[u/mrichter/AliRoot.git] / TPC / AliTPCFitPad.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.                  *
 **************************************************************************/

////////////////////////////////////////////////////////////////////////////
//                                                                        
//       === Class for fitting properties specific to pad regions ===
//
//    For each pad size region a separate TLinearFitter object is assigned.
//    Commonly used functions such as getting the center of a pad size
//    region or visualization functions are provided. Also, choosing the
//    segment and pad type is made easy due to different methods that
//    can calculate these informations from other coordinates.
//
////////////////////////////////////////////////////////////////////////////

#include "AliTPCFitPad.h"

ClassImp(AliTPCFitPad)


AliTPCFitPad::AliTPCFitPad(Int_t ndim, const char* formula, Option_t* opt) :
   AliTPCCalPadRegion("", ""),
   fNdim(ndim),
   fFormula(formula),
   fOpt(opt)
{
   //
   // Constructor. The parameters are used for generating new TLinearFitter
   // objects and are described in its documentation.
   //
}

AliTPCFitPad& AliTPCFitPad::operator=(const AliTPCFitPad& rhs)
{
  //
  // Assignment operator.
  //
  
  if (this != &rhs) {
    AliTPCCalPadRegion::operator=(rhs);
    fNdim = rhs.fNdim;
    fFormula = rhs.fFormula;
    fOpt = rhs.fOpt;
  }
  return *this;
}

AliTPCFitPad::AliTPCFitPad(const AliTPCFitPad& rhs):
  AliTPCCalPadRegion(rhs),
  fNdim(rhs.fNdim),
  fFormula(rhs.fFormula),
  fOpt(rhs.fOpt)

{
  //
  // Copy constructor
  //
}

AliTPCFitPad::~AliTPCFitPad() {
   //
   // Destructor.
   //

   Delete();
}


void AliTPCFitPad::Add(AliTPCFitPad* fit) {
   //
   // Adds another AliTPCFitPad object to this object. The formula should be the
   // same, though it won't be checked!
   //

   for (UInt_t iSegment = 0; iSegment < GetNSegments(); iSegment++) {
      for (UInt_t iPadType = 0; iPadType < GetNPadTypes(); iPadType++) {
         TLinearFitter* fitter = fit->GetFitterSimple(iSegment, iPadType);
         // parameter workaround == kTRUE because it is not possible to add another
         // TLinearFitter object to a "virgin" one. Thus a dummy data point is added
         // and cleared again immediately afterwards. Due to a broken TLinearFitter
         // copy constructor this is a necessary workaround.
         if (fitter) {
            cout << "TLinearFitter::Add called for " << iSegment << ", " << iPadType << endl;
            GetFitter(iSegment, iPadType, kTRUE)->Add(fitter);
         }
      }
   }
}

TLinearFitter* AliTPCFitPad::GetFitterSimple(UInt_t segment, UInt_t padType) {
   //
   // This method returns the fitter corresponding to segment and pad type.
   // In contrast to GetFitter() no fitter will be created, if it does
   // not exist, but a null pointer is returned.
   //
   
   return (TLinearFitter*)(GetObject(segment, padType));
}

TLinearFitter* AliTPCFitPad::GetFitter(UInt_t segment, UInt_t padType, Bool_t workaround) {
   //
   // This method returns the fitter corresponding
   // to segment and pad type.
   // If the fitter doesn't exist yet, it will be created on the fly
   // according to the parameters passed to the constructor.
   //
   // The workaround parameter should always be kFALSE. (It is only used by the Add method.)
   //

   TLinearFitter* fitter = GetFitterSimple(segment, padType);
   if (fitter == 0 || fitter->GetNumberTotalParameters() !=fNdim) {
     fitter = new TLinearFitter(fNdim, fFormula, fOpt);
     fitter->StoreData(kFALSE);
     SetObject(fitter, segment, padType);
     fitter = (TLinearFitter*)(GetObject(segment, padType));
     if (workaround) {
       Double_t x[1000];
       for (Int_t i = 0; i < fNdim; i++) x[i] = 3.141592;
       fitter->AddPoint(x, 31.41592);
       fitter->ClearPoints();
       //cout << "workaround called for " << segment << ", " << padType << endl;
     }
   }
   return fitter;
}

Int_t AliTPCFitPad::Evaluate(Bool_t robust, Double_t frac) {
   //
   // Evaluates all fitters. Returns 0 if successful, 1 in case of an error.
   // If the robust option is set to kTRUE a robust fit is performed with frac as
   // the minimal fraction of good points (see TLinearFitter::EvalRobust for details).
   // Beware: Robust fitting is much slower!
   //

   Int_t returnCode = 0;
   for (UInt_t iSegment = 0; iSegment < GetNSegments(); iSegment++) {
      for (UInt_t iPadType = 0; iPadType < GetNPadTypes(); iPadType++) {
         if (TLinearFitter* fitter = GetFitterSimple(iSegment, iPadType)) {
            Int_t status = robust ? fitter->EvalRobust(frac) : fitter->Eval();
            if (status != 0) {
               returnCode = 1;
               Error("Evaluate", "Error in evaluation of fitter in segment %d, pad region %d", iSegment, iPadType);
            }
         }
      }
   }
   return returnCode;
}
Commit	Line	Data
10757ee9	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	////////////////////////////////////////////////////////////////////////////
	17	//
	18	// === Class for fitting properties specific to pad regions ===
	19	//
	20	// For each pad size region a separate TLinearFitter object is assigned.
	21	// Commonly used functions such as getting the center of a pad size
	22	// region or visualization functions are provided. Also, choosing the
	23	// segment and pad type is made easy due to different methods that
	24	// can calculate these informations from other coordinates.
	25	//
	26	////////////////////////////////////////////////////////////////////////////
	27
	28	#include "AliTPCFitPad.h"
	29
	30	ClassImp(AliTPCFitPad)
	31
10757ee9	32
f1c2a4a3	33
10757ee9	34
	35	AliTPCFitPad::AliTPCFitPad(Int_t ndim, const char* formula, Option_t* opt) :
	36	AliTPCCalPadRegion("", ""),
	37	fNdim(ndim),
	38	fFormula(formula),
	39	fOpt(opt)
	40	{
	41	//
	42	// Constructor. The parameters are used for generating new TLinearFitter
	43	// objects and are described in its documentation.
	44	//
	45	}
	46
f1c2a4a3	47	AliTPCFitPad& AliTPCFitPad::operator=(const AliTPCFitPad& rhs)
	48	{
	49	//
	50	// Assignment operator.
	51	//
	52
	53	if (this != &rhs) {
	54	AliTPCCalPadRegion::operator=(rhs);
	55	fNdim = rhs.fNdim;
	56	fFormula = rhs.fFormula;
	57	fOpt = rhs.fOpt;
	58	}
	59	return *this;
	60	}
	61
ce138a49	62	AliTPCFitPad::AliTPCFitPad(const AliTPCFitPad& rhs):
	63	AliTPCCalPadRegion(rhs),
	64	fNdim(rhs.fNdim),
	65	fFormula(rhs.fFormula),
	66	fOpt(rhs.fOpt)
	67
	68	{
	69	//
	70	// Copy constructor
	71	//
	72	}
	73
f1c2a4a3	74	AliTPCFitPad::~AliTPCFitPad() {
10757ee9	75	//
f1c2a4a3	76	// Destructor.
10757ee9	77	//
10757ee9	78
f1c2a4a3	79	Delete();
10757ee9	80	}
10757ee9	81
f1c2a4a3	82
f1c2a4a3	83
10757ee9	84	void AliTPCFitPad::Add(AliTPCFitPad* fit) {
	85	//
	86	// Adds another AliTPCFitPad object to this object. The formula should be the
	87	// same, though it won't be checked!
	88	//
	89
	90	for (UInt_t iSegment = 0; iSegment < GetNSegments(); iSegment++) {
	91	for (UInt_t iPadType = 0; iPadType < GetNPadTypes(); iPadType++) {
	92	TLinearFitter* fitter = fit->GetFitterSimple(iSegment, iPadType);
	93	// parameter workaround == kTRUE because it is not possible to add another
	94	// TLinearFitter object to a "virgin" one. Thus a dummy data point is added
	95	// and cleared again immediately afterwards. Due to a broken TLinearFitter
	96	// copy constructor this is a necessary workaround.
	97	if (fitter) {
	98	cout << "TLinearFitter::Add called for " << iSegment << ", " << iPadType << endl;
	99	GetFitter(iSegment, iPadType, kTRUE)->Add(fitter);
	100	}
	101	}
	102	}
	103	}
	104
	105	TLinearFitter* AliTPCFitPad::GetFitterSimple(UInt_t segment, UInt_t padType) {
	106	//
	107	// This method returns the fitter corresponding to segment and pad type.
	108	// In contrast to GetFitter() no fitter will be created, if it does
	109	// not exist, but a null pointer is returned.
	110	//
	111
	112	return (TLinearFitter*)(GetObject(segment, padType));
	113	}
	114
	115	TLinearFitter* AliTPCFitPad::GetFitter(UInt_t segment, UInt_t padType, Bool_t workaround) {
	116	//
	117	// This method returns the fitter corresponding
	118	// to segment and pad type.
	119	// If the fitter doesn't exist yet, it will be created on the fly
	120	// according to the parameters passed to the constructor.
	121	//
	122	// The workaround parameter should always be kFALSE. (It is only used by the Add method.)
	123	//
	124
	125	TLinearFitter* fitter = GetFitterSimple(segment, padType);
84e0a111	126	if (fitter == 0 \|\| fitter->GetNumberTotalParameters() !=fNdim) {
84e0a111	127	fitter = new TLinearFitter(fNdim, fFormula, fOpt);
9f5a1dae	128	fitter->StoreData(kFALSE);
84e0a111	129	SetObject(fitter, segment, padType);
	130	fitter = (TLinearFitter*)(GetObject(segment, padType));
	131	if (workaround) {
	132	Double_t x[1000];
	133	for (Int_t i = 0; i < fNdim; i++) x[i] = 3.141592;
	134	fitter->AddPoint(x, 31.41592);
	135	fitter->ClearPoints();
	136	//cout << "workaround called for " << segment << ", " << padType << endl;
	137	}
10757ee9	138	}
	139	return fitter;
	140	}
	141
	142	Int_t AliTPCFitPad::Evaluate(Bool_t robust, Double_t frac) {
	143	//
	144	// Evaluates all fitters. Returns 0 if successful, 1 in case of an error.
	145	// If the robust option is set to kTRUE a robust fit is performed with frac as
	146	// the minimal fraction of good points (see TLinearFitter::EvalRobust for details).
	147	// Beware: Robust fitting is much slower!
	148	//
	149
	150	Int_t returnCode = 0;
	151	for (UInt_t iSegment = 0; iSegment < GetNSegments(); iSegment++) {
	152	for (UInt_t iPadType = 0; iPadType < GetNPadTypes(); iPadType++) {
	153	if (TLinearFitter* fitter = GetFitterSimple(iSegment, iPadType)) {
	154	Int_t status = robust ? fitter->EvalRobust(frac) : fitter->Eval();
	155	if (status != 0) {
	156	returnCode = 1;
	157	Error("Evaluate", "Error in evaluation of fitter in segment %d, pad region %d", iSegment, iPadType);
	158	}
	159	}
	160	}
	161	}
	162	return returnCode;
	163	}