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

/************************************************************************* \r
* Copyright(c) 1998-2008, ALICE Experiment at CERN, All rights reserved. * \r
*                                                                        * \r
* Author: The ALICE Off-line Project.                                    * \r
* Contributors are mentioned in the code where appropriate.              * \r
*                                                                        * \r
* Permission to use, copy, modify and distribute this software and its   * \r
* documentation strictly for non-commercial purposes is hereby granted   * \r
* without fee, provided that the above copyright notice appears in all   * \r
* copies and that both the copyright notice and this permission notice   * \r
* appear in the supporting documentation. The authors make no claims     * \r
* about the suitability of this software for any purpose. It is          * \r
* provided "as is" without express or implied warranty.                  *\r
**************************************************************************/\r
\r
/* $Id: AliTRDarrayADC.cxx 25392 2008-04-23 19:40:29Z cblume $ */\r
\r
////////////////////////////////////////////////////////\r
//                                                    //\r
// Container class for ADC values                     //\r
//                                                    //\r
// Author:                                            //\r
// Hermes Leon Vargas  (hleon@ikf.uni-frankfurt.de)   //\r
//                                                    // \r
////////////////////////////////////////////////////////\r
\r
#include "AliTRDarrayADC.h"\r
#include "Cal/AliTRDCalPadStatus.h"\r
#include "AliTRDfeeParam.h"\r
\r
ClassImp(AliTRDarrayADC)\r
\r
Short_t *AliTRDarrayADC::fgLutPadNumbering = 0x0;\r
\r
//____________________________________________________________________________________\r
AliTRDarrayADC::AliTRDarrayADC()\r
               :TObject()\r
               ,fNdet(0)\r
               ,fNrow(0)\r
               ,fNcol(0)\r
	       ,fNumberOfChannels(0)\r
               ,fNtime(0) \r
               ,fNAdim(0)\r
               ,fADC(0)\r
{\r
  //\r
  // AliTRDarrayADC default constructor\r
  //\r
\r
  CreateLut();\r
\r
}\r
\r
//____________________________________________________________________________________\r
AliTRDarrayADC::AliTRDarrayADC(Int_t nrow, Int_t ncol, Int_t ntime)\r
               :TObject()\r
	       ,fNdet(0)               \r
               ,fNrow(0)\r
               ,fNcol(0)\r
	       ,fNumberOfChannels(0)\r
               ,fNtime(0) \r
               ,fNAdim(0)\r
               ,fADC(0)\r
{\r
  //\r
  // AliTRDarrayADC constructor\r
  //\r
\r
  CreateLut();\r
  Allocate(nrow,ncol,ntime);\r
\r
}\r
\r
//____________________________________________________________________________________\r
AliTRDarrayADC::AliTRDarrayADC(const AliTRDarrayADC &b)\r
               :TObject()\r
	       ,fNdet(b.fNdet)\r
               ,fNrow(b.fNrow)\r
               ,fNcol(b.fNcol)\r
	       ,fNumberOfChannels(b.fNumberOfChannels)\r
               ,fNtime(b.fNtime) \r
               ,fNAdim(b.fNAdim)\r
               ,fADC(0)	 \r
{\r
  //\r
  // AliTRDarrayADC copy constructor\r
  //\r
\r
  fADC =  new Short_t[fNAdim];\r
  memcpy(fADC,b.fADC, fNAdim*sizeof(Short_t));  \r
\r
}\r
\r
//____________________________________________________________________________________\r
AliTRDarrayADC::~AliTRDarrayADC()\r
{\r
  //\r
  // AliTRDarrayADC destructor\r
  //\r
\r
  if(fADC)\r
    {\r
      delete [] fADC;\r
      fADC=0;\r
    }\r
\r
}\r
\r
//____________________________________________________________________________________\r
AliTRDarrayADC &AliTRDarrayADC::operator=(const AliTRDarrayADC &b)\r
{\r
  //\r
  // Assignment operator\r
  //\r
\r
  if(this==&b)\r
    {\r
      return *this;\r
    }\r
  if(fADC)\r
    {\r
      delete [] fADC;\r
    }\r
  fNdet=b.fNdet;\r
  fNrow=b.fNrow;\r
  fNcol=b.fNcol;\r
  fNumberOfChannels = b.fNumberOfChannels;\r
  fNtime=b.fNtime;\r
  fNAdim=b.fNAdim;\r
  fADC = new Short_t[fNAdim];\r
  memcpy(fADC,b.fADC, fNAdim*sizeof(Short_t));\r
\r
  return *this;\r
\r
}\r
\r
//____________________________________________________________________________________\r
void AliTRDarrayADC::Allocate(Int_t nrow, Int_t ncol, Int_t ntime)\r
{\r
  //\r
  // Allocate memory for an AliTRDarrayADC array with dimensions\r
  // Row*NumberOfNecessaryMCMs*ADCchannelsInMCM*Time\r
  //\r
  \r
  fNrow=nrow;\r
  fNcol=ncol;\r
  fNtime=ntime;\r
  Int_t adcchannelspermcm = AliTRDfeeParam::GetNadcMcm(); \r
  Int_t padspermcm = AliTRDfeeParam::GetNcolMcm(); \r
  Int_t numberofmcms = fNcol/padspermcm; \r
  fNumberOfChannels = numberofmcms*adcchannelspermcm; \r
  fNAdim=nrow*fNumberOfChannels*ntime;\r
\r
  if(fADC)\r
    {\r
      delete [] fADC;\r
    }\r
  \r
  fADC = new Short_t[fNAdim];\r
  memset(fADC,0,sizeof(Short_t)*fNAdim);\r
\r
}\r
\r
//____________________________________________________________________________________\r
Short_t AliTRDarrayADC::GetDataBits(Int_t row, Int_t col, Int_t time) const\r
{\r
  //\r
  // Get the ADC value for a given position: row, col, time\r
  // Taking bit masking into account\r
  //\r
  // Adapted from code of the class AliTRDdataArrayDigits \r
  //\r
\r
  Short_t tempval = GetData(row,col,time);\r
  // Be aware of manipulations introduced by pad masking in the RawReader\r
  // Only output the manipulated Value\r
  CLRBIT(tempval, 10);\r
  CLRBIT(tempval, 11);\r
  CLRBIT(tempval, 12);\r
  return tempval;\r
\r
}\r
\r
//____________________________________________________________________________________\r
UChar_t AliTRDarrayADC::GetPadStatus(Int_t row, Int_t col, Int_t time) const\r
{\r
  // \r
  // Returns the pad status stored in the pad signal\r
  //\r
  // Output is a UChar_t value\r
  // Status Codes:\r
  //               Noisy Masking:           2\r
  //               Bridged Left Masking     8\r
  //               Bridged Right Masking    8\r
  //               Not Connected Masking Digits\r
  //\r
  // Adapted from code of the class AliTRDdataArrayDigits\r
  //\r
\r
  UChar_t padstatus = 0;\r
  Short_t signal = GetData(row,col,time);\r
  if(signal > 0 && TESTBIT(signal, 10)){\r
    if(TESTBIT(signal, 11))\r
      if(TESTBIT(signal, 12))\r
	padstatus = AliTRDCalPadStatus::kPadBridgedRight;\r
      else\r
	padstatus = AliTRDCalPadStatus::kNotConnected;\r
    else\r
      if(TESTBIT(signal, 12))\r
	padstatus = AliTRDCalPadStatus::kPadBridgedLeft;\r
      else\r
	padstatus = AliTRDCalPadStatus::kMasked;\r
  }\r
\r
  return padstatus;\r
\r
}\r
\r
//____________________________________________________________________________________\r
void AliTRDarrayADC::SetPadStatus(Int_t row, Int_t col, Int_t time, UChar_t status)\r
{\r
  //\r
  // Setting the pad status into the signal using the Bits 10 to 14 \r
  // (currently used: 10 to 12)\r
  //\r
  // Input codes (Unsigned char):\r
  //               Noisy Masking:           2\r
  //               Bridged Left Masking     8\r
  //               Bridged Right Masking    8\r
  //               Not Connected Masking    32\r
  //\r
  // Status codes: Any masking:             Bit 10(1)\r
  //               Noisy masking:           Bit 11(0), Bit 12(0)\r
  //               No Connection masking:   Bit 11(1), Bit 12(0)\r
  //               Bridged Left masking:    Bit 11(0), Bit 12(1)\r
  //               Bridged Right masking:   Bit 11(1), Bit 12(1)\r
  // \r
  // Adapted from code of the class AliTRDdataArrayDigits\r
  //\r
\r
  Short_t signal = GetData(row,col,time);\r
\r
  // Only set the Pad Status if the signal is > 0\r
  if(signal > 0)\r
    {\r
      switch(status)\r
	{\r
	case AliTRDCalPadStatus::kMasked:\r
	  SETBIT(signal, 10);\r
	  CLRBIT(signal, 11);\r
	  CLRBIT(signal, 12);\r
	  break;\r
	case AliTRDCalPadStatus::kNotConnected:\r
	  SETBIT(signal, 10);\r
	  SETBIT(signal, 11);\r
	  CLRBIT(signal, 12);\r
	  break;\r
	case AliTRDCalPadStatus::kPadBridgedLeft:\r
	  SETBIT(signal, 10);\r
	  CLRBIT(signal, 11);\r
	  SETBIT(signal, 12);\r
	  break;\r
	case AliTRDCalPadStatus::kPadBridgedRight:\r
	  SETBIT(signal, 10);\r
	  SETBIT(signal, 11);\r
	  SETBIT(signal, 12);\r
	default:\r
	  CLRBIT(signal, 10);\r
	  CLRBIT(signal, 11);\r
	  CLRBIT(signal, 12);\r
	}\r
      SetData(row, col, time, signal);\r
    }\r
\r
}\r
\r
//____________________________________________________________________________________\r
Bool_t AliTRDarrayADC::IsPadCorrupted(Int_t row, Int_t col, Int_t time)\r
{\r
  // \r
  // Checks if the pad has any masking as corrupted (Bit 10 in signal set)\r
  // \r
  // Adapted from code of the class AliTRDdataArrayDigits\r
  //\r
\r
  Short_t signal = GetData(row,col,time);\r
  return (signal > 0 && TESTBIT(signal, 10)) ? kTRUE : kFALSE;\r
\r
}\r
\r
//____________________________________________________________________________________\r
void AliTRDarrayADC::Compress()\r
{\r
  //\r
  // Compress the array\r
  //\r
\r
  Int_t counter=0;\r
  Int_t newDim=0;\r
  Int_t j;                  \r
  Int_t l;                  \r
  Int_t r=0;                \r
  Int_t s=0;                \r
  Int_t *longm;            \r
  longm = new Int_t[fNAdim];  \r
  Int_t *longz;            \r
  longz = new Int_t[fNAdim];\r
  Int_t k=0;\r
  memset(longz,0,sizeof(Int_t)*fNAdim);\r
  memset(longm,0,sizeof(Int_t)*fNAdim);\r
\r
  for(Int_t i=0;i<fNAdim; i++)\r
    {\r
      j=0;\r
      if(fADC[i]==-1)\r
	{\r
	  for(k=i;k<fNAdim;k++)\r
	    {\r
	      if((fADC[k]==-1)&&(j<16000))   \r
		{\r
		  j=j+1;\r
		  longm[r]=j;                \r
		}\r
	      else\r
		{\r
		  break;\r
		}\r
	    }\r
	  r=r+1;            \r
	}\r
      l=16001;\r
      if(fADC[i]==0)\r
	{\r
	  for(k=i;k<fNAdim;k++)\r
	    {\r
	      if((fADC[k]==0)&&(l<32767))     \r
		{                             \r
		  l=l+1;\r
		  longz[s]=l;                \r
		}\r
	      else\r
		{\r
		  break;\r
		}\r
	    }\r
	  s=s+1;         \r
	}\r
      if(fADC[i]>0)\r
	{\r
	  i=i+1;\r
	}\r
      i=i+j+(l-16001-1); \r
    }\r
\r
  //Calculate the size of the compressed array\r
  for(Int_t i=0; i<fNAdim;i++)\r
    {\r
      if(longm[i]!=0)   \r
	{\r
	  counter=counter+longm[i]-1;\r
	}\r
      if(longz[i]!=0)  \r
	{\r
	  counter=counter+(longz[i]-16001)-1;\r
	}\r
    }\r
  newDim = fNAdim-counter;   //Dimension of the compressed array\r
  Short_t* buffer;\r
  buffer = new Short_t[newDim];\r
  Int_t counterTwo=0;\r
\r
  //Fill the buffer of the compressed array\r
  Int_t g=0;\r
  Int_t h=0; \r
  for(Int_t i=0; i<newDim; i++)\r
    {\r
      if(counterTwo<fNAdim)\r
	{\r
	  if(fADC[counterTwo]>0)\r
	    {\r
	      buffer[i]=fADC[counterTwo];\r
	    }\r
	  if(fADC[counterTwo]==-1)\r
	    {\r
	      buffer[i]=-(longm[g]);\r
	      counterTwo=counterTwo+longm[g]-1;\r
	      g++;\r
	    }  \r
	  if(fADC[counterTwo]==0)\r
	    {\r
	      buffer[i]=-(longz[h]); \r
	      counterTwo=counterTwo+(longz[h]-16001)-1;\r
	      h++;\r
	    }  \r
	  counterTwo++;\r
	}\r
    }\r
\r
  //Copy the buffer\r
  if(fADC)\r
    {\r
      delete [] fADC;\r
      fADC=0;\r
    }\r
  fADC = new Short_t[newDim];\r
  fNAdim = newDim;\r
  for(Int_t i=0; i<newDim; i++)\r
    {\r
      fADC[i] = buffer[i]; \r
    }\r
\r
  //Delete auxiliary arrays\r
  if(buffer)\r
    {\r
      delete [] buffer;\r
      buffer=0;\r
    } \r
  if(longz) \r
    {\r
      delete [] longz;\r
      longz=0;\r
    }\r
  if(longm) \r
    {\r
      delete [] longm;\r
      longm=0;\r
    }\r
\r
}\r
\r
//____________________________________________________________________________________\r
void AliTRDarrayADC::Expand()\r
{\r
  //\r
  // Expand the array\r
  //\r
\r
  //Check if the array has not been already expanded\r
  Int_t verif=0;\r
  for(Int_t i=0; i<fNAdim; i++)\r
    {\r
      if(fADC[i]<-1)\r
	{\r
	  verif++;\r
	}\r
    }\r
  \r
  if(verif==0)\r
    {\r
      //       AliDebug(1,"Nothing to expand");\r
      return;\r
    }\r
\r
  Int_t *longz;\r
  longz = new Int_t[fNAdim];\r
  Int_t *longm;\r
  longm = new Int_t[fNAdim];\r
  Int_t dimexp=0;\r
  //Initialize arrays\r
  memset(longz,0,sizeof(Int_t)*fNAdim);\r
  memset(longm,0,sizeof(Int_t)*fNAdim);\r
  Int_t r2=0; \r
  Int_t r3=0; \r
  for(Int_t i=0; i<fNAdim;i++)\r
    {\r
      if((fADC[i]<0)&&(fADC[i]>=-16000))      \r
	{\r
	  longm[r2]=-fADC[i];\r
	  r2++;\r
	}\r
      if(fADC[i]<-16000)  \r
	{\r
	  longz[r3]=-fADC[i]-16001;  \r
	  r3++;\r
	}\r
    }\r
  //Calculate the new dimensions of the array\r
  for(Int_t i=0; i<fNAdim;i++)\r
    {\r
      if(longm[i]!=0)       \r
	{\r
	  dimexp=dimexp+longm[i]-1;\r
	}\r
      if(longz[i]!=0)      \r
	{\r
	  dimexp=dimexp+longz[i]-1;\r
	}\r
    }\r
  dimexp=dimexp+fNAdim;   \r
\r
  //Write in the buffer the new array\r
  Short_t* bufferE;\r
  bufferE = new Short_t[dimexp];\r
  Int_t contaexp =0;     \r
  Int_t h=0;\r
  Int_t l=0;  \r
  for(Int_t i=0; i<dimexp; i++)\r
    {\r
      if(fADC[contaexp]>0)  \r
	{\r
	  bufferE[i]=fADC[contaexp];\r
	}\r
\r
      if((fADC[contaexp]<0)&&(fADC[contaexp]>=-16000))  \r
	{\r
	  for(Int_t j=0; j<longm[h];j++)\r
	    {\r
	      bufferE[i+j]=-1;\r
	    }\r
	  i=i+longm[h]-1;\r
	  h++;\r
	}\r
      if(fADC[contaexp]<-16000)  \r
	{\r
	  for(Int_t j=0; j<longz[l];j++)\r
	    {\r
	      bufferE[i+j]=0;  \r
	    }\r
	  i=i+longz[l]-1;\r
	  l++;\r
	}\r
      contaexp++;\r
    }\r
  //Copy the buffer\r
  if(fADC)\r
    {\r
      delete [] fADC;\r
      fADC=0;\r
    }\r
\r
  fADC = new Short_t[dimexp];\r
  fNAdim = dimexp;\r
  for(Int_t i=0; i<dimexp; i++)\r
    {\r
      fADC[i] = bufferE[i]; \r
    }\r
\r
  //Delete auxiliary arrays\r
  if(bufferE) delete [] bufferE;\r
  if(longm) delete [] longm;\r
  if(longz) delete [] longz;\r
\r
}\r
//____________________________________________________________________________________\r
void AliTRDarrayADC::DeleteNegatives()\r
{\r
\r
  //\r
  //This method modifies the digits array, changing the negative values (-1)\r
  //Produced during digitization into zero.\r
  //\r
\r
  for(Int_t a=0; a<fNAdim; a++)\r
    {\r
      if(fADC[a]==-1)\r
	{\r
	  fADC[a]=0;\r
	}\r
    }\r
}\r
//________________________________________________________________________________\r
void AliTRDarrayADC::Reset()\r
{\r
  //\r
  // Reset the array, the old contents are deleted\r
  // The array keeps the same dimensions as before\r
  //\r
 \r
  memset(fADC,0,sizeof(Short_t)*fNAdim);\r
\r
}\r
//________________________________________________________________________________\r
Short_t AliTRDarrayADC::GetData(Int_t nrow, Int_t ncol, Int_t ntime) const\r
{\r
  //\r
  // Get the data using the pad numbering.\r
  // To access data using the mcm scheme use instead\r
  // the method GetDataByAdcCol\r
  //\r
\r
  Int_t corrcolumn = fgLutPadNumbering[ncol];\r
\r
  return fADC[(nrow*fNumberOfChannels+corrcolumn)*fNtime+ntime];\r
\r
}\r
//________________________________________________________________________________\r
void AliTRDarrayADC::SetData(Int_t nrow, Int_t ncol, Int_t ntime, Short_t value)\r
{\r
  //\r
  // Set the data using the pad numbering.\r
  // To write data using the mcm scheme use instead\r
  // the method SetDataByAdcCol\r
  //\r
\r
  Int_t colnumb = fgLutPadNumbering[ncol];\r
\r
  fADC[(nrow*fNumberOfChannels+colnumb)*fNtime+ntime]=value;\r
\r
}\r
\r
//________________________________________________________________________________\r
void AliTRDarrayADC::CreateLut()\r
{\r
  //\r
  // Initializes the Look Up Table to relate\r
  // pad numbering and mcm channel numbering\r
  //\r
\r
  if(fgLutPadNumbering)  return;\r
  \r
   fgLutPadNumbering = new Short_t[AliTRDfeeParam::GetNcol()];\r
   memset(fgLutPadNumbering,0,sizeof(Short_t)*AliTRDfeeParam::GetNcol());\r
\r
  for(Int_t mcm=0; mcm<8; mcm++)\r
    {\r
      Int_t lowerlimit=0+mcm*18;\r
      Int_t upperlimit=18+mcm*18;\r
      Int_t shiftposition = 1+3*mcm;\r
      for(Int_t index=lowerlimit;index<upperlimit;index++)\r
	{\r
	  fgLutPadNumbering[index]=index+shiftposition;\r
	}\r
    }\r
}\r