SUBROUTINE RMMAQ( ISEED,ISEQ,CHOPT ) C----------------------------------------------------------------------- C R(ANDO)M (NUMBER GENERATOR OF) MA(RSAGLIA TYPE INITIALISATION) C C ROUTINE FOR INITIALIZATION OF RMMAR C THIS SUBROUTINE IS CALLED FROM MAIN AND START C ARGUMENTS: C ISEED = SEED TO INITIALIZE A SEQUENCE C ISEQ = # OF RANDOM SEQUENCE C CHOPT = CHARACTER TO STEER INITIALIZATION OPTIONS C C CERN PROGLIB# V113 RMMAQ .VERSION KERNFOR 1.0 C ORIG. 01/03/89 FCA + FJ C----------------------------------------------------------------------- COMMON /RANMA2/ IU(1030),JSEQ COMMON /RANMA3/ TWOM24,TWOM48,CD,CM,CINT,MODCNS INTEGER I97(0:1030),J97(0:1030),NTOT(0:1030),NTOT2(0:1030), * IJKL(0:1030) REAL U(1030),C(0:1030),UU(1030) EQUIVALENCE (IJKL(0),IU(1)),(NTOT(0),IU(2)),(NTOT2(0),IU(3)) EQUIVALENCE (U(1),IU(4)),(C(0),IU(101)),(I97(0),IU(102)) EQUIVALENCE (J97(0),IU(103)) INTEGER ISEED(*) CHARACTER CHOPT*(*), CCHOPT*12 LOGICAL FIRST DATA FIRST / .TRUE. / C----------------------------------------------------------------------- IF ( FIRST ) THEN TWOM24 = 2.**(-24) TWOM48 = 2.**(-48) CD = 7654321.*TWOM24 CM = 16777213.*TWOM24 CINT = 362436.*TWOM24 MODCNS = 1000000000 FIRST = .FALSE. ENDIF CCHOPT = CHOPT IF ( CCHOPT .EQ. ' ' ) THEN ISEED(1) = 54217137 ISEED(2) = 0 ISEED(3) = 0 CCHOPT = 'S' JSEQ = 1 ENDIF IF ( INDEX(CCHOPT,'S') .NE. 0 ) THEN IF ( ISEQ .GT. 0 ) JSEQ = ISEQ IBASE = (JSEQ-1)*103 IF ( INDEX(CCHOPT,'V') .NE. 0 ) THEN DO 10 JJ = 1,103 IU(IBASE+JJ) = ISEED(JJ) 10 CONTINUE ELSE IJKL(IBASE) = ISEED(1) NTOT(IBASE) = ISEED(2) NTOT2(IBASE) = ISEED(3) IJ = IJKL(IBASE) / 30082 KL = IJKL(IBASE) - 30082*IJ I = MOD(IJ/177, 177) + 2 J = MOD(IJ, 177) + 2 K = MOD(KL/169, 178) + 1 L = MOD(KL, 169) DO 30 II = 1,97 S = 0. T = .5 DO 20 JJ = 1,24 M = MOD(MOD(I*J,179)*K, 179) I = J J = K K = M L = MOD(53*L+1, 169) IF ( MOD(L*M,64) .GE. 32 ) S = S+T T = 0.5*T 20 CONTINUE UU(II) = S 30 CONTINUE CC = CINT II97 = 97 IJ97 = 33 C COMPLETE INITIALIZATION BY SKIPPING (NTOT2*MODCNS+NTOT) RANDOMNUMBERS NITER = MODCNS DO 50 LOOP2 = 1,NTOT2(IBASE)+1 IF ( LOOP2 .GT.N TOT2(IBASE) ) NITER = NTOT(IBASE) DO 40 IDUM = 1,NITER UNI = UU(II97)-UU(IJ97) IF ( UNI .LT. 0. ) UNI = UNI+1. UU(II97) = UNI II97 = II97-1 IF ( II97 .EQ. 0 ) II97 = 97 IJ97 = IJ97-1 IF ( IJ97 .EQ. 0 ) IJ97 = 97 CC = CC - CD IF ( CC .LT. 0. ) CC = CC+CM 40 CONTINUE 50 CONTINUE I97(IBASE) = II97 J97(IBASE) = IJ97 C(IBASE) = CC DO 60 JJ = 1,97 U(IBASE+JJ) = UU(JJ) 60 CONTINUE ENDIF ELSEIF ( INDEX(CCHOPT,'R') .NE. 0 ) THEN IF ( ISEQ .GT. 0 ) THEN JSEQ = ISEQ ELSE ISEQ = JSEQ ENDIF IBASE = (JSEQ-1)*103 IF ( INDEX(CCHOPT,'V') .NE. 0 ) THEN NCOPY = 103 ELSE NCOPY = 3 ENDIF DO 70 JJ = 1,NCOPY ISEED(JJ) = IU(IBASE+JJ) 70 CONTINUE ENDIF RETURN END