/[PAMELA software]/DarthVader/ToFLevel2/src/ToFLevel2.cpp
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revision 1.25 by pamelats, Wed Apr 15 10:05:22 2009 UTC revision 1.45 by pam-fi, Tue Mar 24 11:09:54 2015 UTC
# Line 11  Line 11 
11  #include <ToFLevel2.h>  #include <ToFLevel2.h>
12  using namespace std;  using namespace std;
13  ClassImp(ToFPMT);  ClassImp(ToFPMT);
14    ClassImp(ToFdEdx);
15    ClassImp(ToFGeom);
16  ClassImp(ToFTrkVar);  ClassImp(ToFTrkVar);
17  ClassImp(ToFLevel2);  ClassImp(ToFLevel2);
18    
# Line 19  ToFPMT::ToFPMT(){ Line 21  ToFPMT::ToFPMT(){
21    adc = 0.;    adc = 0.;
22    tdc_tw = 0.;    tdc_tw = 0.;
23    tdc = 0.;    tdc = 0.;
24      l0flag_adc = 0.;
25      l0flag_tdc = 0.;
26  }  }
27    
28  ToFPMT::ToFPMT(const ToFPMT &t){  ToFPMT::ToFPMT(const ToFPMT &t){
# Line 109  void ToFLevel2::Set(){//ELENA Line 113  void ToFLevel2::Set(){//ELENA
113      if(!PMT)PMT = new TClonesArray("ToFPMT",12); //ELENA      if(!PMT)PMT = new TClonesArray("ToFPMT",12); //ELENA
114      if(!ToFTrk)ToFTrk = new TClonesArray("ToFTrkVar",2); //ELENA      if(!ToFTrk)ToFTrk = new TClonesArray("ToFTrkVar",2); //ELENA
115  }//ELENA  }//ELENA
116    //--------------------------------------
117    //
118    //
119    //--------------------------------------
120    void ToFLevel2::SetTrackArray(TClonesArray *track){//ELENA
121        if(track && strcmp(track->GetClass()->GetName(),"ToFTrkVar")==0){
122            if(ToFTrk)ToFTrk->Clear("C");
123            ToFTrk = track;
124        }
125    }
126    
127  void ToFLevel2::Clear(Option_t *t){  void ToFLevel2::Clear(Option_t *t){
128    //    //
# Line 116  void ToFLevel2::Clear(Option_t *t){ Line 130  void ToFLevel2::Clear(Option_t *t){
130    if(PMT)PMT->Delete(); //ELENA    if(PMT)PMT->Delete(); //ELENA
131    memset(tof_j_flag, 0, 6*sizeof(Int_t));    memset(tof_j_flag, 0, 6*sizeof(Int_t));
132    unpackError = 0;    unpackError = 0;
133      unpackWarning = 0;
134    //    //
135  };  };
136    
# Line 146  ToFTrkVar *ToFLevel2::GetToFTrkVar(Int_t Line 161  ToFTrkVar *ToFLevel2::GetToFTrkVar(Int_t
161    return toftrack;    return toftrack;
162  }  }
163    
164    /**
165     * Retrieves the tof track matching the seqno-th tracker stored track.
166     *
167     */
168    ToFTrkVar *ToFLevel2::GetToFStoredTrack(int seqno){
169    
170      if( ntrk()==0 ){
171        printf("ToFLevel2::GetToFStoredTrack(int) : requested tracker SeqNo %i but no ToFrimeter tracks are stored\n",seqno);
172        return NULL;
173      };
174      
175      ToFTrkVar *c = 0;
176      Int_t it_tof=0;
177        
178      do {
179        c = GetToFTrkVar(it_tof);
180        it_tof++;
181      } while( c && seqno != c->trkseqno && it_tof < ntrk());      
182      
183      if(!c || seqno != c->trkseqno){
184        c = 0;
185        if(seqno!=-1 ) printf("ToFLevel2::GetToFStoredTrack(int) : requested tracker SeqNo %i does not match ToFrimeter stored tracks\n",seqno);
186      };
187      return c;
188        
189    }
190    
191    
192  ToFPMT *ToFLevel2::GetToFPMT(Int_t ihit){  ToFPMT *ToFLevel2::GetToFPMT(Int_t ihit){
193    //        //    
194    if(ihit >= npmt()){    if(ihit >= npmt()){
# Line 209  ToFPMT *ToFLevel2::GetToFPMT(Int_t ihit) Line 252  ToFPMT *ToFLevel2::GetToFPMT(Int_t ihit)
252         false) return true;         false) return true;
253      else return false;      else return false;
254  };  };
255    
256  /**  /**
257   * Method to get the number of hit paddles on a ToF plane.   * Strict method to get the number of hit paddles on a ToF plane.
258     * The method uses "HitPaddle" which checks if there is a TDC signal
259     * from both PMTs.
260   * @param plane Plane ID (11, 12, 21, 22, 31, 32) or Plane index (0,1,2,3,4,5).   * @param plane Plane ID (11, 12, 21, 22, 31, 32) or Plane index (0,1,2,3,4,5).
261   */   */
262  Int_t ToFLevel2::GetNHitPaddles(Int_t plane){  Int_t ToFLevel2::GetNHitPaddles(Int_t plane){
# Line 219  Int_t ToFLevel2::GetNHitPaddles(Int_t pl Line 265  Int_t ToFLevel2::GetNHitPaddles(Int_t pl
265      return npad;      return npad;
266  };  };
267    
268    /**
269     * Optional method to get the number of hit paddles on a ToF plane.
270     * The method does NOT check if there is a signal from both PMTs, it only
271     * checks if there is some PMT signal in a paddle
272     * @param plane Plane ID (11, 12, 21, 22, 31, 32) or Plane index (0,1,2,3,4,5).
273     */
274    Int_t ToFLevel2::GetTrueNHitPaddles(Int_t plane){
275        Int_t npad=0;
276        TClonesArray* Pmt = this->PMT;
277        int paddle[24];
278        memset(paddle,0, 24*sizeof(int));
279        for(int i=0; i<Pmt->GetEntries(); i++) {  //loop per vedere quale TOF è colpito
280          ToFPMT* pmthit = (ToFPMT*)Pmt->At(i);
281          int pplane = -1;
282          int ppaddle = -1;
283          GetPMTPaddle(pmthit->pmt_id,pplane,ppaddle);
284          if ( pplane == plane ) paddle[ppaddle]++;
285        }
286        for(int i=0;i<24;i++) if ( paddle[i]>0 ) npad++;
287    
288        return npad;
289    };
290    
291    //new, wm Feb 15
292  //wm Nov 08  //wm Nov 08
293  //gf Apr 07  //gf Apr 07
294  /**  /**
295   * Method to get the mean dEdx from a ToF layer - ATTENTION:   * Method to get the mean dEdx from a ToF layer
296   * It will sum up the dEdx of all the paddles, but since by definition   * By definition there should be PMTs with dEdx values only in one paddle of a layer
297   * only the paddle hitted by the track gets a dEdx value and the other   * (the paddle hitted by the track), this method looks for the hitted paddle
298   * paddles are set to zero, the output is just the dEdx of the hitted   * and gives the mean dEdx of that paddle as the output
299   * paddle in each layer!   * The method was modified for the "ToF-standalone" part in february 2015
300   * The "adcfl" option is not very useful (an artificial dEdx is per   * The "adcfl" option is not very useful (an artificial dEdx is per
301   * definition= 1 mip and not a real measurement), anyway left in the code   * definition= 1 mip and not a real measurement), anyway left in the code
302   * @param notrack Track Number   * @param notrack Track Number
# Line 234  Int_t ToFLevel2::GetNHitPaddles(Int_t pl Line 304  Int_t ToFLevel2::GetNHitPaddles(Int_t pl
304   * @param adcflag in the plane (100<-> independent of the adcflag; !=0&&!=100 <-> at least one PMT with adcflag!=0; )   * @param adcflag in the plane (100<-> independent of the adcflag; !=0&&!=100 <-> at least one PMT with adcflag!=0; )
305   */   */
306  Float_t ToFLevel2::GetdEdx(Int_t notrack, Int_t plane, Int_t adcfl){  Float_t ToFLevel2::GetdEdx(Int_t notrack, Int_t plane, Int_t adcfl){
307      ToFTrkVar *trk = GetToFTrkVar(notrack);
308      return this->GetdEdx(trk, plane, adcfl);
309    }
310    
311    //new, wm Feb 15
312    //wm Nov 08
313    //gf Apr 07
314    /**
315     * Method to get the mean dEdx from a ToF layer
316     * By definition there should be PMTs with dEdx values only in one paddle of a layer
317     * (the paddle hitted by the track), this method looks for the hitted paddle
318     * and gives the mean dEdx of that paddle as the output
319     * The method was modified for the "ToF-standalone" part in february 2015
320     * The "adcfl" option is not very useful (an artificial dEdx is per
321     * definition= 1 mip and not a real measurement), anyway left in the code
322     * @param trk Pointer to TofTrkVar object
323     * @param plane Plane index (0,1,2,3,4,5)
324     * @param adcflag in the plane (100<-> independent of the adcflag; !=0&&!=100 <-> at least one PMT with adcflag!=0; )
325     */
326    Float_t ToFLevel2::GetdEdx(ToFTrkVar *trk, Int_t plane, Int_t adcfl){
327      
328    Float_t dedx = 0.;    Float_t dedx = 0.;
329    Float_t PadEdx =0.;    Float_t PadEdx =0.;
330    Int_t SatWarning;    Int_t SatWarning;
331    Int_t pad=-1;    Int_t pad=-1;
332    //    //
   ToFTrkVar *trk = GetToFTrkVar(notrack);  
333    if(!trk) return 0; //ELENA    if(!trk) return 0; //ELENA
334    //    //
335    for (Int_t ii=0; ii<GetNPaddle(plane); ii++){    // ToF standalone part
     Int_t paddleid=ii;  
     pad = GetPaddleid(plane,paddleid);  
     GetdEdxPaddle(notrack, pad, adcfl, PadEdx, SatWarning);  
     dedx += PadEdx;  
   };  
336    //    //
337      if ( trk->trkseqno == -1 ){
338        
339        //    ToFTrkVar *t_tof = trk;
340        
341        // Find the hitted paddle  (two good TDC values) using the tof_j_flag (from tofl2com.for)
342        
343        Int_t Ipaddle=-1;
344        // if tof_j_flag == 0: no paddle was hitted. Otherwise decode tof_j_flag to get the paddle
345        if (this->tof_j_flag[plane] > 0)  Ipaddle = (Int_t)log2(this->tof_j_flag[plane]) ;
346        
347        Ipaddle =  (Int_t)log2(this->tof_j_flag[plane]) ;
348        
349        // Get the dEdx of this paddle using "GetdEdxPaddle"
350        if (Ipaddle>-1) {
351          Int_t pad = GetPaddleid(plane,Ipaddle);
352          GetdEdxPaddle(trk, pad, adcfl, PadEdx, SatWarning);
353          dedx = PadEdx;
354        }
355        
356        // If there was no correct hitted paddle, but there was one (and only one) paddle with some
357        // PMT entries in the PMT-class (found with "GetTrueNHitPaddles", use the dEdx of this paddle
358        
359        if ((Ipaddle<0) && (GetTrueNHitPaddles(plane)==1)) {
360          // find the paddle by looping over the paddles in each layer
361          // since GetTrueNHitPaddles==1 this is OK
362          for (Int_t ii=0; ii<GetNPaddle(plane); ii++){
363            Int_t paddleid=ii;
364            Int_t pad = GetPaddleid(plane,paddleid);
365            GetdEdxPaddle(trk, pad, adcfl, PadEdx, SatWarning);
366            dedx += PadEdx;
367          }
368        }
369      } else {
370        // track dependent dEdx: simple, there will be only one paddle hitted in    each layer
371        // so just loop over the paddles in each layer
372        for (Int_t ii=0; ii<GetNPaddle(plane); ii++){
373          Int_t paddleid=ii;
374          pad = GetPaddleid(plane,paddleid);
375          GetdEdxPaddle(trk, pad, adcfl, PadEdx, SatWarning);
376          dedx += PadEdx;
377        }
378      }
379      //
380    return(dedx);    return(dedx);
381  };  }
382    
383  /**  /**
384   * Method to fill the ADC_C 4x12 matrix with the dEdx values and the TDC 4x12 matrix   * Method to fill the ADC_C 4x12 matrix with the dEdx values and the TDC 4x12 matrix
# Line 326  Int_t ToFLevel2::GetPlaneIndex(Int_t pmt Line 453  Int_t ToFLevel2::GetPlaneIndex(Int_t pmt
453   */   */
454  Int_t ToFLevel2::GetPMTid(Int_t hh, Int_t kk){  Int_t ToFLevel2::GetPMTid(Int_t hh, Int_t kk){
455    //    //
456    short tof[4][24] = {    static const short tof[4][24] = {
457      {4, 4,  4,  4,  1,  1, 2, 2,  3,  3, 3, 3,  3,  3, 1, 1,  1,  1, 2, 3,  3, 3, 3,  4},      {4, 4,  4,  4,  1,  1, 2, 2,  3,  3, 3, 3,  3,  3, 1, 1,  1,  1, 2, 3,  3, 3, 3,  4},
458      {1, 3,  5,  7, 10, 12, 2, 4,  2,  4, 6, 8, 10, 12, 1, 5,  3,  9, 7, 9, 11, 1, 5,  9},      {1, 3,  5,  7, 10, 12, 2, 4,  2,  4, 6, 8, 10, 12, 1, 5,  3,  9, 7, 9, 11, 1, 5,  9},
459      {2, 2,  2,  2,  1,  1, 1, 1,  4,  4, 4, 4,  4,  4, 2, 1,  2,  1, 2, 2,  2, 3, 3,  4},      {2, 2,  2,  2,  1,  1, 1, 1,  4,  4, 4, 4,  4,  4, 2, 1,  2,  1, 2, 2,  2, 3, 3,  4},
# Line 362  Int_t ToFLevel2::GetPMTid(Int_t hh, Int_ Line 489  Int_t ToFLevel2::GetPMTid(Int_t hh, Int_
489   */   */
490  void ToFLevel2::GetPMTIndex(Int_t ind, Int_t &hb, Int_t &ch){  void ToFLevel2::GetPMTIndex(Int_t ind, Int_t &hb, Int_t &ch){
491    //    //
492    short tof[4][24] = {    static const short tof[4][24] = {
493      {4, 4,  4,  4,  1,  1, 2, 2,  3,  3, 3, 3,  3,  3, 1, 1,  1,  1, 2, 3,  3, 3, 3,  4},      {4, 4,  4,  4,  1,  1, 2, 2,  3,  3, 3, 3,  3,  3, 1, 1,  1,  1, 2, 3,  3, 3, 3,  4},
494      {1, 3,  5,  7, 10, 12, 2, 4,  2,  4, 6, 8, 10, 12, 1, 5,  3,  9, 7, 9, 11, 1, 5,  9},      {1, 3,  5,  7, 10, 12, 2, 4,  2,  4, 6, 8, 10, 12, 1, 5,  3,  9, 7, 9, 11, 1, 5,  9},
495      {2, 2,  2,  2,  1,  1, 1, 1,  4,  4, 4, 4,  4,  4, 2, 1,  2,  1, 2, 2,  2, 3, 3,  4},      {2, 2,  2,  2,  1,  1, 1, 1,  4,  4, 4, 4,  4,  4, 2, 1,  2,  1, 2, 2,  2, 3, 3,  4},
# Line 402  void ToFLevel2::GetPMTIndex(Int_t ind, I Line 529  void ToFLevel2::GetPMTIndex(Int_t ind, I
529   */   */
530  void ToFLevel2::GetdEdxPaddle(Int_t notrack, Int_t paddleid, Int_t adcfl, Float_t &PadEdx, Int_t &SatWarning){  void ToFLevel2::GetdEdxPaddle(Int_t notrack, Int_t paddleid, Int_t adcfl, Float_t &PadEdx, Int_t &SatWarning){
531    
532  /*    ToFTrkVar *trk = GetToFTrkVar(notrack);
533  Float_t  PMTsat[48] = {    this->GetdEdxPaddle(trk, paddleid, adcfl, PadEdx, SatWarning);
534  3162.14, 3165.48, 3153.85, 3085.73, 3089.65, 3107.64, 3097.52, 3078.37,    
535  3130.05, 3087.07, 3112.22, 3102.92, 3080.58, 3092.55, 3087.94, 3125.03,  };
536  3094.09, 3143.16, 3125.51, 3181.27, 3092.09, 3124.98, 3069.3, 3095.53,  
537  3097.11, 3133.53, 3114.73, 3113.01, 3091.19, 3097.99, 3033.84, 3134.98,  //
538  3081.37, 3111.04, 3066.77, 3108.17, 3133, 3111.06, 3052.52, 3140.66,  //  wm Nov 08 revision - saturation values included
539  3106.33, 3094.85, 3150.85, 3118.8, 3096.24, 3118.47,3111.36, 3117.11 } ;  /// gf Apr 07
540  */  /**
541     * Method to get the dEdx from a given ToF paddle.
542  // new values from Napoli dec 2008   * If two PMTs are good, the mean dEdx of both PMTs is taken, otherwise
543  Float_t  PMTsat[48] = {   * just the dEdx of the "good" PMT. If both PMTs are above saturation => dEdx=1000
544  3176.35,3178.19,3167.38,3099.73,3117.00,3126.29,3111.44,3092.27,   * @param notrack Track Number
545  3146.48,3094.41,3132.13,3115.37,3099.32,3110.97,3111.80,3143.14,   * @param Paddle index (0,1,...,23).
546  3106.72,3153.44,3136.00,3188.96,3104.73,3140.45,3073.18,3106.62,   * @param adcflag in the paddle (100<-> independent of the adcflag; !=0&&!=100 <-> at least one PMT with adcflag!=0; )
547  3112.48,3146.92,3127.24,3136.52,3109.59,3112.89,3045.15,3147.26,   * @param PadEdx dEdx from a given ToF paddle
548  3095.92,3121.05,3083.25,3123.62,3150.92,3125.30,3067.60,3160.18,   * @param SatWarning 1 if the PMT ios near saturation region (adcraw ~3000)
549  3119.36,3108.92,3164.77,3133.64,3111.47,3131.98,3128.87,3135.56 };   */
550    void ToFLevel2::GetdEdxPaddle(ToFTrkVar *trk, Int_t paddleid, Int_t adcfl, Float_t &PadEdx, Int_t &SatWarning){
551    
552      /*
553        Float_t  PMTsat[48] = {
554        3162.14, 3165.48, 3153.85, 3085.73, 3089.65, 3107.64, 3097.52, 3078.37,
555        3130.05, 3087.07, 3112.22, 3102.92, 3080.58, 3092.55, 3087.94, 3125.03,
556        3094.09, 3143.16, 3125.51, 3181.27, 3092.09, 3124.98, 3069.3, 3095.53,
557        3097.11, 3133.53, 3114.73, 3113.01, 3091.19, 3097.99, 3033.84, 3134.98,
558        3081.37, 3111.04, 3066.77, 3108.17, 3133, 3111.06, 3052.52, 3140.66,
559        3106.33, 3094.85, 3150.85, 3118.8, 3096.24, 3118.47,3111.36, 3117.11 } ;
560      */
561    
562      // new values from Napoli dec 2008
563      Float_t  PMTsat[48] = {
564        3176.35,3178.19,3167.38,3099.73,3117.00,3126.29,3111.44,3092.27,
565        3146.48,3094.41,3132.13,3115.37,3099.32,3110.97,3111.80,3143.14,
566        3106.72,3153.44,3136.00,3188.96,3104.73,3140.45,3073.18,3106.62,
567        3112.48,3146.92,3127.24,3136.52,3109.59,3112.89,3045.15,3147.26,
568        3095.92,3121.05,3083.25,3123.62,3150.92,3125.30,3067.60,3160.18,
569        3119.36,3108.92,3164.77,3133.64,3111.47,3131.98,3128.87,3135.56 };
570    
571  for (Int_t i=0; i<48;i++) PMTsat[i] = PMTsat[i] - 5.;  // safety margin    for (Int_t i=0; i<48;i++) PMTsat[i] = PMTsat[i] - 5.;  // safety margin
572    
573    
574    PadEdx = 0.;    PadEdx = 0.;
575  //  SatWarning = 1000;    //  SatWarning = 1000;
576    SatWarning = 0;   // 0=good, increase for each bad PMT    SatWarning = 0;   // 0=good, increase for each bad PMT
577    
578    Float_t dEdx[48] = {0};    Float_t dEdx[48] = {0};
579    Int_t pmt_id = -1;    Int_t pmt_id = -1;
580    Float_t adcraw[48];    Float_t adcraw[48];
581    //    //
   ToFTrkVar *trk = GetToFTrkVar(notrack);  
582    if(!trk) return; //ELENA    if(!trk) return; //ELENA
583    //    //
584    
# Line 472  for (Int_t i=0; i<48;i++) PMTsat[i] = PM Line 618  for (Int_t i=0; i<48;i++) PMTsat[i] = PM
618    }    }
619    
620    
621  //  if( adcraw[pmtleft] >3000 || adcraw[pmtright] >3000)SatWarning=1;  //old version    //  if( adcraw[pmtleft] >3000 || adcraw[pmtright] >3000)SatWarning=1;  //old version
622    
623  // Increase SatWarning Counter for each PMT>Sat    // Increase SatWarning Counter for each PMT>Sat
624    if( adcraw[pmtleft] > PMTsat[pmtleft])SatWarning++;      if( adcraw[pmtleft] > PMTsat[pmtleft])SatWarning++;  
625    if( adcraw[pmtright] > PMTsat[pmtright])SatWarning++;    if( adcraw[pmtright] > PMTsat[pmtright])SatWarning++;
626    
627  // if ADC  > sat set dEdx=1000    // if ADC  > sat set dEdx=1000
628    if( adcraw[pmtleft] > PMTsat[pmtleft]) dEdx[pmtleft] = 1000.;    if( adcraw[pmtleft] > PMTsat[pmtleft]) dEdx[pmtleft] = 1000.;
629    if( adcraw[pmtright] > PMTsat[pmtright]) dEdx[pmtright] = 1000. ;    if( adcraw[pmtright] > PMTsat[pmtright]) dEdx[pmtright] = 1000. ;
630    
631  // if two PMT are good, take mean dEdx, otherwise only the good dEdx    // if two PMT are good, take mean dEdx, otherwise only the good dEdx
632    if(dEdx[pmtleft]<1000 && dEdx[pmtright]<1000) PadEdx = (dEdx[pmtleft]+dEdx[pmtright])*0.5;    if(dEdx[pmtleft]<1000 && dEdx[pmtright]<1000) PadEdx = (dEdx[pmtleft]+dEdx[pmtright])*0.5;
633    if(dEdx[pmtleft]==1000 && dEdx[pmtright]<1000) PadEdx = dEdx[pmtright];      if(dEdx[pmtleft]==1000 && dEdx[pmtright]<1000) PadEdx = dEdx[pmtright];  
634    if(dEdx[pmtleft]<1000 && dEdx[pmtright]==1000) PadEdx = dEdx[pmtleft];    if(dEdx[pmtleft]<1000 && dEdx[pmtright]==1000) PadEdx = dEdx[pmtleft];
635        
636  };  };
 //  
   
637    
638  // gf Apr 07  // gf Apr 07
639    
# Line 505  TString ToFLevel2::GetPMTName(Int_t ind, Line 649  TString ToFLevel2::GetPMTName(Int_t ind,
649        
650    TString pmtname = " ";    TString pmtname = " ";
651        
652    TString photoS[48] = {    static const TString photoS[48] = {
653      "S11_1A", "S11_1B", "S11_2A", "S11_2B", "S11_3A", "S11_3B", "S11_4A",      "S11_1A", "S11_1B", "S11_2A", "S11_2B", "S11_3A", "S11_3B", "S11_4A",
654      "S11_4B",      "S11_4B",
655      "S11_5A", "S11_5B", "S11_6A", "S11_6B", "S11_7A", "S11_7B", "S11_8A",      "S11_5A", "S11_5B", "S11_6A", "S11_6B", "S11_7A", "S11_7B", "S11_8A",
# Line 965  Int_t ToFLevel2::GetNPaddle(Int_t plane) Line 1109  Int_t ToFLevel2::GetNPaddle(Int_t plane)
1109   * @param cut on chi2   * @param cut on chi2
1110   */   */
1111    
 Float_t ToFLevel2::CalcBeta(Int_t notrack, Float_t resmax, Float_t qualitycut, Float_t chi2cut){  
1112    
1113  //  cout<<" in CalcBeta "<<resmax<<" "<<chi2cut<<" "<<qualitycut<<endl;  Float_t ToFTrkVar::CalcBeta( Float_t resmax, Float_t qualitycut, Float_t chi2cut){
1114    
1115    
1116    Float_t bxx = 100.;    Float_t bxx = 100.;
1117    //    //
1118    ToFTrkVar *trk = GetToFTrkVar(notrack);    ToFTrkVar *trk = this;
   if(!trk) return 0; //ELENA  
1119    
1120    
1121    Float_t chi2,xhelp,beta_mean;    Float_t chi2,xhelp,beta_mean;
# Line 999  Float_t  w_il[6]; Line 1142  Float_t  w_il[6];
1142    for (Int_t i=0; i<trk->npmttdc; i++){    for (Int_t i=0; i<trk->npmttdc; i++){
1143      //      //
1144      pmt_id = (trk->pmttdc).At(i);      pmt_id = (trk->pmttdc).At(i);
1145      pmt_plane = GetPlaneIndex(pmt_id);      pmt_plane = ToFLevel2::GetPlaneIndex(pmt_id);
1146      tdcfl = (trk->tdcflag).At(i);      tdcfl = (trk->tdcflag).At(i);
1147      if (w_il[pmt_plane] != 1.) w_il[pmt_plane] = tdcfl; //tdcflag      if (w_il[pmt_plane] != 1.) w_il[pmt_plane] = tdcfl; //tdcflag
1148                                       };                                       };
# Line 1086  Int_t ibot[12] = {4,5,4,5,4,5,4,5,2,3,2, Line 1229  Int_t ibot[12] = {4,5,4,5,4,5,4,5,2,3,2,
1229    //    //
1230    return(bxx);    return(bxx);
1231  };  };
1232    ////////////////////////////////////////////////////
1233    ////////////////////////////////////////////////////
1234    /**
1235     * See ToFTrkVar::CalcBeta(Float_t,Float_t, Float_t).
1236     */
1237    Float_t ToFLevel2::CalcBeta(Int_t notrack, Float_t resmax, Float_t qualitycut, Float_t chi2cut){
1238    
1239    //  cout<<" in CalcBeta "<<resmax<<" "<<chi2cut<<" "<<qualitycut<<endl;
1240    
1241      ToFTrkVar *trk = GetToFTrkVar(notrack);
1242      if(!trk) return 0; //ELENA
1243    
1244      return trk->CalcBeta(resmax,qualitycut,chi2cut);
1245    
1246    };
1247    
1248    
1249  ////////////////////////////////////////////////////  ////////////////////////////////////////////////////
# Line 1147  Int_t ToFLevel2::Process(TrkLevel2 *trk, Line 1305  Int_t ToFLevel2::Process(TrkLevel2 *trk,
1305    //    //
1306    // Copiare qui qualcosa di simile a calonuclei per evitare di riprocessare sempre tutto    // Copiare qui qualcosa di simile a calonuclei per evitare di riprocessare sempre tutto
1307    //    //
1308      printf("\n\n\n ERROR: NOT IMPLEMENTED ANYMORE, write Emiliano if you need this method (Emiliano.Mocchiutti@ts.infn.it) \n\n\n");
1309      return(-1);
1310      //   //
1311      //   // structures to communicate with F77
1312      //   //
1313      //   extern struct ToFInput  tofinput_;
1314    //   extern struct ToFOutput tofoutput_;
1315    //   //
1316    //   // DB connection
1317    //   //
1318    //   TString host;
1319    //   TString user;
1320    //   TString psw;
1321    //   const char *pamdbhost=gSystem->Getenv("PAM_DBHOST");
1322    //   const char *pamdbuser=gSystem->Getenv("PAM_DBUSER");
1323    //   const char *pamdbpsw=gSystem->Getenv("PAM_DBPSW");
1324    //   if ( !pamdbhost ) pamdbhost = "";
1325    //   if ( !pamdbuser ) pamdbuser = "";
1326    //   if ( !pamdbpsw ) pamdbpsw = "";
1327    //   if ( strcmp(pamdbhost,"") ) host = pamdbhost;
1328    //   if ( strcmp(pamdbuser,"") ) user = pamdbuser;
1329    //   if ( strcmp(pamdbpsw,"") ) psw = pamdbpsw;
1330    //   //
1331    //   //
1332    //   TSQLServer *dbc = TSQLServer::Connect(host.Data(),user.Data(),psw.Data());
1333    //   if ( !dbc->IsConnected() ) return 1;
1334    //   stringstream myquery;
1335    //   myquery.str("");
1336    //   myquery << "SET time_zone='+0:00';";
1337    //   dbc->Query(myquery.str().c_str());
1338    //   delete dbc->Query("SET sql_mode = 'NO_UNSIGNED_SUBTRACTION';");
1339    //   GL_PARAM *glparam = new GL_PARAM();
1340    //   glparam->Query_GL_PARAM(1,1,dbc); // parameters stored in DB in GL_PRAM table
1341    //   trk->LoadField(glparam->PATH+glparam->NAME);
1342    //   //
1343    //   Bool_t defcal = true;
1344    //   Int_t error=glparam->Query_GL_PARAM(run->RUNHEADER_TIME,201,dbc); // parameters stored in DB in GL_PRAM table
1345    //   if ( error<0 ) {
1346    //     return(1);
1347    //   };
1348    //   printf(" Reading ToF parameter file: %s \n",(glparam->PATH+glparam->NAME).Data());
1349    //   if ( (UInt_t)glparam->TO_TIME != (UInt_t)4294967295UL ) defcal = false;
1350    //   //
1351    //   Int_t nlen = (Int_t)(glparam->PATH+glparam->NAME).Length();
1352    //   rdtofcal((char *)(glparam->PATH+glparam->NAME).Data(),&nlen);
1353    //   //
1354    //   Int_t adc[4][12];
1355    //   Int_t tdc[4][12];
1356    //   Float_t tdcc[4][12];
1357    //   //
1358    //   // process tof data
1359    //   //
1360    //   for (Int_t hh=0; hh<12;hh++){
1361    //     for (Int_t kk=0; kk<4;kk++){
1362    //            adc[kk][hh] = 4095;
1363    //            tdc[kk][hh] = 4095;
1364    //            tdcc[kk][hh] = 4095.;
1365    //            tofinput_.adc[hh][kk] = 4095;
1366    //            tofinput_.tdc[hh][kk] = 4095;
1367    //     };
1368    //   };
1369    //   Int_t ntrkentry = 0;
1370    //   Int_t npmtentry = 0;
1371    //   Int_t gg = 0;
1372    //   Int_t hh = 0;
1373    //   Int_t adcf[48];
1374    //   memset(adcf, 0, 48*sizeof(Int_t));
1375    //   Int_t tdcf[48];
1376    //   memset(tdcf, 0, 48*sizeof(Int_t));
1377    //   for (Int_t pm=0; pm < this->ntrk() ; pm++){
1378    //      ToFTrkVar *ttf = this->GetToFTrkVar(pm);
1379    //      for ( Int_t nc=0; nc < ttf->npmttdc; nc++){
1380    //             if ( (ttf->tdcflag).At(nc) != 0 ) tdcf[(ttf->pmttdc).At(nc)] = 1;
1381    //      };
1382    //      for ( Int_t nc=0; nc < ttf->npmtadc; nc++){
1383    //             if ( (ttf->adcflag).At(nc) != 0 ) adcf[(ttf->pmtadc).At(nc)] = 1;
1384    //      };
1385    //   };
1386    //   //
1387    //   for (Int_t pm=0; pm < this->npmt() ; pm++){
1388    //      ToFPMT *pmt = this->GetToFPMT(pm);
1389    //      this->GetPMTIndex(pmt->pmt_id, gg, hh);
1390    //      if ( adcf[pmt->pmt_id] == 0 ){
1391    //              tofinput_.adc[gg][hh] = (int)pmt->adc;
1392    //              adc[hh][gg] = (int)pmt->adc;
1393    //      };
1394    //      if ( tdcf[pmt->pmt_id] == 0 ){
1395    //              tofinput_.tdc[gg][hh] = (int)pmt->tdc;
1396    //              tdc[hh][gg] = (int)pmt->tdc;
1397    //      };
1398    //      tdcc[hh][gg] = (float)pmt->tdc_tw;
1399    //      // Int_t pppid = this->GetPMTid(hh,gg);
1400    //      //      printf(" pm %i pmt_id %i pppid %i hh %i gg %i tdcc %f tdc %f adc %f \n",pm,pmt->pmt_id,pppid,hh,gg,pmt->tdc_tw,pmt->tdc,pmt->adc);
1401    //   };
1402    //   //
1403    //   Int_t unpackError = this->unpackError;
1404    //   //
1405    //   for (Int_t hh=0; hh<5;hh++){
1406    //      tofinput_.patterntrig[hh]=trg->patterntrig[hh];
1407    //   };
1408    //   //
1409    //   this->Clear();
1410    //   //
1411    //       Int_t pmt_id = 0;
1412    //       ToFPMT *t_pmt = new ToFPMT();
1413    //       if(!(this->PMT)) this->PMT = new TClonesArray("ToFPMT",12); //ELENA
1414    //       TClonesArray &tpmt = *this->PMT;
1415    //       ToFTrkVar *t_tof = new ToFTrkVar();
1416    //       if(!(this->ToFTrk)) this->ToFTrk = new TClonesArray("ToFTrkVar",2); //ELENA
1417    //       TClonesArray &t = *this->ToFTrk;
1418    //       //
1419    //       //
1420    //       // Here we have calibrated data, ready to be passed to the FORTRAN routine which will extract common and track-related  variables.
1421    //       //
1422    //       npmtentry = 0;
1423    //       //
1424    //       ntrkentry = 0;
1425    //       //
1426    //       // Calculate tracks informations from ToF alone
1427    //       //
1428    //       tofl2com();
1429    //       //
1430    //       memcpy(this->tof_j_flag,tofoutput_.tof_j_flag,6*sizeof(Int_t));
1431    //       //
1432    //       t_tof->trkseqno = -1;
1433    //       //
1434    //       // and now we must copy from the output structure to the level2 class:
1435    //       //
1436    //       t_tof->npmttdc = 0;
1437    //       //
1438    //       for (Int_t hh=0; hh<12;hh++){
1439    //         for (Int_t kk=0; kk<4;kk++){
1440    //           if ( tofoutput_.tofmask[hh][kk] != 0 ){
1441    //             pmt_id = this->GetPMTid(kk,hh);
1442    //             t_tof->pmttdc.AddAt(pmt_id,t_tof->npmttdc);
1443    //             t_tof->tdcflag.AddAt(tofoutput_.tdcflagtof[hh][kk],t_tof->npmttdc); // gf: Jan 09/07
1444    //             t_tof->npmttdc++;
1445    //           };
1446    //         };
1447    //       };
1448    //       for (Int_t kk=0; kk<13;kk++){
1449    //         t_tof->beta[kk] = tofoutput_.betatof_a[kk];
1450    //       }
1451    //       //
1452    //       t_tof->npmtadc = 0;
1453    //       for (Int_t hh=0; hh<12;hh++){
1454    //         for (Int_t kk=0; kk<4;kk++){
1455    //           if ( tofoutput_.adctof_c[hh][kk] < 1000 ){
1456    //             t_tof->dedx.AddAt(tofoutput_.adctof_c[hh][kk],t_tof->npmtadc);
1457    //             pmt_id = this->GetPMTid(kk,hh);
1458    //             t_tof->pmtadc.AddAt(pmt_id,t_tof->npmtadc);
1459    //             t_tof->adcflag.AddAt(tofoutput_.adcflagtof[hh][kk],t_tof->npmtadc); // gf: Jan 09/07
1460    //             t_tof->npmtadc++;
1461    //           };
1462    //         };
1463    //       };
1464    //       //
1465    //       memcpy(t_tof->xtofpos,tofoutput_.xtofpos,sizeof(t_tof->xtofpos));
1466    //       memcpy(t_tof->ytofpos,tofoutput_.ytofpos,sizeof(t_tof->ytofpos));
1467    //       memcpy(t_tof->xtr_tof,tofoutput_.xtr_tof,sizeof(t_tof->xtr_tof));
1468    //       memcpy(t_tof->ytr_tof,tofoutput_.ytr_tof,sizeof(t_tof->ytr_tof));
1469    //       //
1470    //       new(t[ntrkentry]) ToFTrkVar(*t_tof);
1471    //       ntrkentry++;
1472    //       t_tof->Clear();
1473    //       //
1474    //       //
1475    //       //
1476    //       t_pmt->Clear();
1477    //       //
1478    //       for (Int_t hh=0; hh<12;hh++){
1479    //         for (Int_t kk=0; kk<4;kk++){
1480    //          // new WM
1481    //           if ( tofoutput_.tdc_c[hh][kk] < 4095 || adc[kk][hh] < 4095  || tdc[kk][hh] < 4095 ){
1482    // //          if ( tdcc[kk][hh] < 4095. || adc[kk][hh] < 4095  || tdc[kk][hh] < 4095 ){
1483    //             //
1484    //             t_pmt->pmt_id = this->GetPMTid(kk,hh);
1485    //             t_pmt->tdc_tw = tofoutput_.tdc_c[hh][kk];
1486    //             t_pmt->adc = (Float_t)adc[kk][hh];
1487    //             t_pmt->tdc = (Float_t)tdc[kk][hh];
1488    //             //
1489    //             new(tpmt[npmtentry]) ToFPMT(*t_pmt);
1490    //             npmtentry++;
1491    //             t_pmt->Clear();
1492    //           };
1493    //         };
1494    //       };
1495    //       //
1496    //       // Calculate track-related variables
1497    //       //
1498    //       if ( trk->ntrk() > 0 ){
1499    //         //
1500    //         // We have at least one track
1501    //         //
1502    //         //
1503    //         // Run over tracks
1504    //         //
1505    //         for(Int_t nt=0; nt < trk->ntrk(); nt++){
1506    //           //
1507    //           TrkTrack *ptt = trk->GetStoredTrack(nt);
1508    //           //
1509    //           // Copy the alpha vector in the input structure
1510    //           //
1511    //           for (Int_t e = 0; e < 5 ; e++){
1512    //             tofinput_.al_pp[e] = ptt->al[e];
1513    //           };
1514    //           //
1515    //           // Get tracker related variables for this track
1516    //           //
1517    //           toftrk();
1518    //           //
1519    //           // Copy values in the class from the structure (we need to use a temporary class to store variables).
1520    //           //
1521    //           t_tof->npmttdc = 0;
1522    //           for (Int_t hh=0; hh<12;hh++){
1523    //             for (Int_t kk=0; kk<4;kk++){
1524    //               if ( tofoutput_.tofmask[hh][kk] != 0 ){
1525    //                 pmt_id = this->GetPMTid(kk,hh);
1526    //                 t_tof->pmttdc.AddAt(pmt_id,t_tof->npmttdc);
1527    //                 t_tof->tdcflag.AddAt(tofoutput_.tdcflag[hh][kk],t_tof->npmttdc); // gf: Jan 09/07
1528    //                 t_tof->npmttdc++;
1529    //               };
1530    //             };
1531    //           };
1532    //           for (Int_t kk=0; kk<13;kk++){
1533    //             t_tof->beta[kk] = tofoutput_.beta_a[kk];
1534    //           };
1535    //           //
1536    //           t_tof->npmtadc = 0;
1537    //           for (Int_t hh=0; hh<12;hh++){
1538    //             for (Int_t kk=0; kk<4;kk++){
1539    //               if ( tofoutput_.adc_c[hh][kk] < 1000 ){
1540    //                 t_tof->dedx.AddAt(tofoutput_.adc_c[hh][kk],t_tof->npmtadc);
1541    //                 pmt_id = this->GetPMTid(kk,hh);
1542    //                 t_tof->pmtadc.AddAt(pmt_id,t_tof->npmtadc);
1543    //                 t_tof->adcflag.AddAt(tofoutput_.adcflag[hh][kk],t_tof->npmtadc); // gf: Jan 09/07
1544    //                 t_tof->npmtadc++;
1545    //               };
1546    //             };
1547    //           };
1548    //           //
1549    //           memcpy(t_tof->xtofpos,tofoutput_.xtofpos,sizeof(t_tof->xtofpos));
1550    //           memcpy(t_tof->ytofpos,tofoutput_.ytofpos,sizeof(t_tof->ytofpos));
1551    //           memcpy(t_tof->xtr_tof,tofoutput_.xtr_tof,sizeof(t_tof->xtr_tof));
1552    //           memcpy(t_tof->ytr_tof,tofoutput_.ytr_tof,sizeof(t_tof->ytr_tof));
1553    //           //
1554    //           // Store the tracker track number in order to be sure to have shyncronized data during analysis
1555    //           //
1556    //           t_tof->trkseqno = nt;
1557    //           //
1558    //           // create a new object for this event with track-related variables
1559    //           //
1560    //           new(t[ntrkentry]) ToFTrkVar(*t_tof);
1561    //           ntrkentry++;
1562    //           t_tof->Clear();
1563    //           //
1564    //         }; // loop on all the tracks
1565    //       //
1566    //       this->unpackError = unpackError;
1567    //       if ( defcal ){
1568    //         this->default_calib = 1;
1569    //       } else {
1570    //         this->default_calib = 0;
1571    //       };
1572    //};
1573    //  return(0);
1574    }
1575    
1576    bool ToFLevel2::bit(int decimal, char pos){
1577      return( (decimal>>pos)%2 );
1578    }
1579    
1580    bool ToFLevel2::checkPMT(TString givenpmt){
1581      TClonesArray* Pmt = this->PMT;
1582      //  printf(" ou %s entries %i \n",givenpmt.Data(),Pmt->GetEntries());
1583      for(int i=0; i<Pmt->GetEntries(); i++) {  
1584        ToFPMT* pmthit = (ToFPMT*)Pmt->At(i);
1585        TString pmtname = this->GetPMTName(pmthit->pmt_id);
1586        //    printf(" name %s \n",pmtname.Data());
1587        if ( !strcmp(pmtname.Data(),givenpmt.Data()) )
1588          return true;
1589      }
1590      //  printf(" PMT %s missing \n",givenpmt.Data());
1591      return false;
1592    }
1593    
1594    bool ToFLevel2::checkPMTpatternPMThit(TrigLevel2 *trg, int &pmtpattern, int &pmtnosignal){
1595      UInt_t *patterntrig = trg->patterntrig;
1596      pmtpattern = 0;
1597      pmtnosignal = 0;
1598      bool good = true;
1599      //S3
1600      if ( this->bit(patterntrig[2],0) ){ pmtpattern++;  if ( !this->checkPMT("S31_1A")){ pmtnosignal++; good = false;}}
1601      if ( this->bit(patterntrig[2],1) ){ pmtpattern++;  if ( !this->checkPMT("S31_2A")){ pmtnosignal++; good = false;}}
1602      if ( this->bit(patterntrig[2],2) ){ pmtpattern++;  if ( !this->checkPMT("S31_3A")){ pmtnosignal++; good = false;}}
1603      if ( this->bit(patterntrig[2],3) ){ pmtpattern++;  if ( !this->checkPMT("S31_1B")){ pmtnosignal++; good = false;}}
1604      if ( this->bit(patterntrig[2],4) ){ pmtpattern++;  if ( !this->checkPMT("S31_2B")){ pmtnosignal++; good = false;}}
1605      if ( this->bit(patterntrig[2],5) ){ pmtpattern++;  if ( !this->checkPMT("S31_3B")){ pmtnosignal++; good = false;}}      
1606      if ( this->bit(patterntrig[2],6) ){ pmtpattern++;  if ( !this->checkPMT("S32_1A")){ pmtnosignal++; good = false;}}
1607      if ( this->bit(patterntrig[2],7) ){ pmtpattern++;  if ( !this->checkPMT("S32_2A")){ pmtnosignal++; good = false;}}
1608      if ( this->bit(patterntrig[2],8) ){ pmtpattern++;  if ( !this->checkPMT("S32_3A")){ pmtnosignal++; good = false;}}
1609      if ( this->bit(patterntrig[2],9) ){ pmtpattern++;  if ( !this->checkPMT("S32_1B")){ pmtnosignal++; good = false;}}
1610      if ( this->bit(patterntrig[2],10) ){ pmtpattern++;  if ( !this->checkPMT("S32_2B")){ pmtnosignal++; good = false;}}
1611      if ( this->bit(patterntrig[2],11) ){ pmtpattern++;  if ( !this->checkPMT("S32_3B")){ pmtnosignal++; good = false;}}      
1612      //S2
1613      if ( this->bit(patterntrig[3],0) ){ pmtpattern++;  if ( !this->checkPMT("S21_1A")){ pmtnosignal++; good = false;}}
1614      if ( this->bit(patterntrig[3],1) ){ pmtpattern++;  if ( !this->checkPMT("S21_2A")){ pmtnosignal++; good = false;}}
1615      if ( this->bit(patterntrig[3],2) ){ pmtpattern++;  if ( !this->checkPMT("S21_1B")){ pmtnosignal++; good = false;}}
1616      if ( this->bit(patterntrig[3],3) ){ pmtpattern++;  if ( !this->checkPMT("S21_2B")){ pmtnosignal++; good = false;}}      
1617      if ( this->bit(patterntrig[3],4) ){ pmtpattern++;  if ( !this->checkPMT("S22_1A")){ pmtnosignal++; good = false;}}
1618      if ( this->bit(patterntrig[3],5) ){ pmtpattern++;  if ( !this->checkPMT("S22_2A")){ pmtnosignal++; good = false;}}
1619      if ( this->bit(patterntrig[3],6) ){ pmtpattern++;  if ( !this->checkPMT("S22_1B")){ pmtnosignal++; good = false;}}
1620      if ( this->bit(patterntrig[3],7) ){ pmtpattern++;  if ( !this->checkPMT("S22_2B")){ pmtnosignal++; good = false;}}      
1621      //S12
1622      if ( this->bit(patterntrig[4],0) ){ pmtpattern++;  if ( !this->checkPMT("S12_1A")){ pmtnosignal++; good = false;}}
1623      if ( this->bit(patterntrig[4],1) ){ pmtpattern++;  if ( !this->checkPMT("S12_2A")){ pmtnosignal++; good = false;}}
1624      if ( this->bit(patterntrig[4],2) ){ pmtpattern++;  if ( !this->checkPMT("S12_3A")){ pmtnosignal++; good = false;}}
1625      if ( this->bit(patterntrig[4],3) ){ pmtpattern++;  if ( !this->checkPMT("S12_4A")){ pmtnosignal++; good = false;}}
1626      if ( this->bit(patterntrig[4],4) ){ pmtpattern++;  if ( !this->checkPMT("S12_5A")){ pmtnosignal++; good = false;}}
1627      if ( this->bit(patterntrig[4],5) ){ pmtpattern++;  if ( !this->checkPMT("S12_6A")){ pmtnosignal++; good = false;}}      
1628      if ( this->bit(patterntrig[4],6) ){ pmtpattern++;  if ( !this->checkPMT("S12_1A")){ pmtnosignal++; good = false;}}
1629      if ( this->bit(patterntrig[4],7) ){ pmtpattern++;  if ( !this->checkPMT("S12_2A")){ pmtnosignal++; good = false;}}
1630      if ( this->bit(patterntrig[4],8) ){ pmtpattern++;  if ( !this->checkPMT("S12_3A")){ pmtnosignal++; good = false;}}
1631      if ( this->bit(patterntrig[4],9) ){ pmtpattern++;  if ( !this->checkPMT("S12_4B")){ pmtnosignal++; good = false;}}
1632      if ( this->bit(patterntrig[4],10) ){ pmtpattern++; if ( !this->checkPMT("S12_5B")){ pmtnosignal++; good = false;}}
1633      if ( this->bit(patterntrig[4],11) ){ pmtpattern++; if ( !this->checkPMT("S12_6B")){ pmtnosignal++; good = false;}}      
1634      //S11
1635      if ( this->bit(patterntrig[5],0) ){ pmtpattern++;  if ( !this->checkPMT("S11_1A")){ pmtnosignal++; good = false;}}
1636      if ( this->bit(patterntrig[5],1) ){ pmtpattern++;  if ( !this->checkPMT("S11_2A")){ pmtnosignal++; good = false;}}
1637      if ( this->bit(patterntrig[5],2) ){ pmtpattern++;  if ( !this->checkPMT("S11_3A")){ pmtnosignal++; good = false;}}
1638      if ( this->bit(patterntrig[5],3) ){ pmtpattern++;  if ( !this->checkPMT("S11_4A")){ pmtnosignal++; good = false;}}
1639      if ( this->bit(patterntrig[5],4) ){ pmtpattern++;  if ( !this->checkPMT("S11_5A")){ pmtnosignal++; good = false;}}
1640      if ( this->bit(patterntrig[5],5) ){ pmtpattern++;  if ( !this->checkPMT("S11_6A")){ pmtnosignal++; good = false;}}
1641      if ( this->bit(patterntrig[5],6) ){ pmtpattern++;  if ( !this->checkPMT("S11_7A")){ pmtnosignal++; good = false;}}
1642      if ( this->bit(patterntrig[5],7) ){ pmtpattern++;  if ( !this->checkPMT("S11_8A")){ pmtnosignal++; good = false;}}      
1643      if ( this->bit(patterntrig[5],8) ){ pmtpattern++;  if ( !this->checkPMT("S11_1B")){ pmtnosignal++; good = false;}}
1644      if ( this->bit(patterntrig[5],9) ){ pmtpattern++;  if ( !this->checkPMT("S11_2B")){ pmtnosignal++; good = false;}}
1645      if ( this->bit(patterntrig[5],10) ){ pmtpattern++; if ( !this->checkPMT("S11_3B")){ pmtnosignal++; good = false;}}
1646      if ( this->bit(patterntrig[5],11) ){ pmtpattern++; if ( !this->checkPMT("S11_4B")){ pmtnosignal++; good = false;}}
1647      if ( this->bit(patterntrig[5],12) ){ pmtpattern++; if ( !this->checkPMT("S11_5B")){ pmtnosignal++; good = false;}}
1648      if ( this->bit(patterntrig[5],13) ){ pmtpattern++; if ( !this->checkPMT("S11_6B")){ pmtnosignal++; good = false;}}
1649      if ( this->bit(patterntrig[5],14) ){ pmtpattern++; if ( !this->checkPMT("S11_7B")){ pmtnosignal++; good = false;}}
1650      if ( this->bit(patterntrig[5],15) ){ pmtpattern++; if ( !this->checkPMT("S11_8B")){ pmtnosignal++; good = false;}}
1651    
1652      return good;
1653    }
1654    
1655    bool ToFLevel2::checkPMTpmttrig(TrigLevel2 *trg){
1656      //  UInt_t *patterntrig = trg->patterntrig;
1657      int rS11 = 0;
1658      int rS12 = 0;
1659      int rS21 = 0;
1660      int rS22 = 0;
1661      int rS31 = 0;
1662      int rS32 = 0;
1663    
1664      // trigger configuration for the event from saved pmts
1665      TClonesArray* Pmt = this->PMT;
1666      for(int i=0; i<Pmt->GetEntries(); i++) {  
1667        ToFPMT* pmthit = (ToFPMT*)Pmt->At(i);
1668        TString pmtname = this->GetPMTName(pmthit->pmt_id);
1669        if ( pmtname.Contains("S11") ) rS11++;
1670        if ( pmtname.Contains("S12") ) rS12++;
1671        if ( pmtname.Contains("S21") ) rS21++;
1672        if ( pmtname.Contains("S22") ) rS22++;
1673        if ( pmtname.Contains("S31") ) rS31++;
1674        if ( pmtname.Contains("S32") ) rS32++;
1675      }
1676      int rTOF1 = (rS11 + rS12) * (rS21 + rS22) * (rS31 + rS32);
1677      int rTOF2 = (rS11 * rS12) * (rS21 * rS22) * (rS31 * rS32);
1678    
1679      int rTOF3 = (rS21 + rS22) * (rS31 + rS32);
1680      int rTOF4 = (rS21 * rS22) * (rS31 * rS32);
1681    
1682      int rTOF5 = rS12 * (rS21 * rS22);
1683    
1684      int rTOF6 = (rS11 + rS12) * (rS31 + rS32);
1685      int rTOF7 = (rS11 * rS12) * (rS31 * rS32);
1686    
1687    
1688      // trigger configuration of the run
1689      bool TCTOF1 = false;
1690      bool TCTOF2 = false;
1691      bool TCTOF3 = false;
1692      bool TCTOF4 = false;
1693      bool TCTOF5 = false;
1694      bool TCTOF6 = false;
1695      bool TCTOF7 = false;
1696      if ( trg->trigconf & (1<<0) ) TCTOF1 = true;
1697      if ( trg->trigconf & (1<<1) ) TCTOF2 = true;
1698      if ( trg->trigconf & (1<<2) ) TCTOF3 = true;
1699      if ( trg->trigconf & (1<<3) ) TCTOF4 = true;
1700      if ( trg->trigconf & (1<<4) ) TCTOF5 = true;
1701      if ( trg->trigconf & (1<<5) ) TCTOF6 = true;
1702      if ( trg->trigconf & (1<<6) ) TCTOF7 = true;
1703    
1704      // do patterntrig pmts match the trigger configuration?
1705      bool pmtsconf_trigconf_match = true;
1706      if ( rTOF1 == 0 && TCTOF1 ) pmtsconf_trigconf_match = false;
1707      if ( rTOF2 == 0 && TCTOF2 ) pmtsconf_trigconf_match = false;
1708      if ( rTOF3 == 0 && TCTOF3 ) pmtsconf_trigconf_match = false;
1709      if ( rTOF4 == 0 && TCTOF4 ) pmtsconf_trigconf_match = false;
1710      if ( rTOF5 == 0 && TCTOF5 ) pmtsconf_trigconf_match = false;
1711      if ( rTOF6 == 0 && TCTOF6 ) pmtsconf_trigconf_match = false;
1712      if ( rTOF7 == 0 && TCTOF7 ) pmtsconf_trigconf_match = false;
1713    
1714      return pmtsconf_trigconf_match;
1715    }
1716    
1717    void ToFLevel2::printPMT(){
1718      TClonesArray* Pmt = this->PMT;
1719      for(int i=0; i<Pmt->GetEntries(); i++) {  
1720        ToFPMT* pmthit = (ToFPMT*)Pmt->At(i);
1721        TString pmtname = this->GetPMTName(pmthit->pmt_id);
1722        printf(" PMT hit: %s \n",pmtname.Data());
1723      }
1724    }
1725    
1726    
1727    ToFdEdx::ToFdEdx()
1728    {
1729      memset(conn,0,12*sizeof(Bool_t));
1730      memset(ts,0,12*sizeof(UInt_t));
1731      memset(te,0,12*sizeof(UInt_t));
1732      eDEDXpmt = new TArrayF(48);
1733      Define_PMTsat();
1734      Clear();
1735    }
1736    
1737    ToFdEdx::~ToFdEdx(){
1738      Clear();
1739      Delete();
1740    }
1741    
1742    void ToFdEdx::Delete(Option_t *option){
1743      if ( eDEDXpmt ){
1744        eDEDXpmt->Set(0);
1745        if ( eDEDXpmt) delete eDEDXpmt;
1746      }
1747    }
1748    
1749    //------------------------------------------------------------------------
1750    void ToFdEdx::CheckConnectors(UInt_t atime, GL_PARAM *glparam, TSQLServer *dbc)
1751    {
1752      for(int i=0; i<12; i++){
1753        if(atime<=ts[i] || atime>te[i]){
1754          Int_t error=glparam->Query_GL_PARAM(atime,210+i,dbc); // parameters stored in DB in GL_PRAM table
1755          if ( error<0 ) {
1756            conn[i]=false;
1757            ts[i]=0;
1758            te[i]=numeric_limits<UInt_t>::max();
1759          };
1760          if ( !error ){
1761            conn[i]=true;
1762            ts[i]=glparam->FROM_TIME;
1763            te[i]=glparam->TO_TIME;
1764          }
1765          if ( error>0 ){
1766            conn[i]=false;
1767            ts[i]=glparam->TO_TIME;
1768            TSQLResult *pResult;
1769            TSQLRow *row;
1770            TString query= Form("SELECT FROM_TIME FROM GL_PARAM WHERE TYPE=%i AND FROM_TIME>=%i ORDER BY FROM_TIME ASC LIMIT 1;",210+i,atime);
1771            pResult=dbc->Query(query.Data());
1772            if(!pResult->GetRowCount()){
1773              te[i]=numeric_limits<UInt_t>::max();
1774            }else{
1775              row=pResult->Next();
1776              te[i]=(UInt_t)atoll(row->GetField(0));
1777            }
1778          }
1779          //
1780          
1781        }
1782      }
1783    
1784    }
1785    //------------------------------------------------------------------------
1786    void ToFdEdx::Clear(Option_t *option)
1787    {
1788    //    //
1789    // structures to communicate with F77    // Set arrays and initialize structure
1790    //    //  eDEDXpmt.Set(48);    eDEDXpmt.Reset(-1);   // Set array size  and reset structure
1791    extern struct ToFInput  tofinput_;    eDEDXpmt->Set(48);    eDEDXpmt->Reset(-1);   // Set array size  and reset structure
   extern struct ToFOutput tofoutput_;  
   //  
   // DB connection  
   //  
   TString host;  
   TString user;  
   TString psw;  
   const char *pamdbhost=gSystem->Getenv("PAM_DBHOST");  
   const char *pamdbuser=gSystem->Getenv("PAM_DBUSER");  
   const char *pamdbpsw=gSystem->Getenv("PAM_DBPSW");  
   if ( !pamdbhost ) pamdbhost = "";  
   if ( !pamdbuser ) pamdbuser = "";  
   if ( !pamdbpsw ) pamdbpsw = "";  
   if ( strcmp(pamdbhost,"") ) host = pamdbhost;  
   if ( strcmp(pamdbuser,"") ) user = pamdbuser;  
   if ( strcmp(pamdbpsw,"") ) psw = pamdbpsw;  
   //  
   //  
   TSQLServer *dbc = TSQLServer::Connect(host.Data(),user.Data(),psw.Data());  
   if ( !dbc->IsConnected() ) return 1;  
   stringstream myquery;  
   myquery.str("");  
   myquery << "SET time_zone='+0:00'";  
   dbc->Query(myquery.str().c_str());  
   GL_PARAM *glparam = new GL_PARAM();  
   glparam->Query_GL_PARAM(1,1,dbc); // parameters stored in DB in GL_PRAM table  
   trk->LoadField(glparam->PATH+glparam->NAME);  
   //  
   Bool_t defcal = true;  
   Int_t error=glparam->Query_GL_PARAM(run->RUNHEADER_TIME,201,dbc); // parameters stored in DB in GL_PRAM table  
   if ( error<0 ) {  
     return(1);  
   };  
   printf(" Reading ToF parameter file: %s \n",(glparam->PATH+glparam->NAME).Data());  
   if ( (UInt_t)glparam->TO_TIME != (UInt_t)4294967295UL ) defcal = false;  
1792    //    //
1793    Int_t nlen = (Int_t)(glparam->PATH+glparam->NAME).Length();  };
1794    rdtofcal((char *)(glparam->PATH+glparam->NAME).Data(),&nlen);  
1795    //------------------------------------------------------------------------
1796    void ToFdEdx::Print(Option_t *option)
1797    {
1798    //    //
1799    Int_t adc[4][12];    printf("========================================================================\n");
1800    Int_t tdc[4][12];  
1801    Float_t tdcc[4][12];  };
1802    //  
1803    // process tof data  //------------------------------------------------------------------------
1804    //  void ToFdEdx::Init(pamela::tof::TofEvent *tofl0)
1805    for (Int_t hh=0; hh<12;hh++){  {
     for (Int_t kk=0; kk<4;kk++){  
            adc[kk][hh] = 4095;  
            tdc[kk][hh] = 4095;  
            tdcc[kk][hh] = 4095.;  
            tofinput_.adc[hh][kk] = 4095;  
            tofinput_.tdc[hh][kk] = 4095;  
     };  
   };  
   Int_t ntrkentry = 0;  
   Int_t npmtentry = 0;  
   Int_t gg = 0;  
   Int_t hh = 0;  
   Int_t adcf[48];  
   memset(adcf, 0, 48*sizeof(Int_t));  
   Int_t tdcf[48];  
   memset(tdcf, 0, 48*sizeof(Int_t));  
   for (Int_t pm=0; pm < this->ntrk() ; pm++){  
      ToFTrkVar *ttf = this->GetToFTrkVar(pm);  
      for ( Int_t nc=0; nc < ttf->npmttdc; nc++){  
             if ( (ttf->tdcflag).At(nc) != 0 ) tdcf[(ttf->pmttdc).At(nc)] = 1;  
      };  
      for ( Int_t nc=0; nc < ttf->npmtadc; nc++){  
             if ( (ttf->adcflag).At(nc) != 0 ) adcf[(ttf->pmtadc).At(nc)] = 1;  
      };  
   };  
1806    //    //
1807    for (Int_t pm=0; pm < this->npmt() ; pm++){    ToFLevel2 tf;
1808       ToFPMT *pmt = this->GetToFPMT(pm);    for (Int_t gg=0; gg<4;gg++){
1809       this->GetPMTIndex(pmt->pmt_id, gg, hh);      for (Int_t hh=0; hh<12;hh++){
1810       if ( adcf[pmt->pmt_id] == 0 ){        //          tofinput_.tdc[hh][gg]=tofEvent->tdc[gg][hh];          
1811               tofinput_.adc[gg][hh] = (int)pmt->adc;        int mm = tf.GetPMTid(gg,hh);        
1812               adc[hh][gg] = (int)pmt->adc;        adc[mm]= (0xFFF & tofl0->adc[gg][hh]); // EM, exclude warning bits
1813       };      };      
      if ( tdcf[pmt->pmt_id] == 0 ){  
              tofinput_.tdc[gg][hh] = (int)pmt->tdc;  
              tdc[hh][gg] = (int)pmt->tdc;  
      };  
      tdcc[hh][gg] = (float)pmt->tdc_tw;  
      // Int_t pppid = this->GetPMTid(hh,gg);  
      //      printf(" pm %i pmt_id %i pppid %i hh %i gg %i tdcc %f tdc %f adc %f \n",pm,pmt->pmt_id,pppid,hh,gg,pmt->tdc_tw,pmt->tdc,pmt->adc);  
1814    };    };
1815      
1816    };
1817    
1818    //------------------------------------------------------------------------
1819    void ToFdEdx::Init(Int_t gg, Int_t hh, Float_t adce)
1820    {
1821    //    //
1822    Int_t unpackError = this->unpackError;    ToFLevel2 tf;
1823    //    //  for (Int_t gg=0; gg<4;gg++){
1824    for (Int_t hh=0; hh<5;hh++){    //    for (Int_t hh=0; hh<12;hh++){
1825       tofinput_.patterntrig[hh]=trg->patterntrig[hh];    int mm = tf.GetPMTid(gg,hh);    
1826      adc[mm]=adce;
1827      
1828    };
1829    //------------------------------------------------------------------------
1830    void ToFdEdx::Process(UInt_t atime, Float_t betamean, Float_t *xtr_tof, Float_t *ytr_tof, Int_t exitat)
1831    {
1832      bool debug = false;
1833      if ( debug ) printf(" INSIDE TOFDEDX PROCESS \n");
1834      // the parameters should be already initialised by InitPar()
1835      //  printf(" in process \n");
1836      Clear();
1837    
1838     // define angle:  
1839      double dx   = xtr_tof[1] - xtr_tof[5];
1840      double dy   = ytr_tof[0] - ytr_tof[4];
1841      double dr   = sqrt(dx*dx+dy*dy);
1842      double theta=atan(dr/76.81);
1843      //
1844      if ( xtr_tof[1] > 99. ||  xtr_tof[5] > 99. || ytr_tof[0] > 99. ||  ytr_tof[4] > 99. ) theta = 0.;
1845      for (Int_t ii=0; ii<6; ii++){
1846        if ( xtr_tof[ii] > 99. ) xtr_tof[ii] = 0.;
1847        if ( ytr_tof[ii] > 99. ) ytr_tof[ii] = 0.;
1848    };    };
1849    //    //
1850    this->Clear();    if ( debug ) printf(" theta %f \n",theta);
1851      if ( debug ) printf(" xtr_tof %.1f %.1f %.1f %.1f %.1f %.1f \n",xtr_tof[0],xtr_tof[1],xtr_tof[2],xtr_tof[3],xtr_tof[4],xtr_tof[5]);
1852      if ( debug ) printf(" ytr_tof %.1f %.1f %.1f %.1f %.1f %.1f \n",ytr_tof[0],ytr_tof[1],ytr_tof[2],ytr_tof[3],ytr_tof[4],ytr_tof[5]);
1853      //--------------------- TABLE OF PERIODS WITH HV PROBLEMS ----------------------------
1854      
1855      int Aconn=conn[0];    // PMT 0,20,22,24
1856      int Bconn=conn[1];    // PMT 6,12,26,34
1857      int Cconn=conn[2];    // PMT 4,14,28,32
1858      int Dconn=conn[3];    // PMT 2,8,10,30
1859      int Econn=conn[4];    // PMT 42,43,44,47
1860      int Fconn=conn[5];    // PMT 7,19,23,27
1861      int Gconn=conn[6];    // PMT 3,11,25,33
1862      int Hconn=conn[7];    // PMT 1,9,13,21
1863      int Iconn=conn[8];    // PMT 5,29,31,35
1864      int Lconn=conn[9];    // PMT 37,40,45,46
1865      int Mconn=conn[10];    // PMT 15,16,17,18
1866      int Nconn=conn[11];    // PMT 36,38,39,41
1867      if( false ) cout << Gconn << Iconn << Lconn <<endl; // to avoid compilation warnings
1868        
1869      //  printf(" size %i \n",eDEDXpmt.GetSize());
1870      for( int ii=0; ii<48; ii++ ) {
1871        //
1872        //    eDEDXpmt.SetAt(-1.,ii);
1873        //    printf(" ii %i beta %f atime %u xtr 1 %f ytr 1 %f adc %f \n",ii,betamean,atime,xtr_tof[0],ytr_tof[0],adc[ii]);
1874        if ( debug ) printf("II %i adc %f \n",ii,adc[ii]);
1875    
1876        if( adc[ii] >= 4095. ){
1877          //      eDEDXpmt[ii] = 0.;
1878          eDEDXpmt->AddAt(0.,ii);
1879          if ( debug ) printf(" %i adc>4095 \n",ii);
1880          continue; // EMILIANO
1881        };
1882    
1883        if( adc[ii] >= (PMTsat[ii]-5.) && adc[ii] < 4095. ){
1884          eDEDXpmt->AddAt(1000.,ii);
1885          if ( debug ) printf(" %i adc> pmtsat && adc<4095 \n",ii);
1886          continue; // EMILIANO
1887        };
1888    
1889        if( adc[ii] <= 0. ) {
1890          eDEDXpmt->AddAt(1500.,ii);
1891          if ( debug ) printf(" %i adc<=0 \n",ii);
1892          continue;
1893        };
1894        //
1895        double adcpC   = f_adcPC( adc[ii] );    // - adc conversion in pC
1896        if ( exitat == 0 ){
1897          eDEDXpmt->AddAt((Float_t)adcpC,ii);
1898          continue;
1899        }
1900        //    printf(" e qua? \n");
1901    
1902        double adccorr = adcpC*fabs(cos(theta));    
1903        if ( debug ) printf(" adccorr %f \n",adccorr);
1904        if(adccorr<=0.){
1905          if ( debug ) printf(" %i adccorr<=0 \n",ii);
1906          //      eDEDXpmt->AddAt((Float_t)adcpC,ii);//?
1907          continue;
1908        }
1909        if ( exitat == 1 ){
1910          eDEDXpmt->AddAt((Float_t)adccorr,ii);
1911          continue;
1912        }
1913        //    printf(" e quo? \n");
1914    
1915        //    int standard=0;
1916        int S115B_ok=0;
1917        int S115B_break=0;
1918    
1919        if(atime<1158720000)S115B_ok=1;
1920        else S115B_break=1;
1921    
1922    
1923        //------------------------------------------------------------------------
1924        //    printf(" e qui? \n");
1925        //---------------------------------------------------- Z reconstruction
1926    
1927        double adcHe, adcnorm, adclin, dEdx;//, Zeta; // EM GCC4.7
1928    
1929        adcHe=-2;
1930        adcnorm=-2;
1931        adclin=-2;
1932        dEdx=-2;
1933        //    Zeta=-2;//EM GCC4.7
1934        Double_t correction = 1.;
1935    
1936        if(Aconn==1 && (ii==0 || ii==20 || ii==22 || ii==24)){
1937          correction = 1.675;
1938        }
1939        else if(Bconn==1 && (ii==6 || ii==12 || ii==26 || ii==34)){
1940          correction = 2.482;
1941        }
1942        else if(Cconn==1 && (ii==4 || ii==14 || ii==28 || ii==32)){
1943          correction = 1.464;
1944        }
1945        else if(Dconn==1 && (ii==2 || ii==8 || ii==10 || ii==30)){
1946          correction = 1.995;
1947        }
1948        else if(Econn==1 && (ii==42 || ii==43 || ii==44 || ii==47)){
1949          correction = 1.273;
1950        }
1951        else if(Fconn==1 && (ii==7 || ii==19 || ii==23 || ii==27)){
1952          correction = 1.565;
1953        }
1954        else if(Mconn==1 && (ii==15 || ii==16 || ii==17 || ii==18)){
1955          correction = 1.565;
1956        }
1957        else if(Nconn==1 && (ii==36 || ii==38 || ii==39 || ii==41)){
1958          correction = 1.018;
1959        }
1960        else if(Hconn==1 && (ii==1 || ii==13 || ii==21 || (ii==9&&S115B_ok==1))){
1961          correction = 1.84;
1962        }
1963        else if(S115B_break==1 && ii==9 && Hconn==1){
1964          correction = 1.64;
1965        }
1966        else correction = 1.;
1967        
1968        if( ii==9 && S115B_break==1 ){
1969          adcHe   = f_att5B( ytr_tof[0] )/correction;
1970        } else {
1971          adcHe   = Get_adc_he(ii, xtr_tof, ytr_tof)/correction;
1972        };
1973        if(adcHe<=0){
1974          if ( debug ) printf(" %i adcHe<=0 \n",ii);
1975          //      eDEDXpmt->AddAt((Float_t)adccorr,ii); //?
1976          continue;
1977        }
1978        if ( exitat == 2 ){
1979          if(ii==9 && S115B_break==1)  eDEDXpmt->AddAt(36.*(Float_t)adccorr/adcHe,ii);
1980          else  adclin  = 4.*(Float_t)adccorr/adcHe;
1981          continue;
1982        }
1983    
1984        if(ii==9 && S115B_break==1)  adcnorm = f_pos5B(adccorr);
1985        else adcnorm = f_pos( (parPos[ii]), adccorr);
1986        if(adcnorm<=0){
1987          if ( debug ) printf(" %i adcnorm<=0 \n",ii);
1988          //      eDEDXpmt->AddAt((Float_t)adccorr,ii);//?
1989          continue;
1990        }
1991        if ( debug ) printf(" adcnorm %f \n",adcnorm);
1992    
1993        if(ii==9 && S115B_break==1)  adclin  = 36.*adcnorm/adcHe;
1994        else  adclin  = 4.*adcnorm/adcHe;
1995        if ( debug ) printf(" adclin %f \n",adclin);
1996        if(adclin<=0){
1997          if ( debug ) printf(" %i adclin<=0 \n",ii);
1998          //      eDEDXpmt->AddAt((Float_t)adccorr,ii);//?
1999          continue;
2000        }
2001        if ( exitat == 3 ){
2002          if(ii==9 && S115B_break==1)  eDEDXpmt->AddAt((Float_t)adclin,ii);
2003          else  eDEDXpmt->AddAt((Float_t)adclin,ii);
2004          continue;
2005        }
2006        //
2007        if ( betamean > 99. ){
2008          //      eDEDXpmt.AddAt((Float_t)adclin,ii);
2009          eDEDXpmt->AddAt((Float_t)adclin,ii);
2010          //      printf(" AAPMT IS %i dedx is %f vector is %f \n",ii,adclin,eDEDXpmt[ii]);
2011          if ( debug ) printf(" %i betamean > 99 \n",ii);
2012          continue;
2013        };
2014        //
2015        double dEdxHe=-2;
2016        if(ii==9 && S115B_break==1){
2017          if( betamean <1. ) dEdxHe = f_BB5B( betamean );
2018          else                       dEdxHe = 33;
2019        } else {
2020          if( betamean <1. ) dEdxHe = f_BB( (parBBneg[ii]), betamean );
2021          else                       dEdxHe = parBBpos[ii];
2022        }
2023        
2024        if ( debug ) printf(" dEdxHe %f \n",dEdxHe);
2025        
2026        if(dEdxHe<=0){
2027          eDEDXpmt->AddAt((Float_t)adclin,ii);
2028          if ( debug ) printf(" %i dEdxHe<=0 \n",ii);
2029          continue;
2030        };
2031    
2032        if(ii==9 && S115B_break==1)  dEdx = f_desatBB5B( adclin );
2033        else  dEdx = f_desatBB((parDesatBB[ii]), adclin );
2034    
2035        if(dEdx<=0){
2036          eDEDXpmt->AddAt((Float_t)adclin,ii);
2037          if ( debug ) printf(" %i dEdx<=0 \n",ii);
2038          continue;
2039        };
2040    
2041        if ( debug ) printf(" dEdx %f \n",dEdx);
2042        eDEDXpmt->AddAt((Float_t)dEdx,ii);
2043        //    eDEDXpmt.AddAt((Float_t)dEdx,ii);
2044    
2045        //    printf(" PMT IS %i dedx is %f vector is %f \n",ii,dEdx,eDEDXpmt[ii]);
2046    
2047      }  //end loop on 48 PMT
2048    
2049    };
2050    
2051    
2052    //------------------------------------------------------------------------
2053    void ToFdEdx::Define_PMTsat()
2054    {
2055      Float_t  sat[48] = {
2056        3176.35,3178.19,3167.38,3099.73,3117.00,3126.29,3111.44,3092.27,
2057        3146.48,3094.41,3132.13,3115.37,3099.32,3110.97,3111.80,3143.14,
2058        3106.72,3153.44,3136.00,3188.96,3104.73,3140.45,3073.18,3106.62,
2059        3112.48,3146.92,3127.24,3136.52,3109.59,3112.89,3045.15,3147.26,
2060        3095.92,3121.05,3083.25,3123.62,3150.92,3125.30,3067.60,3160.18,
2061        3119.36,3108.92,3164.77,3133.64,3111.47,3131.98,3128.87,3135.56 };
2062      PMTsat.Set(48,sat);
2063    }
2064    
2065    //------------------------------------------------------------------------
2066    void ToFdEdx::ReadParBBpos( const char *fname )
2067    {
2068      //  printf("read %s\n",fname);
2069      parBBpos.Set(48);
2070      FILE *fattin = fopen( fname , "r" );
2071      for (int i=0; i<48; i++) {
2072        int   tid=0;
2073        float  tp;
2074        if(fscanf(fattin,"%d %f",
2075                  &tid, &tp )!=2) break;
2076        parBBpos[i]=tp;
2077      }
2078      fclose(fattin);
2079    }
2080    
2081    //------------------------------------------------------------------------
2082    void ToFdEdx::ReadParDesatBB( const char *fname )
2083    {
2084      //  printf("read %s\n",fname);
2085      FILE *fattin = fopen( fname , "r" );
2086      for (int i=0; i<48; i++) {
2087        int   tid=0;
2088        float  tp[3];
2089        if(fscanf(fattin,"%d %f %f %f",
2090                  &tid, &tp[0], &tp[1], &tp[2] )!=4) break;
2091        parDesatBB[i].Set(3,tp);
2092      }
2093      fclose(fattin);
2094    }
2095    
2096    
2097    //------------------------------------------------------------------------
2098    void ToFdEdx::ReadParBBneg( const char *fname )
2099    
2100    {
2101      //  printf("read %s\n",fname);
2102      FILE *fattin = fopen( fname , "r" );
2103      for (int i=0; i<48; i++) {
2104        int   tid=0;
2105        float  tp[3];
2106        if(fscanf(fattin,"%d %f %f %f",
2107                  &tid, &tp[0], &tp[1], &tp[2] )!=4) break;
2108        parBBneg[i].Set(3,tp);
2109      }
2110      fclose(fattin);
2111    }
2112    
2113    //------------------------------------------------------------------------
2114    void ToFdEdx::ReadParPos( const char *fname )
2115    {
2116      //  printf("read %s\n",fname);
2117      FILE *fattin = fopen( fname , "r" );
2118      for (int i=0; i<48; i++) {
2119        int   tid=0;
2120        float  tp[4];
2121        if(fscanf(fattin,"%d %f %f %f %f",
2122                  &tid, &tp[0], &tp[1], &tp[2], &tp[3])!=5) break;
2123        parPos[i].Set(4,tp);
2124      }
2125      fclose(fattin);
2126    }
2127    
2128    //------------------------------------------------------------------------
2129    void ToFdEdx::ReadParAtt( const char *fname )
2130    {
2131      //  printf("read %s\n",fname);
2132      FILE *fattin = fopen( fname , "r" );
2133      for (int i=0; i<48; i++) {
2134        int   tid=0;
2135        float  tp[6];
2136        if(fscanf(fattin,"%d %f %f %f %f %f %f",
2137                  &tid, &tp[0], &tp[1], &tp[2], &tp[3], &tp[4], &tp[5] )!=7) break;
2138        parAtt[i].Set(6,tp);
2139      }
2140      fclose(fattin);
2141    }
2142    
2143    
2144    
2145    
2146    
2147    
2148    double ToFdEdx::f_att( TArrayF &p, float x )
2149    {
2150      return
2151        p[0] +
2152        p[1]*x +
2153        p[2]*x*x +
2154        p[3]*x*x*x +
2155        p[4]*x*x*x*x +
2156        p[5]*x*x*x*x*x;
2157    }
2158    //------------------------------------------------------------------------
2159    double ToFdEdx::f_att5B( float x )
2160    {
2161      return
2162        101.9409 +
2163        6.643781*x +
2164        0.2765518*x*x +
2165        0.004617647*x*x*x +
2166        0.0006195132*x*x*x*x +
2167        0.00002813734*x*x*x*x*x;
2168    }
2169    
2170    
2171    double ToFdEdx::f_pos( TArrayF &p, float x )
2172    {
2173      return
2174        p[0] +
2175        p[1]*x +
2176        p[2]*x*x +
2177        p[3]*x*x*x;
2178    }
2179    
2180    double ToFdEdx::f_pos5B( float x )
2181    {
2182      return
2183        15.45132 +
2184        0.8369721*x +
2185        0.0005*x*x;
2186    }
2187    
2188    
2189    
2190    double ToFdEdx::f_adcPC( float x )
2191    {
2192      return 28.12+0.6312*x-5.647e-05*x*x+3.064e-08*x*x*x;
2193    }
2194    
2195    
2196    float ToFdEdx::Get_adc_he( int id, float pl_x[6], float pl_y[6])
2197    {
2198    
2199    //    //
2200        Int_t pmt_id = 0;    // input: id - pmt [0:47}
2201        ToFPMT *t_pmt = new ToFPMT();    //             pl_x - coord x of the tof plane
2202        if(!(this->PMT)) this->PMT = new TClonesArray("ToFPMT",12); //ELENA    //             pl_y - coord y
2203        TClonesArray &tpmt = *this->PMT;  
2204        ToFTrkVar *t_tof = new ToFTrkVar();    adc_he = 0;
2205        if(!(this->ToFTrk)) this->ToFTrk = new TClonesArray("ToFTrkVar",2); //ELENA    if( eGeom.GetXY(id)==1 )  adc_he = f_att( (parAtt[id]), pl_x[eGeom.GetPlane(id)] );
2206        TClonesArray &t = *this->ToFTrk;    if( eGeom.GetXY(id)==2 )  adc_he = f_att( (parAtt[id]), pl_y[eGeom.GetPlane(id)] );
2207        //    return adc_he;
2208        //  }
       // Here we have calibrated data, ready to be passed to the FORTRAN routine which will extract common and track-related  variables.  
       //  
       npmtentry = 0;  
       //  
       ntrkentry = 0;  
       //  
       // Calculate tracks informations from ToF alone  
       //  
       tofl2com();  
       //  
       memcpy(this->tof_j_flag,tofoutput_.tof_j_flag,6*sizeof(Int_t));  
       //  
       t_tof->trkseqno = -1;  
       //  
       // and now we must copy from the output structure to the level2 class:  
       //  
       t_tof->npmttdc = 0;  
       //  
       for (Int_t hh=0; hh<12;hh++){  
         for (Int_t kk=0; kk<4;kk++){  
           if ( tofoutput_.tofmask[hh][kk] != 0 ){  
             pmt_id = this->GetPMTid(kk,hh);  
             t_tof->pmttdc.AddAt(pmt_id,t_tof->npmttdc);  
             t_tof->tdcflag.AddAt(tofoutput_.tdcflagtof[hh][kk],t_tof->npmttdc); // gf: Jan 09/07  
             t_tof->npmttdc++;  
           };  
         };  
       };  
       for (Int_t kk=0; kk<13;kk++){  
         t_tof->beta[kk] = tofoutput_.betatof_a[kk];  
       }  
       //  
       t_tof->npmtadc = 0;  
       for (Int_t hh=0; hh<12;hh++){  
         for (Int_t kk=0; kk<4;kk++){  
           if ( tofoutput_.adctof_c[hh][kk] < 1000 ){  
             t_tof->dedx.AddAt(tofoutput_.adctof_c[hh][kk],t_tof->npmtadc);  
             pmt_id = this->GetPMTid(kk,hh);  
             t_tof->pmtadc.AddAt(pmt_id,t_tof->npmtadc);  
             t_tof->adcflag.AddAt(tofoutput_.adcflagtof[hh][kk],t_tof->npmtadc); // gf: Jan 09/07  
             t_tof->npmtadc++;  
           };  
         };  
       };  
       //  
       memcpy(t_tof->xtofpos,tofoutput_.xtofpos,sizeof(t_tof->xtofpos));  
       memcpy(t_tof->ytofpos,tofoutput_.ytofpos,sizeof(t_tof->ytofpos));  
       memcpy(t_tof->xtr_tof,tofoutput_.xtr_tof,sizeof(t_tof->xtr_tof));  
       memcpy(t_tof->ytr_tof,tofoutput_.ytr_tof,sizeof(t_tof->ytr_tof));  
       //  
       new(t[ntrkentry]) ToFTrkVar(*t_tof);  
       ntrkentry++;  
       t_tof->Clear();  
       //  
       //  
       //  
       t_pmt->Clear();  
       //  
       for (Int_t hh=0; hh<12;hh++){  
         for (Int_t kk=0; kk<4;kk++){  
          // new WM  
           if ( tofoutput_.tdc_c[hh][kk] < 4095 || adc[kk][hh] < 4095  || tdc[kk][hh] < 4095 ){  
 //          if ( tdcc[kk][hh] < 4095. || adc[kk][hh] < 4095  || tdc[kk][hh] < 4095 ){  
             //  
             t_pmt->pmt_id = this->GetPMTid(kk,hh);  
             t_pmt->tdc_tw = tofoutput_.tdc_c[hh][kk];  
             t_pmt->adc = (Float_t)adc[kk][hh];  
             t_pmt->tdc = (Float_t)tdc[kk][hh];  
             //  
             new(tpmt[npmtentry]) ToFPMT(*t_pmt);  
             npmtentry++;  
             t_pmt->Clear();  
           };  
         };  
       };  
       //  
       // Calculate track-related variables  
       //  
       if ( trk->ntrk() > 0 ){  
         //  
         // We have at least one track  
         //  
         //  
         // Run over tracks  
         //  
         for(Int_t nt=0; nt < trk->ntrk(); nt++){  
           //  
           TrkTrack *ptt = trk->GetStoredTrack(nt);  
           //  
           // Copy the alpha vector in the input structure  
           //  
           for (Int_t e = 0; e < 5 ; e++){  
             tofinput_.al_pp[e] = ptt->al[e];  
           };  
           //  
           // Get tracker related variables for this track  
           //  
           toftrk();  
           //  
           // Copy values in the class from the structure (we need to use a temporary class to store variables).  
           //  
           t_tof->npmttdc = 0;  
           for (Int_t hh=0; hh<12;hh++){  
             for (Int_t kk=0; kk<4;kk++){  
               if ( tofoutput_.tofmask[hh][kk] != 0 ){  
                 pmt_id = this->GetPMTid(kk,hh);  
                 t_tof->pmttdc.AddAt(pmt_id,t_tof->npmttdc);  
                 t_tof->tdcflag.AddAt(tofoutput_.tdcflag[hh][kk],t_tof->npmttdc); // gf: Jan 09/07  
                 t_tof->npmttdc++;  
               };  
             };  
           };  
           for (Int_t kk=0; kk<13;kk++){  
             t_tof->beta[kk] = tofoutput_.beta_a[kk];  
           };  
           //  
           t_tof->npmtadc = 0;  
           for (Int_t hh=0; hh<12;hh++){  
             for (Int_t kk=0; kk<4;kk++){  
               if ( tofoutput_.adc_c[hh][kk] < 1000 ){  
                 t_tof->dedx.AddAt(tofoutput_.adc_c[hh][kk],t_tof->npmtadc);  
                 pmt_id = this->GetPMTid(kk,hh);  
                 t_tof->pmtadc.AddAt(pmt_id,t_tof->npmtadc);  
                 t_tof->adcflag.AddAt(tofoutput_.adcflag[hh][kk],t_tof->npmtadc); // gf: Jan 09/07  
                 t_tof->npmtadc++;  
               };  
             };  
           };  
           //  
           memcpy(t_tof->xtofpos,tofoutput_.xtofpos,sizeof(t_tof->xtofpos));  
           memcpy(t_tof->ytofpos,tofoutput_.ytofpos,sizeof(t_tof->ytofpos));  
           memcpy(t_tof->xtr_tof,tofoutput_.xtr_tof,sizeof(t_tof->xtr_tof));  
           memcpy(t_tof->ytr_tof,tofoutput_.ytr_tof,sizeof(t_tof->ytr_tof));  
           //  
           // Store the tracker track number in order to be sure to have shyncronized data during analysis  
           //  
           t_tof->trkseqno = nt;  
           //  
           // create a new object for this event with track-related variables  
           //  
           new(t[ntrkentry]) ToFTrkVar(*t_tof);  
           ntrkentry++;  
           t_tof->Clear();  
           //  
         }; // loop on all the tracks  
       //  
       this->unpackError = unpackError;  
       if ( defcal ){  
         this->default_calib = 1;  
       } else {  
         this->default_calib = 0;  
       };  
  };  
2209    
2210    //------------------------------------------------------------------------
2211    double ToFdEdx::f_BB( TArrayF &p, float x )
2212    {
2213      return  p[0]/(x*x)*(log(x*x/(1-x*x)) - p[1]*x*x - p[2]);
2214    }
2215    
2216    //------------------------------------------------------------------------
2217    double ToFdEdx::f_BB5B( float x )
2218    {
2219      return  0.165797/(x*x)*(log(x*x/(1-x*x)) + 140.481*x*x + 52.9258);
2220    }
2221    //------------------------------------------------------------------------
2222    double ToFdEdx::f_desatBB( TArrayF &p, float x )
2223    {
2224      return
2225        p[0] +
2226        p[1]*x +
2227        p[2]*x*x;
2228    }
2229    
2230    return(0);  //------------------------------------------------------------------------
2231    double ToFdEdx::f_desatBB5B( float x )
2232    {
2233      return
2234        -2.4 +
2235        0.75*x +
2236        0.009*x*x;
2237  }  }
2238    

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