CalorimeterLevel2/src/calol2tr.for

*****************************************************************************
      INTEGER FUNCTION CALOL2TR()
c
      IMPLICIT NONE
C
      INCLUDE 'INTEST.TXT'
C
      DOUBLE PRECISION al_p(5),
     &     xout(npla),yout(npla),zin(npla)
C
      REAL PIANO(22), VARFIT(2)
      REAL TX, TY, SHIFT
      REAL BAR(2,NPLA), DISTY
      REAL DISTX, Y(NPLA), YY(NPLA)
      REAL RIG, PPLANEMAX, RMASS
      REAL RNSS, QTOTT, RQT, MX, MY
      REAL CHECK, ENER, CX, CY
      REAL EINF, ESUP, RPIANO(2)
      REAL hmemor(9000000), X01PL
C
      REAL ax,bx,eax,ebx,chi2x
      REAL ay,by,eay,eby,chi2y
      REAL parzen3, TMISD
      INTEGER Nfitx,Nfity
C
      INTEGER INDEX, NTOT(2), NPIANI, GTR
      INTEGER j, m, i, IWPL(2), timpx, timpy, T, nn
      INTEGER IPLANE, NNX, NNY, INFX, INFY, ISUPX, ISUPY
      INTEGER IBAR(2,NPLA), NPFIT(2), CHTRACK,IWPLU
      INTEGER Iquest(100), ICONTROL5, nin, IFAIL
C
      PARAMETER (X01PL=0.74)
C

C
      COMMON / slftrig / tmisd,ax,bx,eax,ebx,chi2x,Nfitx,ay,by,eay,eby,
     &     chi2y,Nfity,parzen3
      SAVE / slftrig /
C
      COMMON / TAGLIOEN / EINF, ESUP, ENER(2)
      SAVE / TAGLIOEN /
C
      COMMON / SHIFT / SHIFT
      SAVE / SHIFT /
C
      COMMON / ANGOLO / BAR, IBAR
      SAVE / ANGOLO /
C
      COMMON / WHERE / CX, CY, PIANO
      SAVE / WHERE /
C
      COMMON / GENERAL / RIG, RMASS
      SAVE / GENERAL /
C
      COMMON / CH / CHECK
      SAVE / CH /
C
      COMMON / CALOFIT / VARFIT, NPFIT, IWPL,CHTRACK
      SAVE / CALOFIT /
C
      COMMON / pawcd / hmemor
      save / pawcd /
C
      Common / QUESTd / Iquest
      save / questd /
C
C Begin !
C
      CALOL2TR = 0;
      NCORE = 0.
      QCORE = 0.
      NOINT = 0.
      QCYL = 0.
      NCYL = 0.      
      QLOW = 0.
      NLOW = 0.
      QTR = 0.
      NTR = 0.
      QLAST = 0.
      QTRACK = 0.
      QPRESH = 0.
      NPRESH = 0.
      QTRACKX = 0.
      QTRACKY = 0.
      DXTRACK = 0.
      DYTRACK = 0.
      QPRE = 0.
      NPRE = 0.     
      NLAST = 0.
      PLANETOT = 0.
      QMEAN = 0.
C      SELFTRIGGER = 0
C
C     BEGIN WITH THE FISRT TRACK IF WE HAVE A TRACK FROM TRACKER
C
      T = 1
C
 10   CONTINUE
C
      IF (GOOD2.EQ.1) THEN 
C     
         CHTRACK = 0
C
         CALL VZERO(IWPL,2)
         CALL VZERO(BAR,2*NPLA)
         CALL VZERO(IBAR,2*NPLA)
         CALL VZERO(TBAR,2*NPLA)
         CALL VZERO(TIBAR,2*NPLA)
         CALL VZERO(Y,NPLA)
         CALL VZERO(YY,NPLA)
         CALL VZERO(XOUT,NPLA)
         CALL VZERO(YOUT,NPLA)
         do m = 1, 5
            al_p(m) = al_pp(t,m)
         enddo
         if (al_p(5).eq.0.) THEN
       PRINT *,' CALORIMETER - WARNING F77: track with R = 0, discarded'
            GOOD2 = 0
            GOTO 969
         ENDIF
         DO M = 1,2
            DO I = 1,NPLA     
               XOUT(I) = 0.
               YOUT(I) = 0.
               IF (MOD(M,2).EQ.0) THEN
                  DISTX = PIANO(I) + ZALIG 
               ELSE
                  DISTX = PIANO(I) - 5.81 + ZALIG 
               ENDIF               
               ZIN(I) = distx / 10.
               TBAR(M,I) = 0.
               TIBAR(M,I) = 0
            enddo
            IFAIL = 0
            call DOTRACK(NPLA,ZIN,XOUT,YOUT,AL_P,IFAIL)
            if(IFAIL.ne.0)then
               GOOD2 = 0
c               print *,' CALORIMETER - WARNING F77: tracking failed '
               goto 969
            endif
            TX = TAN(ASIN(AL_P(3))) * COS(AL_P(4))
            TY = TAN(ASIN(AL_P(3))) * SIN(AL_P(4))
            DO I = 1, NPLA
               NN = 0
               IF (M.EQ.2) NN = 1
               IF (MOD(I,2).EQ.NN) THEN
                  SHIFT = +0.5
               ELSE
                  SHIFT = -0.5
               ENDIF
C     
C     CHECK IF XOUT OR YOUT ARE NaN
C     
               IF (XOUT(I).NE.XOUT(I).OR.YOUT(I).NE.YOUT(I)) THEN
c                  print *,
c     &         ' CALORIMETER - WARNING F77: tracking error (NaN values)'                  
                  GOOD2 = 0
                  GOTO 969
               ENDIF
C
               CX = XOUT(I)*10. + XALIG 
               CY = YOUT(I)*10. + YALIG 
C     
               IF (I.EQ.1) THEN
                  TIMPX = CX
                  TIMPY = CY
               ENDIF
               IF (M.EQ.1) THEN
                  Y(I) = CX
                  BAR(M,I) = Y(I)     
                  TBAR(M,I) = (Y(I) - XALIG)/10.
                  IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
               ELSE
                  YY(I) = CY 
                  BAR(M,I) = YY(I)                   
                  TBAR(M,I) = (-YALIG + YY(I))/10.    
                  IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
               ENDIF
               CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
               tibar(M,I) = ibar(m,i)
               IF (ibar(m,i).EQ.-1) THEN 
                  CHTRACK = CHTRACK + 1
               ELSE
                  IWPL(M) = IWPL(M) + 1
               ENDIF
            ENDDO
         ENDDO 
 969     continue
cC
cC     IF WE HAVE A GOOD CALORIMETER FIT DOES IT MATCH WITH TRACKER FIT?
cC
c         IF (GOOD2.EQ.1.AND.NPFIT(2).GT.15.AND.VARFIT(2).LT.1000
c     &        .AND.TRKCHI2.EQ.1) THEN
c            IF (ABS(TBAR(2,1)-CBAR(2,1))<40.) THEN   
cC     
cC     GOOD, THE TWO TRACKS COINCIDE
cC     
c               IF (T.EQ.2) TRKCHI2 = 2
c               GOTO 6996
c            ELSE
cC
cC     IT IS NOT A GOOD FIT BUT WE HAVE AN IMAGE AND IT IS THE FIRST TRACK
cC
c               IF (T.EQ.1) THEN
c                  T = 2
c                  GOTO 10
c               ENDIF
c               IF (T.EQ.2) THEN
c                  TRKCHI2 = -1
c                  T = 1
c                  GOTO 10
c               ENDIF
c            ENDIF
c         ENDIF
C
         IF (GOOD2.EQ.0) THEN
c            IF (T.EQ.1.AND.TRKCHI2.EQ.1) THEN
c               GOOD2 = 1
c               T = 2
c               GOTO 10
c            ENDIF
            GOTO 50
         ENDIF         
C
         GOTO 6996
C
      ENDIF      
C         
C     WE MUST PROCESS A SELFTRIGGER EVENT
C
      IF (TRIGTY.GE.2.AND.HZN.EQ.0) THEN
C
C     CALL SELFTRIGGER SUBROUTINE
C
         CALL VZERO(IWPL,2)
         CALL VZERO(VARCFIT,2)
         CALL VZERO(NPCFIT,2)
         CALL VZERO(TBAR,2*NPLA)
         CALL VZERO(TIBAR,2*NPLA)
         CALL VZERO(BAR,2*NPLA)
         CALL VZERO(IBAR,2*NPLA)
         CALL VZERO(Y,NPLA)
         CALL VZERO(YY,NPLA)
         CALL VZERO(XOUT,NPLA)
         CALL VZERO(YOUT,NPLA)
C
         CALL SELFTRIG()
         ELEN = PARZEN3
         SELEN = ABS(ELEN) * (11.98*1E-2 + 7.6 * EXP(-5736/ABS(ELEN)))
C
         NPCFIT(1) = NFITX
         NPCFIT(2) = NFITY
C     
         DO M = 1,2
C
c            print *,' ax ',ax,' ay ',ay
c            print *,' bx ',bx,' by ',by
            IF (NPCFIT(M).GE.2) THEN
               IF (M.EQ.1) THEN
                  VARCFIT(1) = CHI2X
                  IMPX = AX ! PAMELA REF
                  TANX = BX
               ELSE
                  VARCFIT(2) = CHI2Y
                  IMPY = AY ! PAMELA REF
                  TANY = BY
               ENDIF
C
               DO I = 1,NPLA     
                  NN = 0
                  IF (M.EQ.2) NN = 1
                  IF (MOD(I,2).EQ.NN) THEN
                     SHIFT = +0.5
                  ELSE
                     SHIFT = -0.5
                  ENDIF
C     
                  IF (M.EQ.1) THEN
                     DISTX = PIANO(I) - 5.81
                     Y(I) = (DISTX * TANX) +  AX - XALIG
c                     CBAR(M,I) = Y(I)
                     BAR(M,I) = Y(I)
                     CBAR(M,I) = (Y(I) + XALIG)/10. 
                     IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
C     
                  ELSE
                     DISTY = PIANO(I)                
                     YY(I) = (DISTY * TANY) + AY - YALIG
c                     CBAR(M,I) = YY(I)
                     BAR(M,I) = YY(I)
                     CBAR(M,I) = (YY(I) + YALIG)/10. 
                     IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
C     
                  ENDIF
                  CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
                  cibar(M,I) = ibar(m,i)
                  IF (ibar(m,i).EQ.-1) THEN 
                     CHTRACK = CHTRACK + 1
                  ELSE
                     IWPL(M) = IWPL(M) + 1
                  ENDIF
               ENDDO            
            ENDIF
C
         ENDDO
C
      ENDIF
C
      IF (TRIGTY.GE.2.AND.HZN.NE.0) THEN
         IF (GOOD2.EQ.1) THEN
            PRINT *,' CALORIMETER - WARNING F77: unknown request'
            GOOD2 = 1
            GOTO 50
         ENDIF
         IF ( NPCFIT(1).EQ.0.OR.NPCFIT(2).EQ.0 ) THEN
            GOOD2 = 1
            GOTO 50
         ENDIF
      ENDIF
C
 6996 CONTINUE
C
      DX0L = 0.
C
C IF THE TRACK IS OUTSIDE THE CALORIMETER GO OUT, IF NOT CALCULATE DX0L
C
      IF (CHTRACK.EQ.44) THEN  ! CHTRACK is the number of planes not touched by the track
         GOOD2 = 0
c         PRINT *,' CALORIMETER - WARNING F77: track outside calorimeter'
         GOTO 50
      ELSE
         IF ( IWPL(1).LE.IWPL(2) ) THEN
            IWPLU = IWPL(1) 
         ELSE
            IWPLU = IWPL(2)
         ENDIF
C
         DX0L = IWPLU * SQRT((BAR(2,1)-(2.66*MY+BAR(2,1)))**2 
     &      + (BAR(1,1)-(2.66*MX+BAR(1,1)))**2 + 2.66**2) /
     &      3.6  
C
      ENDIF
C
C
C     RIG IS RIGIDITY AS DETERMINED BY THE TRACKER
C     OR by CALORIMETER IF IN SELFTRIGGER MODE
C
      IF (GOOD2.EQ.1) THEN
         GTR = 1
         IF (TRKCHI2.LT.0) GTR = 2
         IF ( AL_PP(GTR,5).NE.0. ) THEN
            RIG = 1./(AL_PP(GTR,5))
         ELSE
            GOOD2 = 0
            PRINT *,' CALORIMETER - WARNING F77: track with R = 0'
            GOTO 50
         ENDIF
      ENDIF
      IF (TRIGTY.GE.2.AND.HZN.EQ.0.AND.GOOD2.EQ.0) THEN
         RIG = ELEN ! SELFTRIGGER RIGIDITY
         IF ( RIG.EQ.0. ) THEN
            GOOD2 = 1
            PRINT *,' CALORIMETER - WARNING F77: ST track with R = 0'
            GOTO 50
         ENDIF
      ENDIF
C
      IF (GOOD2.EQ.0.AND.(TRIGTY.LT.2.OR.HZN.EQ.1)) THEN
         RIG = RIGINPUT
      ENDIF
C
      RNSS = 0.
      QTOTT = 0.
C
      PPLANEMAX = 1.01*(LOG(ABS(RIG)/0.0081)-1.)
C
      IPLANE = INT(ANINT(PPLANEMAX)) + 5
C
      IF (IPLANE.GT.NPLA) IPLANE=NPLA
      IF (IPLANE.LT.1) IPLANE = 1
C
C     CALCULATE QLOW AND NLOW
C
      DO J = IPLANE,NPLA
         DO I = 1,NCHA
            IF (DEXY(1,J,I).GE.EMIN) THEN
               NLOW = NLOW + 1
               QLOW = QLOW + DEXY(1,J,I)
            ENDIF  
            IF (DEXY(2,J,I).GE.EMIN) THEN
               NLOW = NLOW + 1
               QLOW = QLOW + DEXY(2,J,I)
            ENDIF
         ENDDO
      ENDDO
C
C     CALCULATE QCORE AND NCORE
C
C     
C     8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
C     
      DO J = 1,IPLANE
         NNX = IBAR(1,J)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.9) NNX = 9
            IF (NNX.GT.88) NNX = 88
            INFX = NNX - 8
            ISUPX = NNX + 8
            DO I = INFX,ISUPX
               IF (DEXY(1,J,I).GE.EMIN) THEN
                  RNSS = RNSS + 1
                  QTOTT = QTOTT + DEXY(1,J,I)
               ENDIF
            ENDDO
         ENDIF
C
         NNY = IBAR(2,J)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.9) NNY = 9
            IF (NNY.GT.88) NNY = 88
            INFY = NNY - 8
            ISUPY = NNY + 8
            DO I = INFY,ISUPY
               IF (DEXY(2,J,I).GE.EMIN) THEN
                  RNSS = RNSS + 1
                  QTOTT = QTOTT + DEXY(2,J,I)
               ENDIF
            ENDDO
         ENDIF
         NCORE = RNSS * FLOAT(J) + NCORE
         QCORE = QTOTT * FLOAT(J) + QCORE
      ENDDO
C
C     CALCULATE NOINT
C
      CALL NOINTER(NIN) 
      NOINT = FLOAT(NIN)
C
C
C     QCYL = DETECTED ENERGY AND NCYL = NUMBER OF HIT STRIPS IN A CYLINDER oF
C     RADIUS 8.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
C     PARTICLE .
C     
C     8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
C     
      DO J = 1,NPLA
         NNX = IBAR(1,J)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.9) NNX = 9
            IF (NNX.GT.88) NNX = 88
            INFX = NNX - 8
            ISUPX = NNX + 8
            DO I = INFX,ISUPX
               IF (DEXY(1,J,I).LT.EMIN) GO TO 710
               NCYL = NCYL + 1
               QCYL = QCYL + DEXY(1,J,I)
 710        ENDDO
         ENDIF
         NNY = IBAR(2,J)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.9) NNY = 9
            IF (NNY.GT.88) NNY = 88
            INFY = NNY - 8
            ISUPY = NNY + 8
            DO I=INFY,ISUPY
               IF (DEXY(2,J,I).LT.EMIN) GO TO 810
               NCYL = NCYL + 1
               QCYL = QCYL + DEXY(2,J,I)
 810        ENDDO
         ENDIF
C     
C     QTR = DETECTED ENERGY AND NTR = NUMBER OF HIT STRIPS IN A CYLINDER oF
C     RADIUS 4.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
C     PARTICLE .
C     
         NNX = IBAR(1,J)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.5) NNX = 5
            IF (NNX.GT.92) NNX = 92
            INFX = NNX - 4
            ISUPX = NNX + 4
            DO I = INFX,ISUPX
               IF (DEXY(1,J,I).GT.EMIN) THEN
                  NTR = NTR + 1
                  QTR = QTR + DEXY(1,J,I)
               ENDIF
            ENDDO
         ENDIF
C
         NNY = IBAR(2,J)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.5) NNY = 5
            IF (NNY.GT.92) NNY = 92
            INFY = NNY - 4
            ISUPY = NNY + 4
            DO I = INFY, ISUPY
               IF (DEXY(2,J,I).GT.EMIN) THEN
                  NTR = NTR + 1
                  QTR = QTR + DEXY(2,J,I)
               ENDIF
            ENDDO
         ENDIF
      ENDDO
C
C     CALCULATE QTRACK
C
      CALL LATERALE(QTRACK,RQT)

C
C     CALCULATE NPRESH AND QPRESH
C
      DO I = 1,4
         NNX = IBAR(1,I)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.3) NNX = 3
            IF (NNX.GT.94) NNX = 94
            INFX = NNX - 2
            ISUPX = NNX + 2
            DO J = INFX,ISUPX
               IF (DEXY(1,I,J).GE.EMIN) THEN
                  NPRESH = NPRESH + 1
                  QPRESH = QPRESH + DEXY(1,I,J)
               ENDIF
            ENDDO
         ENDIF
C
         NNY = IBAR(2,I)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.3) NNY = 3
            IF (NNY.GT.94) NNY = 94
            INFY = NNY - 2
            ISUPY = NNY + 2
            DO J = INFY,ISUPY
               IF (DEXY(2,I,J).GE.EMIN) THEN
                  NPRESH = NPRESH + 1
                  QPRESH = QPRESH + DEXY(2,I,J)
               ENDIF
            ENDDO
         ENDIF
      ENDDO
C     
C     CALCULATE DXTRACK, DYTRACK, QTRACKX AND QTRACKY
C      
      ICONTROL5 = 0
      CALL NSHOWER(ICONTROL5,DXTRACK,DYTRACK,QTRACKX,QTRACKY)
C
C     CALCULATE QPRE AND NPRE
C
      DO J = 1,3
         NNX = IBAR(1,J)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.9) NNX = 9
            IF (NNX.GT.88) NNX = 88
            INFX = NNX - 8
            ISUPX = NNX + 8
            DO I = INFX,ISUPX
               IF (DEXY(1,J,I).GE.EMIN) THEN
                  NPRE = NPRE + 1
                  QPRE = QPRE + DEXY(1,J,I)
               ENDIF
            ENDDO
         ENDIF
C
         NNY = IBAR(2,J)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.9) NNY = 9
            IF (NNY.GT.88) NNY = 88
            INFY = NNY - 8
            ISUPY = NNY + 8
            DO I=INFY,ISUPY
               IF (DEXY(2,J,I).GE.EMIN) THEN
                  NPRE = NPRE + 1
                  QPRE = QPRE + DEXY(2,J,I)
               ENDIF
            ENDDO
         ENDIF
      ENDDO
C     
C     CALCULATE NLAST AND QLAST
C
      DO J = NPLA-4,NPLA
         NNX = IBAR(1,J)
         IF (NNX.NE.-1) THEN
            IF (NNX.LT.5) NNX = 5
            IF (NNX.GT.92) NNX = 92
c            IF (NNX.LT.9) NNX = 9
c            IF (NNX.GT.88) NNX = 88
            INFX = NNX - 4
            ISUPX = NNX + 4
c            INFX = NNX - 8
c            ISUPX = NNX + 8
            DO I = INFX,ISUPX
               IF (DEXY(1,J,I).GE.EMIN) THEN
                  NLAST = NLAST + 1
                  QLAST = QLAST + DEXY(1,J,I)
               ENDIF
            ENDDO
         ENDIF
C
         NNY = IBAR(2,J)
         IF (NNY.NE.-1) THEN
            IF (NNY.LT.5) NNY = 5
            IF (NNY.GT.92) NNY = 92
c            IF (NNY.LT.9) NNY = 9
c            IF (NNY.GT.88) NNY = 88
            INFY = NNY - 4
            ISUPY = NNY + 4
c            INFY = NNY - 8
c            ISUPY = NNY + 8
            DO I=INFY,ISUPY
               IF (DEXY(2,J,I).GE.EMIN) THEN
                  NLAST = NLAST + 1
                  QLAST = QLAST + DEXY(2,J,I)
               ENDIF
            ENDDO
         ENDIF
      ENDDO
C
C
C     CALCULATE PLANETOT AND QMEAN
C
      DO M = 1,2
        RPIANO(M) = 0.
        NTOT(M) = 0
      ENDDO
      NPIANI = 5
      QMEAN = 0.
      INDEX = 0
C
      IF (TRIGTY.GE.2.AND.HZN.NE.0) THEN
         EINF = 50.
         ESUP = 15000.
         CALL NUCLEI(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
         PLANETOT = RPIANO(1) + RPIANO(2)  
      ELSE
         EINF = EMIN
         ESUP = 15000.
         CALL ELIO(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
         PLANETOT = RPIANO(1) + RPIANO(2)  
      ENDIF
C
 50   CONTINUE
C
      RETURN
      END


1	*****************************************************************************
2	INTEGER FUNCTION CALOL2TR()
3	c
4	IMPLICIT NONE
5	C
6	INCLUDE 'INTEST.TXT'
7	C
8	DOUBLE PRECISION al_p(5),
9	& xout(npla),yout(npla),zin(npla)
10	C
11	REAL PIANO(22), VARFIT(2)
12	REAL TX, TY, SHIFT
13	REAL BAR(2,NPLA), DISTY
14	REAL DISTX, Y(NPLA), YY(NPLA)
15	REAL RIG, PPLANEMAX, RMASS
16	REAL RNSS, QTOTT, RQT, MX, MY
17	REAL CHECK, ENER, CX, CY
18	REAL EINF, ESUP, RPIANO(2)
19	REAL hmemor(9000000), X01PL
20	C
21	REAL ax,bx,eax,ebx,chi2x
22	REAL ay,by,eay,eby,chi2y
23	REAL parzen3, TMISD
24	INTEGER Nfitx,Nfity
25	C
26	INTEGER INDEX, NTOT(2), NPIANI, GTR
27	INTEGER j, m, i, IWPL(2), timpx, timpy, T, nn
28	INTEGER IPLANE, NNX, NNY, INFX, INFY, ISUPX, ISUPY
29	INTEGER IBAR(2,NPLA), NPFIT(2), CHTRACK,IWPLU
30	INTEGER Iquest(100), ICONTROL5, nin, IFAIL
31	C
32	PARAMETER (X01PL=0.74)
33	C
34
35	C
36	COMMON / slftrig / tmisd,ax,bx,eax,ebx,chi2x,Nfitx,ay,by,eay,eby,
37	& chi2y,Nfity,parzen3
38	SAVE / slftrig /
39	C
40	COMMON / TAGLIOEN / EINF, ESUP, ENER(2)
41	SAVE / TAGLIOEN /
42	C
43	COMMON / SHIFT / SHIFT
44	SAVE / SHIFT /
45	C
46	COMMON / ANGOLO / BAR, IBAR
47	SAVE / ANGOLO /
48	C
49	COMMON / WHERE / CX, CY, PIANO
50	SAVE / WHERE /
51	C
52	COMMON / GENERAL / RIG, RMASS
53	SAVE / GENERAL /
54	C
55	COMMON / CH / CHECK
56	SAVE / CH /
57	C
58	COMMON / CALOFIT / VARFIT, NPFIT, IWPL,CHTRACK
59	SAVE / CALOFIT /
60	C
61	COMMON / pawcd / hmemor
62	save / pawcd /
63	C
64	Common / QUESTd / Iquest
65	save / questd /
66	C
67	C Begin !
68	C
69	CALOL2TR = 0;
70	NCORE = 0.
71	QCORE = 0.
72	NOINT = 0.
73	QCYL = 0.
74	NCYL = 0.
75	QLOW = 0.
76	NLOW = 0.
77	QTR = 0.
78	NTR = 0.
79	QLAST = 0.
80	QTRACK = 0.
81	QPRESH = 0.
82	NPRESH = 0.
83	QTRACKX = 0.
84	QTRACKY = 0.
85	DXTRACK = 0.
86	DYTRACK = 0.
87	QPRE = 0.
88	NPRE = 0.
89	NLAST = 0.
90	PLANETOT = 0.
91	QMEAN = 0.
92	C SELFTRIGGER = 0
93	C
94	C BEGIN WITH THE FISRT TRACK IF WE HAVE A TRACK FROM TRACKER
95	C
96	T = 1
97	C
98	10 CONTINUE
99	C
100	IF (GOOD2.EQ.1) THEN
101	C
102	CHTRACK = 0
103	C
104	CALL VZERO(IWPL,2)
105	CALL VZERO(BAR,2*NPLA)
106	CALL VZERO(IBAR,2*NPLA)
107	CALL VZERO(TBAR,2*NPLA)
108	CALL VZERO(TIBAR,2*NPLA)
109	CALL VZERO(Y,NPLA)
110	CALL VZERO(YY,NPLA)
111	CALL VZERO(XOUT,NPLA)
112	CALL VZERO(YOUT,NPLA)
113	do m = 1, 5
114	al_p(m) = al_pp(t,m)
115	enddo
116	if (al_p(5).eq.0.) THEN
117	PRINT *,' CALORIMETER - WARNING F77: track with R = 0, discarded'
118	GOOD2 = 0
119	GOTO 969
120	ENDIF
121	DO M = 1,2
122	DO I = 1,NPLA
123	XOUT(I) = 0.
124	YOUT(I) = 0.
125	IF (MOD(M,2).EQ.0) THEN
126	DISTX = PIANO(I) + ZALIG
127	ELSE
128	DISTX = PIANO(I) - 5.81 + ZALIG
129	ENDIF
130	ZIN(I) = distx / 10.
131	TBAR(M,I) = 0.
132	TIBAR(M,I) = 0
133	enddo
134	IFAIL = 0
135	call DOTRACK(NPLA,ZIN,XOUT,YOUT,AL_P,IFAIL)
136	if(IFAIL.ne.0)then
137	GOOD2 = 0
138	c print *,' CALORIMETER - WARNING F77: tracking failed '
139	goto 969
140	endif
141	TX = TAN(ASIN(AL_P(3))) * COS(AL_P(4))
142	TY = TAN(ASIN(AL_P(3))) * SIN(AL_P(4))
143	DO I = 1, NPLA
144	NN = 0
145	IF (M.EQ.2) NN = 1
146	IF (MOD(I,2).EQ.NN) THEN
147	SHIFT = +0.5
148	ELSE
149	SHIFT = -0.5
150	ENDIF
151	C
152	C CHECK IF XOUT OR YOUT ARE NaN
153	C
154	IF (XOUT(I).NE.XOUT(I).OR.YOUT(I).NE.YOUT(I)) THEN
155	c print *,
156	c & ' CALORIMETER - WARNING F77: tracking error (NaN values)'
157	GOOD2 = 0
158	GOTO 969
159	ENDIF
160	C
161	CX = XOUT(I)*10. + XALIG
162	CY = YOUT(I)*10. + YALIG
163	C
164	IF (I.EQ.1) THEN
165	TIMPX = CX
166	TIMPY = CY
167	ENDIF
168	IF (M.EQ.1) THEN
169	Y(I) = CX
170	BAR(M,I) = Y(I)
171	TBAR(M,I) = (Y(I) - XALIG)/10.
172	IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
173	ELSE
174	YY(I) = CY
175	BAR(M,I) = YY(I)
176	TBAR(M,I) = (-YALIG + YY(I))/10.
177	IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
178	ENDIF
179	CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
180	tibar(M,I) = ibar(m,i)
181	IF (ibar(m,i).EQ.-1) THEN
182	CHTRACK = CHTRACK + 1
183	ELSE
184	IWPL(M) = IWPL(M) + 1
185	ENDIF
186	ENDDO
187	ENDDO
188	969 continue
189	cC
190	cC IF WE HAVE A GOOD CALORIMETER FIT DOES IT MATCH WITH TRACKER FIT?
191	cC
192	c IF (GOOD2.EQ.1.AND.NPFIT(2).GT.15.AND.VARFIT(2).LT.1000
193	c & .AND.TRKCHI2.EQ.1) THEN
194	c IF (ABS(TBAR(2,1)-CBAR(2,1))<40.) THEN
195	cC
196	cC GOOD, THE TWO TRACKS COINCIDE
197	cC
198	c IF (T.EQ.2) TRKCHI2 = 2
199	c GOTO 6996
200	c ELSE
201	cC
202	cC IT IS NOT A GOOD FIT BUT WE HAVE AN IMAGE AND IT IS THE FIRST TRACK
203	cC
204	c IF (T.EQ.1) THEN
205	c T = 2
206	c GOTO 10
207	c ENDIF
208	c IF (T.EQ.2) THEN
209	c TRKCHI2 = -1
210	c T = 1
211	c GOTO 10
212	c ENDIF
213	c ENDIF
214	c ENDIF
215	C
216	IF (GOOD2.EQ.0) THEN
217	c IF (T.EQ.1.AND.TRKCHI2.EQ.1) THEN
218	c GOOD2 = 1
219	c T = 2
220	c GOTO 10
221	c ENDIF
222	GOTO 50
223	ENDIF
224	C
225	GOTO 6996
226	C
227	ENDIF
228	C
229	C WE MUST PROCESS A SELFTRIGGER EVENT
230	C
231	IF (TRIGTY.GE.2.AND.HZN.EQ.0) THEN
232	C
233	C CALL SELFTRIGGER SUBROUTINE
234	C
235	CALL VZERO(IWPL,2)
236	CALL VZERO(VARCFIT,2)
237	CALL VZERO(NPCFIT,2)
238	CALL VZERO(TBAR,2*NPLA)
239	CALL VZERO(TIBAR,2*NPLA)
240	CALL VZERO(BAR,2*NPLA)
241	CALL VZERO(IBAR,2*NPLA)
242	CALL VZERO(Y,NPLA)
243	CALL VZERO(YY,NPLA)
244	CALL VZERO(XOUT,NPLA)
245	CALL VZERO(YOUT,NPLA)
246	C
247	CALL SELFTRIG()
248	ELEN = PARZEN3
249	SELEN = ABS(ELEN) * (11.981E-2 + 7.6 EXP(-5736/ABS(ELEN)))
250	C
251	NPCFIT(1) = NFITX
252	NPCFIT(2) = NFITY
253	C
254	DO M = 1,2
255	C
256	c print *,' ax ',ax,' ay ',ay
257	c print *,' bx ',bx,' by ',by
258	IF (NPCFIT(M).GE.2) THEN
259	IF (M.EQ.1) THEN
260	VARCFIT(1) = CHI2X
261	IMPX = AX ! PAMELA REF
262	TANX = BX
263	ELSE
264	VARCFIT(2) = CHI2Y
265	IMPY = AY ! PAMELA REF
266	TANY = BY
267	ENDIF
268	C
269	DO I = 1,NPLA
270	NN = 0
271	IF (M.EQ.2) NN = 1
272	IF (MOD(I,2).EQ.NN) THEN
273	SHIFT = +0.5
274	ELSE
275	SHIFT = -0.5
276	ENDIF
277	C
278	IF (M.EQ.1) THEN
279	DISTX = PIANO(I) - 5.81
280	Y(I) = (DISTX * TANX) + AX - XALIG
281	c CBAR(M,I) = Y(I)
282	BAR(M,I) = Y(I)
283	CBAR(M,I) = (Y(I) + XALIG)/10.
284	IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
285	C
286	ELSE
287	DISTY = PIANO(I)
288	YY(I) = (DISTY * TANY) + AY - YALIG
289	c CBAR(M,I) = YY(I)
290	BAR(M,I) = YY(I)
291	CBAR(M,I) = (YY(I) + YALIG)/10.
292	IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
293	C
294	ENDIF
295	CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
296	cibar(M,I) = ibar(m,i)
297	IF (ibar(m,i).EQ.-1) THEN
298	CHTRACK = CHTRACK + 1
299	ELSE
300	IWPL(M) = IWPL(M) + 1
301	ENDIF
302	ENDDO
303	ENDIF
304	C
305	ENDDO
306	C
307	ENDIF
308	C
309	IF (TRIGTY.GE.2.AND.HZN.NE.0) THEN
310	IF (GOOD2.EQ.1) THEN
311	PRINT *,' CALORIMETER - WARNING F77: unknown request'
312	GOOD2 = 1
313	GOTO 50
314	ENDIF
315	IF ( NPCFIT(1).EQ.0.OR.NPCFIT(2).EQ.0 ) THEN
316	GOOD2 = 1
317	GOTO 50
318	ENDIF
319	ENDIF
320	C
321	6996 CONTINUE
322	C
323	DX0L = 0.
324	C
325	C IF THE TRACK IS OUTSIDE THE CALORIMETER GO OUT, IF NOT CALCULATE DX0L
326	C
327	IF (CHTRACK.EQ.44) THEN ! CHTRACK is the number of planes not touched by the track
328	GOOD2 = 0
329	c PRINT *,' CALORIMETER - WARNING F77: track outside calorimeter'
330	GOTO 50
331	ELSE
332	IF ( IWPL(1).LE.IWPL(2) ) THEN
333	IWPLU = IWPL(1)
334	ELSE
335	IWPLU = IWPL(2)
336	ENDIF
337	C
338	DX0L = IWPLU * SQRT((BAR(2,1)-(2.66MY+BAR(2,1)))*2
339	& + (BAR(1,1)-(2.66MX+BAR(1,1)))2 + 2.66*2) /
340	& 3.6
341	C
342	ENDIF
343	C
344	C
345	C RIG IS RIGIDITY AS DETERMINED BY THE TRACKER
346	C OR by CALORIMETER IF IN SELFTRIGGER MODE
347	C
348	IF (GOOD2.EQ.1) THEN
349	GTR = 1
350	IF (TRKCHI2.LT.0) GTR = 2
351	IF ( AL_PP(GTR,5).NE.0. ) THEN
352	RIG = 1./(AL_PP(GTR,5))
353	ELSE
354	GOOD2 = 0
355	PRINT *,' CALORIMETER - WARNING F77: track with R = 0'
356	GOTO 50
357	ENDIF
358	ENDIF
359	IF (TRIGTY.GE.2.AND.HZN.EQ.0.AND.GOOD2.EQ.0) THEN
360	RIG = ELEN ! SELFTRIGGER RIGIDITY
361	IF ( RIG.EQ.0. ) THEN
362	GOOD2 = 1
363	PRINT *,' CALORIMETER - WARNING F77: ST track with R = 0'
364	GOTO 50
365	ENDIF
366	ENDIF
367	C
368	IF (GOOD2.EQ.0.AND.(TRIGTY.LT.2.OR.HZN.EQ.1)) THEN
369	RIG = RIGINPUT
370	ENDIF
371	C
372	RNSS = 0.
373	QTOTT = 0.
374	C
375	PPLANEMAX = 1.01*(LOG(ABS(RIG)/0.0081)-1.)
376	C
377	IPLANE = INT(ANINT(PPLANEMAX)) + 5
378	C
379	IF (IPLANE.GT.NPLA) IPLANE=NPLA
380	IF (IPLANE.LT.1) IPLANE = 1
381	C
382	C CALCULATE QLOW AND NLOW
383	C
384	DO J = IPLANE,NPLA
385	DO I = 1,NCHA
386	IF (DEXY(1,J,I).GE.EMIN) THEN
387	NLOW = NLOW + 1
388	QLOW = QLOW + DEXY(1,J,I)
389	ENDIF
390	IF (DEXY(2,J,I).GE.EMIN) THEN
391	NLOW = NLOW + 1
392	QLOW = QLOW + DEXY(2,J,I)
393	ENDIF
394	ENDDO
395	ENDDO
396	C
397	C CALCULATE QCORE AND NCORE
398	C
399	C
400	C 8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
401	C
402	DO J = 1,IPLANE
403	NNX = IBAR(1,J)
404	IF (NNX.NE.-1) THEN
405	IF (NNX.LT.9) NNX = 9
406	IF (NNX.GT.88) NNX = 88
407	INFX = NNX - 8
408	ISUPX = NNX + 8
409	DO I = INFX,ISUPX
410	IF (DEXY(1,J,I).GE.EMIN) THEN
411	RNSS = RNSS + 1
412	QTOTT = QTOTT + DEXY(1,J,I)
413	ENDIF
414	ENDDO
415	ENDIF
416	C
417	NNY = IBAR(2,J)
418	IF (NNY.NE.-1) THEN
419	IF (NNY.LT.9) NNY = 9
420	IF (NNY.GT.88) NNY = 88
421	INFY = NNY - 8
422	ISUPY = NNY + 8
423	DO I = INFY,ISUPY
424	IF (DEXY(2,J,I).GE.EMIN) THEN
425	RNSS = RNSS + 1
426	QTOTT = QTOTT + DEXY(2,J,I)
427	ENDIF
428	ENDDO
429	ENDIF
430	NCORE = RNSS * FLOAT(J) + NCORE
431	QCORE = QTOTT * FLOAT(J) + QCORE
432	ENDDO
433	C
434	C CALCULATE NOINT
435	C
436	CALL NOINTER(NIN)
437	NOINT = FLOAT(NIN)
438	C
439	C
440	C QCYL = DETECTED ENERGY AND NCYL = NUMBER OF HIT STRIPS IN A CYLINDER oF
441	C RADIUS 8.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
442	C PARTICLE .
443	C
444	C 8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
445	C
446	DO J = 1,NPLA
447	NNX = IBAR(1,J)
448	IF (NNX.NE.-1) THEN
449	IF (NNX.LT.9) NNX = 9
450	IF (NNX.GT.88) NNX = 88
451	INFX = NNX - 8
452	ISUPX = NNX + 8
453	DO I = INFX,ISUPX
454	IF (DEXY(1,J,I).LT.EMIN) GO TO 710
455	NCYL = NCYL + 1
456	QCYL = QCYL + DEXY(1,J,I)
457	710 ENDDO
458	ENDIF
459	NNY = IBAR(2,J)
460	IF (NNY.NE.-1) THEN
461	IF (NNY.LT.9) NNY = 9
462	IF (NNY.GT.88) NNY = 88
463	INFY = NNY - 8
464	ISUPY = NNY + 8
465	DO I=INFY,ISUPY
466	IF (DEXY(2,J,I).LT.EMIN) GO TO 810
467	NCYL = NCYL + 1
468	QCYL = QCYL + DEXY(2,J,I)
469	810 ENDDO
470	ENDIF
471	C
472	C QTR = DETECTED ENERGY AND NTR = NUMBER OF HIT STRIPS IN A CYLINDER oF
473	C RADIUS 4.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
474	C PARTICLE .
475	C
476	NNX = IBAR(1,J)
477	IF (NNX.NE.-1) THEN
478	IF (NNX.LT.5) NNX = 5
479	IF (NNX.GT.92) NNX = 92
480	INFX = NNX - 4
481	ISUPX = NNX + 4
482	DO I = INFX,ISUPX
483	IF (DEXY(1,J,I).GT.EMIN) THEN
484	NTR = NTR + 1
485	QTR = QTR + DEXY(1,J,I)
486	ENDIF
487	ENDDO
488	ENDIF
489	C
490	NNY = IBAR(2,J)
491	IF (NNY.NE.-1) THEN
492	IF (NNY.LT.5) NNY = 5
493	IF (NNY.GT.92) NNY = 92
494	INFY = NNY - 4
495	ISUPY = NNY + 4
496	DO I = INFY, ISUPY
497	IF (DEXY(2,J,I).GT.EMIN) THEN
498	NTR = NTR + 1
499	QTR = QTR + DEXY(2,J,I)
500	ENDIF
501	ENDDO
502	ENDIF
503	ENDDO
504	C
505	C CALCULATE QTRACK
506	C
507	CALL LATERALE(QTRACK,RQT)
508
509	C
510	C CALCULATE NPRESH AND QPRESH
511	C
512	DO I = 1,4
513	NNX = IBAR(1,I)
514	IF (NNX.NE.-1) THEN
515	IF (NNX.LT.3) NNX = 3
516	IF (NNX.GT.94) NNX = 94
517	INFX = NNX - 2
518	ISUPX = NNX + 2
519	DO J = INFX,ISUPX
520	IF (DEXY(1,I,J).GE.EMIN) THEN
521	NPRESH = NPRESH + 1
522	QPRESH = QPRESH + DEXY(1,I,J)
523	ENDIF
524	ENDDO
525	ENDIF
526	C
527	NNY = IBAR(2,I)
528	IF (NNY.NE.-1) THEN
529	IF (NNY.LT.3) NNY = 3
530	IF (NNY.GT.94) NNY = 94
531	INFY = NNY - 2
532	ISUPY = NNY + 2
533	DO J = INFY,ISUPY
534	IF (DEXY(2,I,J).GE.EMIN) THEN
535	NPRESH = NPRESH + 1
536	QPRESH = QPRESH + DEXY(2,I,J)
537	ENDIF
538	ENDDO
539	ENDIF
540	ENDDO
541	C
542	C CALCULATE DXTRACK, DYTRACK, QTRACKX AND QTRACKY
543	C
544	ICONTROL5 = 0
545	CALL NSHOWER(ICONTROL5,DXTRACK,DYTRACK,QTRACKX,QTRACKY)
546	C
547	C CALCULATE QPRE AND NPRE
548	C
549	DO J = 1,3
550	NNX = IBAR(1,J)
551	IF (NNX.NE.-1) THEN
552	IF (NNX.LT.9) NNX = 9
553	IF (NNX.GT.88) NNX = 88
554	INFX = NNX - 8
555	ISUPX = NNX + 8
556	DO I = INFX,ISUPX
557	IF (DEXY(1,J,I).GE.EMIN) THEN
558	NPRE = NPRE + 1
559	QPRE = QPRE + DEXY(1,J,I)
560	ENDIF
561	ENDDO
562	ENDIF
563	C
564	NNY = IBAR(2,J)
565	IF (NNY.NE.-1) THEN
566	IF (NNY.LT.9) NNY = 9
567	IF (NNY.GT.88) NNY = 88
568	INFY = NNY - 8
569	ISUPY = NNY + 8
570	DO I=INFY,ISUPY
571	IF (DEXY(2,J,I).GE.EMIN) THEN
572	NPRE = NPRE + 1
573	QPRE = QPRE + DEXY(2,J,I)
574	ENDIF
575	ENDDO
576	ENDIF
577	ENDDO
578	C
579	C CALCULATE NLAST AND QLAST
580	C
581	DO J = NPLA-4,NPLA
582	NNX = IBAR(1,J)
583	IF (NNX.NE.-1) THEN
584	IF (NNX.LT.5) NNX = 5
585	IF (NNX.GT.92) NNX = 92
586	c IF (NNX.LT.9) NNX = 9
587	c IF (NNX.GT.88) NNX = 88
588	INFX = NNX - 4
589	ISUPX = NNX + 4
590	c INFX = NNX - 8
591	c ISUPX = NNX + 8
592	DO I = INFX,ISUPX
593	IF (DEXY(1,J,I).GE.EMIN) THEN
594	NLAST = NLAST + 1
595	QLAST = QLAST + DEXY(1,J,I)
596	ENDIF
597	ENDDO
598	ENDIF
599	C
600	NNY = IBAR(2,J)
601	IF (NNY.NE.-1) THEN
602	IF (NNY.LT.5) NNY = 5
603	IF (NNY.GT.92) NNY = 92
604	c IF (NNY.LT.9) NNY = 9
605	c IF (NNY.GT.88) NNY = 88
606	INFY = NNY - 4
607	ISUPY = NNY + 4
608	c INFY = NNY - 8
609	c ISUPY = NNY + 8
610	DO I=INFY,ISUPY
611	IF (DEXY(2,J,I).GE.EMIN) THEN
612	NLAST = NLAST + 1
613	QLAST = QLAST + DEXY(2,J,I)
614	ENDIF
615	ENDDO
616	ENDIF
617	ENDDO
618	C
619	C
620	C CALCULATE PLANETOT AND QMEAN
621	C
622	DO M = 1,2
623	RPIANO(M) = 0.
624	NTOT(M) = 0
625	ENDDO
626	NPIANI = 5
627	QMEAN = 0.
628	INDEX = 0
629	C
630	IF (TRIGTY.GE.2.AND.HZN.NE.0) THEN
631	EINF = 50.
632	ESUP = 15000.
633	CALL NUCLEI(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
634	PLANETOT = RPIANO(1) + RPIANO(2)
635	ELSE
636	EINF = EMIN
637	ESUP = 15000.
638	CALL ELIO(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
639	PLANETOT = RPIANO(1) + RPIANO(2)
640	ENDIF
641	C
642	50 CONTINUE
643	C
644	RETURN
645	END
646
647