CalorimeterLevel2/src/cluster.for

      SUBROUTINE CLUSTER
C----------------------------------------------------------------------
C-
C-   Purpose and Methods : IT FINDS THE NUMBER OF 
C-   CLUSTERS PER LAYER AND PER VIEW AND THE POSITION 
C-   OF THE CENTRE OF GRAVITY OF THE DETECTED ENERGY .
C-   IN THE MATRIX CLUS 2xNPLAxNCHA WE HAVE THE 
C-   CENTRES IN THE FIRST NCHA/2 ELEMENTS ORDERED FROM
C-   THE HIGHEST IN ENERGY TO THE LOWEST . THE SECOND
C-   NCHA/2 ELEMENTS ARE THE DETECTED ENERGIES IN 
C-   THESE CLUSTERS .
C-   IN THE MATRIX NCL 2xNPLA WE HAVE THE NUMBER OF 
C-   CLUSTERS PER LAYER .
C-
C-   Inputs  :
C-   Outputs :
C-   Controls:
C-
C-   Created   3-FEB-1994   MIRKO BOEZIO
C-   Modified  21-FEB-2003   MIRKO BOEZIO . INTRODUCED
C-   THE SHIFT IN THE SILICON DETECTORS PLACEMENT
C-   FOR THE CALL TO MILLIM IN BARIC .
C-
C-----------------------------------------------------
      INCLUDE 'INTEST.TXT'
      REAL QQQ(NCHA)
      INTEGER I

      COMMON / SHIFT / SHIFT
      SAVE / SHIFT /
C
      I = 0
      DO J = 1,NPLAV
        DO N = 1,2
          DO M = 1,NCHA
            CLUS(N,J,M) = 0.
          ENDDO
          NCL(N,J) = 0
        ENDDO
      ENDDO
C
      DO N = 1,2
        DO J = 1,NPLA
          DO M = 1,NCHA
            QQQ(M) = 0.
            IF (DEXY(N,J,M).GT.EMIN) THEN
              QQQ(M) = DEXY(N,J,M)
c              print *,' N ',N,' J ',J,' M ',M,' QQQ ',QQQ(M)
            ENDIF
          ENDDO
C
          IGIRO = 0.
C
   50     CONTINUE
C
C THE FIRST CLUSTER FOR THE LAYER J IS THAT WITH THE
C HIGHEST DETECTED ENERGY .
C
          MAX = LVMAX(QQQ,NCHA)
          IF (QQQ(MAX).LT.EMIN) GO TO 100
          MSTR = MAX
   55     CONTINUE
          MSTR = MSTR + 1
          IF (MSTR.GT.NCHA) GO TO 56
          IF (QQQ(MSTR).GT.EMIN) GO TO 55
   56     CONTINUE
          IB = MSTR - 1
C
          MSTR = MAX
   65     CONTINUE
          MSTR = MSTR - 1
          IF (MSTR.LT.1) GO TO 66
          IF (QQQ(MSTR).GT.EMIN) GO TO 65
   66     CONTINUE
          IA = MSTR + 1
C
          NN = 0
          IF (M.EQ.2) NN = 1
          IF (MOD(I,2).EQ.NN) THEN
             IF (REVERSE.EQ.0) THEN
                SHIFT = +0.5
             ELSE
                SHIFT = -0.5
             ENDIF
          ELSE
             IF (REVERSE.EQ.0) THEN
                SHIFT = -0.5
             ELSE
                SHIFT = +0.5
             ENDIF          
          ENDIF
          CALL BARIC(QQQ,IA,IB,BAR,ENE,IERR1)
          IGIRO = IGIRO + 1
          IGI = IGIRO + NCHA / 2
c          print *,'IGIRO ',IGIRO,' IGI ',IGI,' NCHA ',NCHA
c          PRINT *,' ENE ',ENE,' BAR ',BAR
          CLUS(N,J,IGIRO) = BAR
          CLUS(N,J,IGI) = ENE
C
          DO LL = IA,IB
            QQQ(LL) = 0.
          ENDDO
          GO TO 50
C
  100     CONTINUE
          NCL(N,J) = IGIRO
        ENDDO
      ENDDO
C
      RETURN
      END


1	SUBROUTINE CLUSTER
2	C----------------------------------------------------------------------
3	C-
4	C- Purpose and Methods : IT FINDS THE NUMBER OF
5	C- CLUSTERS PER LAYER AND PER VIEW AND THE POSITION
6	C- OF THE CENTRE OF GRAVITY OF THE DETECTED ENERGY .
7	C- IN THE MATRIX CLUS 2xNPLAxNCHA WE HAVE THE
8	C- CENTRES IN THE FIRST NCHA/2 ELEMENTS ORDERED FROM
9	C- THE HIGHEST IN ENERGY TO THE LOWEST . THE SECOND
10	C- NCHA/2 ELEMENTS ARE THE DETECTED ENERGIES IN
11	C- THESE CLUSTERS .
12	C- IN THE MATRIX NCL 2xNPLA WE HAVE THE NUMBER OF
13	C- CLUSTERS PER LAYER .
14	C-
15	C- Inputs :
16	C- Outputs :
17	C- Controls:
18	C-
19	C- Created 3-FEB-1994 MIRKO BOEZIO
20	C- Modified 21-FEB-2003 MIRKO BOEZIO . INTRODUCED
21	C- THE SHIFT IN THE SILICON DETECTORS PLACEMENT
22	C- FOR THE CALL TO MILLIM IN BARIC .
23	C-
24	C-----------------------------------------------------
25	INCLUDE 'INTEST.TXT'
26	REAL QQQ(NCHA)
27	INTEGER I
28
29	COMMON / SHIFT / SHIFT
30	SAVE / SHIFT /
31	C
32	I = 0
33	DO J = 1,NPLAV
34	DO N = 1,2
35	DO M = 1,NCHA
36	CLUS(N,J,M) = 0.
37	ENDDO
38	NCL(N,J) = 0
39	ENDDO
40	ENDDO
41	C
42	DO N = 1,2
43	DO J = 1,NPLA
44	DO M = 1,NCHA
45	QQQ(M) = 0.
46	IF (DEXY(N,J,M).GT.EMIN) THEN
47	QQQ(M) = DEXY(N,J,M)
48	c print *,' N ',N,' J ',J,' M ',M,' QQQ ',QQQ(M)
49	ENDIF
50	ENDDO
51	C
52	IGIRO = 0.
53	C
54	50 CONTINUE
55	C
56	C THE FIRST CLUSTER FOR THE LAYER J IS THAT WITH THE
57	C HIGHEST DETECTED ENERGY .
58	C
59	MAX = LVMAX(QQQ,NCHA)
60	IF (QQQ(MAX).LT.EMIN) GO TO 100
61	MSTR = MAX
62	55 CONTINUE
63	MSTR = MSTR + 1
64	IF (MSTR.GT.NCHA) GO TO 56
65	IF (QQQ(MSTR).GT.EMIN) GO TO 55
66	56 CONTINUE
67	IB = MSTR - 1
68	C
69	MSTR = MAX
70	65 CONTINUE
71	MSTR = MSTR - 1
72	IF (MSTR.LT.1) GO TO 66
73	IF (QQQ(MSTR).GT.EMIN) GO TO 65
74	66 CONTINUE
75	IA = MSTR + 1
76	C
77	NN = 0
78	IF (M.EQ.2) NN = 1
79	IF (MOD(I,2).EQ.NN) THEN
80	IF (REVERSE.EQ.0) THEN
81	SHIFT = +0.5
82	ELSE
83	SHIFT = -0.5
84	ENDIF
85	ELSE
86	IF (REVERSE.EQ.0) THEN
87	SHIFT = -0.5
88	ELSE
89	SHIFT = +0.5
90	ENDIF
91	ENDIF
92	CALL BARIC(QQQ,IA,IB,BAR,ENE,IERR1)
93	IGIRO = IGIRO + 1
94	IGI = IGIRO + NCHA / 2
95	c print *,'IGIRO ',IGIRO,' IGI ',IGI,' NCHA ',NCHA
96	c PRINT *,' ENE ',ENE,' BAR ',BAR
97	CLUS(N,J,IGIRO) = BAR
98	CLUS(N,J,IGI) = ENE
99	C
100	DO LL = IA,IB
101	QQQ(LL) = 0.
102	ENDDO
103	GO TO 50
104	C
105	100 CONTINUE
106	NCL(N,J) = IGIRO
107	ENDDO
108	ENDDO
109	C
110	RETURN
111	END
112
113