* * $Id$ * * $Log$ * Revision 1.1.1.1 1995/10/24 10:19:59 cernlib * Geant * * #include "geant321/pilot.h" *CMZ : 3.21/02 29/03/94 15.41.44 by S.Giani *-- Author : *$ CREATE DATAR3.FOR *COPY DATAR3 * *=== datar3 ===========================================================* * SUBROUTINE DATAR3 #include "geant321/dblprc.inc" #include "geant321/dimpar.inc" #include "geant321/iounit.inc" * #include "geant321/bamjcm.inc" #include "geant321/inpdat.inc" LOGICAL LSWTCH COMMON /FKVALI/ LSWTCH DIMENSION IVV(36),IP(36),IB(126),IBB(126),IA(126),IAA(126) C DEFINE THE FIELDS FOR PARTICLE CLASSIFICATION C IMPS=PSEUDO SCALAR MESONS (SPIN=0) C IMVE=VECTOR MESONS (SPIN=1) C IB08(IA08)=BARYONS (ANTIBARYONS) (SPIN=1/2) C IB10(IA10)=BARYONS (ANTIBARYONS) (SPIN=3/2) DATA IP/ *23,14,16,116,0,0,13,23,25,117,0,0,15,24,31,120,0,0,119,118,121, *122,14*0/ LSWTCH = .FALSE. L=0 C PRINT 7769 C7769 FORMAT (' ***********************************************'/ C 1' *********************************************************'/ C 1' ETA SUPRESSED IN DATAR3 AND HKLASS SEPT 85 J.RANFT'/ C 1' ETA (31)--->RHO0(33); ETA*(95)--->OMEG(35) '/ C 1'*************************************************************'/ C 1'*************************************************************') DO 1 I=1,6 DO 2 J=1,6 L=L+1 IMPS(I,J)=IP(L) 2 CONTINUE 1 CONTINUE DATA IVV/ *33,34,38,123,0,0,32,33,39,124,0,0,36,37,96,127,0,0,126,125,128, *129,14*0/ L=0 DO 3 I=1,6 DO 4 J=1,6 L=L+1 IMVE(I,J)=IVV(L) 4 CONTINUE 3 CONTINUE DATA IB/ *0,1,21,140,0,0,8,22,137,0,0,97,138,0,0,146,5*0, *1,8,22,137,0,0,0,20,142,0,0,98,139,0,0,147,5*0, *21,22,97,138,0,0,20,98,139,0,0,0,145,0,0,148,5*0, *140,137,138,146,0,0,142,139,147,0,0,145,148,50*0/ L=0 DO 5 I=1,6 DO 6 J=1,21 L=L+1 IB08(I,J)=IB(L) 6 CONTINUE 5 CONTINUE DATA IBB/ *53,54,104,161,0,0,55,105,162,0,0,107,164,0,0,167,5*0, *54,55,105,162,0,0,56,106,163,0,0,108,165,0,0,168,5*0, *104,105,107,164,0,0,106,108,165,0,0,109,166,0,0,169,5*0, *161,162,164,167,0,0,163,165,168,0,0,166,169,0,0,170,47*0/ L=0 DO 7 I=1,6 DO 8 J=1,21 L=L+1 IB10(I,J)=IBB(L) 8 CONTINUE 7 CONTINUE DATA IA/ *0,2,99,152,0,0,9,100,149,0,0,102,150,0,0,158,5*0, *2,9,100,149,0,0,0,101,154,0,0,103,151,0,0,159,5*0, *99,100,102,150,0,0,101,103,151,0,0,0,157,0,0,160,5*0, *152,149,150,158,0,0,154,151,159,0,0,157,160,50*0/ L=0 DO 9 I=1,6 DO 10 J=1,21 L=L+1 IA08(I,J)=IA(L) 10 CONTINUE 9 CONTINUE DATA IAA/ *67,68,110,171,0,0,69,111,172,0,0,113,174,0,0,177,5*0, *68,69,111,172,0,0,70,112,173,0,0,114,175,0,0,178,5*0, *110,111,113,174,0,0,112,114,175,0,0,115,176,0,0,179,5*0, *171,172,174,177,0,0,173,175,178,0,0,176,179,0,0,180,47*0/ L=0 DO 11 I=1,6 DO 12 J=1,21 L=L+1 IA10(I,J)=IAA(L) 12 CONTINUE 11 CONTINUE C DEFINE THE FREE PARAMETERS FOR THE MONTE-CARLO PROGRAMMES BAMJET C PARJET HAPAQ A1=0.88D0 B3=6.D0 B1=8.D0 B2=8.D0 ISU=4 BET=8.D0 AS=0.25D0 AME=0.93D0 LT=0 LE=0 B8=0.33D0 DIQ=0.375D0 C C BAMJCM INITIALIZATION DO 13 J = 1,KMXJCM IV (J) = 0 RE (J) = 0.D+00 KFR1 (J) = 0 KFR2 (J) = 0 RPX (J) = 0.D+00 RPY (J) = 0.D+00 13 CONTINUE RETURN END