C********************************************************************* FUNCTION KLU(I,J) C...Purpose: to provide various integer-valued event related data. COMMON/LUJETS/N,K(4000,5),P(4000,5),V(4000,5) COMMON/LUDAT1/MSTU(200),PARU(200),MSTJ(200),PARJ(200) COMMON/LUDAT2/KCHG(500,3),PMAS(500,4),PARF(2000),VCKM(4,4) SAVE /LUJETS/,/LUDAT1/,/LUDAT2/ C...Default value. For I=0 number of entries, number of stable entries C...or 3 times total charge. KLU=0 IF(I.LT.0.OR.I.GT.MSTU(4).OR.J.LE.0) THEN ELSEIF(I.EQ.0.AND.J.EQ.1) THEN KLU=N ELSEIF(I.EQ.0.AND.(J.EQ.2.OR.J.EQ.6)) THEN DO 100 I1=1,N IF(J.EQ.2.AND.K(I1,1).GE.1.AND.K(I1,1).LE.10) KLU=KLU+1 IF(J.EQ.6.AND.K(I1,1).GE.1.AND.K(I1,1).LE.10) KLU=KLU+ & LUCHGE(K(I1,2)) 100 CONTINUE ELSEIF(I.EQ.0) THEN C...For I > 0 direct readout of K matrix or charge. ELSEIF(J.LE.5) THEN KLU=K(I,J) ELSEIF(J.EQ.6) THEN KLU=LUCHGE(K(I,2)) C...Status (existing/fragmented/decayed), parton/hadron separation. ELSEIF(J.LE.8) THEN IF(K(I,1).GE.1.AND.K(I,1).LE.10) KLU=1 IF(J.EQ.8) KLU=KLU*K(I,2) ELSEIF(J.LE.12) THEN KFA=IABS(K(I,2)) KC=LUCOMP(KFA) KQ=0 IF(KC.NE.0) KQ=KCHG(KC,2) IF(J.EQ.9.AND.KC.NE.0.AND.KQ.NE.0) KLU=K(I,2) IF(J.EQ.10.AND.KC.NE.0.AND.KQ.EQ.0) KLU=K(I,2) IF(J.EQ.11) KLU=KC IF(J.EQ.12) KLU=KQ*ISIGN(1,K(I,2)) C...Heaviest flavour in hadron/diquark. ELSEIF(J.EQ.13) THEN KFA=IABS(K(I,2)) KLU=MOD(KFA/100,10)*(-1)**MOD(KFA/100,10) IF(KFA.LT.10) KLU=KFA IF(MOD(KFA/1000,10).NE.0) KLU=MOD(KFA/1000,10) KLU=KLU*ISIGN(1,K(I,2)) C...Particle history: generation, ancestor, rank. ELSEIF(J.LE.15) THEN I2=I I1=I 110 KLU=KLU+1 I2=I1 I1=K(I1,3) IF(I1.GT.0.AND.K(I1,1).GT.0.AND.K(I1,1).LE.20) GOTO 110 IF(J.EQ.15) KLU=I2 ELSEIF(J.EQ.16) THEN KFA=IABS(K(I,2)) IF(K(I,1).LE.20.AND.((KFA.GE.11.AND.KFA.LE.20).OR.KFA.EQ.22.OR. & (KFA.GT.100.AND.MOD(KFA/10,10).NE.0))) THEN I1=I 120 I2=I1 I1=K(I1,3) IF(I1.GT.0) THEN KFAM=IABS(K(I1,2)) ILP=1 IF(KFAM.NE.0.AND.KFAM.LE.10) ILP=0 IF(KFAM.EQ.21.OR.KFAM.EQ.91.OR.KFAM.EQ.92.OR.KFAM.EQ.93) & ILP=0 IF(KFAM.GT.100.AND.MOD(KFAM/10,10).EQ.0) ILP=0 IF(ILP.EQ.1) GOTO 120 ENDIF IF(K(I1,1).EQ.12) THEN DO 130 I3=I1+1,I2 IF(K(I3,3).EQ.K(I2,3).AND.K(I3,2).NE.91.AND.K(I3,2).NE.92 & .AND.K(I3,2).NE.93) KLU=KLU+1 130 CONTINUE ELSE I3=I2 140 KLU=KLU+1 I3=I3+1 IF(I3.LT.N.AND.K(I3,3).EQ.K(I2,3)) GOTO 140 ENDIF ENDIF C...Particle coming from collapsing jet system or not. ELSEIF(J.EQ.17) THEN I1=I 150 KLU=KLU+1 I3=I1 I1=K(I1,3) I0=MAX(1,I1) KC=LUCOMP(K(I0,2)) IF(I1.EQ.0.OR.K(I0,1).LE.0.OR.K(I0,1).GT.20.OR.KC.EQ.0) THEN IF(KLU.EQ.1) KLU=-1 IF(KLU.GT.1) KLU=0 RETURN ENDIF IF(KCHG(KC,2).EQ.0) GOTO 150 IF(K(I1,1).NE.12) KLU=0 IF(K(I1,1).NE.12) RETURN I2=I1 160 I2=I2+1 IF(I2.LT.N.AND.K(I2,1).NE.11) GOTO 160 K3M=K(I3-1,3) IF(K3M.GE.I1.AND.K3M.LE.I2) KLU=0 K3P=K(I3+1,3) IF(I3.LT.N.AND.K3P.GE.I1.AND.K3P.LE.I2) KLU=0 C...Number of decay products. Colour flow. ELSEIF(J.EQ.18) THEN IF(K(I,1).EQ.11.OR.K(I,1).EQ.12) KLU=MAX(0,K(I,5)-K(I,4)+1) IF(K(I,4).EQ.0.OR.K(I,5).EQ.0) KLU=0 ELSEIF(J.LE.22) THEN IF(K(I,1).NE.3.AND.K(I,1).NE.13.AND.K(I,1).NE.14) RETURN IF(J.EQ.19) KLU=MOD(K(I,4)/MSTU(5),MSTU(5)) IF(J.EQ.20) KLU=MOD(K(I,5)/MSTU(5),MSTU(5)) IF(J.EQ.21) KLU=MOD(K(I,4),MSTU(5)) IF(J.EQ.22) KLU=MOD(K(I,5),MSTU(5)) ELSE ENDIF RETURN END