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
      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.
      SELFTRIGGER = 0
      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(IBAR,2*NPLA)
      CALL VZERO(Y,NPLA)
      CALL VZERO(YY,NPLA)
      CALL VZERO(XOUT,NPLA)
      CALL VZERO(YOUT,NPLA)
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)
         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) THEN
C
C     CALL SELFTRIGGER SUBROUTINE
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
            IF (NPCFIT(M).GE.2) THEN
               IF (M.EQ.1) THEN
                  VARCFIT(1) = CHI2X
                  IMPX = 10. * ( AX + 12.1 )
                  TANX = BX
               ELSE
                  VARCFIT(2) = CHI2Y
                  IMPY = 10. * ( AY + 12.2 )
                  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 + CX
                     BAR(M,I) = Y(I)
                     CBAR(M,I) = Y(I)         
                     IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
C     
                  ELSE
                     DISTY = PIANO(I)                
                     YY(I) = DISTY * TANY + CY
                     BAR(M,I) = YY(I)
                     CBAR(M,I) = YY(I)
                     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)
               ENDDO            
            ENDIF
C
         ENDDO
C
      ELSE
         IF (GOOD2.EQ.0) THEN
            PRINT *,' CALORIMETER - WARNING F77: unknown request'
            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 
         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
C         DX0L = X01PL * SQRT( (IWPL(1) * SQRT(1 + MX*MX))**2 +
C     &                        (IWPL(2) * SQRT(1 + MY*MY))**2 )/2.
      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.GOOD2.EQ.0) THEN
         RIG = ELEN ! SELFTRIGGER RIGIDITY
         IF ( RIG.EQ.0. ) THEN
            GOOD2 = 0
            PRINT *,' CALORIMETER - WARNING F77: ST track with R = 0'
            GOTO 50
         ENDIF
      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
      EINF = EMIN
      ESUP = 50.
C
C     CALCULATE PLANETOT AND QMEAN
C
      DO M = 1,2
        RPIANO(M) = 0.
        NTOT(M) = 0
      ENDDO
      NPIANI = 5
      QMEAN = 0.
      INDEX = 0
      CALL ELIO(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
      PLANETOT = RPIANO(1) + RPIANO(2)  
C
 50   CONTINUE
C
      RETURN
      END


1	mocchiut	1.1	*****************************************************************************
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
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			SELFTRIGGER = 0
93			CALL VZERO(VARCFIT,2)
94			CALL VZERO(NPCFIT,2)
95			CALL VZERO(TBAR,2*NPLA)
96			CALL VZERO(TIBAR,2*NPLA)
97			CALL VZERO(BAR,2*NPLA)
98			CALL VZERO(IBAR,2*NPLA)
99			CALL VZERO(IBAR,2*NPLA)
100			CALL VZERO(Y,NPLA)
101			CALL VZERO(YY,NPLA)
102			CALL VZERO(XOUT,NPLA)
103			CALL VZERO(YOUT,NPLA)
104			C
105			C BEGIN WITH THE FISRT TRACK IF WE HAVE A TRACK FROM TRACKER
106			C
107			T = 1
108			C
109			10 CONTINUE
110			C
111			IF (GOOD2.EQ.1) THEN
112			C
113			CHTRACK = 0
114			C
115			CALL VZERO(IWPL,2)
116			CALL VZERO(BAR,2*NPLA)
117			CALL VZERO(IBAR,2*NPLA)
118			CALL VZERO(TBAR,2*NPLA)
119			CALL VZERO(TIBAR,2*NPLA)
120			do m = 1, 5
121			al_p(m) = al_pp(t,m)
122			enddo
123			if (al_p(5).eq.0.) THEN
124	mocchiut	1.4	PRINT *,' CALORIMETER - WARNING F77: track with R = 0, discarded'
125	mocchiut	1.1	GOOD2 = 0
126			GOTO 969
127			ENDIF
128			DO M = 1,2
129			DO I = 1,NPLA
130			XOUT(I) = 0.
131			YOUT(I) = 0.
132			IF (MOD(M,2).EQ.0) THEN
133			DISTX = PIANO(I) + ZALIG
134			ELSE
135			DISTX = PIANO(I) - 5.81 + ZALIG
136			ENDIF
137			ZIN(I) = distx / 10.
138			TBAR(M,I) = 0.
139			TIBAR(M,I) = 0
140			enddo
141			IFAIL = 0
142			call DOTRACK(NPLA,ZIN,XOUT,YOUT,AL_P,IFAIL)
143			if(IFAIL.ne.0)then
144			GOOD2 = 0
145	mocchiut	1.3	c print *,' CALORIMETER - WARNING F77: tracking failed '
146	mocchiut	1.1	goto 969
147			endif
148			TX = TAN(ASIN(AL_P(3))) * COS(AL_P(4))
149			TY = TAN(ASIN(AL_P(3))) * SIN(AL_P(4))
150			DO I = 1, NPLA
151			NN = 0
152			IF (M.EQ.2) NN = 1
153			IF (MOD(I,2).EQ.NN) THEN
154			SHIFT = +0.5
155			ELSE
156			SHIFT = -0.5
157			ENDIF
158			C
159			C CHECK IF XOUT OR YOUT ARE NaN
160			C
161			IF (XOUT(I).NE.XOUT(I).OR.YOUT(I).NE.YOUT(I)) THEN
162	mocchiut	1.3	c print *,
163			c & ' CALORIMETER - WARNING F77: tracking error (NaN values)'
164	mocchiut	1.1	GOOD2 = 0
165			GOTO 969
166			ENDIF
167			C
168			CX = XOUT(I)*10. + XALIG
169	mocchiut	1.5	CY = YOUT(I)*10. + YALIG
170	mocchiut	1.1	C
171			IF (I.EQ.1) THEN
172			TIMPX = CX
173			TIMPY = CY
174			ENDIF
175			IF (M.EQ.1) THEN
176			Y(I) = CX
177			BAR(M,I) = Y(I)
178			TBAR(M,I) = (Y(I) - XALIG)/10.
179			IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
180			ELSE
181			YY(I) = CY
182			BAR(M,I) = YY(I)
183	mocchiut	1.5	TBAR(M,I) = (-YALIG + YY(I))/10.
184	mocchiut	1.1	IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
185			ENDIF
186			CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
187			tibar(M,I) = ibar(m,i)
188			IF (ibar(m,i).EQ.-1) THEN
189			CHTRACK = CHTRACK + 1
190			ELSE
191			IWPL(M) = IWPL(M) + 1
192			ENDIF
193			ENDDO
194			ENDDO
195			969 continue
196			cC
197			cC IF WE HAVE A GOOD CALORIMETER FIT DOES IT MATCH WITH TRACKER FIT?
198			cC
199			c IF (GOOD2.EQ.1.AND.NPFIT(2).GT.15.AND.VARFIT(2).LT.1000
200			c & .AND.TRKCHI2.EQ.1) THEN
201			c IF (ABS(TBAR(2,1)-CBAR(2,1))<40.) THEN
202			cC
203			cC GOOD, THE TWO TRACKS COINCIDE
204			cC
205			c IF (T.EQ.2) TRKCHI2 = 2
206			c GOTO 6996
207			c ELSE
208			cC
209			cC IT IS NOT A GOOD FIT BUT WE HAVE AN IMAGE AND IT IS THE FIRST TRACK
210			cC
211			c IF (T.EQ.1) THEN
212			c T = 2
213			c GOTO 10
214			c ENDIF
215			c IF (T.EQ.2) THEN
216			c TRKCHI2 = -1
217			c T = 1
218			c GOTO 10
219			c ENDIF
220			c ENDIF
221			c ENDIF
222			C
223			IF (GOOD2.EQ.0) THEN
224			c IF (T.EQ.1.AND.TRKCHI2.EQ.1) THEN
225			c GOOD2 = 1
226			c T = 2
227			c GOTO 10
228			c ENDIF
229			GOTO 50
230			ENDIF
231			C
232			GOTO 6996
233			C
234			ENDIF
235			C
236			C WE MUST PROCESS A SELFTRIGGER EVENT
237			C
238			IF (TRIGTY.GE.2) THEN
239			C
240			C CALL SELFTRIGGER SUBROUTINE
241			C
242			CALL SELFTRIG()
243			ELEN = PARZEN3
244			SELEN = ABS(ELEN) * (11.981E-2 + 7.6 EXP(-5736/ABS(ELEN)))
245			C
246			NPCFIT(1) = NFITX
247			NPCFIT(2) = NFITY
248			C
249			DO M = 1,2
250			C
251			IF (NPCFIT(M).GE.2) THEN
252			IF (M.EQ.1) THEN
253			VARCFIT(1) = CHI2X
254			IMPX = 10. * ( AX + 12.1 )
255			TANX = BX
256			ELSE
257			VARCFIT(2) = CHI2Y
258			IMPY = 10. * ( AY + 12.2 )
259			TANY = BY
260			ENDIF
261			C
262			DO I = 1,NPLA
263			NN = 0
264			IF (M.EQ.2) NN = 1
265			IF (MOD(I,2).EQ.NN) THEN
266			SHIFT = +0.5
267			ELSE
268			SHIFT = -0.5
269			ENDIF
270			C
271			IF (M.EQ.1) THEN
272			DISTX = PIANO(I) - 5.81
273			Y(I) = DISTX * TANX + CX
274			BAR(M,I) = Y(I)
275			CBAR(M,I) = Y(I)
276			IF (I.EQ.22) MX=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
277			C
278			ELSE
279			DISTY = PIANO(I)
280			YY(I) = DISTY * TANY + CY
281			BAR(M,I) = YY(I)
282			CBAR(M,I) = YY(I)
283			IF (I.EQ.22) MY=ABS(Y(1)-Y(22))/ABS(ZIN(1)-ZIN(22))
284			C
285			ENDIF
286			CALL LASTRISCIA(BAR(M,I),IBAR(M,I))
287			cibar(M,I) = ibar(m,i)
288			ENDDO
289			ENDIF
290			C
291			ENDDO
292			C
293			ELSE
294			IF (GOOD2.EQ.0) THEN
295			PRINT *,' CALORIMETER - WARNING F77: unknown request'
296			GOOD2 = 1
297			GOTO 50
298			ENDIF
299			ENDIF
300			C
301			6996 CONTINUE
302			C
303			DX0L = 0.
304			C
305			C IF THE TRACK IS OUTSIDE THE CALORIMETER GO OUT, IF NOT CALCULATE DX0L
306			C
307			IF (CHTRACK.EQ.44) THEN
308			GOOD2 = 0
309	mocchiut	1.3	c PRINT *,' CALORIMETER - WARNING F77: track outside calorimeter'
310	mocchiut	1.1	GOTO 50
311			ELSE
312			IF ( IWPL(1).LE.IWPL(2) ) THEN
313			IWPLU = IWPL(1)
314			ELSE
315			IWPLU = IWPL(2)
316			ENDIF
317			C
318			DX0L = IWPLU * SQRT((BAR(2,1)-(2.66MY+BAR(2,1)))*2
319			& + (BAR(1,1)-(2.66MX+BAR(1,1)))2 + 2.66*2) /
320			& 3.6
321			C
322			C DX0L = X01PL * SQRT( (IWPL(1) * SQRT(1 + MXMX))*2 +
323			C & (IWPL(2) * SQRT(1 + MYMY))*2 )/2.
324			ENDIF
325			C
326			C
327			C RIG IS RIGIDITY AS DETERMINED BY THE TRACKER
328			C OR by CALORIMETER IF IN SELFTRIGGER MODE
329			C
330			IF (GOOD2.EQ.1) THEN
331			GTR = 1
332			IF (TRKCHI2.LT.0) GTR = 2
333			IF ( AL_PP(GTR,5).NE.0. ) THEN
334			RIG = 1./(AL_PP(GTR,5))
335			ELSE
336			GOOD2 = 0
337			PRINT *,' CALORIMETER - WARNING F77: track with R = 0'
338			GOTO 50
339			ENDIF
340			ENDIF
341			IF (TRIGTY.GE.2.AND.GOOD2.EQ.0) THEN
342			RIG = ELEN ! SELFTRIGGER RIGIDITY
343			IF ( RIG.EQ.0. ) THEN
344			GOOD2 = 0
345			PRINT *,' CALORIMETER - WARNING F77: ST track with R = 0'
346			GOTO 50
347			ENDIF
348			ENDIF
349			C
350			RNSS = 0.
351			QTOTT = 0.
352			C
353			PPLANEMAX = 1.01*(LOG(ABS(RIG)/0.0081)-1.)
354			C
355			IPLANE = INT(ANINT(PPLANEMAX)) + 5
356			C
357			IF (IPLANE.GT.NPLA) IPLANE=NPLA
358			IF (IPLANE.LT.1) IPLANE = 1
359			C
360			C CALCULATE QLOW AND NLOW
361			C
362			DO J = IPLANE,NPLA
363			DO I = 1,NCHA
364			IF (DEXY(1,J,I).GE.EMIN) THEN
365			NLOW = NLOW + 1
366			QLOW = QLOW + DEXY(1,J,I)
367			ENDIF
368			IF (DEXY(2,J,I).GE.EMIN) THEN
369			NLOW = NLOW + 1
370			QLOW = QLOW + DEXY(2,J,I)
371			ENDIF
372			ENDDO
373			ENDDO
374			C
375			C CALCULATE QCORE AND NCORE
376			C
377			C
378			C 8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
379			C
380			DO J = 1,IPLANE
381			NNX = IBAR(1,J)
382			IF (NNX.NE.-1) THEN
383			IF (NNX.LT.9) NNX = 9
384			IF (NNX.GT.88) NNX = 88
385			INFX = NNX - 8
386			ISUPX = NNX + 8
387			DO I = INFX,ISUPX
388			IF (DEXY(1,J,I).GE.EMIN) THEN
389			RNSS = RNSS + 1
390			QTOTT = QTOTT + DEXY(1,J,I)
391			ENDIF
392			ENDDO
393			ENDIF
394			C
395			NNY = IBAR(2,J)
396			IF (NNY.NE.-1) THEN
397			IF (NNY.LT.9) NNY = 9
398			IF (NNY.GT.88) NNY = 88
399			INFY = NNY - 8
400			ISUPY = NNY + 8
401			DO I = INFY,ISUPY
402			IF (DEXY(2,J,I).GE.EMIN) THEN
403			RNSS = RNSS + 1
404			QTOTT = QTOTT + DEXY(2,J,I)
405			ENDIF
406			ENDDO
407			ENDIF
408			NCORE = RNSS * FLOAT(J) + NCORE
409			QCORE = QTOTT * FLOAT(J) + QCORE
410			ENDDO
411			C
412			C CALCULATE NOINT
413			C
414			CALL NOINTER(NIN)
415			NOINT = FLOAT(NIN)
416			C
417			C
418			C QCYL = DETECTED ENERGY AND NCYL = NUMBER OF HIT STRIPS IN A CYLINDER oF
419			C RADIUS 8.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
420			C PARTICLE .
421			C
422			C 8 STRIPS ARE 2.88 cm , A MOLIERE RADIUS IS ABOUT 0.7 cm .
423			C
424			DO J = 1,NPLA
425			NNX = IBAR(1,J)
426			IF (NNX.NE.-1) THEN
427			IF (NNX.LT.9) NNX = 9
428			IF (NNX.GT.88) NNX = 88
429			INFX = NNX - 8
430			ISUPX = NNX + 8
431			DO I = INFX,ISUPX
432			IF (DEXY(1,J,I).LT.EMIN) GO TO 710
433			NCYL = NCYL + 1
434			QCYL = QCYL + DEXY(1,J,I)
435			710 ENDDO
436			ENDIF
437			NNY = IBAR(2,J)
438			IF (NNY.NE.-1) THEN
439			IF (NNY.LT.9) NNY = 9
440			IF (NNY.GT.88) NNY = 88
441			INFY = NNY - 8
442			ISUPY = NNY + 8
443			DO I=INFY,ISUPY
444			IF (DEXY(2,J,I).LT.EMIN) GO TO 810
445			NCYL = NCYL + 1
446			QCYL = QCYL + DEXY(2,J,I)
447			810 ENDDO
448			ENDIF
449			C
450			C QTR = DETECTED ENERGY AND NTR = NUMBER OF HIT STRIPS IN A CYLINDER oF
451			C RADIUS 4.5 STRIPS WITH AXIS DEFINED BY THE DIRECTION OF THE INCOMING
452			C PARTICLE .
453			C
454			NNX = IBAR(1,J)
455			IF (NNX.NE.-1) THEN
456			IF (NNX.LT.5) NNX = 5
457			IF (NNX.GT.92) NNX = 92
458			INFX = NNX - 4
459			ISUPX = NNX + 4
460			DO I = INFX,ISUPX
461			IF (DEXY(1,J,I).GT.EMIN) THEN
462			NTR = NTR + 1
463			QTR = QTR + DEXY(1,J,I)
464			ENDIF
465			ENDDO
466			ENDIF
467			C
468			NNY = IBAR(2,J)
469			IF (NNY.NE.-1) THEN
470			IF (NNY.LT.5) NNY = 5
471			IF (NNY.GT.92) NNY = 92
472			INFY = NNY - 4
473			ISUPY = NNY + 4
474			DO I = INFY, ISUPY
475			IF (DEXY(2,J,I).GT.EMIN) THEN
476			NTR = NTR + 1
477			QTR = QTR + DEXY(2,J,I)
478			ENDIF
479			ENDDO
480			ENDIF
481			ENDDO
482			C
483			C CALCULATE QTRACK
484			C
485			CALL LATERALE(QTRACK,RQT)
486
487			C
488			C CALCULATE NPRESH AND QPRESH
489			C
490			DO I = 1,4
491			NNX = IBAR(1,I)
492			IF (NNX.NE.-1) THEN
493			IF (NNX.LT.3) NNX = 3
494			IF (NNX.GT.94) NNX = 94
495			INFX = NNX - 2
496			ISUPX = NNX + 2
497			DO J = INFX,ISUPX
498			IF (DEXY(1,I,J).GE.EMIN) THEN
499			NPRESH = NPRESH + 1
500			QPRESH = QPRESH + DEXY(1,I,J)
501			ENDIF
502			ENDDO
503			ENDIF
504			C
505			NNY = IBAR(2,I)
506			IF (NNY.NE.-1) THEN
507			IF (NNY.LT.3) NNY = 3
508			IF (NNY.GT.94) NNY = 94
509			INFY = NNY - 2
510			ISUPY = NNY + 2
511			DO J = INFY,ISUPY
512			IF (DEXY(2,I,J).GE.EMIN) THEN
513			NPRESH = NPRESH + 1
514			QPRESH = QPRESH + DEXY(2,I,J)
515			ENDIF
516			ENDDO
517			ENDIF
518			ENDDO
519			C
520			C CALCULATE DXTRACK, DYTRACK, QTRACKX AND QTRACKY
521			C
522			ICONTROL5 = 0
523			CALL NSHOWER(ICONTROL5,DXTRACK,DYTRACK,QTRACKX,QTRACKY)
524			C
525			C CALCULATE QPRE AND NPRE
526			C
527			DO J = 1,3
528			NNX = IBAR(1,J)
529			IF (NNX.NE.-1) THEN
530			IF (NNX.LT.9) NNX = 9
531			IF (NNX.GT.88) NNX = 88
532			INFX = NNX - 8
533			ISUPX = NNX + 8
534			DO I = INFX,ISUPX
535			IF (DEXY(1,J,I).GE.EMIN) THEN
536			NPRE = NPRE + 1
537			QPRE = QPRE + DEXY(1,J,I)
538			ENDIF
539			ENDDO
540			ENDIF
541			C
542			NNY = IBAR(2,J)
543			IF (NNY.NE.-1) THEN
544			IF (NNY.LT.9) NNY = 9
545			IF (NNY.GT.88) NNY = 88
546			INFY = NNY - 8
547			ISUPY = NNY + 8
548			DO I=INFY,ISUPY
549			IF (DEXY(2,J,I).GE.EMIN) THEN
550			NPRE = NPRE + 1
551			QPRE = QPRE + DEXY(2,J,I)
552			ENDIF
553			ENDDO
554			ENDIF
555			ENDDO
556			C
557			C CALCULATE NLAST AND QLAST
558			C
559			DO J = NPLA-4,NPLA
560			NNX = IBAR(1,J)
561			IF (NNX.NE.-1) THEN
562	mocchiut	1.2	IF (NNX.LT.5) NNX = 5
563			IF (NNX.GT.92) NNX = 92
564			c IF (NNX.LT.9) NNX = 9
565			c IF (NNX.GT.88) NNX = 88
566			INFX = NNX - 4
567			ISUPX = NNX + 4
568			c INFX = NNX - 8
569			c ISUPX = NNX + 8
570	mocchiut	1.1	DO I = INFX,ISUPX
571			IF (DEXY(1,J,I).GE.EMIN) THEN
572			NLAST = NLAST + 1
573			QLAST = QLAST + DEXY(1,J,I)
574			ENDIF
575			ENDDO
576			ENDIF
577			C
578			NNY = IBAR(2,J)
579			IF (NNY.NE.-1) THEN
580	mocchiut	1.2	IF (NNY.LT.5) NNY = 5
581			IF (NNY.GT.92) NNY = 92
582			c IF (NNY.LT.9) NNY = 9
583			c IF (NNY.GT.88) NNY = 88
584			INFY = NNY - 4
585			ISUPY = NNY + 4
586			c INFY = NNY - 8
587			c ISUPY = NNY + 8
588	mocchiut	1.1	DO I=INFY,ISUPY
589			IF (DEXY(2,J,I).GE.EMIN) THEN
590			NLAST = NLAST + 1
591			QLAST = QLAST + DEXY(2,J,I)
592			ENDIF
593			ENDDO
594			ENDIF
595			ENDDO
596			C
597			EINF = EMIN
598			ESUP = 50.
599			C
600			C CALCULATE PLANETOT AND QMEAN
601			C
602			DO M = 1,2
603			RPIANO(M) = 0.
604			NTOT(M) = 0
605			ENDDO
606			NPIANI = 5
607			QMEAN = 0.
608			INDEX = 0
609			CALL ELIO(RPIANO,NPIANI,QMEAN,NTOT,INDEX)
610			PLANETOT = RPIANO(1) + RPIANO(2)
611			C
612			50 CONTINUE
613			C
614			RETURN
615			END
616
617