
090026bf	31	#include <TMath.h>
090026bf	32
e0d47c25	33	#include "AliTRDpadPlane.h"
e0d47c25	34
	35	ClassImp(AliTRDpadPlane)
	36
	37	//_____________________________________________________________________________
2745a409	38	AliTRDpadPlane::AliTRDpadPlane()
2745a409	39	:TObject()
053767a4	40	,fLayer(0)
053767a4	41	,fStack(0)
2745a409	42	,fLength(0)
	43	,fWidth(0)
	44	,fLengthRim(0)
	45	,fWidthRim(0)
	46	,fLengthOPad(0)
	47	,fWidthOPad(0)
	48	,fLengthIPad(0)
	49	,fWidthIPad(0)
	50	,fRowSpacing(0)
	51	,fColSpacing(0)
	52	,fNrows(0)
	53	,fNcols(0)
	54	,fTiltingAngle(0)
	55	,fTiltingTan(0)
	56	,fPadRow(0)
	57	,fPadCol(0)
4329977a	58	,fPadRowSMOffset(0)
58897a75	59	,fAnodeWireOffset(0)
e0d47c25	60	{
	61	//
	62	// Default constructor
	63	//
	64
e0d47c25	65	}
e0d47c25	66
5dfd5caf	67	//_____________________________________________________________________________
053767a4	68	AliTRDpadPlane::AliTRDpadPlane(Int_t layer, Int_t stack)
5dfd5caf	69	:TObject()
053767a4	70	,fLayer(layer)
053767a4	71	,fStack(stack)
5dfd5caf	72	,fLength(0)
	73	,fWidth(0)
	74	,fLengthRim(0)
	75	,fWidthRim(0)
	76	,fLengthOPad(0)
	77	,fWidthOPad(0)
	78	,fLengthIPad(0)
	79	,fWidthIPad(0)
	80	,fRowSpacing(0)
	81	,fColSpacing(0)
	82	,fNrows(0)
	83	,fNcols(0)
	84	,fTiltingAngle(0)
	85	,fTiltingTan(0)
	86	,fPadRow(0)
	87	,fPadCol(0)
	88	,fPadRowSMOffset(0)
58897a75	89	,fAnodeWireOffset(0)
5dfd5caf	90	{
	91	//
	92	// Constructor
	93	//
	94
	95	}
	96
e0d47c25	97	//_____________________________________________________________________________
2745a409	98	AliTRDpadPlane::AliTRDpadPlane(const AliTRDpadPlane &p)
2745a409	99	:TObject(p)
053767a4	100	,fLayer(p.fLayer)
053767a4	101	,fStack(p.fStack)
2745a409	102	,fLength(p.fLength)
	103	,fWidth(p.fWidth)
	104	,fLengthRim(p.fLengthRim)
	105	,fWidthRim(p.fLengthRim)
	106	,fLengthOPad(p.fLengthOPad)
	107	,fWidthOPad(p.fWidthOPad)
	108	,fLengthIPad(p.fLengthIPad)
	109	,fWidthIPad(p.fWidthIPad)
	110	,fRowSpacing(p.fRowSpacing)
	111	,fColSpacing(p.fColSpacing)
	112	,fNrows(p.fNrows)
	113	,fNcols(p.fNcols)
	114	,fTiltingAngle(p.fTiltingAngle)
	115	,fTiltingTan(p.fTiltingTan)
	116	,fPadRow(0)
	117	,fPadCol(0)
4329977a	118	,fPadRowSMOffset(p.fPadRowSMOffset)
58897a75	119	,fAnodeWireOffset(p.fAnodeWireOffset)
e0d47c25	120	{
	121	//
	122	// AliTRDpadPlane copy constructor
	123	//
	124
2745a409	125	Int_t iBin = 0;
2745a409	126
024c0422	127	fPadRow = new Double_t[fNrows];
2745a409	128	for (iBin = 0; iBin < fNrows; iBin++) {
024c0422	129	fPadRow[iBin] = ((AliTRDpadPlane &) p).fPadRow[iBin];
2745a409	130	}
2745a409	131
024c0422	132	fPadCol = new Double_t[fNrows];
2745a409	133	for (iBin = 0; iBin < fNrows; iBin++) {
024c0422	134	fPadCol[iBin] = ((AliTRDpadPlane &) p).fPadCol[iBin];
2745a409	135	}
e0d47c25	136
	137	}
	138
	139	//_____________________________________________________________________________
	140	AliTRDpadPlane::~AliTRDpadPlane()
	141	{
	142	//
	143	// AliTRDpadPlane destructor
	144	//
	145
e0d47c25	146	if (fPadRow) {
	147	delete [] fPadRow;
	148	fPadRow = 0;
	149	}
	150
	151	if (fPadCol) {
	152	delete [] fPadCol;
	153	fPadCol = 0;
	154	}
	155
	156	}
	157
3c537e64	158	//_____________________________________________________________________________
	159	AliTRDpadPlane &AliTRDpadPlane::operator=(const AliTRDpadPlane &p)
	160	{
	161	//
	162	// Assignment operator
	163	//
	164
12c9b1c3	165	if (this == &p) {
12c9b1c3	166	return *this;
f881dc35	167	}
f881dc35	168
12c9b1c3	169	fLayer = p.fLayer;
	170	fStack = p.fStack;
	171	fLength = p.fLength;
	172	fWidth = p.fWidth;
	173	fLengthRim = p.fLengthRim;
	174	fWidthRim = p.fLengthRim;
	175	fLengthOPad = p.fLengthOPad;
	176	fWidthOPad = p.fWidthOPad;
	177	fLengthIPad = p.fLengthIPad;
	178	fWidthIPad = p.fWidthIPad;
	179	fRowSpacing = p.fRowSpacing;
	180	fColSpacing = p.fColSpacing;
	181	fNrows = p.fNrows;
	182	fNcols = p.fNcols;
	183	fTiltingAngle = p.fTiltingAngle;
	184	fTiltingTan = p.fTiltingTan;
	185	fPadRow = 0;
	186	fPadCol = 0;
	187	fPadRowSMOffset = p.fPadRowSMOffset;
	188	fAnodeWireOffset = p.fAnodeWireOffset;
	189
	190	Int_t iBin = 0;
	191
089086d3	192	if (fPadRow) {
	193	delete [] fPadRow;
	194	}
12c9b1c3	195	fPadRow = new Double_t[fNrows];
	196	for (iBin = 0; iBin < fNrows; iBin++) {
	197	fPadRow[iBin] = ((AliTRDpadPlane &) p).fPadRow[iBin];
	198	}
	199
089086d3	200	if (fPadCol) {
	201	delete [] fPadCol;
	202	}
12c9b1c3	203	fPadCol = new Double_t[fNrows];
	204	for (iBin = 0; iBin < fNrows; iBin++) {
	205	fPadCol[iBin] = ((AliTRDpadPlane &) p).fPadCol[iBin];
	206	}
	207
3c537e64	208	return *this;
	209
	210	}
	211
e0d47c25	212	//_____________________________________________________________________________
	213	void AliTRDpadPlane::Copy(TObject &p) const
	214	{
	215	//
	216	// Copy function
	217	//
	218
	219	Int_t iBin = 0;
	220
58897a75	221	((AliTRDpadPlane &) p).fLayer = fLayer;
58897a75	222	((AliTRDpadPlane &) p).fStack = fStack;
e0d47c25	223
58897a75	224	((AliTRDpadPlane &) p).fLength = fLength;
	225	((AliTRDpadPlane &) p).fWidth = fWidth;
	226	((AliTRDpadPlane &) p).fLengthRim = fLengthRim;
	227	((AliTRDpadPlane &) p).fWidthRim = fWidthRim;
	228	((AliTRDpadPlane &) p).fLengthOPad = fLengthOPad;
	229	((AliTRDpadPlane &) p).fWidthOPad = fWidthOPad;
	230	((AliTRDpadPlane &) p).fLengthIPad = fLengthIPad;
	231	((AliTRDpadPlane &) p).fWidthIPad = fWidthIPad;
e0d47c25	232
58897a75	233	((AliTRDpadPlane &) p).fRowSpacing = fRowSpacing;
58897a75	234	((AliTRDpadPlane &) p).fColSpacing = fColSpacing;
e0d47c25	235
58897a75	236	((AliTRDpadPlane &) p).fNrows = fNrows;
58897a75	237	((AliTRDpadPlane &) p).fNcols = fNcols;
e0d47c25	238
58897a75	239	((AliTRDpadPlane &) p).fTiltingAngle = fTiltingAngle;
58897a75	240	((AliTRDpadPlane &) p).fTiltingTan = fTiltingTan;
e0d47c25	241
58897a75	242	((AliTRDpadPlane &) p).fPadRowSMOffset = fPadRowSMOffset;
58897a75	243	((AliTRDpadPlane &) p).fAnodeWireOffset = fAnodeWireOffset;
e0d47c25	244
f881dc35	245	if (((AliTRDpadPlane &) p).fPadRow) {
	246	delete [] ((AliTRDpadPlane &) p).fPadRow;
	247	}
e0d47c25	248	((AliTRDpadPlane &) p).fPadRow = new Double_t[fNrows];
	249	for (iBin = 0; iBin < fNrows; iBin++) {
	250	((AliTRDpadPlane &) p).fPadRow[iBin] = fPadRow[iBin];
	251	}
	252
f881dc35	253	if (((AliTRDpadPlane &) p).fPadCol) {
	254	delete [] ((AliTRDpadPlane &) p).fPadCol;
	255	}
e0d47c25	256	((AliTRDpadPlane &) p).fPadCol = new Double_t[fNrows];
	257	for (iBin = 0; iBin < fNrows; iBin++) {
	258	((AliTRDpadPlane &) p).fPadCol[iBin] = fPadCol[iBin];
	259	}
	260
	261	TObject::Copy(p);
	262
	263	}
	264
f18d4f83	265	//_____________________________________________________________________________
	266	void AliTRDpadPlane::SetTiltingAngle(Double_t t)
	267	{
	268	//
	269	// Set the tilting angle of the pads
	270	//
	271
	272	fTiltingAngle = t;
	273	fTiltingTan = TMath::Tan(TMath::Pi()/180.0 * fTiltingAngle);
	274
	275	}
	276
e0d47c25	277	//_____________________________________________________________________________
98ce8151	278	Int_t AliTRDpadPlane::GetPadRowNumber(Double_t z) const
e0d47c25	279	{
e0d47c25	280	//
4329977a	281	// Finds the pad row number for a given z-position in local supermodule system
e0d47c25	282	//
	283
	284	Int_t row = 0;
	285	Int_t nabove = 0;
	286	Int_t nbelow = 0;
	287	Int_t middle = 0;
	288
f881dc35	289	if ((z > GetRow0() ) \|\|
f881dc35	290	(z < GetRowEnd())) {
a5cadd36	291
e0d47c25	292	row = -1;
a5cadd36	293
4329977a	294	}
	295	else {
	296
	297	nabove = fNrows + 1;
	298	nbelow = 0;
	299	while (nabove - nbelow > 1) {
	300	middle = (nabove + nbelow) / 2;
	301	if (z == (fPadRow[middle-1] + fPadRowSMOffset)) {
	302	row = middle;
	303	}
	304	if (z > (fPadRow[middle-1] + fPadRowSMOffset)) {
	305	nabove = middle;
	306	}
	307	else {
	308	nbelow = middle;
	309	}
	310	}
	311	row = nbelow - 1;
	312
	313	}
	314
	315	return row;
	316
	317	}
	318
	319	//_____________________________________________________________________________
	320	Int_t AliTRDpadPlane::GetPadRowNumberROC(Double_t z) const
	321	{
	322	//
	323	// Finds the pad row number for a given z-position in local ROC system
	324	//
	325
	326	Int_t row = 0;
	327	Int_t nabove = 0;
	328	Int_t nbelow = 0;
	329	Int_t middle = 0;
	330
	331	if ((z > GetRow0ROC() ) \|\|
	332	(z < GetRowEndROC())) {
	333
	334	row = -1;
	335
e0d47c25	336	}
e0d47c25	337	else {
a5cadd36	338
f881dc35	339	nabove = fNrows + 1;
e0d47c25	340	nbelow = 0;
	341	while (nabove - nbelow > 1) {
	342	middle = (nabove + nbelow) / 2;
f881dc35	343	if (z == fPadRow[middle-1]) {
	344	row = middle;
	345	}
	346	if (z > fPadRow[middle-1]) {
	347	nabove = middle;
	348	}
	349	else {
	350	nbelow = middle;
	351	}
e0d47c25	352	}
e0d47c25	353	row = nbelow - 1;
a5cadd36	354
e0d47c25	355	}
	356
	357	return row;
	358
	359	}
	360
	361	//_____________________________________________________________________________
4329977a	362	Int_t AliTRDpadPlane::GetPadColNumber(Double_t rphi) const
e0d47c25	363	{
e0d47c25	364	//
023b669c	365	// Finds the pad column number for a given rphi-position
e0d47c25	366	//
e0d47c25	367
4329977a	368	Int_t col = 0;
	369	Int_t nabove = 0;
	370	Int_t nbelow = 0;
	371	Int_t middle = 0;
2f4fac20	372
023b669c	373	if ((rphi < GetCol0() ) \|\|
023b669c	374	(rphi > GetColEnd())) {
e0d47c25	375
e0d47c25	376	col = -1;
a5cadd36	377
e0d47c25	378	}
e0d47c25	379	else {
a5cadd36	380
023b669c	381	nabove = fNcols;
e0d47c25	382	nbelow = 0;
	383	while (nabove - nbelow > 1) {
	384	middle = (nabove + nbelow) / 2;
023b669c	385	if (rphi == fPadCol[middle]) {
f881dc35	386	col = middle;
f881dc35	387	}
023b669c	388	if (rphi > fPadCol[middle]) {
023b669c	389	nbelow = middle;
f881dc35	390	}
f881dc35	391	else {
023b669c	392	nabove = middle;
f881dc35	393	}
e0d47c25	394	}
023b669c	395	col = nbelow;
e0d47c25	396
e0d47c25	397	}
e0d47c25	398
a5cadd36	399	return col;
e0d47c25	400
e0d47c25	401	}