C********************************************************************* C...PY4ENT C...Stores four partons or particles in their CM frame, with C...the first along the +z axis, the last in the xz plane with x > 0 C...and the second having y < 0 and y > 0 with equal probability. SUBROUTINE PY4ENT(IP,KF1,KF2,KF3,KF4,PECM,X1,X2,X4,X12,X14) C...Double precision and integer declarations. IMPLICIT DOUBLE PRECISION(A-H, O-Z) IMPLICIT INTEGER(I-N) INTEGER PYK,PYCHGE,PYCOMP C...Commonblocks. COMMON/PYJETS/N,NPAD,K(4000,5),P(4000,5),V(4000,5) COMMON/PYDAT1/MSTU(200),PARU(200),MSTJ(200),PARJ(200) COMMON/PYDAT2/KCHG(500,4),PMAS(500,4),PARF(2000),VCKM(4,4) cdh SAVE /PYJETS/,/PYDAT1/,/PYDAT2/ SAVE C...Standard checks. MSTU(28)=0 IF(MSTU(12).NE.12345) CALL PYLIST(0) IPA=MAX(1,IABS(IP)) IF(IPA.GT.MSTU(4)-3) CALL PYERRM(21, &'(PY4ENT:) writing outside PYJETS momory') KC1=PYCOMP(KF1) KC2=PYCOMP(KF2) KC3=PYCOMP(KF3) KC4=PYCOMP(KF4) IF(KC1.EQ.0.OR.KC2.EQ.0.OR.KC3.EQ.0.OR.KC4.EQ.0) CALL PYERRM(12, &'(PY4ENT:) unknown flavour code') C...Find masses. Reset K, P and V vectors. PM1=0D0 IF(MSTU(10).EQ.1) PM1=P(IPA,5) IF(MSTU(10).GE.2) PM1=PYMASS(KF1) PM2=0D0 IF(MSTU(10).EQ.1) PM2=P(IPA+1,5) IF(MSTU(10).GE.2) PM2=PYMASS(KF2) PM3=0D0 IF(MSTU(10).EQ.1) PM3=P(IPA+2,5) IF(MSTU(10).GE.2) PM3=PYMASS(KF3) PM4=0D0 IF(MSTU(10).EQ.1) PM4=P(IPA+3,5) IF(MSTU(10).GE.2) PM4=PYMASS(KF4) DO 110 I=IPA,IPA+3 DO 100 J=1,5 K(I,J)=0 P(I,J)=0D0 V(I,J)=0D0 100 CONTINUE 110 CONTINUE C...Check flavours. KQ1=KCHG(KC1,2)*ISIGN(1,KF1) KQ2=KCHG(KC2,2)*ISIGN(1,KF2) KQ3=KCHG(KC3,2)*ISIGN(1,KF3) KQ4=KCHG(KC4,2)*ISIGN(1,KF4) IF(MSTU(19).EQ.1) THEN MSTU(19)=0 ELSEIF(KQ1.EQ.0.AND.KQ2.EQ.0.AND.KQ3.EQ.0.AND.KQ4.EQ.0) THEN ELSEIF(KQ1.NE.0.AND.KQ2.EQ.2.AND.KQ3.EQ.2.AND.(KQ1+KQ4.EQ.0.OR. & KQ1+KQ4.EQ.4)) THEN ELSEIF(KQ1.NE.0.AND.KQ1+KQ2.EQ.0.AND.KQ3.NE.0.AND.KQ3+KQ4.EQ.0D0) & THEN ELSE CALL PYERRM(2,'(PY4ENT:) unphysical flavour combination') ENDIF K(IPA,2)=KF1 K(IPA+1,2)=KF2 K(IPA+2,2)=KF3 K(IPA+3,2)=KF4 C...Store partons/particles in K vectors for normal case. IF(IP.GE.0) THEN K(IPA,1)=1 IF(KQ1.NE.0.AND.(KQ2.NE.0.OR.KQ3.NE.0.OR.KQ4.NE.0)) K(IPA,1)=2 K(IPA+1,1)=1 IF(KQ2.NE.0.AND.KQ1+KQ2.NE.0.AND.(KQ3.NE.0.OR.KQ4.NE.0)) & K(IPA+1,1)=2 K(IPA+2,1)=1 IF(KQ3.NE.0.AND.KQ4.NE.0) K(IPA+2,1)=2 K(IPA+3,1)=1 C...Store partons for parton shower evolution from q-g-g-qbar or C...g-g-g-g event. ELSEIF(KQ1+KQ2.NE.0) THEN K(IPA,1)=3 K(IPA+1,1)=3 K(IPA+2,1)=3 K(IPA+3,1)=3 KCS=4 IF(KQ1.EQ.-1) KCS=5 K(IPA,KCS)=MSTU(5)*(IPA+1) K(IPA,9-KCS)=MSTU(5)*(IPA+3) K(IPA+1,KCS)=MSTU(5)*(IPA+2) K(IPA+1,9-KCS)=MSTU(5)*IPA K(IPA+2,KCS)=MSTU(5)*(IPA+3) K(IPA+2,9-KCS)=MSTU(5)*(IPA+1) K(IPA+3,KCS)=MSTU(5)*IPA K(IPA+3,9-KCS)=MSTU(5)*(IPA+2) C...Store partons for parton shower evolution from q-qbar-q-qbar event. ELSE K(IPA,1)=3 K(IPA+1,1)=3 K(IPA+2,1)=3 K(IPA+3,1)=3 K(IPA,4)=MSTU(5)*(IPA+1) K(IPA,5)=K(IPA,4) K(IPA+1,4)=MSTU(5)*IPA K(IPA+1,5)=K(IPA+1,4) K(IPA+2,4)=MSTU(5)*(IPA+3) K(IPA+2,5)=K(IPA+2,4) K(IPA+3,4)=MSTU(5)*(IPA+2) K(IPA+3,5)=K(IPA+3,4) ENDIF C...Check kinematics. MKERR=0 IF(0.5D0*X1*PECM.LE.PM1.OR.0.5D0*X2*PECM.LE.PM2.OR. &0.5D0*(2D0-X1-X2-X4)*PECM.LE.PM3.OR.0.5D0*X4*PECM.LE.PM4) &MKERR=1 PA1=SQRT(MAX(1D-10,(0.5D0*X1*PECM)**2-PM1**2)) PA2=SQRT(MAX(1D-10,(0.5D0*X2*PECM)**2-PM2**2)) PA4=SQRT(MAX(1D-10,(0.5D0*X4*PECM)**2-PM4**2)) X24=X1+X2+X4-1D0-X12-X14+(PM3**2-PM1**2-PM2**2-PM4**2)/PECM**2 CTHE4=(X1*X4-2D0*X14)*PECM**2/(4D0*PA1*PA4) IF(ABS(CTHE4).GE.1.002D0) MKERR=1 CTHE4=MAX(-1D0,MIN(1D0,CTHE4)) STHE4=SQRT(1D0-CTHE4**2) CTHE2=(X1*X2-2D0*X12)*PECM**2/(4D0*PA1*PA2) IF(ABS(CTHE2).GE.1.002D0) MKERR=1 CTHE2=MAX(-1D0,MIN(1D0,CTHE2)) STHE2=SQRT(1D0-CTHE2**2) CPHI2=((X2*X4-2D0*X24)*PECM**2-4D0*PA2*CTHE2*PA4*CTHE4)/ &MAX(1D-8*PECM**2,4D0*PA2*STHE2*PA4*STHE4) IF(ABS(CPHI2).GE.1.05D0) MKERR=1 CPHI2=MAX(-1D0,MIN(1D0,CPHI2)) IF(MKERR.EQ.1) CALL PYERRM(13, &'(PY4ENT:) unphysical kinematical variable setup') C...Store partons/particles in P vectors. P(IPA,3)=PA1 P(IPA,4)=SQRT(PA1**2+PM1**2) P(IPA,5)=PM1 P(IPA+3,1)=PA4*STHE4 P(IPA+3,3)=PA4*CTHE4 P(IPA+3,4)=SQRT(PA4**2+PM4**2) P(IPA+3,5)=PM4 P(IPA+1,1)=PA2*STHE2*CPHI2 P(IPA+1,2)=PA2*STHE2*SQRT(1D0-CPHI2**2)*(-1D0)**INT(PYR(0)+0.5D0) P(IPA+1,3)=PA2*CTHE2 P(IPA+1,4)=SQRT(PA2**2+PM2**2) P(IPA+1,5)=PM2 P(IPA+2,1)=-P(IPA+1,1)-P(IPA+3,1) P(IPA+2,2)=-P(IPA+1,2) P(IPA+2,3)=-P(IPA,3)-P(IPA+1,3)-P(IPA+3,3) P(IPA+2,4)=SQRT(P(IPA+2,1)**2+P(IPA+2,2)**2+P(IPA+2,3)**2+PM3**2) P(IPA+2,5)=PM3 C...Set N. Optionally fragment/decay. N=IPA+3 IF(IP.EQ.0) CALL PYEXEC RETURN END