[u/mrichter/AliRoot.git] / EMCAL / sgpdge.F

*
** 21-feb-2001 get from polar.ihep.su@DATA$STAR:[PAVLINOV.RSC]SGPDGE.CAR
*
*-- Author :    David Adams   03/11/90
      SUBROUTINE SGPDGE( I, PDGGEA )
CA)========================================(begin of short description)
C Converts a PDG particle number to a GEANT particle number.
CB)-----------------------------------------(begin of long description)
C
C    Purpose and methods :
C Translates the PDG code I to the GEANT particle code PDGGEA.
C Zero is returned if the PDG code cannot be translated.
C
C    Called by: SGGENE
C
C    Input arguments : I - PDG particle code
C
C    Input/output arguments : none
C
C    Output arguments: PDGGEA - GEANT particle code
C
C    Side effects (other variables/banks modified, etc.)
C
C    Created:   dd-mmm-1990   David Adams
C    Modified:  19-FEB-1991   David Adams - fixed bugs in particle codes.
C
CC)-------------------------------------------(end of long description)
CD)----------------------------------(declare common blocks, variables)
C  Common blocks
C  Variables in argument list
C  Save variables
C  Local variables
      INTEGER I, IABS, PDGGEA
C  External references
C  Statement functions
C  Local data statements
CE)===============================================(end of declarations)
C
      PDGGEA = 0
      IABS = ABS(I)

C Leptons
      IF ( IABS .LT. 20 ) THEN

C . e-, e+, nue
       IF     ( I .EQ.  11 ) THEN
        PDGGEA = 3
       ELSEIF ( I .EQ. -11 ) THEN
        PDGGEA = 2
       ELSEIF ( IABS .EQ.  12 ) THEN
        PDGGEA = 4

C . mu-, mu+, numu
       ELSEIF ( I .EQ.  13 ) THEN
        PDGGEA = 6
       ELSEIF ( I .EQ. -13 ) THEN
        PDGGEA = 5
       ELSEIF ( IABS .EQ.  14 ) THEN
        PDGGEA = 4

C . tau-, tau+, nutau
       ELSEIF ( I .EQ.  15 ) THEN
        PDGGEA = 34
       ELSEIF ( I .EQ. -15 ) THEN
        PDGGEA = 33
       ELSEIF ( IABS .EQ.  16 ) THEN
        PDGGEA = 4

       ENDIF

       RETURN

C Bosons.
      ELSEIF ( IABS .LT. 100 ) THEN

C . gamma, W+, W-, Z
       IF     ( I .EQ.  22 ) THEN
        PDGGEA = 1
       ELSEIF ( I .EQ.  24 ) THEN
        PDGGEA = 42
       ELSEIF ( I .EQ. -24 ) THEN
        PDGGEA = 43
       ELSEIF ( I .EQ.  23 ) THEN
        PDGGEA = 44
       ENDIF

       RETURN


C Mesons
      ELSEIF ( IABS .LT. 1000 ) THEN

C . pi0, pi+, pi-
       IF     ( I .EQ.  111 ) THEN
        PDGGEA = 7
       ELSEIF ( I .EQ.  211 ) THEN
        PDGGEA = 8
       ELSEIF ( I .EQ. -211 ) THEN
        PDGGEA = 9

C . K0L, K0S, K+, K-
       ELSEIF ( I .EQ.  130 ) THEN
        PDGGEA = 10
       ELSEIF ( I .EQ.  310 ) THEN
        PDGGEA = 16
       ELSEIF ( I .EQ.  321 ) THEN
        PDGGEA = 11
       ELSEIF ( I .EQ. -321 ) THEN
        PDGGEA = 12

C . K0L, K0S, K+, K-
       ELSEIF ( I .EQ.  130 ) THEN
        PDGGEA = 10
       ELSEIF ( I .EQ.  310 ) THEN
        PDGGEA = 16
       ELSEIF ( I .EQ.  321 ) THEN
        PDGGEA = 11
       ELSEIF ( I .EQ. -321 ) THEN
        PDGGEA = 12

C . eta
       ELSEIF ( I .EQ.  221 ) THEN
        PDGGEA = 17

C . D+, D-, D0, D0bar
       ELSEIF ( I .EQ.  411 ) THEN
        PDGGEA = 35
       ELSEIF ( I .EQ. -411 ) THEN
        PDGGEA = 36
       ELSEIF ( I .EQ.  421 ) THEN
        PDGGEA = 37
       ELSEIF ( I .EQ. -421 ) THEN
        PDGGEA = 38

C . DS+, DS- (previously F+, F-)
       ELSEIF ( I .EQ.  431 ) THEN
        PDGGEA = 39
       ELSEIF ( I .EQ. -431 ) THEN
        PDGGEA = 40

       ENDIF

      RETURN


C Hadrons
      ELSEIF ( IABS .LT. 10000 ) THEN

C . n, nbar, p, pbar
       IF     ( I .EQ.  2112 ) THEN
        PDGGEA = 13
       ELSEIF ( I .EQ. -2112 ) THEN
        PDGGEA = 25
       ELSEIF ( I .EQ.  2212 ) THEN
        PDGGEA = 14
       ELSEIF ( I .EQ. -2212 ) THEN
        PDGGEA = 15

C . lambda, antilambda
       ELSEIF ( I .EQ.  3122 ) THEN
        PDGGEA = 18
       ELSEIF ( I .EQ. -3122 ) THEN
        PDGGEA = 26

C . sigma +, 0, -, antisigma -, 0, +
       ELSEIF ( I .EQ.  3222 ) THEN
        PDGGEA = 19
       ELSEIF ( I .EQ.  3212 ) THEN
        PDGGEA = 20
       ELSEIF ( I .EQ.  3112 ) THEN
        PDGGEA = 21
       ELSEIF ( I .EQ. -3222 ) THEN
        PDGGEA = 27
       ELSEIF ( I .EQ. -3212 ) THEN
        PDGGEA = 28
       ELSEIF ( I .EQ. -3112 ) THEN
        PDGGEA = 29

C . xi 0, xi -, antixi 0, antixi +
       ELSEIF ( I .EQ.  3322 ) THEN
        PDGGEA = 22
       ELSEIF ( I .EQ.  3312 ) THEN
        PDGGEA = 23
       ELSEIF ( I .EQ. -3322 ) THEN
        PDGGEA = 30
       ELSEIF ( I .EQ. -3312 ) THEN
        PDGGEA = 31

C . omega, antiomega
       ELSEIF ( I .EQ.  3334 ) THEN
        PDGGEA = 24
       ELSEIF ( I .EQ. -3334 ) THEN
        PDGGEA = 32

C . lambda C +
       ELSEIF ( I .EQ. 4122 ) THEN
        PDGGEA = 41

       ENDIF

       RETURN


      ENDIF

      RETURN
      END
Commit	Line	Data
2fa51694	1	*
	2	** 21-feb-2001 get from polar.ihep.su@DATA$STAR:[PAVLINOV.RSC]SGPDGE.CAR
	3	*
	4	*-- Author : David Adams 03/11/90
	5	SUBROUTINE SGPDGE( I, PDGGEA )
	6	CA)========================================(begin of short description)
	7	C Converts a PDG particle number to a GEANT particle number.
	8	CB)-----------------------------------------(begin of long description)
	9	C
	10	C Purpose and methods :
	11	C Translates the PDG code I to the GEANT particle code PDGGEA.
	12	C Zero is returned if the PDG code cannot be translated.
	13	C
	14	C Called by: SGGENE
	15	C
	16	C Input arguments : I - PDG particle code
	17	C
	18	C Input/output arguments : none
	19	C
	20	C Output arguments: PDGGEA - GEANT particle code
	21	C
	22	C Side effects (other variables/banks modified, etc.)
	23	C
	24	C Created: dd-mmm-1990 David Adams
	25	C Modified: 19-FEB-1991 David Adams - fixed bugs in particle codes.
	26	C
	27	CC)-------------------------------------------(end of long description)
	28	CD)----------------------------------(declare common blocks, variables)
	29	C Common blocks
	30	C Variables in argument list
	31	C Save variables
	32	C Local variables
	33	INTEGER I, IABS, PDGGEA
	34	C External references
	35	C Statement functions
	36	C Local data statements
	37	CE)===============================================(end of declarations)
	38	C
	39	PDGGEA = 0
	40	IABS = ABS(I)
	41
	42	C Leptons
	43	IF ( IABS .LT. 20 ) THEN
	44
	45	C . e-, e+, nue
	46	IF ( I .EQ. 11 ) THEN
	47	PDGGEA = 3
	48	ELSEIF ( I .EQ. -11 ) THEN
	49	PDGGEA = 2
	50	ELSEIF ( IABS .EQ. 12 ) THEN
	51	PDGGEA = 4
	52
	53	C . mu-, mu+, numu
	54	ELSEIF ( I .EQ. 13 ) THEN
	55	PDGGEA = 6
	56	ELSEIF ( I .EQ. -13 ) THEN
	57	PDGGEA = 5
	58	ELSEIF ( IABS .EQ. 14 ) THEN
	59	PDGGEA = 4
	60
	61	C . tau-, tau+, nutau
	62	ELSEIF ( I .EQ. 15 ) THEN
	63	PDGGEA = 34
	64	ELSEIF ( I .EQ. -15 ) THEN
65	PDGGEA = 33
66	ELSEIF ( IABS .EQ. 16 ) THEN
67	PDGGEA = 4
68
69	ENDIF
70
71	RETURN
72
73	C Bosons.
74	ELSEIF ( IABS .LT. 100 ) THEN
75
76	C . gamma, W+, W-, Z
77	IF ( I .EQ. 22 ) THEN
78	PDGGEA = 1
79	ELSEIF ( I .EQ. 24 ) THEN
80	PDGGEA = 42
81	ELSEIF ( I .EQ. -24 ) THEN
82	PDGGEA = 43
83	ELSEIF ( I .EQ. 23 ) THEN
84	PDGGEA = 44
85	ENDIF
86
87	RETURN
88
89
90	C Mesons
91	ELSEIF ( IABS .LT. 1000 ) THEN
92
93	C . pi0, pi+, pi-
94	IF ( I .EQ. 111 ) THEN
95	PDGGEA = 7
96	ELSEIF ( I .EQ. 211 ) THEN
97	PDGGEA = 8
98	ELSEIF ( I .EQ. -211 ) THEN
99	PDGGEA = 9
100
101	C . K0L, K0S, K+, K-
102	ELSEIF ( I .EQ. 130 ) THEN
103	PDGGEA = 10
104	ELSEIF ( I .EQ. 310 ) THEN
105	PDGGEA = 16
106	ELSEIF ( I .EQ. 321 ) THEN
107	PDGGEA = 11
108	ELSEIF ( I .EQ. -321 ) THEN
109	PDGGEA = 12
110
111	C . K0L, K0S, K+, K-
112	ELSEIF ( I .EQ. 130 ) THEN
113	PDGGEA = 10
114	ELSEIF ( I .EQ. 310 ) THEN
115	PDGGEA = 16
116	ELSEIF ( I .EQ. 321 ) THEN
117	PDGGEA = 11
118	ELSEIF ( I .EQ. -321 ) THEN
119	PDGGEA = 12
120
121	C . eta
122	ELSEIF ( I .EQ. 221 ) THEN
123	PDGGEA = 17
124
125	C . D+, D-, D0, D0bar
126	ELSEIF ( I .EQ. 411 ) THEN
127	PDGGEA = 35
128	ELSEIF ( I .EQ. -411 ) THEN
129	PDGGEA = 36
130	ELSEIF ( I .EQ. 421 ) THEN
131	PDGGEA = 37
132	ELSEIF ( I .EQ. -421 ) THEN
133	PDGGEA = 38
134
135	C . DS+, DS- (previously F+, F-)
136	ELSEIF ( I .EQ. 431 ) THEN
137	PDGGEA = 39
138	ELSEIF ( I .EQ. -431 ) THEN
139	PDGGEA = 40
140
141	ENDIF
142
143	RETURN
144
145
146	C Hadrons
147	ELSEIF ( IABS .LT. 10000 ) THEN
148
149	C . n, nbar, p, pbar
150	IF ( I .EQ. 2112 ) THEN
151	PDGGEA = 13
152	ELSEIF ( I .EQ. -2112 ) THEN
153	PDGGEA = 25
154	ELSEIF ( I .EQ. 2212 ) THEN
155	PDGGEA = 14
156	ELSEIF ( I .EQ. -2212 ) THEN
157	PDGGEA = 15
158
159	C . lambda, antilambda
160	ELSEIF ( I .EQ. 3122 ) THEN
161	PDGGEA = 18
162	ELSEIF ( I .EQ. -3122 ) THEN
163	PDGGEA = 26
164
165	C . sigma +, 0, -, antisigma -, 0, +
166	ELSEIF ( I .EQ. 3222 ) THEN
167	PDGGEA = 19
168	ELSEIF ( I .EQ. 3212 ) THEN
169	PDGGEA = 20
170	ELSEIF ( I .EQ. 3112 ) THEN
171	PDGGEA = 21
172	ELSEIF ( I .EQ. -3222 ) THEN
173	PDGGEA = 27
174	ELSEIF ( I .EQ. -3212 ) THEN
175	PDGGEA = 28
176	ELSEIF ( I .EQ. -3112 ) THEN
177	PDGGEA = 29
178
179	C . xi 0, xi -, antixi 0, antixi +
180	ELSEIF ( I .EQ. 3322 ) THEN
181	PDGGEA = 22
182	ELSEIF ( I .EQ. 3312 ) THEN
183	PDGGEA = 23
184	ELSEIF ( I .EQ. -3322 ) THEN
185	PDGGEA = 30
186	ELSEIF ( I .EQ. -3312 ) THEN
187	PDGGEA = 31
188
189	C . omega, antiomega
190	ELSEIF ( I .EQ. 3334 ) THEN
191	PDGGEA = 24
192	ELSEIF ( I .EQ. -3334 ) THEN
193	PDGGEA = 32
194
195	C . lambda C +
196	ELSEIF ( I .EQ. 4122 ) THEN
197	PDGGEA = 41
198
199	ENDIF
200
201	RETURN
202
203
204	ENDIF
205
206	RETURN
207	END
208