CalorimeterLevel2/src/nshower.for

      SUBROUTINE NSHOWER(IERR,RNUMX,RNUMY,ENERGIAX,ENERGIAY)
C----------------------------------------------------------------------
C-
C-   Purpose and Methods : IT IDENTIFIES ELECTROMAGNETIC SHOWERS USING :
C-   CENTER OF GRAVITY IN THE FIRST HALF - SECOND HALF OF THE CALORIMETER .
C-   RNUMX AND RNUMY (X AND Y VIEW) ARE THE DISTANCES IN mm OF THE CLUSTERS
C-   CLOSEST TO THE TRACK NORMALIZED TO THE TRACK .  
C-   ENERGIAX AND ENERGIAY ARE THE ENERGY OF THESE CLUSTERS .
C-   THE CENTERS OF GRAVITY AND THE CLUSTERS COME FROM THE ROUTINE CLUSTER2 .
C-
C-   Inputs  :
C-   Outputs :
C-   Controls:
C-
C-   Created   3-NOV-1993   MIRKO BOEZIO
C-
C----------------------------------------------------------------------
      INCLUDE 'INTEST.TXT'
C
      INTEGER LK(2)
      INTEGER IBAR(2,NPLAV)
      INTEGER ITL
      REAL RX(2),RY(2)
      REAL RIL(NCHA/2)
      REAL BAR(2,NPLAV)
      REAL TG(2)
      REAL DAD
      COMMON / VARIE / MAX
      SAVE / VARIE /
      COMMON / INIZIO / INPIA
      SAVE / INIZIO /
      COMMON / IMPULSO / QUAMOT
      SAVE / IMPULSO /
      COMMON / DOVE / NX, NY, LUNGH
      SAVE / DOVE /
      COMMON / TANGENTI / TG
      SAVE / TANGENTI /
      COMMON / ANGOLO / BAR, IBAR
      SAVE / ANGOLO /
C
      LPIANO = NPLA / 2 
c
      CALL CLUSTER2
C
      ITL = 0
      IALFA = 0
  499 CONTINUE
C
      DO I = 1,NCHA/2
        RIL(I) = 1000.
      ENDDO
C
      RX(1) = 0.
      RX(2) = 0.
      RY(1) = 0.
      RY(2) = 0.      
C
      DO M = 1,2
        DO J = 1,2
C
          DO I = 1,NCHA/2
            RIL(I) = 1000.
          ENDDO
C
          LK(J) = 0
C
          IF (J.EQ.1) ITL = (LPIANO + 1) / 2
          IF (J.EQ.2) ITL = (NPLA + LPIANO + 1) / 2
C
          DAD = BAR(M,ITL) 
C
C     EM
C       
          IF (DAD.LT.-6..OR.DAD.GT.246.) GOTO 555 
C
C     END EM
C   
          NGIR = NCL2(M,J)
          IF (NGIR.EQ.0) GO TO 555
          DO L = 1,NGIR
            RIL(L) = ABS(DAD - CLUS2(M,J,L))
          ENDDO
          MM = NCHA/2
          LK(J) = LVMIN(RIL,MM)
C
          IF (CLUS2(M,J,LK(J)+NCHA/2).GT.EMIN) THEN
            IF (M.EQ.1) THEN
              ENERGIAX = ENERGIAX + CLUS2(M,J,LK(J)+NCHA/2)
              RX(J) = CLUS2(M,J,LK(J)) - DAD
            ENDIF
            IF (M.EQ.2) THEN
              ENERGIAY = ENERGIAY + CLUS2(M,J,LK(J)+NCHA/2)
              RY(J) = CLUS2(M,J,LK(J)) - DAD
            ENDIF
          ENDIF
C
  555     CONTINUE
        ENDDO
C
        IF (M.EQ.1) RNUMX = ABS( RX(2) - RX(1) ) 
        IF (M.EQ.2) RNUMY = ABS( RY(2) - RY(1) ) 
C
      ENDDO
C
      ESOGLIATOT = 50.
      EINT = 10.
C
      IF (ENERGIAX.EQ.0.OR.ENERGIAY.EQ.0) THEN
        II = 1
      ENDIF
C
      EINF = ENERGIAX - EINT
      ESUP = ENERGIAX + EINT
      ETOT = ENERGIAX + ENERGIAY
C
      IF (ENERGIAY.LT.EINF.OR.ENERGIAY.GT.ESUP.OR.
     &    ETOT.LT.ESOGLIATOT) GO TO 2
C
      GO TO 10
C
    2 IERR = 1
C
   10 CONTINUE

      RETURN
      END
1	SUBROUTINE NSHOWER(IERR,RNUMX,RNUMY,ENERGIAX,ENERGIAY)
2	C----------------------------------------------------------------------
3	C-
4	C- Purpose and Methods : IT IDENTIFIES ELECTROMAGNETIC SHOWERS USING :
5	C- CENTER OF GRAVITY IN THE FIRST HALF - SECOND HALF OF THE CALORIMETER .
6	C- RNUMX AND RNUMY (X AND Y VIEW) ARE THE DISTANCES IN mm OF THE CLUSTERS
7	C- CLOSEST TO THE TRACK NORMALIZED TO THE TRACK .
8	C- ENERGIAX AND ENERGIAY ARE THE ENERGY OF THESE CLUSTERS .
9	C- THE CENTERS OF GRAVITY AND THE CLUSTERS COME FROM THE ROUTINE CLUSTER2 .
10	C-
11	C- Inputs :
12	C- Outputs :
13	C- Controls:
14	C-
15	C- Created 3-NOV-1993 MIRKO BOEZIO
16	C-
17	C----------------------------------------------------------------------
18	INCLUDE 'INTEST.TXT'
19	C
20	INTEGER LK(2)
21	INTEGER IBAR(2,NPLAV)
22	INTEGER ITL
23	REAL RX(2),RY(2)
24	REAL RIL(NCHA/2)
25	REAL BAR(2,NPLAV)
26	REAL TG(2)
27	REAL DAD
28	COMMON / VARIE / MAX
29	SAVE / VARIE /
30	COMMON / INIZIO / INPIA
31	SAVE / INIZIO /
32	COMMON / IMPULSO / QUAMOT
33	SAVE / IMPULSO /
34	COMMON / DOVE / NX, NY, LUNGH
35	SAVE / DOVE /
36	COMMON / TANGENTI / TG
37	SAVE / TANGENTI /
38	COMMON / ANGOLO / BAR, IBAR
39	SAVE / ANGOLO /
40	C
41	LPIANO = NPLA / 2
42	c
43	CALL CLUSTER2
44	C
45	ITL = 0
46	IALFA = 0
47	499 CONTINUE
48	C
49	DO I = 1,NCHA/2
50	RIL(I) = 1000.
51	ENDDO
52	C
53	RX(1) = 0.
54	RX(2) = 0.
55	RY(1) = 0.
56	RY(2) = 0.
57	C
58	DO M = 1,2
59	DO J = 1,2
60	C
61	DO I = 1,NCHA/2
62	RIL(I) = 1000.
63	ENDDO
64	C
65	LK(J) = 0
66	C
67	IF (J.EQ.1) ITL = (LPIANO + 1) / 2
68	IF (J.EQ.2) ITL = (NPLA + LPIANO + 1) / 2
69	C
70	DAD = BAR(M,ITL)
71	C
72	C EM
73	C
74	IF (DAD.LT.-6..OR.DAD.GT.246.) GOTO 555
75	C
76	C END EM
77	C
78	NGIR = NCL2(M,J)
79	IF (NGIR.EQ.0) GO TO 555
80	DO L = 1,NGIR
81	RIL(L) = ABS(DAD - CLUS2(M,J,L))
82	ENDDO
83	MM = NCHA/2
84	LK(J) = LVMIN(RIL,MM)
85	C
86	IF (CLUS2(M,J,LK(J)+NCHA/2).GT.EMIN) THEN
87	IF (M.EQ.1) THEN
88	ENERGIAX = ENERGIAX + CLUS2(M,J,LK(J)+NCHA/2)
89	RX(J) = CLUS2(M,J,LK(J)) - DAD
90	ENDIF
91	IF (M.EQ.2) THEN
92	ENERGIAY = ENERGIAY + CLUS2(M,J,LK(J)+NCHA/2)
93	RY(J) = CLUS2(M,J,LK(J)) - DAD
94	ENDIF
95	ENDIF
96	C
97	555 CONTINUE
98	ENDDO
99	C
100	IF (M.EQ.1) RNUMX = ABS( RX(2) - RX(1) )
101	IF (M.EQ.2) RNUMY = ABS( RY(2) - RY(1) )
102	C
103	ENDDO
104	C
105	ESOGLIATOT = 50.
106	EINT = 10.
107	C
108	IF (ENERGIAX.EQ.0.OR.ENERGIAY.EQ.0) THEN
109	II = 1
110	ENDIF
111	C
112	EINF = ENERGIAX - EINT
113	ESUP = ENERGIAX + EINT
114	ETOT = ENERGIAX + ENERGIAY
115	C
116	IF (ENERGIAY.LT.EINF.OR.ENERGIAY.GT.ESUP.OR.
117	& ETOT.LT.ESOGLIATOT) GO TO 2
118	C
119	GO TO 10
120	C
121	2 IERR = 1
122	C
123	10 CONTINUE
124
125	RETURN
126	END