gpamela/gpcal/gpcalv.F

*
* $Id: gpcalv.F,v 3.3 2003/12/17 11:32:48 pamela Exp $
*
* $Log: gpcalv.F,v $
* Revision 3.3  2003/12/17 11:32:48  pamela
* CALO SIMULATION COMPLETED: geometry and special tracking parameters updated and simulation checked by a comparison with the Trieste's standalone Monte Carlo simulation
*
* Revision 3.2  2002/12/05 10:17:41  pamela
* Update CAS and CALO geometries and positions. Makefile updated as well
*
* Revision 3.1.1.1  2002/07/11 16:02:14  cafagna
* First GPAMELA release on CVS
*
*
*CMZ :  3.00/00 14/11/2000  10.17.50  by  Emiliano Mocchiutti
*CMZ :  2.02/00 12/10/2000  18.19.42  by  Francesco Cafagna
*CMZ :  2.01/00 05/04/2000  14.35.18  by  Marialuigia Ambriola
*CMZ :  2.00/00 03/03/2000  15.39.06  by  Francesco Cafagna
*CMZ :  1.02/00 21/10/99  14.46.25  by  Francesco Cafagna
*CMZ :  1.00/02 13/03/96  18.39.55  by  Francesco Cafagna
*-- Author :    Francesco Cafagna   09/12/95
      SUBROUTINE GPCALV
************************************************************************
*                                                                      *
* Volumes definition for the silicon calorimeter                       *
* Called by: GPGEM                                                     *
* Author: Francesco Cafagna, 05/12/95 13.39.41                         *
*                                                                      *
************************************************************************
#include "gpgeo.inc"
#include "gpmed.inc"
#include "gpkey.inc"
*
      INTEGER IROT,IVOLU,N,NMED
      REAL X,Y,Z
* MA
      REAL X1, Y1
      INTEGER m
* END MA
*
*  Define the CALB     volume
*
      NMED= MN2
      CALL GSVOLU('CALB','BOX ',NMED,CALB, 3,IVOLU)
*
*  Define the CALS     volume
*
      NMED= MAL
      CALL GSVOLU('CALS','BOX ',NMED,CALS, 3,IVOLU)
*
*  Define the CAPL     volume
*
      NMED= MN2
      CALL GSVOLU('CAPL','BOX ',NMED,CAPL, 3,IVOLU)
* F.V.&ML:
*
*  Define the CANS     volume
*
      NMED= MN2
      CALL GSVOLU('CANS','BOX ',NMED,CANS, 3,IVOLU)
* END  F.V.&ML.
*
*  Define the CAPD     volume
*
      NMED= MN2
      CALL GSVOLU('CAPD','BOX ',NMED,CAPD, 3,IVOLU)
*
*  Define the CASI     volume
*
      NMED= MSIC
      CALL GSVOLU('CASI','BOX ',NMED,CASI, 3,IVOLU)
*
*  Division in CASI
*
* ML:
C      CALL GSDVN ('CAST','CASI',NCASTR,1)
      CALL GSDVN ('CAST','CASI',NCASTR,2)
* END ML:
*
*  Define the CG10     volume
*
      NMED= MG10C
      CALL GSVOLU('C10C','BOX ',NMED,C10C, 3,IVOLU)
*
*  Define the CAAB     volume
*
      NMED= MW2
      CALL GSVOLU('CAAB','BOX ',NMED,CAAB, 3,IVOLU)
*EM:
*
*  Define the CAAD     volume
*
      NMED= MAL
      CALL GSVOLU('CAAD','BOX ',NMED,CAAD, 3,IVOLU)
*
*  Define the CAKA     volume
*
      NMED= MCER
      CALL GSVOLU('CAKA','BOX ',NMED,CAKA, 3,IVOLU)
*
*  Define the CAKP     volume
*
      NMED= MKAP
      CALL GSVOLU('CAKP','BOX ',NMED,CAKP, 3,IVOLU)
*
*  Define the CAGL     volume (Silicon glue)
*
      NMED= MSIC
      CALL GSVOLU('CAGL','BOX ',NMED,CAGL, 3,IVOLU)
*END EM.
*
* Positioning volumes CAKA, C10C, CAGL, CAKP into the mother CAPL and CAPD
* (Kaolite and G10 only for CAPD)
*
      N = 1
      X = 0.
      Y = 0.
*EM:
*F.V.&ML:
c      CALL GPVOLU(-2)
C      Z = -CAPL(3) + CAKA(3)
C      CALL GSPOS('CAKA',N,'CAPL',X,Y,Z,0,'ONLY')
      Z = -CANS(3) + CAKA(3)
      CALL GSPOS('CAKA',N,'CANS',X,Y,Z,0,'ONLY')
C      CALL GSPOS('CAKA',N,'CAPD',X,Y,Z,0,'ONLY')
      Z = Z + CAKA(3) + C10C(3)
C      CALL GSPOS('C10C',N,'CAPL',X,Y,Z,0,'ONLY')
      CALL GSPOS('C10C',N,'CANS',X,Y,Z,0,'ONLY')
C      CALL GSPOS('C10C',N,'CAPD',X,Y,Z,0,'ONLY')
      Z = Z + C10C(3) + CAGL(3)
C      CALL GSPOS('CAGL',N,'CAPL',X,Y,Z,0,'ONLY')
      CALL GSPOS('CAGL',N,'CANS',X,Y,Z,0,'ONLY')
      Z = Z + CAGL(3) + CAKP(3)
C      CALL GSPOS('CAKP',N,'CAPL',X,Y,Z,0,'ONLY')
      CALL GSPOS('CAKP',N,'CANS',X,Y,Z,0,'ONLY')
* END F.V.&ML
*
* Positioning volume CASI into the mother CAPL
*
      N = 0
* F.V.&ML:
C      Z= Z + CAKP(3) + CASI(3)
      Z = -CAPL(3)+CASI(3)
* END F.V.&ML
      DO I=-1,1
         Y = I*(2.*CASI(2)+ DCASIY)
         DO II=-1,1
            N= N + 1
            X = II*(2.*CASI(1)+ DCASIX)
*
* Check if detector is excluded
*
            IF(.NOT.NOCASI(N))
     +           CALL GSPOS('CASI',N,'CAPL',X,Y,Z,0,'ONLY')
         ENDDO
      ENDDO
*END EM.
* MA
* 11 MODULI DI 2 W
      Z = CALB(3) - CAPL(3) - DCASIZ/2
      N = 0
      DO M = 0,20,2
*     Positioning CAPL CANS CAAB in CALB to form a module
         X = .10
         y = .05
         DO I = 1,2
*     Positioning CAPL
            N = N + 1
C     if(N.EQ.1) print *,'z ini = ',Z
            IF(.NOT.NOCAPL(N))
     +           CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
*     Positioning CANS
            Z = Z - CAPL(3) - CANS(3)
            CALL GSPOS('CANS',N,'CALB',0,0,Z,0,'ONLY')
*     Positioning CAAB
            Z = Z - CANS(3) - CAAB(3)
            IF(.NOT.NOCAAB(M+I))
     +           CALL GSPOS('CAAB',(M+I),'CALB',0,0,Z,0,'ONLY')
*     Positioning CANS (ruotato)
            N = N + 1
            Z = Z - CAAB(3) - CANS(3)
            CALL GSPOS('CANS',N,'CALB',0,0,Z,3,'ONLY')
*     Positioning CAPL (ruotato e shiftato)
            X1 = X
            Y1 = Y
            X = -Y1
            Y = X1
            Z = Z - CANS(3) - CAPL(3)
C     if(N.EQ.44) print *,'z fin = ',Z
            IF(.NOT.NOCAPL(N))
     +           CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
            IF(I.EQ.1) THEN
               Z = Z - 2*CAPL(3) - DZMO ! SPESSORE TRA I SILICI CHE SI GUARDANO
               X1 = X           ! SHIFT PER IL CAPL PROSSIMO CICLO
               Y1 = Y
               X = -Y1
               Y = X1
            ENDIF
         ENDDO
         Z = Z - DZST - 2*CAPL(3)
      ENDDO
*     END MA

C # *F.V.&ML:
C # C commenting the original code with a 'C' per raw:
C # C*
C # C* Positioning volume CAPL and CAAB into the mother CALB
C # C*
C # C      X= 0.
C # C      Y= 0.
C # CC      Z= CALB(3) + CAPL(3)
C # C*EM:
C # C      Z= CALB(3) + CAPL(3) - DCASIZ/2.
C # C*END EM. (we have 0.15 cm from the top to the first Si)
C # C      N= 0
C # C      DO I=1,NCAPL
C # C*
C # C* X view, absorber and Y view on the other
C # C*
C # C         Z= Z - 2*CAPL(3)
C # C         N= N + 1
C # C*
C # C* Check if this plane is excluded
C # C*
C # C         IF(.NOT.NOCAPL(N))
C # C     +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
C # C         Z= Z - CAPL(3) - CAAB(3)
C # C*
C # C* Check if this absorber is excluded
C # C*
C # C         IF(.NOT.NOCAAB(I))
C # C     +        CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
C # C         Z= Z - CAAB(3) - CAPL(3)
C # C         N= N + 1
C # C*
C # C* Check if this detector is excluded
C # C*
C # C         IF(.NOT.NOCAPL(N))
C # C     +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
C # C      ENDDO
C # C end comments.
C # *
C # * Positioning volume CANS ,CAPL and CAAB into the mother CALB
C # *
C #       X= 0.
C #       Y= 0.
C #       Z= CALB(3) + CAPL(3) - DCASIZ/2.
C # *END EM. (we have 0.15 cm from the top to the first Si)
C #       N= 0
C # *
C # *   I DISPARI
C #       DO I=1,NCAPL,2
C # *
C # * X view, absorber and Y view on the other
C # *
C #      X=0.10
C #      Y=0.05
C #          Z= Z - 2*CAPL(3)
C #          N= N + 1
C # *
C # * Check if this plane is excluded
C # *
C # *
C #          IF(.NOT.NOCAPL(N))
C #      +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
C # *
C #          X = 0.
C #          Y = 0.
C #          Z= Z - CAPL(3) - CANS(3)
C # *
C #          CALL GSPOS('CANS',N,'CALB',X,Y,Z,0,'ONLY')
C # *
C #          Z= Z - CANS(3) - CAAB(3)
C # *
C # * Check if this absorber is excluded
C # *
C # *
C #          IF(.NOT.NOCAAB(I))
C #      +        CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
C # *
C #          Z = Z - CAAB(3)- CANS(3)
C #          N = N + 1
C # *     
C #          CALL GSPOS('CANS',N,'CALB',X,Y,Z,3,'ONLY')
C #          Z= Z - CANS(3) - CAPL(3)
C #          X=-0.05
C #          Y=0.10
C # *
C # * Check if this detector is excluded
C # *
C #          IF(.NOT.NOCAPL(N))
C #      +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
C #      N=N+2
C #      Z = Z -2*(2*CAPL(3)+2*CANS(3)+CAAB(3))
C #       ENDDO
C # *
C # *   I PARI
C # *
C #       X= 0.
C #       Y= 0.
C #       Z= CALB(3) + CAPL(3) - DCASIZ/2.
C # *END EM. (we have 0.15 cm from the top to the first Si)
C #       N= 2
C # *
C # *
C #       DO I=2,NCAPL,2
C # *
C # * X view, absorber and Y view on the other
C # *
C #          Z= Z - 2*CAPL(3)-2*(2*CAPL(3)+2*CANS(3)+CAAB(3))
C #          N= N + 1
C # *
C # * Check if this plane is excluded
C #          X= -0.10
C #          Y= -0.05
C # *
C #          IF(.NOT.NOCAPL(N))
C #      +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
C #      X = 0.
C #      Y = 0.
C #          Z = Z - CAPL(3) - CANS(3)
C # *
C #              CALL GSPOS('CANS',N,'CALB',X,Y,Z,0,'ONLY')
C # *
C # * Check if this absorber is excluded
C # *
C #          N = N + 1
C #          Z = Z - CANS(3) - CAAB(3)
C # *     
C #          IF(.NOT.NOCAAB(I))
C #      +        CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
C # *
C #      Z= Z - CAAB(3) - CANS(3)
C # *
C #          CALL GSPOS('CANS',N,'CALB',X,Y,Z,3,'ONLY')
C #          Z= Z - CANS(3) - CAPL(3)
C #          X= 0.05
C #          Y= -0.10
C # *
C # *
C # * Check if this detector is excluded
C # *
C #          IF(.NOT.NOCAPL(N))
C #      +        CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
C #          N = N + 2
C # *
C #       ENDDO
C # *END F.V.&ML.
C # * F.V.&ML.:
C # * again we have to comment with a 'C' per raw:
C # C*
C # C* Positioning volume CAPD and CAAD into the mother CALB
C # C*
C # C      N= 0
C # C      DO I=1,NCAPLD
C # C         IF(I.EQ.1) THEN
C # C            Z= Z - CAPD(3) - CAPL(3)
C # C         ELSE
C # C            Z= Z - 2*CAPD(3)
C # C         ENDIF
C # C         N= N + 1
C # C         CALL GSPOS('CAPD',N,'CALB',X,Y,Z,0,'ONLY')
C # C         Z= Z - CAPD(3) - CAAD(3)
C # C         CALL GSPOS('CAAD',(I-1),'CALB',X,Y,Z,0,'ONLY')
C # C         Z= Z - CAAD(3) - CAPD(3)
C # C         N= N + 1
C # C         CALL GSPOS('CAPD',N,'CALB',X,Y,Z,3,'ONLY')
C # C      ENDDO
C # * end comments.
C # *END F.V.&ML.
C # end MA comments
*
* Put the shell around it
*
      X= 0.
      Y= 0.
      Z= CALS(3)-CALB(3)
      N= 1
      CALL GSPOS('CALB',N,'CALS',X,Y,Z,0,'ONLY')
*
      RETURN
      END
1	cafagna	3.1	*
2	cafagna	3.4	* $Id: gpcalv.F,v 3.3 2003/12/17 11:32:48 pamela Exp $
3	pamela	3.2	*
4			* $Log: gpcalv.F,v $
5	cafagna	3.4	* Revision 3.3 2003/12/17 11:32:48 pamela
6			* CALO SIMULATION COMPLETED: geometry and special tracking parameters updated and simulation checked by a comparison with the Trieste's standalone Monte Carlo simulation
7			*
8	pamela	3.3	* Revision 3.2 2002/12/05 10:17:41 pamela
9			* Update CAS and CALO geometries and positions. Makefile updated as well
10			*
11	pamela	3.2	* Revision 3.1.1.1 2002/07/11 16:02:14 cafagna
12			* First GPAMELA release on CVS
13	cafagna	3.1	*
14			*
15			*CMZ : 3.00/00 14/11/2000 10.17.50 by Emiliano Mocchiutti
16			*CMZ : 2.02/00 12/10/2000 18.19.42 by Francesco Cafagna
17			*CMZ : 2.01/00 05/04/2000 14.35.18 by Marialuigia Ambriola
18			*CMZ : 2.00/00 03/03/2000 15.39.06 by Francesco Cafagna
19			*CMZ : 1.02/00 21/10/99 14.46.25 by Francesco Cafagna
20			*CMZ : 1.00/02 13/03/96 18.39.55 by Francesco Cafagna
21			*-- Author : Francesco Cafagna 09/12/95
22			SUBROUTINE GPCALV
23			************************************************************************
24			* *
25			* Volumes definition for the silicon calorimeter *
26			* Called by: GPGEM *
27			* Author: Francesco Cafagna, 05/12/95 13.39.41 *
28			* *
29			************************************************************************
30			#include "gpgeo.inc"
31			#include "gpmed.inc"
32			#include "gpkey.inc"
33			*
34			INTEGER IROT,IVOLU,N,NMED
35			REAL X,Y,Z
36	cafagna	3.4	* MA
37			REAL X1, Y1
38			INTEGER m
39			* END MA
40	cafagna	3.1	*
41			* Define the CALB volume
42			*
43			NMED= MN2
44			CALL GSVOLU('CALB','BOX ',NMED,CALB, 3,IVOLU)
45			*
46			* Define the CALS volume
47			*
48			NMED= MAL
49			CALL GSVOLU('CALS','BOX ',NMED,CALS, 3,IVOLU)
50			*
51			* Define the CAPL volume
52			*
53			NMED= MN2
54			CALL GSVOLU('CAPL','BOX ',NMED,CAPL, 3,IVOLU)
55	pamela	3.2	* F.V.&ML:
56			*
57			* Define the CANS volume
58			*
59			NMED= MN2
60			CALL GSVOLU('CANS','BOX ',NMED,CANS, 3,IVOLU)
61			* END F.V.&ML.
62	cafagna	3.1	*
63			* Define the CAPD volume
64			*
65			NMED= MN2
66			CALL GSVOLU('CAPD','BOX ',NMED,CAPD, 3,IVOLU)
67			*
68			* Define the CASI volume
69			*
70			NMED= MSIC
71			CALL GSVOLU('CASI','BOX ',NMED,CASI, 3,IVOLU)
72			*
73			* Division in CASI
74			*
75	pamela	3.2	* ML:
76			C CALL GSDVN ('CAST','CASI',NCASTR,1)
77			CALL GSDVN ('CAST','CASI',NCASTR,2)
78			* END ML:
79	cafagna	3.1	*
80			* Define the CG10 volume
81			*
82			NMED= MG10C
83			CALL GSVOLU('C10C','BOX ',NMED,C10C, 3,IVOLU)
84			*
85			* Define the CAAB volume
86			*
87			NMED= MW2
88			CALL GSVOLU('CAAB','BOX ',NMED,CAAB, 3,IVOLU)
89			*EM:
90			*
91			* Define the CAAD volume
92			*
93			NMED= MAL
94			CALL GSVOLU('CAAD','BOX ',NMED,CAAD, 3,IVOLU)
95			*
96			* Define the CAKA volume
97			*
98			NMED= MCER
99			CALL GSVOLU('CAKA','BOX ',NMED,CAKA, 3,IVOLU)
100			*
101			* Define the CAKP volume
102			*
103			NMED= MKAP
104			CALL GSVOLU('CAKP','BOX ',NMED,CAKP, 3,IVOLU)
105			*
106			* Define the CAGL volume (Silicon glue)
107			*
108			NMED= MSIC
109			CALL GSVOLU('CAGL','BOX ',NMED,CAGL, 3,IVOLU)
110			*END EM.
111			*
112			* Positioning volumes CAKA, C10C, CAGL, CAKP into the mother CAPL and CAPD
113			* (Kaolite and G10 only for CAPD)
114			*
115			N = 1
116			X = 0.
117			Y = 0.
118			*EM:
119	pamela	3.2	*F.V.&ML:
120	pamela	3.3	c CALL GPVOLU(-2)
121	pamela	3.2	C Z = -CAPL(3) + CAKA(3)
122			C CALL GSPOS('CAKA',N,'CAPL',X,Y,Z,0,'ONLY')
123			Z = -CANS(3) + CAKA(3)
124			CALL GSPOS('CAKA',N,'CANS',X,Y,Z,0,'ONLY')
125			C CALL GSPOS('CAKA',N,'CAPD',X,Y,Z,0,'ONLY')
126	cafagna	3.1	Z = Z + CAKA(3) + C10C(3)
127	pamela	3.2	C CALL GSPOS('C10C',N,'CAPL',X,Y,Z,0,'ONLY')
128			CALL GSPOS('C10C',N,'CANS',X,Y,Z,0,'ONLY')
129			C CALL GSPOS('C10C',N,'CAPD',X,Y,Z,0,'ONLY')
130	cafagna	3.1	Z = Z + C10C(3) + CAGL(3)
131	pamela	3.2	C CALL GSPOS('CAGL',N,'CAPL',X,Y,Z,0,'ONLY')
132			CALL GSPOS('CAGL',N,'CANS',X,Y,Z,0,'ONLY')
133	cafagna	3.1	Z = Z + CAGL(3) + CAKP(3)
134	pamela	3.2	C CALL GSPOS('CAKP',N,'CAPL',X,Y,Z,0,'ONLY')
135			CALL GSPOS('CAKP',N,'CANS',X,Y,Z,0,'ONLY')
136			* END F.V.&ML
137	cafagna	3.1	*
138			* Positioning volume CASI into the mother CAPL
139			*
140			N = 0
141	pamela	3.2	* F.V.&ML:
142			C Z= Z + CAKP(3) + CASI(3)
143			Z = -CAPL(3)+CASI(3)
144			* END F.V.&ML
145	cafagna	3.1	DO I=-1,1
146			Y = I(2.CASI(2)+ DCASIY)
147			DO II=-1,1
148			N= N + 1
149			X = II(2.CASI(1)+ DCASIX)
150			*
151			* Check if detector is excluded
152			*
153			IF(.NOT.NOCASI(N))
154			+ CALL GSPOS('CASI',N,'CAPL',X,Y,Z,0,'ONLY')
155			ENDDO
156			ENDDO
157			*END EM.
158	cafagna	3.4	* MA
159			* 11 MODULI DI 2 W
160			Z = CALB(3) - CAPL(3) - DCASIZ/2
161			N = 0
162			DO M = 0,20,2
163			* Positioning CAPL CANS CAAB in CALB to form a module
164			X = .10
165			y = .05
166			DO I = 1,2
167			* Positioning CAPL
168			N = N + 1
169			C if(N.EQ.1) print *,'z ini = ',Z
170			IF(.NOT.NOCAPL(N))
171			+ CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
172			* Positioning CANS
173			Z = Z - CAPL(3) - CANS(3)
174			CALL GSPOS('CANS',N,'CALB',0,0,Z,0,'ONLY')
175			* Positioning CAAB
176			Z = Z - CANS(3) - CAAB(3)
177			IF(.NOT.NOCAAB(M+I))
178			+ CALL GSPOS('CAAB',(M+I),'CALB',0,0,Z,0,'ONLY')
179			* Positioning CANS (ruotato)
180			N = N + 1
181			Z = Z - CAAB(3) - CANS(3)
182			CALL GSPOS('CANS',N,'CALB',0,0,Z,3,'ONLY')
183			* Positioning CAPL (ruotato e shiftato)
184			X1 = X
185			Y1 = Y
186			X = -Y1
187			Y = X1
188			Z = Z - CANS(3) - CAPL(3)
189			C if(N.EQ.44) print *,'z fin = ',Z
190			IF(.NOT.NOCAPL(N))
191			+ CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
192			IF(I.EQ.1) THEN
193			Z = Z - 2*CAPL(3) - DZMO ! SPESSORE TRA I SILICI CHE SI GUARDANO
194			X1 = X ! SHIFT PER IL CAPL PROSSIMO CICLO
195			Y1 = Y
196			X = -Y1
197			Y = X1
198			ENDIF
199			ENDDO
200			Z = Z - DZST - 2*CAPL(3)
201	cafagna	3.1	ENDDO
202	cafagna	3.4	* END MA
203
204			C # *F.V.&ML:
205			C # C commenting the original code with a 'C' per raw:
206			C # C*
207			C # C* Positioning volume CAPL and CAAB into the mother CALB
208			C # C*
209			C # C X= 0.
210			C # C Y= 0.
211			C # CC Z= CALB(3) + CAPL(3)
212			C # C*EM:
213			C # C Z= CALB(3) + CAPL(3) - DCASIZ/2.
214			C # C*END EM. (we have 0.15 cm from the top to the first Si)
215			C # C N= 0
216			C # C DO I=1,NCAPL
217			C # C*
218			C # C* X view, absorber and Y view on the other
219			C # C*
220			C # C Z= Z - 2*CAPL(3)
221			C # C N= N + 1
222			C # C*
223			C # C* Check if this plane is excluded
224			C # C*
225			C # C IF(.NOT.NOCAPL(N))
226			C # C + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
227			C # C Z= Z - CAPL(3) - CAAB(3)
228			C # C*
229			C # C* Check if this absorber is excluded
230			C # C*
231			C # C IF(.NOT.NOCAAB(I))
232			C # C + CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
233			C # C Z= Z - CAAB(3) - CAPL(3)
234			C # C N= N + 1
235			C # C*
236			C # C* Check if this detector is excluded
237			C # C*
238			C # C IF(.NOT.NOCAPL(N))
239			C # C + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
240			C # C ENDDO
241			C # C end comments.
242			C # *
243			C # * Positioning volume CANS ,CAPL and CAAB into the mother CALB
244			C # *
245			C # X= 0.
246			C # Y= 0.
247			C # Z= CALB(3) + CAPL(3) - DCASIZ/2.
248			C # *END EM. (we have 0.15 cm from the top to the first Si)
249			C # N= 0
250			C # *
251			C # * I DISPARI
252			C # DO I=1,NCAPL,2
253			C # *
254			C # * X view, absorber and Y view on the other
255			C # *
256			C # X=0.10
257			C # Y=0.05
258			C # Z= Z - 2*CAPL(3)
259			C # N= N + 1
260			C # *
261			C # * Check if this plane is excluded
262			C # *
263			C # *
264			C # IF(.NOT.NOCAPL(N))
265			C # + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
266			C # *
267			C # X = 0.
268			C # Y = 0.
269			C # Z= Z - CAPL(3) - CANS(3)
270			C # *
271			C # CALL GSPOS('CANS',N,'CALB',X,Y,Z,0,'ONLY')
272			C # *
273			C # Z= Z - CANS(3) - CAAB(3)
274			C # *
275			C # * Check if this absorber is excluded
276			C # *
277			C # *
278			C # IF(.NOT.NOCAAB(I))
279			C # + CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
280			C # *
281			C # Z = Z - CAAB(3)- CANS(3)
282			C # N = N + 1
283			C # *
284			C # CALL GSPOS('CANS',N,'CALB',X,Y,Z,3,'ONLY')
285			C # Z= Z - CANS(3) - CAPL(3)
286			C # X=-0.05
287			C # Y=0.10
288			C # *
289			C # * Check if this detector is excluded
290			C # *
291			C # IF(.NOT.NOCAPL(N))
292			C # + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
293			C # N=N+2
294			C # Z = Z -2(2CAPL(3)+2*CANS(3)+CAAB(3))
295			C # ENDDO
296			C # *
297			C # * I PARI
298			C # *
299			C # X= 0.
300			C # Y= 0.
301			C # Z= CALB(3) + CAPL(3) - DCASIZ/2.
302			C # *END EM. (we have 0.15 cm from the top to the first Si)
303			C # N= 2
304			C # *
305			C # *
306			C # DO I=2,NCAPL,2
307			C # *
308			C # * X view, absorber and Y view on the other
309			C # *
310			C # Z= Z - 2CAPL(3)-2(2CAPL(3)+2CANS(3)+CAAB(3))
311			C # N= N + 1
312			C # *
313			C # * Check if this plane is excluded
314			C # X= -0.10
315			C # Y= -0.05
316			C # *
317			C # IF(.NOT.NOCAPL(N))
318			C # + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,0,'ONLY')
319			C # X = 0.
320			C # Y = 0.
321			C # Z = Z - CAPL(3) - CANS(3)
322			C # *
323			C # CALL GSPOS('CANS',N,'CALB',X,Y,Z,0,'ONLY')
324			C # *
325			C # * Check if this absorber is excluded
326			C # *
327			C # N = N + 1
328			C # Z = Z - CANS(3) - CAAB(3)
329			C # *
330			C # IF(.NOT.NOCAAB(I))
331			C # + CALL GSPOS('CAAB',(I-1),'CALB',X,Y,Z,0,'ONLY')
332			C # *
333			C # Z= Z - CAAB(3) - CANS(3)
334			C # *
335			C # CALL GSPOS('CANS',N,'CALB',X,Y,Z,3,'ONLY')
336			C # Z= Z - CANS(3) - CAPL(3)
337			C # X= 0.05
338			C # Y= -0.10
339			C # *
340			C # *
341			C # * Check if this detector is excluded
342			C # *
343			C # IF(.NOT.NOCAPL(N))
344			C # + CALL GSPOS('CAPL',N,'CALB',X,Y,Z,3,'ONLY')
345			C # N = N + 2
346			C # *
347			C # ENDDO
348			C # *END F.V.&ML.
349			C # * F.V.&ML.:
350			C # * again we have to comment with a 'C' per raw:
351			C # C*
352			C # C* Positioning volume CAPD and CAAD into the mother CALB
353			C # C*
354			C # C N= 0
355			C # C DO I=1,NCAPLD
356			C # C IF(I.EQ.1) THEN
357			C # C Z= Z - CAPD(3) - CAPL(3)
358			C # C ELSE
359			C # C Z= Z - 2*CAPD(3)
360			C # C ENDIF
361			C # C N= N + 1
362			C # C CALL GSPOS('CAPD',N,'CALB',X,Y,Z,0,'ONLY')
363			C # C Z= Z - CAPD(3) - CAAD(3)
364			C # C CALL GSPOS('CAAD',(I-1),'CALB',X,Y,Z,0,'ONLY')
365			C # C Z= Z - CAAD(3) - CAPD(3)
366			C # C N= N + 1
367			C # C CALL GSPOS('CAPD',N,'CALB',X,Y,Z,3,'ONLY')
368			C # C ENDDO
369			C # * end comments.
370			C # *END F.V.&ML.
371			C # end MA comments
372	cafagna	3.1	*
373			* Put the shell around it
374			*
375			X= 0.
376			Y= 0.
377			Z= CALS(3)-CALB(3)
378			N= 1
379			CALL GSPOS('CALB',N,'CALS',X,Y,Z,0,'ONLY')
380			*
381			RETURN
382			END