dpm25diff.f

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*
*===sdiff================================================================*
*
      SUBROUTINE sdiff(EPROJ,PPROJ,KPROJ,NHKKH1,IQQDD)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine calls one single-diffractive event depending on the    *
* single-diffractive cross section for a given hadron-hadron interaction.*
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998,intmx=2488)
      CHARACTER*8 aname,anc
      COMMON /diqi/ ipvq(248),   ippv1(248),   ippv2(248), itvq(248),
     &              ittv1(248),  ittv2(248),   ipsq(intmx),ipsq2(intmx),
     &              ipsaq(intmx),ipsaq2(intmx),itsq(intmx),itsq2(intmx),
     &              itsaq(intmx),itsaq2(intmx),kkproj(248),kktarg(248)
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /nucc/   it,itz,ip,ipz,ijproj,ibproj,ijtarg,ibtarg
      COMMON /cmhico/ cmhis
      COMMON /dprin/ ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /dpar/ aname(210),aam(210),ga(210),tau(210),iich(210),
     &              iibar(210),k1(210),k2(210)
      COMMON /difpar/ pxc(902),  pyc(902),pzc(902),
     &                hec(902),  amc(902),ichc(902),
     &                ibarc(902),anc(902),nrc(902)
*----------------- S. Roesler 07/07/93
C     COMMON /COUNTEV/NCDIFF,NCSDIF
*---------- S. Roesler 5-11-93
      COMMON /ifragm/ifrag
      common/xxlmdd/ijlmdd,kdlmdd 
      COMMON /nuccms/gamv,bglv,dummy(7)

*
 
      DATA ncirej /0/
C     DATA NCDIFF /0/
      DATA sigdif,sigdih /6.788790702d0,3.631283998d0/
*
      ijlmdd= 0
      irej  = 0
      ktarg = 0
      pprox = 0.0d0
      pproy = 0.0d0
      pprol = pproj
      epro  = eproj
      ampro = aam(kproj)
      IF(ipri.GE.1)WRITE(6,'(A,2E20.8)')' SDIFF:EPROJ,PPROJ ',
     * eproj,pproj
C     WRITE(6,'(A,2E20.8)')' SDIFF:EPROJ,PPROJ ',
C    * EPROJ,PPROJ
*
      DO 10 i=1,it
         ihkk = i+ip
         IF (isthkk(ihkk).EQ.12) THEN
            ktarg = kktarg(i)
            ptarx = phkk(1,ihkk)
            ptary = phkk(2,ihkk)
            ptarl = phkk(3,ihkk)
            etar  = phkk(4,ihkk)
            amtar = phkk(5,ihkk)
            ptotx = pprox + ptarx
            ptoty = pproy + ptary
            ptotl = pprol + ptarl
            etot  = epro  + etar
            ptot  = sqrt(ptotx**2+ptoty**2+ptotl**2)
            amtot = sqrt(abs(etot-ptot)*(etot+ptot))
            gam   = etot /(amtot)
            bgx   = ptotx/(amtot)
            bgy   = ptoty/(amtot)
            bgl   = ptotl/(amtot)
            IF (ipev.GE.6) THEN
               WRITE(lout,1000) pprox,pproy,pprol,epro,ampro,kproj
               WRITE(lout,1001) ptarx,ptary,ptarl,etar,amtar,ktarg
               WRITE(lout,1011) ptotx,ptoty,ptotl,etot,amtot,ktarg
               WRITE(lout,1002) amtot,gam,bgx,bgy,bgl
               WRITE(lout,1702) gamv,bglv
 1000          FORMAT('SDIFF: PPROX,PPROY,PPROL,EPRO,AMPRO,KPROJ',
     &                        2e15.5,2e15.5,e15.6,i2)
 1001          FORMAT('SDIFF: PTARX,PTARY,PTARL,ETAR,AMTAR,KTARG',
     &                        5e15.6,i2)
 1011          FORMAT('SDIFF: PTOTX,PTOTY,PTOTL,ETOT,AMTOT,KTARG',
     &                        5e15.6,i2)
 1002          FORMAT('SDIFF: AMTOT,GAM,BGX,BGY,BGL',5e15.6)
 1702          FORMAT('SDIFF: GAMV,BGLV',2e15.6)
            ENDIF
C                 This is the hadron-hadron cms mot the overall cms
C                     (due to Fermi momenta)
            CALL daltra(gam,-bgx,-bgy,-bgl,pprox,pproy,pprol,epro,
     &                  ppcm,ppcmx,ppcmy,ppcml,epcm)
            CALL daltra(gam,-bgx,-bgy,-bgl,ptarx,ptary,ptarl,etar,
     &                  ptcm,ptcmx,ptcmy,ptcml,etcm)
C                 Back to lab frame
        CALL daltra(gam,bgx,bgy,bgl,ppcmx,ppcmy,ppcml,epcm,
     &                  ppla,pplax,pplay,pplal,epla)
            CALL daltra(gam,bgx,bgy,bgl,ptcmx,ptcmy,ptcml,etcm,
     &                  ptla,ptlax,ptlay,ptlal,etla)
C                And now into the real cms frame     
             epcms=gamv*epla-bglv*pplal
         pplcms=gamv*pplal-bglv*epla
         etcms=gamv*etla-bglv*ptlal
         ptlcms=gamv*ptlal-bglv*etla
            IF (ipev.GE.6) THEN
               WRITE(lout,1003) ppcm,ppcmx,ppcmy,ppcml,epcm
               WRITE(lout,1004) ptcm,ptcmx,ptcmy,ptcml,etcm
 1003          FORMAT('SDIFF: PPCM,PPCMX,PPCMY,PPCML,EPCM',5e15.5)
 1004          FORMAT('SDIFF: PTCM,PTCMX,PTCMY,PTCML,ETCM',5e15.5)
               WRITE(lout,1703) ppla,pplax,pplay,pplal,epla
               WRITE(lout,1704) ptla,ptlax,ptlay,ptlal,etla
 1703          FORMAT('SDIFF: PPLA,PPLAX,PPLAY,PPLAL,EPLA',5e15.5)
 1704          FORMAT('SDIFF: PTLA,PTLAX,PTLAY,PTLAL,ETLA',5e15.5)
               WRITE(lout,1803) ppcm,ppcmx,ppcmy,pplcms,epcms
               WRITE(lout,1804) ptcm,ptcmx,ptcmy,ptlcms,etcms
 1803          FORMAT('SDIFF: PPCM,PPCMX,PPCMY,PPLCMS,EPCMS',5e15.5)
 1804          FORMAT('SDIFF: PTCM,PTCMX,PTCMY,PTLCMS,ETCMS',5e15.5)
            ENDIF
            cod  = ppcml/ppcm
            cod2 = cod**2
            IF (cod2.GT.0.999999999999d0) cod2 = 0.999999999999d0
            sid  = sqrt((1.0d0-cod)*(1.0d0+cod))
            cof  = 1.0d0
            sif  = 0.0d0
            IF (ppcm*sid.GT.1.0d-9) THEN
               cof   = ppcmx/(sid*ppcm)
               sif   = ppcmy/(sid*ppcm)
               anorf = sqrt(cof**2+sif**2)
               cof   = cof/anorf
               sif   = sif/anorf
            ENDIF
            IF (ipev.GE.6) THEN
               WRITE(lout,1005) cod,sid,cof,sif
 1005          FORMAT('SDIFF: COD,SID,COF,SIF',4e15.5)
            ENDIF
C                 This is the hadron-hadron cms mot the overall cms
C                     (due to Fermi momenta)
            ecm = epcm + etcm
            IF (ipev.GE.6) THEN
               WRITE(lout,1705)ecm,epcm,etcm 
 1705          FORMAT('SDIFF:ECM,EPCM,ETCM',3e15.5)
            ENDIF
C------------------------------------------------------------------
C
C                                         Test J.R.2/94
C
C------------------------------------------------------------------
            CALL sihndi(ecm,kproj,ktarg,sigdif,sigdih)
C------------------------------------------------------------------
C
C                                         Test J.R.2/94
C
C------------------------------------------------------------------
            fakk=1.9
C ------------------------------------------------------------------
C
C                             further modification j.r.6.1.95
C
C--------------------------------------------------------------------
            IF(ecm.LE.10.d0)THEN
              fakk=1.d0
            ELSEIF(ecm.GE.30.d0)THEN
              fakk=1.9d0
            ELSE
              fak=(ecm-10.d0)/20.d0
              fakk=1.d0+fak*0.9d0
            ENDIF
        aitt=it
            IF((isingd.LE.2).AND.(kproj.EQ.1.OR.kproj.EQ.8))THEN
          aadiff=fakk*aitt**0.17d0
              sigdif=aadiff*sigdif
            ELSEIF((isingd.LE.2).AND.
     *      ((kproj.EQ.13).OR.(kproj.EQ.14).OR.(kproj.EQ.23)))THEN
          aadiff=fakk*aitt**0.15d0
              sigdif=aadiff*sigdif
            ELSEIF((isingd.LE.2).AND.
     *      ((kproj.EQ.15).OR.(kproj.EQ.16).OR.
     *      (kproj.EQ.24).OR.(kproj.EQ.25)))THEN
          aadiff=fakk*aitt**0.13d0
              sigdif=aadiff*sigdif
        ENDIF
C------------------------------------------------------------------
C
            sigin = dshnto(kproj,ktarg,ecm)-dshnel(kproj,ktarg,ecm)
            IF (ipev.GE.6) THEN
        WRITE(lout,1060)kproj,ktarg,ecm,sigdif/sigin
               WRITE(lout,1006)sigdif,sigdif-sigdih,sigdih,sigin
 1006          FORMAT('SDIFF: SIGDIF,SIGDIL,SIGDIH,SIGIN',4f10.5)
 1060          FORMAT('SDIFF: KPROJ,KTARG,ECM,SIGDIF/SIGIN',2i3,2f10.5)
            ENDIF
            iflagd = 0
            r = rndm(v)
            IF ((r.LE.(sigdif/sigin)).OR.(isingd.GE.2)) THEN
C              NCDIFF = NCDIFF+1
 2000          CONTINUE
C              IFLAGD = 1
C                         j.r.11/98 drop the following two lines
C              GAMV=GAM
C              BGLV=BGL
               r = rndm(v)
*---------------------- S.Roesler 5/26/93
               IF (((r.LT.(sigdih/sigdif)).OR.(isingd.EQ.5).OR.
     &              (isingd.EQ.6)).AND.(isingd.LE.6)) THEN
*
*--------------------- call high mass single diffractive event
*
          IF(isingd.GE.1)THEN
                  CALL vahmsd(ihkk,ecm,kproj,ktarg,irej)
          iflagd=1
          ENDIF
*
               ELSE IF((r.GE.(sigdih/sigdif)).OR.(isingd.EQ.7).OR.
     &              (isingd.EQ.8)) THEN
*
*
*--------------------- call low mass single diffractive event
*
C----------------------------------------------------------------
C
C                                     j.r. test 2/94
C
C----------------------------------------------------------------
        rrrr=rndm(vv)
        IF(isingd.GE.3.AND.isingd.LE.6)rrrr=1.d0
            IF((rrrr.LE.0.33d0).AND.
     *      ((kproj.EQ.15).OR.(kproj.EQ.16).OR.
     *      (kproj.EQ.1).OR.(kproj.EQ.8).OR.
     *      (kproj.EQ.13).OR.(kproj.EQ.14).OR.(kproj.EQ.23).OR.
     *      (kproj.EQ.24).OR.(kproj.EQ.25)))THEN
                  CALL valmdd(ihkk,ecm,kproj,ktarg,irej)
          iflagd=1
            ELSE      
C----------------------------------------------------------------
          IF(isingd.GE.1)THEN
                  CALL valmsd(ihkk,ecm,kproj,ktarg,irej)
          iflagd=1
          ENDIF
            ENDIF
*
               ENDIF
               IF (irej.GT.0) THEN
                  ncirej = ncirej + 1
                  IF (mod(ncirej,1000).EQ.0) THEN
                     WRITE(lout,1007) ncirej
 1007                FORMAT('SDIFF: REJECTION, NCIREJ = ',i8)
                  ENDIF
                  goto 2000
               ENDIF
*
           IF(iflagd.EQ.1)THEN
               CALL hadrdi(naux,kproj,ktarg,nhkkh1)
*
               iihkk = nhkk -naux
               DO 11 j=1,naux
                  CALL dtrans(pxc(j),pyc(j),pzc(j),
     &                        cod,sid,cof,sif,pxx,pyy,pll)
                  iihkk = iihkk + 1
                  IF (ipev.GE.6) THEN
                     WRITE(lout,1008) iihkk,pxx,pyy,pll
 1008                FORMAT('SDIFF: NHKK,PXX,PYY,PLL',i4,3f10.5)
                  ENDIF
                  phkk(1,iihkk) = pxx
                  phkk(2,iihkk) = pyy
                  phkk(3,iihkk) = pll
C                 IF (CMHIS.EQ.0.0D0) THEN
C                    CALL DALTRA(GAM,BGX,BGY,BGL,PXX,PYY,PLL,HEC(J),
C    &                    PLAB,PHKK(1,IIHKK),PHKK(2,IIHKK),
C    &                    PHKK(3,IIHKK),PHKK(4,IIHKK))
C                         Test j.r. 11/98
C---------------------------------------------------------------
C                 Back to lab frame
C           DO 1277 III=NHKKH1,NHKK
            iii=iihkk
        IF(isthkk(iii).EQ.1)THEN
        CALL daltra(gam,bgx,bgy,bgl,phkk(1,iii),phkk(2,iii),
     &      phkk(3,iii),phkk(4,iii),
     &                  ppla,pplax,pplay,pplal,epla)
C                And now into the real cms frame     
             epcms=gamv*epla-bglv*pplal
         pplcms=gamv*pplal-bglv*epla
         phkk(1,iii)=pplax
         phkk(2,iii)=pplay
         phkk(3,iii)=pplcms
         phkk(4,iii)=epcms
                  IF (ipev.GE.6) THEN
               WRITE(lout,1903) pplcms,epcms
 1903          FORMAT('SDIFF TEST cms: PPLCMS,EPCMS',2e15.5)
                  ENDIF
         ENDIF
C1277        CONTINUE        
C---------------------------------------------------------------
                     IF (ipev.GE.6) THEN
                        WRITE(lout,1009) iihkk,
     &                  phkk(1,iihkk),phkk(2,iihkk),phkk(3,iihkk),
     &                  phkk(4,iihkk)
 1009                   FORMAT('SDIFF: NHKK,PHKK(1..4)',i4,4e15.5)
                     ENDIF
C                 ENDIF
   11          CONTINUE
           ENDIF
            ENDIF
         ENDIF
   10 CONTINUE
      IF (ktarg.EQ.0) WRITE(lout,*)'SDIFF: NO INTERACTION'
 9999 CONTINUE
      RETURN
      END
*
*===vahmsd===============================================================*
*
      SUBROUTINE vahmsd(ITAPOI,ECM,KPROJ,KTARG,IREJ)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine selects x-values, flavors and 4-momenta of partons     *
* in high-mass single diffractive chains.                                *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998)
      CHARACTER*8 aname
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /abrdif/ xdq1,xdq2,xddq1,xddq2,
     &                ikvq1,ikvq2,ikd1q1,ikd2q1,ikd1q2,ikd2q2,
     &                idiffp,idifap,
     &                amdch1,amdch2,amdch3,gamdc1,gamdc2,gamdc3,
     &                pgxvc1,pgyvc1,pgzvc1,pgxvc2,pgyvc2,pgzvc2,
     &                pgxvc3,pgyvc3,pgzvc3,ndch1,ndch2,ndch3,
     &                ikdch1,ikdch2,ikdch3,
     &                pdq1(4),pdq2(4),pdd1(4),pdd2(4),pdfq1(4)
      COMMON /dpar/   aname(210),am(210),ga(210),tau(210),ich(210),
     &                ibar(210),k1(210),k2(210)
      COMMON /trafop/ gamp,bgamp,betp
      COMMON /enerin/ eproj,etarg
      COMMON /sdflag/ isd
      COMMON /xdidid/xdidi
*
      dimension mquark(3,30),ihkkq(-6:6),ihkkqq(-3:3,-3:3),
     &          idx(-4:4)
      DATA idx   /-4,-3,-1,-2,0,2,1,3,4/
      DATA ihkkq /-6,-5,-4,-3,-1,-2,0,2,1,3,4,5,6/
      DATA ihkkqq/-3301,-3103,-3203,0,   0,0,0,
     &            -3103,-1103,-2103,0,   0,   0,   0,
     &            -3203,-2103,-2203,0,   0,   0,   0,
     &                0,    0,    0,0,   0,   0,   0,
     &                0,    0,    0,0,2203,2103,3202,
     &                0,    0,    0,0,2103,1103,3103,
     &                0,    0,    0,0,3203,3103,3303/
*
*----------------------------------- quark content of hadrons:
*                                     1, 2, 3, 4  -   u, d, s, c
*                                    -1,-2,-3,-4  -  au,ad,as,ac
*
      DATA mquark/
     &   1,1,2,    -1,-1,-2,       0,0,0,       0,0,0,       0,0,0,
     &   0,0,0,       0,0,0,       1,2,2,    -1,-2,-2,       0,0,0,
     &   0,0,0,       0,0,0,      1,-2,0,      2,-1,0,      1,-3,0,
     &  3,-1,0,       1,2,3,    -1,-2,-3,       0,0,0,       2,2,3,
     &   1,1,3,       1,2,3,      1,-1,0,      2,-3,0,      3,-2,0,
     &  2,-2,0,      3,-3,0,       0,0,0,       0,0,0,       0,0,0/
      DATA unon/2.0/
      DATA ncrej, ncxdi, ncxp, ncxt /0, 0, 0, 0/
*
      isd   = 1
      irej  = 0
      iirej = 0
      eproj = (am(kproj)**2-am(ktarg)**2+ecm**2)/(2.0d0*ecm)
      etarg = (am(ktarg)**2-am(kproj)**2+ecm**2)/(2.0d0*ecm)
      IF(ipev.GE.2) WRITE(lout,1001) eproj,etarg
 1001 FORMAT('VAHMSD: EPROJ,ETARG ',2f10.5)
      ibproj = ibar(kproj)
      ibtarg = ibar(ktarg)
      IF (ibtarg.LE.0) THEN
         WRITE(lout,1002) ibtarg
 1002    FORMAT('VAHMSD: NO HMSD FOR TARGET WITH BARYON-CHARGE',i4)
         iirej=1
         goto 9999
      ENDIF
      iqp1 = mquark(1,kproj)
      iqp2 = mquark(2,kproj)
      iqp3 = mquark(3,kproj)
      iqt1 = mquark(1,ktarg)
      iqt2 = mquark(2,ktarg)
      iqt3 = mquark(3,ktarg)
      IF(ipev.GE.2) WRITE(lout,1003)
     &                ibproj,ibtarg,iqp1,iqp2,iqp3,iqt1,iqt2,iqt3
 1003 FORMAT('VAHMSD: IBPROJ,IBTARG,IQP1,IQP2,IQP3,IQT1,IQT2,IQT3 ',8i4)
*
      IF (ibproj.NE.0) THEN
*
*-------------------- q-qq (aq-aqaq) - flavors of projectile (baryon)
*
         isam = 1.0d0+2.999d0*rndm(v)
         goto(10,11,12) isam
   10    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         idiqp2 = iqp3
         goto 13
   11    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
         idiqp2 = iqp3
         goto 13
   12    CONTINUE
         iqp    = iqp3
         idiqp1 = iqp1
         idiqp2 = iqp2
   13    CONTINUE
*
      ELSE IF (ibproj.EQ.0) THEN
*
*-------------------- q-aq - flavors of projectile (meson)
*
         isam = 1.0d0+1.999d0*rndm(v)
         goto(14,15) isam
   14    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         goto 16
   15    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
   16    CONTINUE
         idiqp2 = 0
*
      ENDIF
*
*-------------------- q-qq - flavors of target (baryon)
*
      isam = 1.0d0+2.999d0*rndm(v)
      goto(17,18,19) isam
   17 CONTINUE
      iqt    = iqt1
      idiqt1 = iqt2
      idiqt2 = iqt3
      goto 20
   18 CONTINUE
      iqt    = iqt2
      idiqt1 = iqt1
      idiqt2 = iqt3
      goto 20
   19 CONTINUE
      iqt    = iqt3
      idiqt1 = iqt1
      idiqt2 = iqt2
   20 CONTINUE
*
      ikvq1  = iqp
      ikd1q1 = idiqp1
      ikd2q1 = idiqp2
*
      ikvq2  = iqt
      ikd1q2 = idiqt1
      ikd2q2 = idiqt2
*
      IF (ipev.GE.2) WRITE(lout,1004)
     &                 ikvq1,ikd1q1,ikd2q1,ikvq2,ikd1q2,ikd2q2
 1004 FORMAT('VAHMSD: IKVQ1,IKD1Q1,IKD2Q1,IKVQ2,IKD1Q2,IKD2Q2 ',6i4)
*
*-------------------- q-aq - flavors of diffractive parton
*
      idiffp = 1.0d0+2.3d0*rndm(v)
      idifap = -idiffp
      IF (ipev.GE.2) WRITE(lout,1005) idiffp,idifap
 1005 FORMAT('VAHMSD: IDIFFP,IDIFAP ',2i4)
*
*-------------------- IDIFTP = 1  target     (backward) hadron  excited
*                     IDIFTP = 2  projectile (forward)  hadron  excited
*
      idiftp = 1.0d0+1.999d0*rndm(v)
*----------------------- S.Roesler 5/26/93
      IF ((isingd.EQ.3).OR.(isingd.EQ.5)) idiftp = 1
      IF ((isingd.EQ.4).OR.(isingd.EQ.6)) idiftp = 2
*
      IF (ipev.GE.2) WRITE(lout,1006) idiftp
 1006 FORMAT('VAHMSD: IDIFTP ',i4)
      IF ((idiftp.NE.1).AND.(idiftp.NE.2)) THEN
         IF (ipev.GE.2) WRITE(lout,'(A19)') 'VAHMSD-ERROR: IDIFTP'
         goto 9999
      ENDIF
*
*-------------------- momentum fractions of quarks and diquarks
*
      xxmax = 0.8d0
   30 CONTINUE
      xp  = dbetar(0.5d0,unon)
      IF (xp.GE.xxmax) THEN
         ncxp = ncxp+1
         IF(mod(ncxp,500).EQ.0) WRITE(lout,1007) ncxp
 1007    FORMAT('VAHMSD: INEFFICIENT XP-SELECTION, NCXP=',i8)
         goto 30
      ENDIF
      xxp = 1.0d0-xp
   31 CONTINUE
      xt  = dbetar(0.5d0,unon)
      IF (xt.GE.xxmax)  THEN
         ncxt = ncxt+1
         IF(mod(ncxt,2500).EQ.0) WRITE(lout,1008) ncxt
 1008    FORMAT('VAHMSD: INEFFICIENT XT-SELECTION, NCXT=',i8)
         goto 31
      ENDIF
      xxt = 1.0d0-xt
      IF (ipev.GE.2) WRITE(lout,1010) xp,xxp,xt,xxt
 1010 FORMAT('VAHMSD: XP,XXP,XT,XXT ',4d10.5)
*-------------------- x - values of diffractive partons
*
      ncxdi = 0
   32 CONTINUE
      r = rndm(v)
      IF (idiftp.EQ.1) THEN
         xdimin = (3.0d0+400.0d0*(r**2))/(4.0d0*(etarg**2)*xxt)
         IF (ecm.LE.300.0d0) THEN
            rr = (1.0d0-exp(-((ecm/140.0d0)**4)))
            xdimin = (3.0d0+400.0d0*(r**2)*rr)/(4.0d0*(etarg**2)*xxt)
         ENDIF
      ELSE IF (idiftp.EQ.2) THEN
         xdimin = (3.0d0+400.0d0*(r**2))/(4.0d0*(eproj**2)*xxp)
         IF (ecm.LE.300.0d0) THEN
            rr = (1.0d0-exp(-((ecm/140.0d0)**4)))
            xdimin = (3.0d0+400.0d0*(r**2)*rr)/(4.0d0*(eproj**2)*xxp)
         ENDIF
      ENDIF
C-----------------------------------------------------------------
C                                    original version
C-----------------------------------------------------------------
C     XDIMAX = 0.05D0
C     IF (ECM.LE.1000.0D0) THEN
C        XDIMAX = 0.05D0*(1.0D0+EXP(-((ECM/420.0D0)**2)))
C        IF (IBPROJ.EQ.0) XDIMAX = 0.05D0*
CC---------------- change mass-cuts
CC   &                    (1.0D0+4.0D0*EXP(-((ECM/420.0D0)**2)))
C    &                    (1.0D0+2.0D0*EXP(-((ECM/420.0D0)**2)))
C     ENDIF
C-----------------------------------------------------------------
C-----------------------------------------------------------------
C                           version j.r.28.1.94
C extend diffraction beyond limits of single diffractive experiments
C-----------------------------------------------------------------
      xdimaa = 0.15d0
      xdimax = xdimaa
      IF (ecm.LE.10000.0d0) THEN
         xdimax = xdimaa*(1.0d0+exp(-((ecm/420.0d0)**2)))
         IF (ibproj.EQ.0) xdimax = xdimaa*
C----------------- change mass-cuts
C    &                    (1.0D0+4.0D0*EXP(-((ECM/420.0D0)**2)))
     &                    (1.0d0+2.0d0*exp(-((ecm/420.0d0)**2)))
      ENDIF
C-----------------------------------------------------------------
   40 CONTINUE
      IF (xdimin.GE.xdimax) THEN
         ncxdi = ncxdi+1
         IF (ncxdi.EQ.200) goto 9999
         goto 32
      ENDIF
      xditot = sampey(xdimin,xdimax)
      r    = rndm(v)**6
      dx   = xditot-xdimin
      xdi  = dx*r
C     IF (XDI.LT.XMINQ1) THEN
C        NCXDI = NCXDI+1
C        IF (MOD(NCXDI,2000).EQ.0) WRITE(LOUT,1011) NCXDI
C1011    FORMAT('VAHMSD: INEFFICIENT XDI-SELECTION, NCXDI=',I8)
C        GOTO 40
C     ENDIF
      xxdi = xdimin+(1.0d0-r)*dx
      IF (idiftp.EQ.1) THEN
         xxp = xxp-xdi-xxdi
         IF (xxp.LT.8.0d-2) goto 9999
      ELSE IF (idiftp.EQ.2) THEN
         xxt = xxt-xdi-xxdi
         IF (xxt.LT.8.0d-2) goto 9999
      ENDIF
      IF (ipev.GE.2) WRITE(lout,1012) xp,xxp,xt,xxt,xdi,xxdi
 1012 FORMAT('VAHMSD: XP,XXP,XT,XXT,XDI,XXDI ',6f10.5)
       xdidi=xdi+xxdi
       amdidi=sqrt(xdidi*ecm**2)
      IF(ipev.GE.2)WRITE(lout,*)'HM AMDIDI,XDIDI ',amdidi,xdidi
*
*-------------------- kinematical parameters of three chains in CMS
*
      IF ((ibproj.EQ.-1).AND.(idiftp.EQ.1)) THEN
*
*-------------------- target: baryon,   projectile: antibaryon
*                             (excited)
*
         xdifap = xdi
         xdiffp = xxdi
         CALL diffch(xdifap, idifap,     xt,  ikvq2,     99,
     &                xdiffp, idiffp,    xxt,    xxp,  etarg,
     &                amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                 ndch1, ikdch1,  eproj,   nuno,  iirej,      1)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(xdiffp, idiffp,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    xxp,  etarg,
     &                amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                 ndch2, ikdch2,  eproj,   nuno,  iirej,      2)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(    xp,  ikvq1,    xxp, ikd1q1, ikd2q1,
     &                   dum,   idum,    dum,    dum,  eproj,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
*
      ELSE IF ((ibproj.EQ.-1).AND.(idiftp.EQ.2)) THEN
*
*-------------------- target: baryon,   projectile: antibaryon
*                                                   (excited)
*
         xdifap = xxdi
         xdiffp = xdi
         CALL diffch(xdiffp, idiffp,     xp,  ikvq1,     99,
     &                xdifap, idifap,    xxp,    xxt,  eproj,
     &                amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                 ndch1, ikdch1,  etarg,   nuno,  iirej,      1)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(xdifap, idifap,    xxp, ikd1q1, ikd2q1,
     &                   dum,   idum,    dum,    xxt,  eproj,
     &                amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                 ndch2, ikdch2,  etarg,   nuno,  iirej,      2)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(    xt,  ikvq2,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    dum,  etarg,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
*
      ELSE IF ((ibproj.EQ.0).AND.(idiftp.EQ.1)) THEN
*
*-------------------- target: baryon,   projectile: meson
*                             (excited)
*
         xdifap = xdi
         xdiffp = xxdi
         CALL diffch(xdifap, idifap,     xt,  ikvq2,     99,
     &                xdiffp, idiffp,    xxt,    xxp,  etarg,
     &                amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                 ndch1, ikdch1,  eproj,   nuno,  iirej,      1)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(xdiffp, idiffp,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    xxp,  etarg,
     &                amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                 ndch2, ikdch2,  eproj,   nuno,  iirej,      2)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(    xp,  ikvq1,    xxp, ikd1q1,     99,
     &                   dum,   idum,    dum,    dum,  eproj,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
*
      ELSEIF ((ibproj.EQ.0).AND.(idiftp.EQ.2)) THEN
*
*-------------------- target: baryon,   projectile: meson
*                                                   (excited)
*
         IF (ikd1q1.LT.0) THEN
            xdifap = xdi
            xdiffp = xxdi
            CALL diffch(xdifap, idifap,     xp,  ikvq1,     99,
     &                   xdiffp, idiffp,    xxp,    xxt,  eproj,
     &                   amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                    ndch1, ikdch1,  etarg,   nuno,  iirej,      1)
            IF (iirej.EQ.1)  goto 9999
            CALL diffch(xdiffp, idiffp,    xxp, ikd1q1,     99,
     &                   xdifap, idifap,     xp,    xxt,  eproj,
     &                   amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                    ndch2, ikdch2,  etarg,   nuno,  iirej,      1)
            IF (iirej.EQ.1)  goto 9999
         ELSE
            xdifap = xxdi
            xdiffp = xdi
            CALL diffch(xdiffp, idiffp,     xp,  ikvq1,     99,
     &                   xdifap, idifap,    xxp,    xxt,  eproj,
     &                   amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                    ndch1, ikdch1,  etarg,   nuno,  iirej,      1)
            IF (iirej.EQ.1)  goto 9999
            CALL diffch(xdifap, idifap,    xxp, ikd1q1,     99,
     &                   xdiffp, idiffp,     xp,    xxt,  eproj,
     &                   amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                    ndch2, ikdch2,  etarg,   nuno,  iirej,      1)
            IF (iirej.EQ.1)  goto 9999
         ENDIF
         CALL diffch(    xt,  ikvq2,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    dum,  etarg,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
*
      ELSEIF ((ibproj.EQ.1).AND.(idiftp.EQ.1)) THEN
*
*-------------------- target: baryon,   projectile: baryon
*                             (excited)
*
         xdifap = xdi
         xdiffp = xxdi
         CALL diffch(xdifap, idifap,     xt,  ikvq2,     99,
     &                xdiffp, idiffp,    xxt,    xxp,  etarg,
     &                amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                 ndch1, ikdch1,  eproj,   nuno,  iirej,      1)
         IF (iirej.EQ.1)  goto 9999
         CALL diffch(xdiffp, idiffp,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    xxp,  etarg,
     &                amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                 ndch2, ikdch2,  eproj,   nuno,  iirej,      2)
         IF (iirej.EQ.1)  goto 9999
         CALL diffch(    xp,  ikvq1,    xxp, ikd1q1, ikd2q1,
     &                   dum,   idum,    dum,    dum,  eproj,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
*
      ELSE IF ((ibproj.EQ.1).AND.(idiftp.EQ.2)) THEN
*
*-------------------- target: baryon,   projectile: baryon
*                                                   (excited)
*
         xdifap = xdi
         xdiffp = xxdi
         CALL diffch(xdifap, idifap,     xp,  ikvq1,     99,
     &                xdiffp, idiffp,    xxp,    xxt,  eproj,
     &                amdch1,   ech1,   pch1, gamdc1,  pgvc1,
     &                 ndch1, ikdch1,  etarg,   nuno,  iirej,      1)
         IF (iirej.EQ.1)  goto 9999
         CALL diffch(xdiffp, idiffp,    xxp, ikd1q1, ikd2q1,
     &                   dum,   idum,    dum,    xxt,  eproj,
     &                amdch2,   ech2,   pch2, gamdc2,  pgvc2,
     &                 ndch2, ikdch2,  etarg,   nuno,  iirej,      2)
         IF (iirej.EQ.1) goto 9999
         CALL diffch(    xt,  ikvq2,    xxt, ikd1q2, ikd2q2,
     &                   dum,   idum,    dum,    dum,  etarg,
     &                amdch3,   ech3,   pch3, gamdc3,  pgvc3,
     &                 ndch3,   idum,    dum,   nuno,  iirej,      3)
         IF (iirej.EQ.1)  goto 9999
*
      ENDIF
*
*-------------------- store results in common block /ABRDIF/
*
      xdq1  = xp
      xdq2  = xt
      xddq1 = xxp
      xddq2 = xxt
*
      IF (ipev.GE.2) THEN
         WRITE(lout,1013) amdch1,ech1,pch1,gamdc1,pgvc1,ikdch1,ndch1
 1013    FORMAT('VAHMSD: AMDCH1,ECH1,PCH1,GAMDC1,PGVC1,IKDCH1,NDCH1 ',
     &                                                     5f10.5,2i4)
         WRITE(lout,1014) amdch2,ech2,pch2,gamdc2,pgvc2,ikdch2,ndch2
 1014    FORMAT('VAHMSD: AMDCH2,ECH2,PCH2,GAMDC2,PGVC2,IKDCH2,NDCH2 ',
     &                                                     5f10.5,2i4)
         WRITE(lout,1015) amdch3,ech3,pch3,gamdc3,pgvc3,ndch3
 1015    FORMAT('VAHMSD: AMDCH3,ECH3,PCH3,GAMDC3,PGVC3,NDCH3 ',
     &                                                     5f10.5,i4)
      ENDIF
*
*-------------------- select transverse momenta
*
      IF (idiftp.EQ.1) THEN
         CALL diffpt(   ech1,   pch1, xdifap,     xt,
     &                  ech2,   pch2, xdiffp,    xxt,
     &                  ech3,   pch3,  eproj,  kproj,
     &                 etarg,  eproj,  iirej)
      ELSE IF (idiftp.EQ.2) THEN
         IF ((ibproj.LT.0).OR.(ikvq1.LT.0)) THEN
            CALL diffpt(   ech1,   pch1, xdiffp,     xp,
     &                     ech2,   pch2, xdifap,    xxp,
     &                     ech3,   pch3,  etarg,  ktarg,
     &                    eproj,  etarg,  iirej)
         ELSE
            CALL diffpt(   ech1,   pch1, xdifap,     xp,
     &                     ech2,   pch2, xdiffp,    xxp,
     &                     ech3,   pch3,  etarg,  ktarg,
     &                    eproj,  etarg,  iirej)
         ENDIF
      ENDIF
      IF (iirej.EQ.1) goto 9999
*
*-------------------- store results in common-block /HKKEVT/
*
*                     partonen of projectile
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 21
      idhkk(nhkk)   = ihkkq(idx(ikvq1))
      jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xdq1
      phkk(4,nhkk) = xdq1
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,1)
      vhkk(2,nhkk) = vhkk(2,1)
      vhkk(3,nhkk) = vhkk(3,1)
      vhkk(4,nhkk) = vhkk(4,1)
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 21
      idhkk(nhkk)   = ihkkqq(idx(ikd1q1),idx(ikd2q1))
      jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xddq1
      phkk(4,nhkk) = xddq1
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,1)
      vhkk(2,nhkk) = vhkk(2,1)
      vhkk(3,nhkk) = vhkk(3,1)
      vhkk(4,nhkk) = vhkk(4,1)
*
*                     partonen of target
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 22
      idhkk(nhkk)   = ihkkq(idx(ikvq2))
      jmohkk(1,nhkk) = itapoi
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xdq2
      phkk(4,nhkk) = xdq2
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,itapoi)
      vhkk(2,nhkk) = vhkk(2,itapoi)
      vhkk(3,nhkk) = vhkk(3,itapoi)
      vhkk(4,nhkk) = vhkk(4,itapoi)
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 22
      idhkk(nhkk)   = ihkkqq(idx(ikd1q2),idx(ikd2q2))
      jmohkk(1,nhkk) = itapoi
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xddq2
      phkk(4,nhkk) = xddq2
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,itapoi)
      vhkk(2,nhkk) = vhkk(2,itapoi)
      vhkk(3,nhkk) = vhkk(3,itapoi)
      vhkk(4,nhkk) = vhkk(4,itapoi)
*
*                     sea q-aq pair
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 30+idiftp
      idhkk(nhkk)   = ihkkq(idx(idiffp))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = 1
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = itapoi
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xxdi
      phkk(4,nhkk) = xxdi
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 30+idiftp
      idhkk(nhkk)   = ihkkq(idx(idifap))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = 1
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = itapoi
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = 0.0d0
      phkk(2,nhkk) = 0.0d0
      phkk(3,nhkk) = xdi
      phkk(4,nhkk) = xdi
      phkk(5,nhkk) = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                     ends of chain 1
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 123-idiftp
      ind = nhkk-2-2*idiftp
      idhkk(nhkk)   = idhkk(ind)
      jmohkk(1,nhkk) = ind
      jmohkk(2,nhkk) = jmohkk(1,ind)
      jdahkk(1,nhkk) = nhkk+2
      jdahkk(2,nhkk) = nhkk+2
      phkk(1,nhkk) = pdq1(1)
      phkk(2,nhkk) = pdq1(2)
      phkk(3,nhkk) = pdq1(3)
      phkk(4,nhkk) = pdq1(4)
      phkk(5,nhkk) = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,ind)+xxpp
      vhkk(2,nhkk) = vhkk(2,ind)+yypp
      vhkk(3,nhkk) = vhkk(3,ind)
      vhkk(4,nhkk) = vhkk(4,ind)
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 130+idiftp
      IF (idhkk(nhkk-1).GT.0) jmohkk(1,nhkk) = nhkk-2
      IF (idhkk(nhkk-1).LE.0) jmohkk(1,nhkk) = nhkk-3
      jmohkk(2,nhkk) = jmohkk(1,nhkk-3)
      jdahkk(1,nhkk) = nhkk+1
      jdahkk(2,nhkk) = nhkk+1
      idhkk(nhkk)   = idhkk(jmohkk(1,nhkk))
      phkk(1,nhkk) = pdd2(1)
      phkk(2,nhkk) = pdd2(2)
      phkk(3,nhkk) = pdd2(3)
      phkk(4,nhkk) = pdd2(4)
      phkk(5,nhkk) = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                     chain 1
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 199
      idhkk(nhkk)   = 88888
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = nhkk-1
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(5,nhkk) = amdch1
      vhkk(1,nhkk) = vhkk(1,nhkk-1)
      vhkk(2,nhkk) = vhkk(2,nhkk-1)
      vhkk(3,nhkk) = vhkk(3,nhkk-1)
      IF ((betp.NE.0.0d0).AND.(bgamp.NE.0.0d0))
     &vhkk(4,nhkk) = vhkk(3,nhkk)/betp-vhkk(3,nhkk-2)/bgamp
*
*                     ends of chain 2
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 123-idiftp
      ind = nhkk-4-2*idiftp
      idhkk(nhkk)   = idhkk(ind)
      jmohkk(1,nhkk) = ind
      jmohkk(2,nhkk) = jmohkk(1,ind)
      jdahkk(1,nhkk) = nhkk+2
      jdahkk(2,nhkk) = nhkk+2
      phkk(1,nhkk) = pdd1(1)
      phkk(2,nhkk) = pdd1(2)
      phkk(3,nhkk) = pdd1(3)
      phkk(4,nhkk) = pdd1(4)
      phkk(5,nhkk) = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,ind)+xxpp
      vhkk(2,nhkk) = vhkk(2,ind)+yypp
      vhkk(3,nhkk) = vhkk(3,ind)
      vhkk(4,nhkk) = vhkk(4,ind)
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 130+idiftp
      jmohkk(1,nhkk) = 2*nhkk-11-jmohkk(1,nhkk-3)
      jmohkk(2,nhkk) = jmohkk(1,nhkk-6)
      jdahkk(1,nhkk) = nhkk+1
      jdahkk(2,nhkk) = nhkk+1
      idhkk(nhkk)   = idhkk(jmohkk(1,nhkk))
      phkk(1,nhkk) = pdq2(1)
      phkk(2,nhkk) = pdq2(2)
      phkk(3,nhkk) = pdq2(3)
      phkk(4,nhkk) = pdq2(4)
      phkk(5,nhkk) = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk-6))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk-6))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk-6))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk-6))
*
*                     chain 2
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 199
      idhkk(nhkk)   = 88888
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = nhkk-1
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(5,nhkk) = amdch2
      vhkk(1,nhkk) = vhkk(1,nhkk-1)
      vhkk(2,nhkk) = vhkk(2,nhkk-1)
      vhkk(3,nhkk) = vhkk(3,nhkk-1)
      IF ((betp.NE.0.0d0).AND.(bgamp.NE.0.0d0))
     &vhkk(4,nhkk) = vhkk(3,nhkk)/betp-vhkk(3,nhkk-2)/bgamp
*
*                     diffractive nucleon
*
      nhkk = nhkk+1
      isthkk(nhkk)   = 199
      idhkk(nhkk)   = 88888
      jmohkk(1,nhkk) = nhkk-14+2*idiftp
      jmohkk(2,nhkk) = nhkk-13+2*idiftp
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk) = pdfq1(1)
      phkk(2,nhkk) = pdfq1(2)
      phkk(3,nhkk) = pdfq1(3)
      phkk(4,nhkk) = pdfq1(4)
      phkk(5,nhkk) = amdch3
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
C     WRITE(6,*)' Diffr. Nucleon'
C    *,PHKK(3,NHKK),PHKK(4,NHKK),PHKK(5,NHKK)
*
*---------- S. Roesler 21-10-93
*      check energy-momentum conservation
      IF (ipev.GE.2) THEN
         px = pdq1(1)+pdq2(1)+pdd1(1)+pdd2(1)+pdfq1(1)
         py = pdq1(2)+pdq2(2)+pdd1(2)+pdd2(2)+pdfq1(2)
         pz = pdq1(3)+pdq2(3)+pdd1(3)+pdd2(3)+pdfq1(3)
         ee = ecm-(pdq1(4)+pdq2(4)+pdd1(4)+pdd2(4)+pdfq1(4))
         WRITE(lout,*)'VAHMSD: ENERGY-MOMENTUM-CHECK (PX,PY,PZ,E)'
         WRITE(lout,'(5F12.6)')px,py,pz,ee,ecm
      ENDIF
*
      RETURN
*
 9999 CONTINUE
      ncrej = ncrej+1
      IF (mod(ncrej,2500).EQ.0) WRITE(lout,9900) ncrej
 9900 FORMAT('REJECTION IN VAHMSD ',i10)
      iirej = 0
      irej  = 1
      RETURN
      END
*
*===diffpt===============================================================*
*
      SUBROUTINE diffpt(   ECH1,   PCH1, XDICH1,   XCH1,
     &                     ech2,   pch2, xdich2,   xch2,
     &                     ech3,   pch3,  ech3i,  kch3i,
     &                       ee,    ees,  iirej)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine is called by VAHMSD (HMSD), selects the transverse     *
* momenta of the chains and the diffractive nucleon.                     *
* The results are stored in the common-block ABRDIF.                     *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998)
      CHARACTER*8 aname
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /abrdif/ xdq1,xdq2,xddq1,xddq2,
     &                ikvq1,ikvq2,ikd1q1,ikd2q1,ikd1q2,ikd2q2,
     &                idiffp,idifap,
     &                amdch1,amdch2,amdch3,gamdc1,gamdc2,gamdc3,
     &                pgxvc1,pgyvc1,pgzvc1,pgxvc2,pgyvc2,pgzvc2,
     &                pgxvc3,pgyvc3,pgzvc3,ndch1,ndch2,ndch3,
     &                ikdch1,ikdch2,ikdch3,
     &                pdq1(4),pdq2(4),pdd1(4),pdd2(4),pdfq1(4)
      COMMON /dpar/   aname(210),am(210),ga(210),tau(210),ich(210),
     &                ibar(210),k1(210),k2(210)
      DATA ncpt /0/
*
      pch3i = sign(sqrt((ech3i-am(kch3i))*(ech3i+am(kch3i))),pch3)
*
*-------------------- select transverse momenta - diffractive particle
*
      tttmin = (ech3-ech3i)**2-(pch3-pch3i)**2
   10 CONTINUE
*
      xdiff = xdich1+xdich2
      btp0  = 3.7d0
      alph  = 0.24d0
      slope = btp0-2.0d0*alph*log(xdiff)
      y     = rndm(v)
      ttt   = -log(1.0d0-y)/slope
      IF (ipev.GE.2) THEN
         WRITE(lout,1009) slope,ttt
 1009    FORMAT('VAHMSD/DIFFPT: SLOPE,TTT ',2e10.5)
      ENDIF
*
      IF (ttt.LE.abs(tttmin)) goto 10
      ttt = -abs(ttt)
      IF (ipev.GE.2) WRITE(lout,1000) pch3i,tttmin,ttt
 1000 FORMAT('VAHMSD/DIFFPT: PCH3I,TTTMIN,TTT ',3f10.5)
      pch3f = abs(ttt-(ech3-ech3i)**2+pch3**2+pch3i**2)/(2*pch3i)
      IF ((pch3**2).LE.(pch3f**2)) THEN
         ncpt = ncpt+1
         IF(mod(ncpt,5000).EQ.0) WRITE(lout,1001) ncpt
 1001    FORMAT('VAHMSD/DIFFPT: INEFFICIENT PT-SELECTION 1, NCPT=',i8)
         goto 10
      ENDIF
      p3xyf = sqrt(pch3**2-pch3f**2)
      CALL dsfecf(sfe,cfe)
      pxch3f = p3xyf*cfe
      pych3f = p3xyf*sfe
*
*-------------------- select transverse momenta for partons of chain 1
*
      IF (ndch1.EQ.-99) THEN
         eaq2   = 0.0d0
         ptxva2 = 0.0d0
         ptyva2 = 0.0d0
         plaq2  = 0.0d0
         eq1    = 0.0d0
         ptxdq1 = 0.0d0
         ptydq1 = 0.0d0
         plq1   = 0.0d0
         pxch1f = 0.0d0
         pych1f = 0.0d0
         plch1f = 0.0d0
         goto 11
      ENDIF
      pych1f = -abs(pch1/pch3)*pych3f
      pxch1f = -abs(pych1f/pych3f)*pxch3f
      temp   = pxch1f**2+pych1f**2
      IF ((pch1**2).LT.temp) THEN
         ncpt = ncpt+1
         IF(mod(ncpt,5000).EQ.0) WRITE(lout,1002) ncpt
 1002    FORMAT('VAHMSD/DIFFPT: INEFFICIENT PT-SELECTION 2, NCPT=',i8)
         goto 10
      ENDIF
      plch1f = sign(sqrt(pch1**2-temp),pch1)
      eaq2   = ees*xdich1
      temp   = abs(eaq2/pch1)
      ptxva2 = -pxch1f*temp
      ptyva2 = -pych1f*temp
      plaq2  = -plch1f*temp
      eq1    = ee*xch1
      temp   = abs(eq1/pch1)
      ptxdq1 = pxch1f*temp
      ptydq1 = pych1f*temp
      plq1   = plch1f*temp
*
*-------------------- select transverse momenta for partons of chain 2
*
   11 CONTINUE
      IF (ndch2.EQ.-99) THEN
         eq2    = 0.0d0
         ptxdq2 = 0.0d0
         ptydq2 = 0.0d0
         plq2   = 0.0d0
         eaq1   = 0.0d0
         ptxva1 = 0.0d0
         ptyva1 = 0.0d0
         plaq1  = 0.0d0
         pxch2f = 0.0d0
         pych2f = 0.0d0
         plch2f = 0.0d0
         goto 12
      ENDIF
      pych2f = -abs(pch2/pch3)*pych3f
      pxch2f = -abs(pych2f/pych3f)*pxch3f
      temp   = pxch2f**2+pych2f**2
      IF ((pch2**2).LT.temp) THEN
         ncpt = ncpt+1
         IF(mod(ncpt,5000).EQ.0) WRITE(lout,1003) ncpt
 1003    FORMAT('VAHMSD/DIFFPT: INEFFICIENT PT-SELECTION 3, NCPT=',i8)
         goto 10
      ENDIF
      plch2f = sign(sqrt(pch2**2-temp),pch2)
      eq2    = ees*xdich2
      temp   = abs(eq2/pch2)
      ptxdq2 = -pxch2f*temp
      ptydq2 = -pych2f*temp
      plq2   = -plch2f*temp
      eaq1   = ee*xch2
      temp   = abs(eaq1/pch2)
      ptxva1 = pxch2f*temp
      ptyva1 = pych2f*temp
      plaq1  = plch2f*temp
*
   12 CONTINUE
      ptxch3 = pxch3f
      ptych3 = pych3f
      pch3   = pch3f
*---------- S. Roesler 11/4/93
*           calculate diffractive x-value
      IF (ipev.GE.2) THEN
         tempx = ptxva2+ptxdq1+ptxdq2+ptxva1
         tempy = ptyva2+ptydq1+ptydq2+ptyva1
         tempz = plaq2+plq1+plq2+plaq1
         tempe = eaq1+eaq2+eq1+eq2
     tempm = sqrt(tempe**2-tempx**2-tempy**2-tempz**2)
         tempp = tempm**2/((ees+ee)**2)
     WRITE(*,*)'diffractive x-value before energy/momentum corr.',
     &              tempp
      ENDIF
*
*---------- S. Roesler 10/26/93
*
*           introduce off-shell partons in order to ensure
*           energy-momentum conservation
*
      diffx = pxch3f+ptxva2+ptxdq1+ptxdq2+ptxva1
      diffy = pych3f+ptyva2+ptydq1+ptydq2+ptyva1
      diffz = pch3f+plaq2+plq1+plq2+plaq1
      IF (ipev.GE.2) THEN
         WRITE(lout,1011) diffx,diffy,diffz
 1011    FORMAT('VAHMSD/DIFFPT: DIFFX,DIFFY,DIFFZ ',3e15.5)
      ENDIF
*
      IF ((ndch1.EQ.-99).OR.(ndch1.EQ.1).OR.(ndch1.EQ.-1)) THEN
*
         ptxdq2 = ptxdq2-diffx/2.0d0
         ptxva1 = ptxva1-diffx/2.0d0
*
         ptydq2 = ptydq2-diffy/2.0d0
         ptyva1 = ptyva1-diffy/2.0d0
*
         plq2   = plq2  -diffz/2.0d0
         plaq1  = plaq1 -diffz/2.0d0
*
      ELSEIF ((ndch2.EQ.-99).OR.(ndch2.EQ.1).OR.(ndch2.EQ.-1)) THEN
*
         ptxva2 = ptxva2-diffx/2.0d0
         ptxdq1 = ptxdq1-diffx/2.0d0
*
         ptyva2 = ptyva2-diffy/2.0d0
         ptydq1 = ptydq1-diffy/2.0d0
*
         plaq2  = plaq2 -diffz/2.0d0
         plq1   = plq1  -diffz/2.0d0
*
      ELSE
*
         ptxva2 = ptxva2-diffx/4.0d0
         ptxdq1 = ptxdq1-diffx/4.0d0
         ptxdq2 = ptxdq2-diffx/4.0d0
         ptxva1 = ptxva1-diffx/4.0d0
*
         ptyva2 = ptyva2-diffy/4.0d0
         ptydq1 = ptydq1-diffy/4.0d0
         ptydq2 = ptydq2-diffy/4.0d0
         ptyva1 = ptyva1-diffy/4.0d0
*
         plaq2  = plaq2 -diffz/4.0d0
         plq1   = plq1  -diffz/4.0d0
         plq2   = plq2  -diffz/4.0d0
         plaq1  = plaq1 -diffz/4.0d0
*
      ENDIF
*---------- S. Roesler 11/4/93
*           calculate diffractive x-value
      IF (ipev.GE.2) THEN
         tempx = ptxva2+ptxdq1+ptxdq2+ptxva1
         tempy = ptyva2+ptydq1+ptydq2+ptyva1
         tempz = plaq2+plq1+plq2+plaq1
         tempe = eaq1+eaq2+eq1+eq2
     tempm = sqrt(tempe**2-tempx**2-tempy**2-tempz**2)
         tempp = tempm**2/((ees+ee)**2)
     WRITE(*,*)'diffractive x-value after energy/momentum corr.',
     &              tempp
      ENDIF
*
*           recalculate chain masses...
*
      amdch1 = sqrt(abs((eaq2+eq1)**2-(ptxva2+ptxdq1)**2
     &         -(ptyva2+ptydq1)**2-(plaq2+plq1)**2)+1.0d-8)
      amdch2 = sqrt(abs((eq2+eaq1)**2-(ptxdq2+ptxva1)**2
     &         -(ptydq2+ptyva1)**2-(plq2+plaq1)**2)+1.0d-8)
*
      IF (ipev.GE.2) THEN
         WRITE(lout,1012) amdch1,amdch2
 1012    FORMAT('VAHMSD/DIFFPT: AMDCH1,AMDCH2 ',2e10.5)
      ENDIF
*
*           ...and the Lorentz-parameter gamma
*
      gamdc1 = (eaq2+eq1)/amdch1
      gamdc2 = (eq2+eaq1)/amdch2
      IF (ipev.GE.2) THEN
         WRITE(lout,1013) gamdc1,gamdc2
 1013    FORMAT('VAHMSD/DIFFPT: GAMDC1,GAMDC2 ',2e10.5)
      ENDIF
*
*-------------------- store results in common block /ABRDIF/
*
      pdq1(1)  = ptxdq1
      pdq1(2)  = ptydq1
      pdq1(3)  = plq1
      pdq1(4)  = eq1
      pdd1(1)  = ptxva1
      pdd1(2)  = ptyva1
      pdd1(3)  = plaq1
      pdd1(4)  = eaq1
      pdfq1(1) = ptxch3
      pdfq1(2) = ptych3
      pdfq1(3) = pch3
      pdfq1(4) = ech3
      pdq2(1)  = ptxdq2
      pdq2(2)  = ptydq2
      pdq2(3)  = plq2
      pdq2(4)  = eq2
      pdd2(1)  = ptxva2
      pdd2(2)  = ptyva2
      pdd2(3)  = plaq2
      pdd2(4)  = eaq2
      IF (ipev.GE.2) THEN
         WRITE(lout,1004)
 1004    FORMAT('VAHMSD/DIFFPT: PDQ1,PDD1,PDQ2,PDD2,PDFQ1 ')
         WRITE(lout,1005)
     &      (pdq1(j),pdd1(j),pdq2(j),pdd2(j),pdfq1(j),j=1,4)
 1005    FORMAT(12x,5f10.5)
      ENDIF
      pgxvc1 = (ptxdq1+ptxva2)/amdch1
      pgyvc1 = (ptydq1+ptyva2)/amdch1
      pgzvc1 = (plq1+plaq2)/amdch1
      pgxvc2 = (ptxva1+ptxdq2)/amdch2
      pgyvc2 = (ptyva1+ptydq2)/amdch2
      pgzvc2 = (plaq1+plq2)/amdch2
      pgxvc3 = ptxch3/amdch3
      pgyvc3 = ptych3/amdch3
      pgzvc3 = pch3/amdch3
*
      pxch1f = ptxdq1+ptxva2
      pych1f = ptydq1+ptyva2
      plch1f = plq1+plaq2
      pxch2f = ptxva1+ptxdq2
      pych2f = ptyva1+ptydq2
      plch2f = plaq1+plq2
*
      IF (ipev.GE.2) THEN
         WRITE(lout,1006) pgxvc1,pgyvc1,pgzvc1
 1006    FORMAT('VAHMSD/DIFFPT: PGXVC1,PGYVC1,PGZVC1 ',3f10.5)
         WRITE(lout,1007) pgxvc2,pgyvc2,pgzvc2
 1007    FORMAT('VAHMSD/DIFFPT: PGXVC2,PGYVC2,PGZVC2 ',3f10.5)
         WRITE(lout,1008) pgxvc3,pgyvc3,pgzvc3
 1008    FORMAT('VAHMSD/DIFFPT: PGXVC3,PGYVC3,PGZVC3 ',3f10.5)
      ENDIF
      IF ((ndch1.EQ.-99).AND.(ndch2.EQ.-99)) THEN
         WRITE(lout,*) 'REJECT IN DIFFPT: NO CHAINS CREATED'
         iirej = 1
         RETURN
      ENDIF
*
*-------------------- store results in common block /HKKEVT/
*
      phkk(1,nhkk+9) = pxch1f
      phkk(2,nhkk+9) = pych1f
      phkk(3,nhkk+9) = plch1f
      phkk(4,nhkk+9) = ech1
*
      phkk(1,nhkk+12) = pxch2f
      phkk(2,nhkk+12) = pych2f
      phkk(3,nhkk+12) = plch2f
      phkk(4,nhkk+12) = ech2
*
      RETURN
      END
*
*===diffch================================================================
*
      SUBROUTINE diffch ( XSEA,  IFSEA,   XPAR, IFPARA, IFPARB,
     &                   xsea2, ifsea2, xpar12, xpar22,     ee,
     &                      rm,    ech,    pch,  gamma,   beta,
     &                    ndch,    ich,    ees,   nuno,  iirej,   iopt)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine is called by VAHMSD (HMSD) and calculates the kine-    *
* matical parameters of chain IOPT from sampled x-values and flavors     *
* in CMS.                                                                *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      CHARACTER*8 aname
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /dpar/   aname(210),am(210),ga(210),tau(210),iich(210),
     &                ibar(210),k1(210),k2(210)
      common/dinpda/imps(6,6),imve(6,6),ib08(6,21),ib10(6,21),ia08(6,21)
     &,ia10(6,21),a1,b1,b2,b3,lt,le,bet,as,b8,ame,diq,isu
      DATA ncnoth,ncwd /0,0/
*
      goto(1,2,3) iopt
*
*-------------------- kinematical parameters of a q-aq (in any order) chain
*                     XSEA - XPAR, IFSEA - IFPAR
*
    1 CONTINUE
      iirej = 0
      ifq   = ifpara
      ifaq  = iabs(ifsea)
      IF (ifq.LT.0) THEN
         ifq  = ifsea
         ifaq = iabs(ifpara)
      ENDIF
      ips  = imps(ifaq,ifq)
      iv   = imve(ifaq,ifq)
      rmps = am(ips)
      rmv  = am(iv)
      rmbb = rmv+3.0d-1
      ndch = 0
*
      IF ((xsea.LE.0.0d0).OR.(xpar.LE.0.0d0)) THEN
         WRITE(lout,*) 'REJECTION IN DIFFCH: 1, XSEA,XPAR ',xsea,xpar
         iirej=1
         RETURN
      ENDIF
      rm = 2.0d0*sqrt(ees*xsea*ee*xpar)
      IF (ipev.GE.2) THEN
         WRITE(lout,1000) 'XSEA, XSEA2, XPAR, XPAR12, RM, EE, EES'
         WRITE(lout,1001)  xsea, xsea2, xpar, xpar12, rm, ee, ees
      ENDIF
*
      IF (rm.LT.rmps) THEN
*                                 produce nothing
         ndch   = -99
         xsea2  = xsea2 +xsea
         xpar12 = xpar12+xpar
         ifsea2 = ifpara
         xsea   = 0.0d0
         xpar   = 0.0d0
         rm     = 1.0d-4
         ech    = 0.0d0
         pch    = 0.0d0
         gamma  = 1.0d0
         beta   = 0.0d0
         ncnoth = ncnoth+1
         IF (mod(ncnoth,5000).EQ.0) WRITE(lout,1002) ncnoth
 1002    FORMAT('VAHMSD/DIFFCH: PRODUCE NOTHING 1, NCNOTH=',i8)
         RETURN
*
      ELSE IF (rm.LT.rmv) THEN
*                                 produce RMPS
         rm     = rmps
         ndch   = -1
         ich    = ips
         xsq    = rm/(2.0d0*sqrt(ee*ees))
         xseaol = xsea
         xsea   = xsq**2/xpar
         xpar22 = xpar22+xseaol-xsea
*
      ELSE IF (rm.LT.rmbb) THEN
*                                 produce RMV
         rm     = rmv
         ndch   = 1
         ich    = iv
         xsq    = rm/(2.0d0*sqrt(ee*ees))
         xseaol = xsea
         xsea   = xsq**2/xpar
         xpar22 = xpar22+xseaol-xsea
      ENDIF
*
      IF (idiftp.EQ.1) THEN
         pch = ees*xsea-ee*xpar
         IF (pch.GE.0.0d0) THEN
            ncwd  = ncwd+1
            IF (mod(ncwd,500).EQ.0) WRITE(lout,1003) ncwd
 1003       FORMAT('VAHMSD/DIFFCH: WRONG SIGN OF PCH (1), NCWD=',i8)
            iirej = 1
         ENDIF
      ELSE IF (idiftp.EQ.2) THEN
         pch = ee*xpar-ees*xsea
         IF (pch.LE.0.0d0) THEN
            ncwd  = ncwd+1
            IF (mod(ncwd,500).EQ.0) WRITE(lout,1004) ncwd
 1004       FORMAT('VAHMSD/DIFFCH: WRONG SIGN OF PCH (2), NCWD=',i8)
            iirej = 1
         ENDIF
      ELSE
         WRITE(lout,*) 'ERROR IN VAHMSD/DIFFCH, IDIFTP=', idiftp
      ENDIF
      IF (ipev.GE.2) THEN
         WRITE(lout,1000) 'EES,XSEA,EE,XPAR'
         WRITE(lout,1001)  ees,xsea,ee,xpar
      ENDIF
      ech   = ees*xsea+ee*xpar
      gamma = ech/rm
      beta  = pch/rm
      IF (ipev.GE.2) THEN
         WRITE(lout,1000) 'RM,ECH,PCH,NDCH'
         WRITE(lout,1001)  rm,ech,pch
         WRITE(lout,'(I4)') ndch
      ENDIF
 1000 FORMAT('VAHMSD/DIFFCH-CHAIN Q-AQ',a34)
 1001 FORMAT(10f10.5)
      RETURN
*
*-------------------- kinematical parameters of a q-qq or aq-aqaq (in any
*                     order) chain
*                     XSEA - XPAR, IFSEA - IFPARA/IFPARB
*
    2 CONTINUE
      iirej = 0
      CALL dbklas(ifsea, ifpara, ifparb, i8, i10)
      rm8   = am( i8)
      rm10  = am(i10)
      rmbb  = rm10+3.0d-1
      ndch  = 0
*
      IF ((xsea.LE.0.0d0).OR.(xpar.LE.0.0d0)) THEN
         iirej=1
         WRITE(lout,*) 'REJECTION IN DIFFCH: 3, XSEA,XPAR ',xsea,xpar
         RETURN
      ENDIF
      rm = 2.0d0*sqrt(ees*xsea*ee*xpar)
      IF (ipev.GE.2) THEN
         WRITE(lout,2000) 'XSEA, XSEA2, XPAR, XPAR12, RM, EE, EES'
         WRITE(lout,2001)  xsea, xsea2, xpar, xpar12, rm, ee, ees
      ENDIF
*
      IF (rm.LT.rm10) THEN
*                                         reject
         iirej  = 1
         ncnoth = ncnoth+1
         IF (mod(ncnoth,20).EQ.0) WRITE(lout,2002) ncnoth
 2002    FORMAT('VAHMSD/DIFFCH: PRODUCE NOTHING 2, NCNOTH=',i8)
         RETURN
      ELSE IF (rm.LT.rmbb) THEN
*                                         produce RM10
         ndch   = 1
         rm     = rm10
         ich    = i10
         xsq    = rm/(2.0d0*sqrt(ee*ees))
         xseaol = xsea
         xsea   = xsq**2/xpar
         xpar22 = xpar22+xseaol-xsea
      ENDIF
*
      IF (idiftp.EQ.1) THEN
         pch = ees*xsea-ee*xpar
         IF (pch.GE.0.0d0) THEN
            ncwd  = ncwd+1
            IF (mod(ncwd,500).EQ.0) WRITE(lout,2003) ncwd
 2003       FORMAT('VAHMSD/DIFFCH: WRONG SIGN OF PCH (3), NCWD=',i8)
            iirej = 1
         ENDIF
      ELSE IF (idiftp.EQ.2) THEN
         pch = ee*xpar-ees*xsea
         IF (pch.LE.0.0d0) THEN
            ncwd  = ncwd+1
            IF (mod(ncwd,500).EQ.0) WRITE(lout,2004) ncwd
 2004       FORMAT('VAHMSD/DIFFCH: WRONG SIGN OF PCH (4), NCWD=',i8)
            iirej = 1
         ENDIF
      ELSE
         WRITE(lout,*) 'ERROR IN VAHMSD/DIFFCH, IDIFTP=', idiftp
      ENDIF
      ech   = ees*xsea+ee*xpar
      gamma = ech/rm
      beta  = pch/rm
      IF (ipev.GE.2) THEN
         WRITE(lout,2000) 'RM,ECH,PCH,NDCH'
         WRITE(lout,2001)  rm,ech,pch
         WRITE(lout,'(I4)') ndch
      ENDIF
 2000 FORMAT('VAHMSD/DIFFCH-CHAIN Q-QQ',a34)
 2001 FORMAT(10f10.5)
      RETURN
*
*-------------------- kinematical parameters of a baryon/meson
*
    3 CONTINUE
      iirej = 0
      IF (ifparb.EQ.99) THEN
         IF (ifsea.LT.0) THEN
            ifaq = iabs(ifsea)
            ifq  = ifpara
         ELSE
            ifaq = iabs(ifpara)
            ifq  = ifsea
         ENDIF
         im = imps(ifaq,ifq)
      ELSE
         CALL dbklas(ifsea, ifpara, ifparb, im, idum)
      ENDIF
      rm   = am(im)
      ndch = -1
      IF ((xsea.LE.0.0d0).OR.(xpar.LE.0.0d0)) THEN
         iirej=1
         WRITE(lout,*) 'REJECTION IN DIFFCH: 5, XSEA,XPAR ',xsea,xpar
         RETURN
      ENDIF
      IF (ipev.GE.2) THEN
         WRITE(lout,3000) 'XSEA, XPAR, RM'
         WRITE(lout,3001)  xsea, xpar, rm
      ENDIF
      ech = ee*(xsea+xpar)
      IF (idiftp.EQ.1) THEN
         pch = sqrt((ech-rm)*(ech+rm))
      ELSE IF (idiftp.EQ.2) THEN
         pch = -sqrt((ech-rm)*(ech+rm))
      ELSE
         WRITE(lout,*) 'ERROR IN VAHMSD/DIFFCH, IDIFTP=', idiftp
      ENDIF
      gamma = ech/rm
      beta  = pch/rm
      IF (ipev.GE.2) THEN
         WRITE(lout,3000) 'ECH, PCH, GAMMA, BETA'
         WRITE(lout,3001)  ech, pch, gamma, beta
      ENDIF
 3000 FORMAT('VAHMSD/DIFFCH-BARYON/MESON ',a27)
 3001 FORMAT(10f10.5)
      RETURN
      END
*
*===valmsd===============================================================*
*
      SUBROUTINE valmsd(ITAPOI,ECM,KPROJ,KTARG,IREJ)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine selects flavors and 4-momenta of partons in low-mass   *
* single diffractive chains.                                             *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998)
      CHARACTER*8 aname
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /abrdif/ xdq1,xdq2,xddq1,xddq2,
     &                ikvq1,ikvq2,ikd1q1,ikd2q1,ikd1q2,ikd2q2,
     &                idiffp,idifap,
     &                amdch1,amdch2,amdch3,gamdc1,gamdc2,gamdc3,
     &                pgxvc1,pgyvc1,pgzvc1,pgxvc2,pgyvc2,pgzvc2,
     &                pgxvc3,pgyvc3,pgzvc3,ndch1,ndch2,ndch3,
     &                ikdch1,ikdch2,ikdch3,
     &                pdq1(4),pdq2(4),pdd1(4),pdd2(4),pdfq1(4)
      COMMON /dpar/   aname(210),am(210),ga(210),tau(210),ich(210),
     &                ibar(210),k1(210),k2(210)
      common/dinpda/imps(6,6),imve(6,6),ib08(6,21),ib10(6,21),ia08(6,21)
     &,ia10(6,21),a1,b1,b2,b3,lt,le,bet,as,b8,ame,diq,isu
      COMMON /trafop/ gamp,bgamp,betp
      COMMON /enerin/ eproj,etarg
      COMMON /sdflag/ isd
      COMMON /outlev/ioutpo,ioutpa,iouxev,ioucol
      COMMON /xdidid/xdidi
*
      dimension mquark(3,30),ihkkq(-6:6),ihkkqq(-3:3,-3:3),
     &          idx(-4:4)
      DATA idx   /-4,-3,-1,-2,0,2,1,3,4/
      DATA ihkkq /-6,-5,-4,-3,-1,-2,0,2,1,3,4,5,6/
      DATA ihkkqq/-3301,-3103,-3203,0,   0,0,0,
     &            -3103,-1103,-2103,0,   0,   0,   0,
     &            -3203,-2103,-2203,0,   0,   0,   0,
     &                0,    0,    0,0,   0,   0,   0,
     &                0,    0,    0,0,2203,2103,3202,
     &                0,    0,    0,0,2103,1103,3103,
     &                0,    0,    0,0,3203,3103,3303/
*
*----------------------------------- quark content of hadrons:
*                                     1, 2, 3, 4  -   u, d, s, c
*                                    -1,-2,-3,-4  -  au,ad,as,ac
*
      DATA mquark/
     &   1,1,2,    -1,-1,-2,       0,0,0,       0,0,0,       0,0,0,
     &   0,0,0,       0,0,0,       1,2,2,    -1,-2,-2,       0,0,0,
     &   0,0,0,       0,0,0,      1,-2,0,      2,-1,0,      1,-3,0,
     &  3,-1,0,       1,2,3,    -1,-2,-3,       0,0,0,       2,2,3,
     &   1,1,3,       1,2,3,      1,-1,0,      2,-3,0,      3,-2,0,
     &  2,-2,0,      3,-3,0,       0,0,0,       0,0,0,       0,0,0/
      DATA unon/2.0/
      DATA ncrej, ncpt /0, 0/
*
      isd   = 2
      irej  = 0
      iirej = 0
      ibproj = ibar(kproj)
      ibtarg = ibar(ktarg)
      eproj  = (am(kproj)**2-am(ktarg)**2+ecm**2)/(2.0d0*ecm)
      etarg  = (am(ktarg)**2-am(kproj)**2+ecm**2)/(2.0d0*ecm)
      IF(ipev.GE.2) WRITE(lout,1014)eproj,etarg
 1014 FORMAT('VALMSD: EPROJ,ETARG',2f10.5)
      IF (ibtarg.LE.0) THEN
         WRITE(lout,1001) ibtarg
 1001    FORMAT('VALMSD: NO LMSD FOR TARGET WITH BARYON-CHARGE',i4)
         iirej = 1
         goto 9999
      ENDIF
      iqp1 = mquark(1,kproj)
      iqp2 = mquark(2,kproj)
      iqp3 = mquark(3,kproj)
      iqt1 = mquark(1,ktarg)
      iqt2 = mquark(2,ktarg)
      iqt3 = mquark(3,ktarg)
      IF(ipev.GE.2) WRITE(lout,1002)
     &                ibproj,ibtarg,iqp1,iqp2,iqp3,iqt1,iqt2,iqt3
 1002 FORMAT('VALMSD: IBPROJ,IBTARG,IQP1,IQP2,IQP3,IQT1,IQT2,IQT3 ',8i4)
*
      IF (ibproj.NE.0) THEN
*
*-------------------- q-qq (aq-aqaq) - flavors of projectile (baryon)
*
         isam = 1.0d0+2.999d0*rndm(v)
         goto(10,11,12) isam
   10    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         idiqp2 = iqp3
         goto 13
   11    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
         idiqp2 = iqp3
         goto 13
   12    CONTINUE
         iqp    = iqp3
         idiqp1 = iqp1
         idiqp2 = iqp2
   13    CONTINUE
*
      ELSE IF (ibproj.EQ.0) THEN
*
*-------------------- q-aq - flavors of projectile (meson)
*
         isam = 1.0d0+1.999d0*rndm(v)
         goto(14,15) isam
   14    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         goto 16
   15    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
   16    CONTINUE
         idiqp2 = 0
*
      ENDIF
*
*-------------------- q-qq - flavors of target (baryon)
*
      isam = 1.0d0+2.999d0*rndm(v)
      goto(17,18,19) isam
   17 CONTINUE
      iqt    = iqt1
      idiqt1 = iqt2
      idiqt2 = iqt3
      goto 20
   18 CONTINUE
      iqt    = iqt2
      idiqt1 = iqt1
      idiqt2 = iqt3
      goto 20
   19 CONTINUE
      iqt    = iqt3
      idiqt1 = iqt1
      idiqt2 = iqt2
   20 CONTINUE
*
      ikvq1  = iqp
      ikd1q1 = idiqp1
      ikd2q1 = idiqp2
*
      ikvq2  = iqt
      ikd1q2 = idiqt1
      ikd2q2 = idiqt2
*
      IF (ipev.GE.2) WRITE(lout,1003)
     &                 ikvq1,ikd1q1,ikd2q1,ikvq2,ikd1q2,ikd2q2
 1003 FORMAT('VALMSD: IKVQ1,IKD1Q1,IKD2Q1,IKVQ2,IKD1Q2,IKD2Q2 ',6i4)
*
*-------------------- IDIFTP = 1  target     (backward) hadron  excited
*                     IDIFTP = 2  projectile (forward)  hadron  excited
*
      idiftp = 1.0d0+1.999d0*rndm(v)
*-------------------- S.Roesler 5/26/93
      IF ((isingd.EQ.3).OR.(isingd.EQ.7)) idiftp = 1
      IF ((isingd.EQ.4).OR.(isingd.EQ.8)) idiftp = 2
*
      IF (ipev.GE.2) WRITE(lout,1004) idiftp
 1004 FORMAT('VALMSD: IDIFTP ',i4)
      IF ((idiftp.NE.1).AND.(idiftp.NE.2)) THEN
         IF (ipev.GE.2) WRITE(lout,'(A19)') 'VALMSD-ERROR: IDIFTP'
         goto 9999
      ENDIF
*
*-------------------- diffractive mass
*
31    CONTINUE
      amo = 1.5d0
      r   = rndm(v)
      IF ((ibproj.EQ.0).AND.(idiftp.EQ.1))
     &               amo = 1.5d0*r+2.83d0*(1.0d0-r)
      IF ((ibproj.EQ.0).AND.(idiftp.EQ.2)) amo = 1.0d0
      sam = 1.0d0
      IF (ecm.LE.300.0d0) sam = 1.0d0-exp(-((ecm/200.0d0)**4))
      r   = rndm(v)*sam
      amax= (1.0d0-sam)*sqrt(0.1d0*ecm**2)+sam*sqrt(400.0d0)
      amu = r*sqrt(100.0d0)+(1.0d0-r)*amax
      IF (ibproj.EQ.0) THEN
C----------------- change mass-cuts
C        AMAX= (1.0D0-SAM)*SQRT(0.25D0*ECM**2)+SAM*SQRT(400.0D0)
         amax= (1.0d0-sam)*sqrt(0.15d0*ecm**2)+sam*sqrt(400.0d0)
         amu = r*sqrt(100.0d0)+(1.0d0-r)*amax
      ENDIF
C---------------------------------------------------------------
C
C                                           j.r. test 2/94
C
C---------------------------------------------------------------
      amu=2.d0*amu
C---------------------------------------------------------------
      r   = rndm(v)
      IF (ecm.LE.50.0d0) THEN
         amdiff = amo*(amu/amo)**r
      ELSE
         a = 0.7d0
         IF (ecm.LE.300.0d0) a = 0.7d0*(1.0d0-exp(-((ecm/100.0d0)**2)))
         amdiff = 1.0d0/((r/(amu**a)+(1.0d0-r)/(amo**a))
     &         **(1.0d0/a))
      ENDIF
      IF(amdiff.GT.0.5d0*ecm)go to 31
      IF (iouxev.GE.2) WRITE(lout,1005) amdiff
 1005 FORMAT('VALMSD: AMDIFF',e10.5)
       xdidi=amdiff**2/ecm**2
      IF (iouxev.GE.2) WRITE(lout,*)'LM AMDIFF,XDIDI ',amdiff,xdidi
*
*-------------------- kinematical parameters of
*                     diffractive projectile (IDIFTP = 1)
*                     or diffractive target  (IDIFTP = 2)
*
      IF (idiftp.EQ.1) THEN
         amdch3 = am(kproj)
      ELSE IF (idiftp.EQ.2) THEN
         amdch3 = am(ktarg)
      ENDIF
      ech3 = (ecm**2+amdch3**2-amdiff**2)/(2.0d0*ecm)
      IF (ech3.LE.amdch3) THEN
         ncmerr = ncmerr+1
         IF (mod(ncmerr,2200).EQ.0)
     &      WRITE(lout,*) 'LMSD: INEFFICIENT SELECTION OF AMDIFF(1),
     &                        NCMERR = ',ncmerr
         goto 31
      ENDIF
*
      pch3 = sqrt(abs(ech3-amdch3))*sqrt(ech3+amdch3)
      IF (idiftp.EQ.2) pch3 = -pch3
      ndch3  = -1
      gamdc3 = ech3/amdch3
      pgvc3  = pch3/amdch3
      IF (iouxev.GE.2) WRITE(lout,1006) amdch3,ech3,pch3,gamdc3,pgvc3
 1006 FORMAT('VALMSD: AMDCH3,ECH3,PCH3,GAMDC3,PGVC3',5e15.5)
*
   30 CONTINUE
      b33   = 8.0d0
      es    = -2.0d0/(b33**2)*log(rndm(v)*rndm(v))
      hps   = sqrt(es*es+2.0d0*es*0.94d0)
      CALL dsfecf(sfe,cfe)
      pxch3 = hps*cfe
      pych3 = hps*sfe
      ptch3 = sqrt(pxch3**2+pych3**2)
      IF (ptch3.GT.abs(pch3)) THEN
         ncpt = ncpt+1
         IF (mod(ncpt,500).EQ.0) WRITE(lout,1007) ncpt
 1007    FORMAT('VALMSD: INEFFICIENT PT-SELECTION 1, NCPT=',i8)
         goto 30
      ENDIF
      plch3 = sign(sqrt(abs(pch3-ptch3))*sqrt(abs(pch3+ptch3)),pch3)
      IF (iouxev.GE.2) WRITE(lout,1008) es,hps,pxch3,pych3,plch3
 1008 FORMAT('VALMSD: ES,HPS,PXCH3,PYCH3,PLCH3',5e15.5)
*
*-------------------- no chain 1
*
      ndch1  = -99
      amdch1 = 0.0d0
      ech1   = 0.0d0
      pch1   = 0.0d0
      gamdc1 = 1.0d0
      pgvc1  = 0.0d0
      pgxvc1 = 0.0d0
      pgyvc1 = 0.0d0
      pgzvc1 = 0.0d0
      DO 40 i=1,4
         pdd2(i) = 0.0d0
         pdq1(i) = 0.0d0
   40 CONTINUE
*
*-------------------- kinematical parameters of
*                     excited target        (IDIFTP = 1)
*                     or excited projectile (IDIFTP = 2)
*
      amdch2 = amdiff
      ech2   = (ecm**2+amdch2**2-amdch3**2)/(2.0d0*ecm)
      pch2   = -sign(sqrt(abs(ech2-amdch2))*sqrt(ech2+amdch2),pch3)
      ndch2  = 0
      gamdc2 = ech2/amdch2
      pgvc2  = pch2/amdch2
*
*-------------------- (IDIFFP,IDIFAP in analogy to HMSD in VAHMSD)
*                     IDIFTP = 1 : IKD1Q2/IKD2Q2 - IDIFFP = IKVQ2
*                     IDIFTP = 2 : projectile - baryon
*                                  IKD1Q1/IKD2Q1 - IDIFFP = IKVQ1
*                                  projectile - antibaryon
*                                  IKD1Q1/IKD2Q1 - IDIFAP = IKVQ1
*                                  projectile - meson
*                                  IKD1Q1 > 0    - IDIFAP = IKVQ1
*                                  IKD1Q1 < 0    - IDIFFP = IKVQ1
*
      IF (idiftp.EQ.1) idiffp = ikvq2
      IF (idiftp.EQ.2) THEN
         IF (ibproj.GT.0) idiffp = ikvq1
         IF (ibproj.LT.0) idifap = ikvq1
         IF ((ibproj.EQ.0).AND.(ikd1q1.GT.0)) idifap = ikvq1
         IF ((ibproj.EQ.0).AND.(ikd1q1.LT.0)) idiffp = ikvq1
      ENDIF
      IF (iouxev.GE.2) WRITE(lout,1009) amdch2,ech2,pch2,gamdc2,pgvc2,
     &                                  idiffp,idifap
 1009 FORMAT('VALMSD: AMDCH2,ECH2,PCH2,GAMDC2,PGVC2,IDIFFP,IDIFAP',
     &                                                  5e15.5,2i4)
      pxch2 = -pxch3
      pych2 = -pych3
      ptch2 = sqrt(pxch2**2+pych2**2)
      IF (ptch2.GT.abs(pch2)) THEN
         ncpt = ncpt+1
         IF (mod(ncpt,500).EQ.0) WRITE(lout,1010) ncpt
 1010    FORMAT('VALMSD: INEFFICIENT PT-SELECTION 2, NCPT=',i8)
         goto 30
      ENDIF
      plch2 = sign(sqrt(abs(pch2-ptch2))*sqrt(abs(pch2+ptch2)),pch2)
      IF (iouxev.GE.2) WRITE(lout,1011) pxch2,pych2,plch2
 1011 FORMAT('VALMSD: PXCH2,PYCH2,PLCH2',3e15.5)
      cc    = amdch2/(2.0d0*ech2)
*--------------------------- S.R. 11/12/92
      IF (cc.GE.0.5d0) THEN
         ncmerr = ncmerr+1
         IF (mod(ncmerr,200).EQ.0)
     &      WRITE(lout,*) 'LMSD: INEFFICIENT SELECTION OF AMDIFF(2),
     &                        NCMERR = ',ncmerr
         goto 31
      ENDIF
*
      xdiq  = 0.5d0+sqrt(abs((0.5d0-cc)*(0.5d0+cc)))
      xq    = 1.0d0-xdiq
      ediq  = ech2*xdiq
      eq    = ech2*xq
      temp  = abs(ediq/pch2)
      pxdiq = pxch2*temp
      pydiq = pych2*temp
      pldiq = plch2*temp
      temp  = abs(eq/pch2)
      pxq   = -pxch2*temp
      pyq   = -pych2*temp
      plq   = -plch2*temp
*
*-------------------- store results in COMMON-block /ABRDIF/
*
      pdq2(1)  = pxq
      pdq2(2)  = pyq
      pdq2(3)  = plq
      pdq2(4)  = eq
      pdd1(1)  = pxdiq
      pdd1(2)  = pydiq
      pdd1(3)  = pldiq
      pdd1(4)  = ediq
      pdfq1(1) = pxch3
      pdfq1(2) = pych3
      pdfq1(3) = plch3
      pdfq1(4) = ech3
      pgxvc2   = pxch2/amdch2
      pgyvc2   = pych2/amdch2
      pgzvc2   = plch2/amdch2
      pgxvc3   = pxch3/amdch3
      pgyvc3   = pych3/amdch3
      pgzvc3   = plch3/amdch3
*
      IF (ipev.GE.2) THEN
         WRITE(lout,*) 'VALMSD: PDQ1, PDD2, PDD1, PDQ2, PDFQ1'
         WRITE(lout,1012)
     &      (pdq1(i),pdd2(i),pdd1(i),pdq2(i),pdfq1(i),i=1,4)
 1012    FORMAT(5e15.5)
         WRITE(lout,1013) 'PGXVC1,PGYVC1,PGZVC1,GAMDC1',
     &                     pgxvc1,pgyvc1,pgzvc1,gamdc1
         WRITE(lout,1013) 'PGXVC2,PGYVC2,PGZVC2,GAMDC2',
     &                     pgxvc2,pgyvc2,pgzvc2,gamdc2
         WRITE(lout,1013) 'PGXVC3,PGYVC3,PGZVC3,GAMDC3',
     &                     pgxvc3,pgyvc3,pgzvc3,gamdc3
 1013    FORMAT(a27,4e15.5)
      ENDIF
*
*------------------- store results in common block /HKKEVT/
*
*                    partonen of projectile/target
*
      nhkk = nhkk + 1
      isthkk(nhkk) = 23-idiftp
      IF (idiftp.EQ.1) idhkk(nhkk) = ihkkq(idx(ikvq2))
      IF (idiftp.EQ.2) idhkk(nhkk) = ihkkq(idx(ikvq1))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = 0.0d0
      phkk(2,nhkk)   = 0.0d0
      phkk(3,nhkk)   = xq
      phkk(4,nhkk)   = xq
      phkk(5,nhkk)   = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
      nhkk = nhkk + 1
      isthkk(nhkk) = 23-idiftp
      IF (idiftp.EQ.1) idhkk(nhkk) = ihkkqq(idx(ikd1q2),idx(ikd2q2))
      IF (idiftp.EQ.2) idhkk(nhkk) = ihkkqq(idx(ikd1q1),idx(ikd2q1))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = 0.0d0
      phkk(2,nhkk)   = 0.0d0
      phkk(3,nhkk)   = xdiq
      phkk(4,nhkk)   = xdiq
      phkk(5,nhkk)   = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                    ends of chain 2
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 100+isthkk(nhkk-2)
      idhkk(nhkk)    = idhkk(nhkk-2)
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = jmohkk(1,nhkk-2)
      jdahkk(1,nhkk) = nhkk+2
      jdahkk(2,nhkk) = nhkk+2
      phkk(1,nhkk)   = pdq2(1)
      phkk(2,nhkk)   = pdq2(2)
      phkk(3,nhkk)   = pdq2(3)
      phkk(4,nhkk)   = pdq2(4)
      phkk(5,nhkk)   = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 100+isthkk(nhkk-2)
      idhkk(nhkk)    = idhkk(nhkk-2)
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = jmohkk(1,nhkk-2)
      jdahkk(1,nhkk) = nhkk+1
      jdahkk(2,nhkk) = nhkk+1
      phkk(1,nhkk)   = pdd1(1)
      phkk(2,nhkk)   = pdd1(2)
      phkk(3,nhkk)   = pdd1(3)
      phkk(4,nhkk)   = pdd1(4)
      phkk(5,nhkk)   = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                    chain 2
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 177
      idhkk(nhkk)    = 88888
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = nhkk-1
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = pxch2
      phkk(2,nhkk)   = pych2
      phkk(3,nhkk)   = plch2
      phkk(4,nhkk)   = ech2
      phkk(5,nhkk)   = amdch2
      vhkk(1,nhkk) = vhkk(1,nhkk-1)
      vhkk(2,nhkk) = vhkk(2,nhkk-1)
      vhkk(3,nhkk) = vhkk(3,nhkk-1)
      IF ((betp.NE.0.0d0).AND.(bgamp.NE.0.0d0))
     &vhkk(4,nhkk) = vhkk(3,nhkk)/betp-vhkk(3,nhkk-2)/bgamp
*
*                    diffractive nucleon
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 177
      idhkk(nhkk)    = 88888
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = pdfq1(1)
      phkk(2,nhkk)   = pdfq1(2)
      phkk(3,nhkk)   = pdfq1(3)
      phkk(4,nhkk)   = pdfq1(4)
C     WRITE(6,*)' Diffr. Nucleon'
C    *,PHKK(3,NHKK),PHKK(4,NHKK),PHKK(5,NHKK)
      phkk(5,nhkk)   = amdch3
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*
*---------- S. Roesler 21-10-93
*      check energy-momentum conservation
      IF (ipev.GE.2) THEN
         px = pdq1(1)+pdq2(1)+pdd1(1)+pdd2(1)+pdfq1(1)
         py = pdq1(2)+pdq2(2)+pdd1(2)+pdd2(2)+pdfq1(2)
         pz = pdq1(3)+pdq2(3)+pdd1(3)+pdd2(3)+pdfq1(3)
         ee = ecm-(pdq1(4)+pdq2(4)+pdd1(4)+pdd2(4)+pdfq1(4))
         WRITE(lout,*)'VALMSD: ENERGY-MOMENTUM-CHECK (PX,PY,PZ,E)'
         WRITE(lout,'(5F12.6)')px,py,pz,ee,ecm
      ENDIF
*
      RETURN
 9999 CONTINUE
      ncrej = ncrej+1
      IF (mod(ncrej,500).EQ.0) WRITE(lout,9900) ncrej
 9900 FORMAT('REJECTION IN VALMSD ',i10)
      iirej = 0
      irej  = 1
      RETURN
      END
*
*===valmdd===============================================================*
*
      SUBROUTINE valmdd(ITAPOI,ECM,KPROJ,KTARG,IREJ)

C                   Low mass double diffraction J.R. Feb/Mar 94
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine selects flavors and 4-momenta of partons in low-mass   *
* single diffractive chains.                                             *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998)
      CHARACTER*8 aname
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /abrdif/ xdq1,xdq2,xddq1,xddq2,
     &                ikvq1,ikvq2,ikd1q1,ikd2q1,ikd1q2,ikd2q2,
     &                idiffp,idifap,
     &                amdch1,amdch2,amdch3,gamdc1,gamdc2,gamdc3,
     &                pgxvc1,pgyvc1,pgzvc1,pgxvc2,pgyvc2,pgzvc2,
     &                pgxvc3,pgyvc3,pgzvc3,ndch1,ndch2,ndch3,
     &                ikdch1,ikdch2,ikdch3,
     &                pdq1(4),pdq2(4),pdd1(4),pdd2(4),pdfq1(4)
      COMMON /dpar/   aname(210),am(210),ga(210),tau(210),ich(210),
     &                ibar(210),k1(210),k2(210)
      common/dinpda/imps(6,6),imve(6,6),ib08(6,21),ib10(6,21),ia08(6,21)
     &,ia10(6,21),a1,b1,b2,b3,lt,le,bet,as,b8,ame,diq,isu
      COMMON /trafop/ gamp,bgamp,betp
      COMMON /enerin/ eproj,etarg
      COMMON /sdflag/ isd
      common/xxlmdd/ijlmdd,kdlmdd 
      COMMON /outlev/ioutpo,ioutpa,iouxev,ioucol
*
      dimension mquark(3,30),ihkkq(-6:6),ihkkqq(-3:3,-3:3),
     &          idx(-4:4)
      DATA idx   /-4,-3,-1,-2,0,2,1,3,4/
      DATA ihkkq /-6,-5,-4,-3,-1,-2,0,2,1,3,4,5,6/
      DATA ihkkqq/-3301,-3103,-3203,0,   0,0,0,
     &            -3103,-1103,-2103,0,   0,   0,   0,
     &            -3203,-2103,-2203,0,   0,   0,   0,
     &                0,    0,    0,0,   0,   0,   0,
     &                0,    0,    0,0,2203,2103,3202,
     &                0,    0,    0,0,2103,1103,3103,
     &                0,    0,    0,0,3203,3103,3303/
*
*----------------------------------- quark content of hadrons:
*                                     1, 2, 3, 4  -   u, d, s, c
*                                    -1,-2,-3,-4  -  au,ad,as,ac
*
      DATA mquark/
     &   1,1,2,    -1,-1,-2,       0,0,0,       0,0,0,       0,0,0,
     &   0,0,0,       0,0,0,       1,2,2,    -1,-2,-2,       0,0,0,
     &   0,0,0,       0,0,0,      1,-2,0,      2,-1,0,      1,-3,0,
     &  3,-1,0,       1,2,3,    -1,-2,-3,       0,0,0,       2,2,3,
     &   1,1,3,       1,2,3,      1,-1,0,      2,-3,0,      3,-2,0,
     &  2,-2,0,      3,-3,0,       0,0,0,       0,0,0,       0,0,0/
      DATA unon/2.0/
      DATA ncrej, ncpt /0, 0/
*
      ijlmdd= 1
      isd   = 2
      irej  = 0
      iirej = 0
      ibproj = ibar(kproj)
      ibtarg = ibar(ktarg)
      eproj  = (am(kproj)**2-am(ktarg)**2+ecm**2)/(2.0d0*ecm)
      etarg  = (am(ktarg)**2-am(kproj)**2+ecm**2)/(2.0d0*ecm)
      IF(ipev.GE.2) WRITE(lout,1014)eproj,etarg
 1014 FORMAT('VALMSD: EPROJ,ETARG',2f10.5)
      IF (ibtarg.LE.0) THEN
         WRITE(lout,1001) ibtarg
 1001    FORMAT('VALMSD: NO HMSD FOR TARGET WITH BARYON-CHARGE',i4)
         iirej = 1
         goto 9999
      ENDIF
      iqp1 = mquark(1,kproj)
      iqp2 = mquark(2,kproj)
      iqp3 = mquark(3,kproj)
      iqt1 = mquark(1,ktarg)
      iqt2 = mquark(2,ktarg)
      iqt3 = mquark(3,ktarg)
      IF(ipev.GE.2) WRITE(lout,1002)
     &                ibproj,ibtarg,iqp1,iqp2,iqp3,iqt1,iqt2,iqt3
 1002 FORMAT('VALMSD: IBPROJ,IBTARG,IQP1,IQP2,IQP3,IQT1,IQT2,IQT3 ',8i4)
*
      IF (ibproj.NE.0) THEN
*
*-------------------- q-qq (aq-aqaq) - flavors of projectile (baryon)
*
         isam = 1.0d0+2.999d0*rndm(v)
         goto(10,11,12) isam
   10    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         idiqp2 = iqp3
         goto 13
   11    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
         idiqp2 = iqp3
         goto 13
   12    CONTINUE
         iqp    = iqp3
         idiqp1 = iqp1
         idiqp2 = iqp2
   13    CONTINUE
*
      ELSE IF (ibproj.EQ.0) THEN
*
*-------------------- q-aq - flavors of projectile (meson)
*
         isam = 1.0d0+1.999d0*rndm(v)
         goto(14,15) isam
   14    CONTINUE
         iqp    = iqp1
         idiqp1 = iqp2
         goto 16
   15    CONTINUE
         iqp    = iqp2
         idiqp1 = iqp1
   16    CONTINUE
         idiqp2 = 0
*
      ENDIF
*
*-------------------- q-qq - flavors of target (baryon)
*
      isam = 1.0d0+2.999d0*rndm(v)
      goto(17,18,19) isam
   17 CONTINUE
      iqt    = iqt1
      idiqt1 = iqt2
      idiqt2 = iqt3
      goto 20
   18 CONTINUE
      iqt    = iqt2
      idiqt1 = iqt1
      idiqt2 = iqt3
      goto 20
   19 CONTINUE
      iqt    = iqt3
      idiqt1 = iqt1
      idiqt2 = iqt2
   20 CONTINUE
*
      ikvq1  = iqp
      ikd1q1 = idiqp1
      ikd2q1 = idiqp2
*
      ikvq2  = iqt
      ikd1q2 = idiqt1
      ikd2q2 = idiqt2
*
      IF (ipev.GE.2) WRITE(lout,1003)
     &                 ikvq1,ikd1q1,ikd2q1,ikvq2,ikd1q2,ikd2q2
 1003 FORMAT('VALMSD: IKVQ1,IKD1Q1,IKD2Q1,IKVQ2,IKD1Q2,IKD2Q2 ',6i4)
*
*-------------------- IDIFTP = 1  target     (backward) hadron  excited
*                     IDIFTP = 2  projectile (forward)  hadron  excited
*
      idiftp = 1.0d0+1.999d0*rndm(v)
*-------------------- S.Roesler 5/26/93
      IF ((isingd.EQ.3).OR.(isingd.EQ.7)) idiftp = 1
      IF ((isingd.EQ.4).OR.(isingd.EQ.8)) idiftp = 2
*
      IF (ipev.GE.2) WRITE(lout,1004) idiftp
 1004 FORMAT('VALMSD: IDIFTP ',i4)
      IF ((idiftp.NE.1).AND.(idiftp.NE.2)) THEN
         IF (ipev.GE.2) WRITE(lout,'(A19)') 'VALMSD-ERROR: IDIFTP'
         goto 9999
      ENDIF
*
*-------------------- diffractive mass
*
31    CONTINUE
      amo = 1.5d0
C------------------------------------------------------------
C
C                             first simple test j.r. 2/94
C
C-----------------------------------------------------------
C     AMO = 4.0D0
C-----------------------------------------------------------
      r   = rndm(v)
      IF ((ibproj.EQ.0).AND.(idiftp.EQ.1))
     &               amo = 1.5d0*r+2.83d0*(1.0d0-r)
      IF ((ibproj.EQ.0).AND.(idiftp.EQ.2)) amo = 1.0d0
      sam = 1.0d0
      IF (ecm.LE.300.0d0) sam = 1.0d0-exp(-((ecm/200.0d0)**4))
      r   = rndm(v)*sam
      amax= (1.0d0-sam)*sqrt(0.1d0*ecm**2)+sam*sqrt(400.0d0)
      amu = r*sqrt(100.0d0)+(1.0d0-r)*amax
      IF (ibproj.EQ.0) THEN
C----------------- change mass-cuts
C        AMAX= (1.0D0-SAM)*SQRT(0.25D0*ECM**2)+SAM*SQRT(400.0D0)
         amax= (1.0d0-sam)*sqrt(0.15d0*ecm**2)+sam*sqrt(400.0d0)
         amu = r*sqrt(100.0d0)+(1.0d0-r)*amax
      ENDIF
C---------------------------------------------------------------
C
C                                           j.r. test 2/94
C
C---------------------------------------------------------------
      amu=2.d0*amu
C---------------------------------------------------------------
      r   = rndm(v)
      IF (ecm.LE.50.0d0) THEN
         amdiff = amo*(amu/amo)**r
      ELSE
         a = 0.7d0
         IF (ecm.LE.300.0d0) a = 0.7d0*(1.0d0-exp(-((ecm/100.0d0)**2)))
         amdiff = 1.0d0/((r/(amu**a)+(1.0d0-r)/(amo**a))
     &         **(1.0d0/a))
      ENDIF
      IF(amdiff.GT.0.5d0*ecm)go to 31
      IF (iouxev.GE.2) WRITE(lout,1005) amdiff
 1005 FORMAT('VALMSD: AMDIFF',e10.5)
*
*-------------------- kinematical parameters of
*                     diffractive projectile (IDIFTP = 1)
*                     or diffractive target  (IDIFTP = 2)
*
      IF (idiftp.EQ.1) THEN
         amdch3 = am(kproj)
     IF(kproj.EQ.1)THEN
       kdlmdd = 61
           amdch3 = am(61)
C                          19.4.99     
       kdlmdd = 54
           amdch3 = am(54)
     ELSEIF(kproj.EQ.2)THEN
C                          19.4.99     
       kdlmdd = 68
           amdch3 = am(68)
     ELSEIF(kproj.EQ.8)THEN
       amdch3 = am(62)
       kdlmdd = 62
C                          19.4.99     
       amdch3 = am(55)
       kdlmdd = 55
     ELSEIF(kproj.EQ.13)THEN
       amdch3 = am(186)
       kdlmdd = 186
     ELSEIF(kproj.EQ.14)THEN
       amdch3 = am(188)
       kdlmdd = 188
     ELSEIF(kproj.EQ.15)THEN
       amdch3 = am(190)
       kdlmdd = 190
     ELSEIF(kproj.EQ.16)THEN
       amdch3 = am(191)
       kdlmdd = 191
     ELSEIF(kproj.EQ.23)THEN
       amdch3 = am(187)
       kdlmdd = 187
     ELSEIF(kproj.EQ.24)THEN
       amdch3 = am(192)
       kdlmdd = 192
     ELSEIF(kproj.EQ.25)THEN
       amdch3 = am(193)
       kdlmdd = 193
     ENDIF
      ELSE IF (idiftp.EQ.2) THEN
         amdch3 = am(ktarg)
     IF(ktarg.EQ.1)THEN
       kdlmdd = 61
           amdch3 = am(61)
C                          19.4.99     
       kdlmdd = 54
           amdch3 = am(54)
     ELSEIF(ktarg.EQ.2)THEN
C                          19.4.99     
       kdlmdd = 68
           amdch3 = am(68)
     ELSEIF(ktarg.EQ.8)THEN
       amdch3 = am(62)
       kdlmdd = 62
C                          19.4.99     
       amdch3 = am(55)
       kdlmdd = 55
     ELSEIF(ktarg.EQ.13)THEN
       amdch3 = am(186)
       kdlmdd = 186
     ELSEIF(ktarg.EQ.14)THEN
       amdch3 = am(188)
       kdlmdd = 188
     ELSEIF(ktarg.EQ.15)THEN
       amdch3 = am(190)
       kdlmdd = 190
     ELSEIF(ktarg.EQ.16)THEN
       amdch3 = am(191)
       kdlmdd = 191
     ELSEIF(ktarg.EQ.23)THEN
       amdch3 = am(187)
       kdlmdd = 187
     ELSEIF(ktarg.EQ.24)THEN
       amdch3 = am(192)
       kdlmdd = 192
     ELSEIF(ktarg.EQ.25)THEN
       amdch3 = am(193)
       kdlmdd = 193
     ENDIF
      ENDIF
      ech3 = (ecm**2+amdch3**2-amdiff**2)/(2.0d0*ecm)
      IF (ech3.LE.amdch3) THEN
         ncmerr = ncmerr+1
         IF (mod(ncmerr,2200).EQ.0)
     &      WRITE(lout,*) 'LMSD: INEFFICIENT SELECTION OF AMDIFF(1),
     &                        NCMERR = ',ncmerr
         goto 31
      ENDIF
*
      pch3 = sqrt(abs(ech3-amdch3))*sqrt(ech3+amdch3)
      IF (idiftp.EQ.2) pch3 = -pch3
      ndch3  = -1
      gamdc3 = ech3/amdch3
      pgvc3  = pch3/amdch3
      IF (iouxev.GE.2) WRITE(lout,1006) amdch3,ech3,pch3,gamdc3,pgvc3
 1006 FORMAT('VALMSD: AMDCH3,ECH3,PCH3,GAMDC3,PGVC3',5e10.5)
*
   30 CONTINUE
      b33   = 8.0d0
      es    = -2.0d0/(b33**2)*log(rndm(v)*rndm(v))
      hps   = sqrt(es*es+2.0d0*es*0.94d0)
      CALL dsfecf(sfe,cfe)
      pxch3 = hps*cfe
      pych3 = hps*sfe
      ptch3 = sqrt(pxch3**2+pych3**2)
      IF (ptch3.GT.abs(pch3)) THEN
         ncpt = ncpt+1
         IF (mod(ncpt,500).EQ.0) WRITE(lout,1007) ncpt
 1007    FORMAT('VALMSD: INEFFICIENT PT-SELECTION 1, NCPT=',i8)
         goto 30
      ENDIF
      plch3 = sign(sqrt(abs(pch3-ptch3))*sqrt(abs(pch3+ptch3)),pch3)
      IF (iouxev.GE.2) WRITE(lout,1008) es,hps,pxch3,pych3,plch3
 1008 FORMAT('VALMSD: ES,HPS,PXCH3,PYCH3,PLCH3',5e10.5)
*
*-------------------- no chain 1
*
      ndch1  = -99
      amdch1 = 0.0d0
      ech1   = 0.0d0
      pch1   = 0.0d0
      gamdc1 = 1.0d0
      pgvc1  = 0.0d0
      pgxvc1 = 0.0d0
      pgyvc1 = 0.0d0
      pgzvc1 = 0.0d0
      DO 40 i=1,4
         pdd2(i) = 0.0d0
         pdq1(i) = 0.0d0
   40 CONTINUE
*
*-------------------- kinematical parameters of
*                     excited target        (IDIFTP = 1)
*                     or excited projectile (IDIFTP = 2)
*
      amdch2 = amdiff
      ech2   = (ecm**2+amdch2**2-amdch3**2)/(2.0d0*ecm)
      pch2   = -sign(sqrt(abs(ech2-amdch2))*sqrt(ech2+amdch2),pch3)
      ndch2  = 0
      gamdc2 = ech2/amdch2
      pgvc2  = pch2/amdch2
*
*-------------------- (IDIFFP,IDIFAP in analogy to HMSD in VAHMSD)
*                     IDIFTP = 1 : IKD1Q2/IKD2Q2 - IDIFFP = IKVQ2
*                     IDIFTP = 2 : projectile - baryon
*                                  IKD1Q1/IKD2Q1 - IDIFFP = IKVQ1
*                                  projectile - antibaryon
*                                  IKD1Q1/IKD2Q1 - IDIFAP = IKVQ1
*                                  projectile - meson
*                                  IKD1Q1 > 0    - IDIFAP = IKVQ1
*                                  IKD1Q1 < 0    - IDIFFP = IKVQ1
*
      IF (idiftp.EQ.1) idiffp = ikvq2
      IF (idiftp.EQ.2) THEN
         IF (ibproj.GT.0) idiffp = ikvq1
         IF (ibproj.LT.0) idifap = ikvq1
         IF ((ibproj.EQ.0).AND.(ikd1q1.GT.0)) idifap = ikvq1
         IF ((ibproj.EQ.0).AND.(ikd1q1.LT.0)) idiffp = ikvq1
      ENDIF
      IF (iouxev.GE.2) WRITE(lout,1009) amdch2,ech2,pch2,gamdc2,pgvc2,
     &                                  idiffp,idifap
 1009 FORMAT('VALMSD: AMDCH2,ECH2,PCH2,GAMDC2,PGVC2,IDIFFP,IDIFAP',
     &                                                  5e10.5,2i4)
      pxch2 = -pxch3
      pych2 = -pych3
      ptch2 = sqrt(pxch2**2+pych2**2)
      IF (ptch2.GT.abs(pch2)) THEN
         ncpt = ncpt+1
         IF (mod(ncpt,500).EQ.0) WRITE(lout,1010) ncpt
 1010    FORMAT('VALMSD: INEFFICIENT PT-SELECTION 2, NCPT=',i8)
         goto 30
      ENDIF
      plch2 = sign(sqrt(abs(pch2-ptch2))*sqrt(abs(pch2+ptch2)),pch2)
      IF (iouxev.GE.2) WRITE(lout,1011) pxch2,pych2,plch2
 1011 FORMAT('VALMSD: PXCH2,PYCH2,PLCH2',3e10.5)
      cc    = amdch2/(2.0d0*ech2)
*--------------------------- S.R. 11/12/92
      IF (cc.GE.0.5d0) THEN
         ncmerr = ncmerr+1
         IF (mod(ncmerr,200).EQ.0)
     &      WRITE(lout,*) 'LMSD: INEFFICIENT SELECTION OF AMDIFF(2),
     &                        NCMERR = ',ncmerr
         goto 31
      ENDIF
*
      xdiq  = 0.5d0+sqrt(abs((0.5d0-cc)*(0.5d0+cc)))
      xq    = 1.0d0-xdiq
      ediq  = ech2*xdiq
      eq    = ech2*xq
      temp  = abs(ediq/pch2)
      pxdiq = pxch2*temp
      pydiq = pych2*temp
      pldiq = plch2*temp
      temp  = abs(eq/pch2)
      pxq   = -pxch2*temp
      pyq   = -pych2*temp
      plq   = -plch2*temp
*
*-------------------- store results in COMMON-block /ABRDIF/
*
      pdq2(1)  = pxq
      pdq2(2)  = pyq
      pdq2(3)  = plq
      pdq2(4)  = eq
      pdd1(1)  = pxdiq
      pdd1(2)  = pydiq
      pdd1(3)  = pldiq
      pdd1(4)  = ediq
      pdfq1(1) = pxch3
      pdfq1(2) = pych3
      pdfq1(3) = plch3
      pdfq1(4) = ech3
      pgxvc2   = pxch2/amdch2
      pgyvc2   = pych2/amdch2
      pgzvc2   = plch2/amdch2
      pgxvc3   = pxch3/amdch3
      pgyvc3   = pych3/amdch3
      pgzvc3   = plch3/amdch3
*
      IF (ipev.GE.2) THEN
         WRITE(lout,*) 'VALMSD: PDQ1, PDD2, PDD1, PDQ2, PDFQ1'
         WRITE(lout,1012)
     &      (pdq1(i),pdd2(i),pdd1(i),pdq2(i),pdfq1(i),i=1,4)
 1012    FORMAT(5f10.5)
         WRITE(lout,1013) 'PGXVC1,PGYVC1,PGZVC1,GAMDC1',
     &                     pgxvc1,pgyvc1,pgzvc1,gamdc1
         WRITE(lout,1013) 'PGXVC2,PGYVC2,PGZVC2,GAMDC2',
     &                     pgxvc2,pgyvc2,pgzvc2,gamdc2
         WRITE(lout,1013) 'PGXVC3,PGYVC3,PGZVC3,GAMDC3',
     &                     pgxvc3,pgyvc3,pgzvc3,gamdc3
 1013    FORMAT(a27,4f10.5)
      ENDIF
*
*------------------- store results in common block /HKKEVT/
*
*                    partonen of projectile/target
*
      nhkk = nhkk + 1
      isthkk(nhkk) = 23-idiftp
      IF (idiftp.EQ.1) idhkk(nhkk) = ihkkq(idx(ikvq2))
      IF (idiftp.EQ.2) idhkk(nhkk) = ihkkq(idx(ikvq1))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = 0.0d0
      phkk(2,nhkk)   = 0.0d0
      phkk(3,nhkk)   = xq
      phkk(4,nhkk)   = xq
      phkk(5,nhkk)   = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
      nhkk = nhkk + 1
      isthkk(nhkk) = 23-idiftp
      IF (idiftp.EQ.1) idhkk(nhkk) = ihkkqq(idx(ikd1q2),idx(ikd2q2))
      IF (idiftp.EQ.2) idhkk(nhkk) = ihkkqq(idx(ikd1q1),idx(ikd2q1))
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = 0.0d0
      phkk(2,nhkk)   = 0.0d0
      phkk(3,nhkk)   = xdiq
      phkk(4,nhkk)   = xdiq
      phkk(5,nhkk)   = 0.0d0
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                    ends of chain 2
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 100+isthkk(nhkk-2)
      idhkk(nhkk)    = idhkk(nhkk-2)
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = jmohkk(1,nhkk-2)
      jdahkk(1,nhkk) = nhkk+2
      jdahkk(2,nhkk) = nhkk+2
      phkk(1,nhkk)   = pdq2(1)
      phkk(2,nhkk)   = pdq2(2)
      phkk(3,nhkk)   = pdq2(3)
      phkk(4,nhkk)   = pdq2(4)
      phkk(5,nhkk)   = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 100+isthkk(nhkk-2)
      idhkk(nhkk)    = idhkk(nhkk-2)
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = jmohkk(1,nhkk-2)
      jdahkk(1,nhkk) = nhkk+1
      jdahkk(2,nhkk) = nhkk+1
      phkk(1,nhkk)   = pdd1(1)
      phkk(2,nhkk)   = pdd1(2)
      phkk(3,nhkk)   = pdd1(3)
      phkk(4,nhkk)   = pdd1(4)
      phkk(5,nhkk)   = 0.0d0
C               Add position of parton in hadron
       CALL qinnuc(xxpp,yypp)
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))+xxpp
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))+yypp
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*                    chain 2
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 188
      idhkk(nhkk)    = 88888
      jmohkk(1,nhkk) = nhkk-2
      jmohkk(2,nhkk) = nhkk-1
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = pxch2
      phkk(2,nhkk)   = pych2
      phkk(3,nhkk)   = plch2
      phkk(4,nhkk)   = ech2
      phkk(5,nhkk)   = amdch2
      vhkk(1,nhkk) = vhkk(1,nhkk-1)
      vhkk(2,nhkk) = vhkk(2,nhkk-1)
      vhkk(3,nhkk) = vhkk(3,nhkk-1)
      IF ((betp.NE.0.0d0).AND.(bgamp.NE.0.0d0))
     &vhkk(4,nhkk) = vhkk(3,nhkk)/betp-vhkk(3,nhkk-2)/bgamp
*
*                    diffractive nucleon
*
      nhkk = nhkk + 1
      isthkk(nhkk)   = 188
      idhkk(nhkk)    = 88888
      IF (idiftp.EQ.2) jmohkk(1,nhkk) = itapoi
      IF (idiftp.EQ.1) jmohkk(1,nhkk) = 1
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
      jdahkk(2,nhkk) = 0
      phkk(1,nhkk)   = pdfq1(1)
      phkk(2,nhkk)   = pdfq1(2)
      phkk(3,nhkk)   = pdfq1(3)
      phkk(4,nhkk)   = pdfq1(4)
      phkk(5,nhkk)   = amdch3
      vhkk(1,nhkk) = vhkk(1,jmohkk(1,nhkk))
      vhkk(2,nhkk) = vhkk(2,jmohkk(1,nhkk))
      vhkk(3,nhkk) = vhkk(3,jmohkk(1,nhkk))
      vhkk(4,nhkk) = vhkk(4,jmohkk(1,nhkk))
*
*
*---------- S. Roesler 21-10-93
*      check energy-momentum conservation
      IF (ipev.GE.2) THEN
         px = pdq1(1)+pdq2(1)+pdd1(1)+pdd2(1)+pdfq1(1)
         py = pdq1(2)+pdq2(2)+pdd1(2)+pdd2(2)+pdfq1(2)
         pz = pdq1(3)+pdq2(3)+pdd1(3)+pdd2(3)+pdfq1(3)
         ee = ecm-(pdq1(4)+pdq2(4)+pdd1(4)+pdd2(4)+pdfq1(4))
         WRITE(lout,*)'VALMSD: ENERGY-MOMENTUM-CHECK (PX,PY,PZ,E)'
         WRITE(lout,'(5F12.6)')px,py,pz,ee,ecm
      ENDIF
*
      RETURN
 9999 CONTINUE
      ncrej = ncrej+1
      IF (mod(ncrej,500).EQ.0) WRITE(lout,9900) ncrej
 9900 FORMAT('REJECTION IN VALMSD ',i10)
      iirej = 0
      irej  = 1
      RETURN
      END
*
*===hadrdi===============================================================*
*
      SUBROUTINE hadrdi(NAUX,IJPROJ,IJTAR,NHKKH1)
 
**************************************************************************
* Version November 1993                         by Stefan Roesler        *
*                                                  University of Leipzig *
* This subroutine prepares the hadronisation of diffractive chains       *
* (single-diffractive component), calls HADJET and stores the results    *
* in common block /HKKEVT/.                                              *
**************************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998,intmx=2488,naumax=897,nfimax=249)
      CHARACTER*8 aname,anc,anf
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /dpar/   aname(210),aam(210),ga(210),tau(210),iich(210),
     &                iibar(210),k1(210),k2(210)
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /difpar/ pxc(902),  pyc(902),pzc(902),
     &                hec(902),  amc(902),ichc(902),
     &                ibarc(902),anc(902),nrc(902)
      COMMON /dfinpa/ anf(nfimax),pxf(nfimax),pyf(nfimax),
     &                pzf(nfimax),hef(nfimax),amf(nfimax),
     &                ichf(nfimax),ibarf(nfimax),nref(nfimax)
      COMMON /dfinpz/iormo(nfimax),idaug1(nfimax),idaug2(nfimax),
     * istath(nfimax)
      COMMON /abrdif/ xdq1,xdq2,xddq1,xddq2,
     &                ikvq1,ikvq2,ikd1q1,ikd2q1,ikd1q2,ikd2q2,
     &                idiffp,idifap,
     &                amdch1,amdch2,amdch3,gamdc1,gamdc2,gamdc3,
     &                pgxvc1,pgyvc1,pgzvc1,pgxvc2,pgyvc2,pgzvc2,
     &                pgxvc3,pgyvc3,pgzvc3,ndch1,ndch2,ndch3,
     &                ikdch1,ikdch2,ikdch3,
     &                pdq1(4),pdq2(4),pdd1(4),pdd2(4),pdfq1(4)
      COMMON /dinpda/ imps(6,6),imve(6,6),ib08(6,21),ib10(6,21),
     &                ia08(6,21),ia10(6,21),
     &                a1,b1,b2,b3,lt,le,bet,as,b8,ame,diq,isu
      COMMON /enerin/ eproj,etarg
      COMMON /difout/ amchdi,ttt,nnaux,kproj,ktarg
      COMMON /sdflag/ isd
      common/xxlmdd/ijlmdd,kdlmdd 
C                                   modified DPMJET
       COMMON /bufueh/ annvv,annss,annsv,annvs,anncc,
     *                 anndv,annvd,annds,annsd,
     *                 annhh,annzz,
     *                 ptvv,ptss,ptsv,ptvs,ptcc,ptdv,ptvd,ptds,ptsd,
     *                 pthh,ptzz,
     *                 eevv,eess,eesv,eevs,eecc,eedv,eevd,eeds,eesd,
     *                 eehh,eezz
     *                ,anndi,ptdi,eedi
     *                ,annzd,anndz,ptzd,ptdz,eezd,eedz
C---------------------
*
      dimension poj1(4),pat1(4),poj2(4),pat2(4)
*
      nhkkh1 = nhkk
      naux   = 0
      nhad   = 0
      pxdi   = 0.0d0
      pydi   = 0.0d0
      pldi   = 0.0d0
      edi    = 0.0d0
      imoh2  = nhkk-1
      imoh3  = nhkk
      IF (isd.EQ.1) imoh1 = nhkk-4
      ibproj = iibar(ijproj)
      ibtar  = iibar(ijtar)
      kproj  = ijproj
      ktarg  = ijtar
*
      IF (ipev.GE.2) WRITE(lout,1100) isd
 1100 FORMAT('HADRDI: ISD ',i3)
*
      nunuc1 = 3
      nunuc2 = 3
      IF ((ibproj.NE.0).AND.(idiftp.EQ.2)) nunuc2 = 6
      IF ((ibtar .NE.0).AND.(idiftp.EQ.1)) nunuc2 = 4
      IF (idiftp.EQ.2) THEN
         DO 10 j=1,4
            poj1(j) = pdq1(j)
            pat1(j) = pdd2(j)
            poj2(j) = pdd1(j)
            pat2(j) = pdq2(j)
   10    CONTINUE
      ELSE
         DO 11 j=1,4
            poj1(j) = pdd2(j)
            pat1(j) = pdq1(j)
            poj2(j) = pdq2(j)
            pat2(j) = pdd1(j)
   11    CONTINUE
      ENDIF
      IF (idiftp.EQ.1) THEN
         ifb11 = idifap
         ifb12 = ikvq2
         ifb21 = idiffp
         ifb22 = ikd1q2
         ifb23 = ikd2q2
      ELSE IF ((idiftp.EQ.2).AND.(ikvq1.GT.0)) THEN
         ifb11 = ikvq1
         ifb12 = idifap
         ifb21 = ikd1q1
         ifb22 = ikd2q1
         ifb23 = idiffp
      ELSE IF ((idiftp.EQ.2).AND.(ikvq1.LE.0)) THEN
         ifb11 = ikvq1
         ifb12 = idiffp
         ifb21 = ikd1q1
         ifb22 = ikd2q1
         ifb23 = idifap
      ENDIF
      IF ((ifb22.EQ.0).AND.(ifb23.NE.0)) THEN
         ifb22 = ifb23
         ifb23 = 0
      ENDIF
      IF (ifb11.LT.0) ifb11 = iabs(ifb11)+6
      IF (ifb12.LT.0) ifb12 = iabs(ifb12)+6
      IF (ifb21.LT.0) ifb21 = iabs(ifb21)+6
      IF (ifb22.LT.0) ifb22 = iabs(ifb22)+6
      IF (ifb23.LT.0) ifb23 = iabs(ifb23)+6
*
*-------------------------- chain 1
*
C        WRITE(LOUT,1001) (POJ1(I),I=1,4)
C        WRITE(LOUT,1002) (PAT1(I),I=1,4)
      IF (ipev.GE.2) THEN
         WRITE(lout,1000) nhad,ikdch1,nunuc1,ndch1,ifb11,ifb12,
     &                                             ifb13,ifb14
         WRITE(lout,1001) (poj1(i),i=1,4)
         WRITE(lout,1002) (pat1(i),i=1,4)
         WRITE(lout,1003) gamdc1,pgxvc1,pgyvc1,pgzvc1,amdch1
 1000    FORMAT('HADRDI: NHAD,IKDCH1,NUNUC1,NDCH1,IFB11,IFB12',
     &                  ', IFB13,IFB14 ',8i4)
 1001    FORMAT('HADRDI: POJ1 ',4e15.5)
 1002    FORMAT('HADRDI: PAT1 ',4e15.5)
 1003    FORMAT('HADRDI: GAMDC1,PGXVC1,PGYVC1,PGZVC1,AMDCH1',5f10.5)
      ENDIF
      CALL hadjet(nhad,amdch1,poj1,pat1,gamdc1,pgxvc1,
     &            pgyvc1,pgzvc1,ifb11,ifb12,ifb13,ifb14,
     &            ikdch1,ikdch1,nunuc1,ndch1,7)
*
      nhkkbe = nhkk+1
      IF (nhad.EQ.0) goto 13
      DO 12 j=1,nhad
         IF (nhkk.EQ.nmxhkk) THEN
            WRITE(lout,1004) nhkk
 1004       FORMAT(.EQ.'HADRDI: NHKKNMXHKK',i10)
            goto 9999
         ENDIF
         nhkk   = nhkk+1
         naux   = naux+1
         IF(ibarf(j).EQ.500)go to 776
         echeck = sqrt(pxf(j)**2+pyf(j)**2+pzf(j)**2+amf(j)**2)
         IF (abs(echeck-hef(j)).GT.0.5d-2) THEN
            WRITE(lout,1005) nhkk,echeck,hef(j),amf(j)
 1005       FORMAT('HADRDI: CHAIN 1  CORRECT INCONSISTENT ENERGY',
     &              i10,3f10.5)
            hef(j) = echeck
         ENDIF
  776    CONTINUE
         anndi=anndi+1
         eedi=eedi+hef(j)
         ptdi=ptdi+sqrt(pxf(j)**2+pyf(j)**2)
         pxc(naux) = pxf(j)
         pyc(naux) = pyf(j)
         pzc(naux) = pzf(j)
         hec(naux) = hef(j)
         amc(naux) = amf(j)
         ichc(naux) = ichf(j)
         ibarc(naux) = ibarf(j)
         anc(naux) = anf(j)
         nrc(naux) = nref(j)
         pxdi   = pxdi+pxf(j)
         pydi   = pydi+pyf(j)
         pldi   = pldi+pzf(j)
         edi    = edi +hef(j)
         ediff  = ediff+hef(j)
         ptdiff = ptdiff+sqrt(pxf(j)**2+pyf(j)**2)
         isthkk(nhkk)   = 1
         IF(ibarf(j).EQ.500)isthkk(nhkk)=2
         idhkk(nhkk)   = mpdgha(nref(j))
     IF(iormo(j).EQ.999)THEN
           jmohkk(1,nhkk) = imoh1
     ELSE
       jmohkk(1,nhkk)=nhkkbe+iormo(j)-1
     ENDIF
         jmohkk(2,nhkk) = 0
         jdahkk(1,nhkk) = 0
         jdahkk(2,nhkk) = 0
         phkk(1,nhkk)   = pxf(j)
         phkk(2,nhkk)   = pyf(j)
         phkk(3,nhkk)   = pzf(j)
         phkk(4,nhkk)   = hef(j)
         phkk(5,nhkk)   = amf(j)
         imohkk         = jmohkk(1,nhkk)
         vhkk(1,nhkk)   = vhkk(1,imohkk)
         vhkk(2,nhkk)   = vhkk(2,imohkk)
         vhkk(3,nhkk)   = vhkk(3,imohkk)
         vhkk(4,nhkk)   = vhkk(4,imohkk)
         IF (iphkk.GE.1) THEN
            WRITE(lout,1006) nhkk,isthkk(nhkk),idhkk(nhkk),
     &                       jmohkk(1,nhkk),jmohkk(2,nhkk),
     &                       jdahkk(1,nhkk),jdahkk(2,nhkk)
            WRITE(lout,1007) (phkk(k,nhkk),k=1,5)
 1006       FORMAT('HADRDI: NHKK,ISTHKK,IDHKK,JMOHKK,JDAHKK',7i6)
 1007       FORMAT('HADRDI: PHKK ',5f10.5)
         ENDIF
   12 CONTINUE
   13 CONTINUE
      IF ((nhad.GT.0).AND.(isd.EQ.1)) THEN
         jdahkk(1,imoh1) = nhkkbe
         jdahkk(2,imoh1) = nhkk
      ENDIF
*
*------------------------ chain 2
*
      nhad = 0
C        WRITE(LOUT,1009) (POJ2(I),I=1,4)
C        WRITE(LOUT,1010) (PAT2(I),I=1,4)
      IF (ipev.GE.2) THEN
         WRITE(lout,1008) nhad,ikdch2,nunuc2,ndch2,ifb21,ifb22,
     &                                             ifb23,ifb24
         WRITE(lout,1009) (poj2(i),i=1,4)
         WRITE(lout,1010) (pat2(i),i=1,4)
         WRITE(lout,1011) gamdc2,pgxvc2,pgyvc2,pgzvc2,amdch2
 1008    FORMAT('HADRDI: NHAD,IKDCH2,NUNUC2,NDCH2,IFB21,IFB22,
     &                   IFB23,IFB24 ',8i4)
 1009    FORMAT('HADRDI: POJ2 ',4e15.5)
 1010    FORMAT('HADRDI: PAT2 ',4e15.5)
 1011    FORMAT('HADRDI: GAMDC2,PGXVC2,PGYVC2,PGZVC2,AMDCH2',5f10.5)
      ENDIF
      CALL hadjet(nhad,amdch2,poj2,pat2,gamdc2,pgxvc2,
     &            pgyvc2,pgzvc2,ifb21,ifb22,ifb23,ifb24,
     &            ikdch2,ikdch2,nunuc2,ndch2,8)
*
      nhkkbe = nhkk+1
      IF (nhad.EQ.0) goto 15
      DO 14 j=1,nhad
         IF (nhkk.EQ.nmxhkk) THEN
            WRITE(lout,1012) nhkk
 1012       FORMAT(.EQ.'HADRDI: NHKKNMXHKK',i10)
            goto 9999
         ENDIF
         nhkk   = nhkk+1
         naux   = naux+1
         IF(ibarf(j).EQ.500)go to 775
         echeck = sqrt(pxf(j)**2+pyf(j)**2+pzf(j)**2+amf(j)**2)
         IF (abs(echeck-hef(j)).GT.0.5d-2) THEN
            WRITE(lout,1013) nhkk,echeck,hef(j),amf(j)
 1013       FORMAT('HADRDI: CHAIN 2  CORRECT INCONSISTENT ENERGY',
     &              i10,3f10.5)
            hef(j) = echeck
         ENDIF
  775    CONTINUE
         anndi=anndi+1
         eedi=eedi+hef(j)
         ptdi=ptdi+sqrt(pxf(j)**2+pyf(j)**2)
         pxc(naux) = pxf(j)
         pyc(naux) = pyf(j)
         pzc(naux) = pzf(j)
         hec(naux) = hef(j)
         amc(naux) = amf(j)
         ichc(naux) = ichf(j)
         ibarc(naux) = ibarf(j)
         anc(naux) = anf(j)
         nrc(naux) = nref(j)
         pxdi   = pxdi+pxf(j)
         pydi   = pydi+pyf(j)
         pldi   = pldi+pzf(j)
         edi    = edi +hef(j)
         ediff  = ediff+hef(j)
         ptdiff = ptdiff+sqrt(pxf(j)**2+pyf(j)**2)
         isthkk(nhkk)   = 1
         IF(ibarf(j).EQ.500)isthkk(nhkk)=2
         idhkk(nhkk)   = mpdgha(nref(j))
     IF(iormo(j).EQ.999)THEN
           jmohkk(1,nhkk) = imoh2
     ELSE
       jmohkk(1,nhkk)=nhkkbe+iormo(j)-1
     ENDIF
         jmohkk(2,nhkk) = 0
         jdahkk(1,nhkk) = 0
         jdahkk(2,nhkk) = 0
         phkk(1,nhkk)   = pxf(j)
         phkk(2,nhkk)   = pyf(j)
         phkk(3,nhkk)   = pzf(j)
         phkk(4,nhkk)   = hef(j)
         phkk(5,nhkk)   = amf(j)
         imohkk         = jmohkk(1,nhkk)
         vhkk(1,nhkk)   = vhkk(1,imohkk)
         vhkk(2,nhkk)   = vhkk(2,imohkk)
         vhkk(3,nhkk)   = vhkk(3,imohkk)
         vhkk(4,nhkk)   = vhkk(4,imohkk)
         IF (iphkk.GE.2) THEN
            WRITE(lout,1014) nhkk,isthkk(nhkk),idhkk(nhkk),
     &                       jmohkk(1,nhkk),jmohkk(2,nhkk),
     &                       jdahkk(1,nhkk),jdahkk(2,nhkk)
            WRITE(lout,1015) (phkk(k,nhkk),k=1,5)
 1014       FORMAT('HADRDI: NHKK,ISTHKK,IDHKK,JMOHKK,JDAHKK',7i6)
 1015       FORMAT('HADRDI: PHKK ',5f10.5)
         ENDIF
   14 CONTINUE
   15 CONTINUE
      IF (nhad.GT.0) THEN
         jdahkk(1,imoh2) = nhkkbe
         jdahkk(2,imoh2) = nhkk
      ENDIF
*
*----------------------------- diffractive nucleon/antinucleon
*
      naux = naux+1
      IF (idiftp.EQ.1) THEN
    IF(ijlmdd.EQ.1)THEN
         amc(naux) = aam(kdlmdd)
         ichc(naux) = iich(kdlmdd)
         ibarc(naux) = iibar(kdlmdd)
         anc(naux) = aname(kdlmdd)
         nrc(naux) =kdlmdd 
    ELSEIF(ijlmdd.EQ.0)THEN
         amc(naux) = aam(ijproj)
         ichc(naux) = iich(ijproj)
         ibarc(naux) = iibar(ijproj)
         anc(naux) = aname(ijproj)
         nrc(naux) = ijproj
        ENDIF
      ELSEIF (idiftp.EQ.2) THEN
    IF(ijlmdd.EQ.1)THEN
         amc(naux) = aam(kdlmdd)
         ichc(naux) = iich(kdlmdd)
         ibarc(naux) = iibar(kdlmdd)
         anc(naux) = aname(kdlmdd)
         nrc(naux) =kdlmdd 
    ELSEIF(ijlmdd.EQ.0)THEN
         amc(naux) = aam(ijtar)
         ichc(naux) = iich(ijtar)
         ibarc(naux) = iibar(ijtar)
         anc(naux) = aname(ijtar)
         nrc(naux) = ijtar
        ENDIF
      ENDIF
      pxc(naux) = pdfq1(1)
      pyc(naux) = pdfq1(2)
      pzc(naux) = pdfq1(3)
      hec(naux) = pdfq1(4)
         anndi=anndi+1
         eedi=eedi+hec(naux)
         ptdi=ptdi+sqrt(pxc(naux)**2+pyc(naux)**2)
      nhkk = nhkk+1
      isthkk(nhkk)   = 1
C        IF(IBARF(J).EQ.500)ISTHKK(NHKK)=2
      idhkk(nhkk)   = mpdgha(nrc(naux))
     IF(iormo(j).EQ.999)THEN
           jmohkk(1,nhkk) = imoh3
     ELSE
       jmohkk(1,nhkk)=nhkkbe+iormo(j)-1
     ENDIF
      jmohkk(2,nhkk) = 0
      jdahkk(1,nhkk) = 0
*---------- S. Roesler 5-11-93
*           the following line is just to get the leading particle
*           detected
      jdahkk(2,nhkk) = 1000
*
      phkk(1,nhkk)   = pxc(naux)
      phkk(2,nhkk)   = pyc(naux)
      phkk(3,nhkk)   = pzc(naux)
      phkk(4,nhkk)   = hec(naux)
      phkk(5,nhkk)   = amc(naux)
      jdahkk(1,imoh3)= nhkk
      imohkk         = jmohkk(1,nhkk)
      vhkk(1,nhkk)   = vhkk(1,imohkk)
      vhkk(2,nhkk)   = vhkk(2,imohkk)
      vhkk(3,nhkk)   = vhkk(3,imohkk)
      vhkk(4,nhkk)   = vhkk(4,imohkk)
      IF (iphkk.GE.2) THEN
         WRITE(lout,1016) nhkk,isthkk(nhkk),idhkk(nhkk),
     &                    jmohkk(1,nhkk),jmohkk(2,nhkk),
     &                    jdahkk(1,nhkk),jdahkk(2,nhkk)
         WRITE(lout,1017) (phkk(k,nhkk),k=1,5)
 1016    FORMAT('HADRDI: NHKK,ISTHKK,IDHKK,JMOHKK,JDAHKK',7i6)
 1017    FORMAT('HADRDI: PHKK ',5f10.5)
      ENDIF
      IF (ipev.GE.2) THEN
         DO 16 i=1,naux
            WRITE(lout,*) 'HADRDI: DIFFRACTIVE JET-HADRONS'
            WRITE(lout,1018)i,pxc(i),pyc(i),pzc(i),hec(i),amc(i),
     &                      ichc(i),ibarc(i),nrc(i),anc(i)
 1018       FORMAT(i5,5f12.4,3i5,a10)
   16    CONTINUE
      ENDIF
*
      nnaux  = naux
      amchdi = sqrt(edi**2-pxdi**2-pydi**2-pldi**2)
      IF (idiftp.EQ.1) ttt=2*aam(ijproj)**2-2.*(eproj*hec(naux)
     &                    -sqrt(eproj**2-aam(ijproj)**2)*pzc(naux))
      IF (idiftp.EQ.2) ttt=2*aam(ijtar)**2-2.*(etarg*hec(naux)
     &                    +sqrt(etarg**2-aam(ijtar)**2)*pzc(naux))
      IF (ipev.GE.2) THEN
         WRITE(lout,1019) amchdi,ttt
 1019    FORMAT('HADRDI: AMCHDI,TTT ',2f10.5)
      ENDIF
 9999 CONTINUE
      RETURN
      END
*
*===diadif===============================================================*
*
      SUBROUTINE diadif(IOP,NHKKH1)
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      parameter(lout=6,llook=9)
      parameter(nmxhkk= 89998)
      CHARACTER*8 aname,anc
      COMMON /hkkevt/ nhkk,nevhkk,     isthkk(nmxhkk),  idhkk(nmxhkk),
     &                jmohkk(2,nmxhkk),jdahkk(2,nmxhkk),phkk(5,nmxhkk),
     &                vhkk(4,nmxhkk),  whkk(4,nmxhkk)
      COMMON /dprin/  ipri,ipev,ippa,ipco,init,iphkk,itopd,ipaupr
      COMMON /dpar/   aname(210),aam(210),ga(210),tau(210),iich(210),
     &                iibar(210),k1(210),k2(210)
      COMMON /difpar/ pxc(902),  pyc(902),pzc(902),
     &                hec(902),  amc(902),ichc(902),
     &                ibarc(902),anc(902),nrc(902)
      COMMON /enerin/ eproj,etarg
      COMMON /nncms/  dgamcm,dbgcm,ecm,dpcm,deproj,dpproj
      COMMON /dhisto/ xyl(51,10),yyl(51,10),yylps(51,10),xxfl(51,10),
     &                yxfl(51,10),tdtdm(40,24),dsdtdm(40,24),
     &                amdm(24,40),dsdm(24,40),ave(30),avmult(30),
     &                yxflch(51),yxflpi(51)
      COMMON /difout/ amch,tt,nhad,kproj,ktarg
      COMMON /diffra/ isingd,idiftp,ioudif,iflagd
      COMMON /nucc/   it,itz,ip,ipz,ijproj,ibproj,ijtarg,ibtarg
      COMMON /evflag/ numev
      dimension indx(28),px(902),py(902),pz(902),he(902),am(902),
     &          ich(902),nr(902)
C     DATA INDX /1,8,10,10,10,10,7,2,7,10,10,7,3,4,5,6,
C    &          11,12,7,13,14,15,16,17,18,7,7,7/
      DATA indx/ 1,8,10,10,10,   10,7,2,7,10,
     &           10,7,3,4,5,      6,7,7,7,7,
     &            7,7,7,7,7,      7,7,7/
*
      goto(1,2,3) iop
*
    1 CONTINUE
      ncev = 0
      dxfl = 0.04d0
      dt   = 0.1d0
      ddm  = 10.0d0
      dy   = 0.499999d0
      nevt = 0
      nch  = 0
      npi  = 0
      nhad = 0
C     KPROJ= 0
C     KTARG= 0
      amch = 0.0d0
      tt   = 0.0d0
*
      DO 10 j=1,51
         yxflch(j) = 0.0d0
         yxflpi(j) = 0.0d0
         DO 11 i=1,10
            xxfl(j,i) = j*dxfl-1.0d0
            yxfl(j,i) = 1.0d-18
            xyl(j,i)  = (j-24)*dy-dy/2.0d0
            yyl(j,i)  = 1.0d-18
            yylps(j,i)= 1.0d-18
   11    CONTINUE
   10 CONTINUE
      DO 12 i=1,40
         DO 13 j=1,24
            tdtdm(i,j) = i*dt
            dsdtdm(i,j)= 1.0d-8
            amdm(j,i)  = (j*ddm-ddm/2.0d0)**2
            dsdm(j,i)  = 1.0d-8
            amdm(j,i)  = log10(amdm(j,i))
   13    CONTINUE
   12 CONTINUE
      DO 14 i=1,30
         ave(i)    = 1.0d-18
         avmult(i) = 1.0d-18
   14 CONTINUE
      RETURN
*
    2 CONTINUE
      ncev = ncev+1
      IF (mod(ncev,2000).EQ.0) WRITE(lout,*) ncev
      j = 0
C     IF (IFLAGD.EQ.1) RETURN
      DO 21 i=nhkkh1+1,nhkk
         IF ((isthkk(i).EQ.1).AND.(jmohkk(2,i).NE.100).AND.
     &       (jdahkk(1,i).EQ.0)) THEN
            j = j+1
            px(j) = phkk(1,i)
            py(j) = phkk(2,i)
            pz(j) = phkk(3,i)
            he(j) = phkk(4,i)
            am(j) = phkk(5,i)
            nr(j) = mcihad(idhkk(i))
            ich(j)= iich(nr(j))
         ENDIF
   21 CONTINUE
      ihad = j
      IF (ipev.GE.2) THEN
         WRITE(lout,*) 'DIADIF: PX,PY,PZ,HE,AM,NR,ICH'
         DO 22 i=1,ihad
            WRITE(lout,*) px(i),py(i),pz(i),he(i),am(i),nr(i),ich(i)
 1000       FORMAT(5f12.5,2i4)
   22    CONTINUE
      ENDIF
C     IF (IDIFTP.EQ.1) THEN
C        P0 = SQRT(ETARG**2-AAM(KTARG)**2)
C     ELSE IF (IDIFTP.EQ.2) THEN
C        P0 = SQRT(EPROJ**2-AAM(KPROJ)**2)
C     ENDIF
      epcm = (aam(ijproj)**2-aam(1)**2+ecm**2)/(2.0d0*ecm)
      p0   = sqrt((epcm-aam(ijproj))*(epcm+aam(ijproj)))
      nevt = nevt+1
      avmult(30) = avmult(30)+ihad
      DO 20 i=1,ihad
         nre = nr(i)
         IF (nre.GT.25) nre = 28
         IF (nre.LT. 1) nre = 28
         ni = indx(nre)
         IF (nre.EQ.28) ni = 8
         ave(nre) = ave(nre)+he(i)
         ave(30)  = ave(30) +he(i)
         IF (ni.NE.6) ave(29) = ave(29)+he(i)
         avmult(nre) = avmult(nre)+1.0d0
         IF (ni.NE.6) avmult(29) = avmult(29)+1.0d0
         IF (ich(i).NE.0) ave(27) = ave(27)+he(i)
         IF (ich(i).NE.0) avmult(27) = avmult(27)+1.0d0
C        XFL = PZ(I)/PO
         xfl  = pz(i)/p0
         xfle = he(i)/p0
C        IF ((ICH(I).NE.0).AND.(XFL.GT.-0.84D0).AND.(XFL.LT.-0.44D0))
C    &      WRITE(LOUT,*)'WRONG EVENT',NUMEV
         ixfl = xfl/dxfl+26
C        IF (XFL.LT.0.0D0) WRITE(LLOOK,'(2F15.5,I3)')XFL,PZ(I),IXFL
         IF (ixfl.LT.1 ) ixfl=1
         IF (ixfl.GT.50) ixfl=50
         xxxfl = abs(xfl)
         IF (nre.EQ.14) THEN
            npi = npi+1
            yxflpi(ixfl) = yxflpi(ixfl)+xfle
         ENDIF
         IF ((ich(i).GT.0).AND.(nre.NE.1)) THEN
            nch = nch+1
            yxflch(ixfl) = yxflch(ixfl)+xfle
         ENDIF
         IF (ich(i).NE.0) yxfl(ixfl,9) = yxfl(ixfl,9)+xxxfl
         yxfl(ixfl,ni) = yxfl(ixfl,ni)+xxxfl
         yxfl(ixfl,10) = yxfl(ixfl,10)+xxxfl
         ptt = px(i)**2+py(i)**2
         amt = sqrt(ptt+am(i)**2)
         yl = 0.5d0*log(abs((he(i)+pz(i)+1.d-10)
     &        /(he(i)-pz(i)+1.d-10)))
         ylps = log(abs((pz(i)+sqrt(pz(i)**2+ptt))
     &        /sqrt(ptt+1.d-6)+1.d-18))
         iylps = (ylps+25.0d0*dy)/dy
         IF (iylps.LT.1)  iylps = 1
         IF (iylps.GT.51) iylps = 51
         yylps(iylps,ni) = yylps(iylps,ni)+1.0d0
         yylps(iylps,10) = yylps(iylps,10)+1.0d0
         IF (ich(i).NE.0) yylps(iylps,9) = yylps(iylps,9)+1.0d0
         iyl = (yl+25.0d0*dy)/dy
         IF (iyl.LT.1)  iyl = 1
         IF (iyl.GT.51) iyl = 51
         IF (ich(i).NE.0) yyl(iyl,9) = yyl(iyl,9)+1.0d0
         yyl(iyl,ni) = yyl(iyl,ni)+1.0d0
         yyl(iyl,10) = yyl(iyl,10)+1.0d0
   20 CONTINUE
      kpl = (amch+ddm+ddm/2.0d0)/ddm
      IF (kpl.GT.24) kpl=24
      IF (kpl.LT.1)  kpl=1
      itt = 10.0d0*abs(tt)+1
      IF (itt.GT.40) itt = 40
C     DSDTDM(ITT,KPL) = DSDTDM(ITT,KPL)+1.0D0/AMCH
      RETURN
*
    3 CONTINUE
      DO 30 j=1,51
         IF(nch.NE.0) yxflch(j) = yxflch(j)/(nch*dxfl)
         IF(npi.NE.0) yxflpi(j) = yxflpi(j)/(npi*dxfl)
         DO 31 i=1,10
            yxfl(j,i) = log10(abs(yxfl(j,i) /(nevt*dxfl))+1.0d-8)
            yyl(j,i)  = yyl(j,i) /(nevt*dy)
            yylps(j,i)= yylps(j,i)/(nevt*dy)
   31    CONTINUE
   30 CONTINUE
      DO 32 i=1,30
         avmult(i) = avmult(i)/nevt
         ave( i)   = ave(i)   /nevt
   32 CONTINUE
      DO 33 i=1,40
         DO 34 j=1,24
            dsdtdm(i,j) = dsdtdm(i,j)/nevt
            dsdtdm(i,j) = log10(dsdtdm(i,j))
            dsdm(j,i)   = dsdtdm(i,j)
   34    CONTINUE
   33 CONTINUE
      WRITE(lout,*)'NAME,AVE,AVMULT'
      DO 105 i=1,30
         WRITE(lout,210) aname(i),ave(i),avmult(i)
  210    FORMAT(' ',a8,2f15.5)
  105 CONTINUE
      WRITE(lout,100)
  100 FORMAT('1 RAPIDITY DISTRIBUTION')
      DO 110 j=1,50
         WRITE(lout,200) xyl(j,1),(yyl(j,i),i=1,10)
c        WRITE(LOUT,200) XYL(J,1),(YYL(J,I),I=11,20)
  200    FORMAT (f10.2,10e11.3)
  110 CONTINUE
      CALL plot(xyl,yyl,510,10,51,-25.*dy,dy,0.,0.03)
      WRITE(lout,101)
  101 FORMAT('1 PSEUDORAPIDITY DISTRIBUTION')
      CALL plot(xyl,yylps,510,10,51,-25.*dy,dy,0.,0.03)
      WRITE(lout,102)
  102 FORMAT ('1  LONG MOMENTUM (SCALED) DISTRIBUTION (LOG)')
      CALL plot(xxfl,yxfl,510,10,51,-1.,dxfl,-3.5,0.05)
      WRITE(lout,103)
  103 FORMAT ('1DISTRIBUTION DS/DTDM AS FUNCTION OF T ')
      CALL plot(tdtdm,dsdtdm,960,24,40,0.,0.04,-5.,0.05)
      WRITE(lout,104)
  104 FORMAT ('1DISTRIBUTION DS/DTDM AS FUNCTION OF M**2 ')
      CALL plot(amdm,dsdm,960,40,24,2.,0.1,-5.,0.05)
      IF (ijproj.EQ.13) sig = 66.0d0
      IF (ijproj.EQ.14) sig = 66.0d0
      IF (ijproj.EQ.15) sig = 54.9d0
      IF (ijproj.EQ.1)  sig = 95.0d0
      sigch = 84.8
      sigpim=0.23d0
C     OPEN(19,FILE='FEYNDI.OUT')
      WRITE(lout,*)'FEYNMAN-DISTRIBUTION FOR PION-'
      DO 35 i=1,51
         WRITE(lout,'(2F15.5)')
     &   dxfl*(i-1)-1,sig*yxflpi(i)
         WRITE(lout,'(2F15.5)')
     &   dxfl*i-1,sig*yxflpi(i)
   35 CONTINUE
      WRITE(lout,*)'FEYNMAN-DISTRIBUTION FOR CHARGED PARTICLES'
      DO 36 i=1,51
         WRITE(lout,'(2F15.5)')
     &   dxfl*(i-1)-1,sigch*yxflch(i)
         WRITE(lout,'(2F15.5)')
     &   dxfl*i-1,sigch*yxflch(i)
   36 CONTINUE
C     CLOSE(19)
      RETURN
      END
*
*===sihndi===============================================================*
*
      SUBROUTINE sihndi(ECM,KPROJ,KTARG,SIGDIF,SIGDIH)
 
**********************************************************************
*   Single diffractive hadron-nucleon cross sections                 *
*                                              S.Roesler 14/1/93     *
*                                                                    *
*   The cross sections are calculated from extrapolated single       *
*   diffractive antiproton-proton cross sections (DTUJET92) using    *
*   scaling relations between total and single diffractive cross     *
*   sections.                                                        *
**********************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      CHARACTER*8  aname
      COMMON /dpar/ aname(210),am(210),ga(210),tau(210),iich(210),
     &              iibar(210),k1(210),k2(210)
*
      csd1   =   4.201483727
      csd4   = -0.4763103556e-02
      csd5   =  0.4324148297
*
      chmsd1 =  0.8519297242
      chmsd4 = -0.1443076599e-01
      chmsd5 =  0.4014954567
*
      epn = (ecm**2 - am(kproj)**2 - am(ktarg)**2)/(2.0d0*am(ktarg))
      ppn = sqrt((epn-am(kproj))*(epn+am(kproj)))
*
      sdiapp = csd1+csd4*log(ppn)**2+csd5*log(ppn)
      shmsd  = chmsd1+chmsd4*log(ppn)**2+chmsd5*log(ppn)
      frac   = shmsd/sdiapp
*
      goto( 10, 20,999,999,999,999,999, 10, 20,999,
     &     999, 20, 20, 20, 20, 20, 10, 20, 20, 10,
     &      10, 10, 20, 20, 20) kproj
*
   10 CONTINUE
*---------------------------- p - p , n - p , sigma0+- - p ,
*                             Lambda - p
      csd1   =  6.004476070
      csd4   = -0.1257784606e-03
      csd5   =  0.2447335720
      sigdif = csd1+csd4*log(ppn)**2+csd5*log(ppn)
C     Replace SIGDIF with dpmjet result SIPPSD(ECM)
      sigdif=sippsd(ecm)
      sigdih = frac*sigdif
      RETURN
*
   20 CONTINUE
*
      kpscal = 2
      ktscal = 1
      f      = sdiapp/dshnto(kpscal,ktscal,ecm)
C     F      = SDIAPP/DSHNEL(KPSCAL,KTSCAL,ECM)
      kt     = 1
      sigdif = dshnto(kproj,kt,ecm)*f
C     SIGDIF = DSHNEL(KPROJ,KT,ECM)*F
      sigdih = frac*sigdif
      RETURN
*
  999 CONTINUE
*-------------------------- leptons..
      sigdif = 1.e-10
      sigdih = 1.e-10
      RETURN
      END
*
*===dshnto===============================================================*
*
      DOUBLE PRECISION FUNCTION dshnto(KPROJ,KTARG,UMO)
 
**********************************************************************
*   Total hadron-nucleon cross sections         S.Roesler 12/1/93    *
*                                                                    *
*   Fits from Rev. of Part. Prop.(1992) are used in the momentum     *
*   ranges given there. Cross sections for momenta below them are    *
*   calculated as in an earlier version of this function :           *
*               SIG(el) + SIG(inel) = SIHNEL + SIHNIN .              *
*   Total antiproton-proton cross sections calculated with DTUJET92  *
*   parametrize the cross sections at higher enrgies.                *
**********************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      CHARACTER*8  aname
      COMMON /dpar/ aname(210),aam(210),ga(210),tau(210),iich(210),
     &              iibar(210),k1(210),k2(210)
      COMMON /strufu/istrum,istrut
      dimension sqs(20),siiv(20),sqs22(40),siiv22(40)
      DATA sqs /20.,50.,100.,200.,500.,1000.,1500.,2000.,3000.,
     *4000.,6000.,8000.,10000.,15000.,20000.,30000.,40000.,
     *60000.,80000.,100000/
      DATA siiv /41.6,44.6,47.9,52.3,60.,67.2,71.4,75.,79.,82.4,
     *87.2,90.4,93.2,97.3,100.7,104.7,107.9,111.7,114.7,117.2/
      DATA sqs22 /
     *53.,69.,91.,119.,156.,205.,268.,351.,460.,603.,
     *790.,1036.,1357.,1778.,2329.,
     *3053.,3999.,5239.,6865.,8994.,
     *11785.,15441.,20232.,26509.,34733.,
     *45509.,59627.,78126.,102365.,134123.,
     *175734.,230255.,301690.,395288.,517925.,
     *678609.,889144.,1164997.,1526432.,2000000.
     */
      DATA siiv22 /
     *44.3,45.3,46.5,47.8,49.3,51.0,53.0,55.3,57.9,60.9,
     *64.3,68.0,72.0,76.3,80.8,85.4,90.0,94.7,99.3,103.9,
     *108.4,112.8,117.2,121.4,125.6,
     *129.8,133.9,138.0,142.0,146.1,
     *150.2,154.3,158.5,162.7,166.9, 
     *171.2,175.6,180.0,184.6,189.1
     */
*
      f1 = 1.0d0
      ca = 0.0d0
      cb = 0.0d0
      cc = 0.0d0
      cd = 0.0d0
      cn = 0.0d0
*
      a1 = 0.0d0
      a2 = 0.0d0
      a3 = 1.0d0
      a4 = 0.0d0
      a5 = 0.0d0
      a6 = 0.0d0
*
      param1  =   34.94235992
      param4  =  0.2104312854
      param5  = -0.4509592056e-01
*
      ipio  = 0
      spio1 = 0.0d0
      spio2 = 0.0d0
*
      umo2   = umo**2
      epn = (umo**2-aam(kproj)**2-aam(ktarg)**2)/(2.0d0*aam(ktarg))
      po  = sqrt((epn-aam(kproj))*(epn+aam(kproj)))
*
    1 CONTINUE
*
      IF (ktarg.EQ.8) THEN
           goto( 30, 40,999,999,999,999,999, 10, 20,999,
     &          999,140, 70, 60,150,160,100, 20,140, 10,
     &           10, 10,110,130,120) kproj
      ELSE
           goto( 10, 20,999,999,999,999,999, 30, 40,999,
     &          999, 50, 60, 70, 80, 90,100, 20, 50, 10,
     &           10, 10,110,120,130) kproj
      ENDIF
*
   10 CONTINUE
*---------------------------- p - p , sigma0+- - p
      IF (po.LE.3.0d0) THEN
         goto 500
      ELSE IF ((po.GT.3.0d0).AND.(umo.LE.100.0d0)) THEN
         ca = 48.0d0
         cc = 0.522d0
         cd = -4.51d0
         goto 600
      ELSE
         goto 700
      ENDIF
*
   20 CONTINUE
*---------------------------- pbar - p , Lambdabar - p
      IF (po.LE.5.0d0) THEN
         goto 500
      ELSE IF ((po.GT.5.0d0).AND.(umo.LE.200.0d0)) THEN
         ca = 38.4d0
         cb = 77.6
         cc = 0.26d0
         cd = -1.2d0
         cn = -0.64d0
         goto 600
      ELSE
         goto 700
      ENDIF
*
   30 CONTINUE
*---------------------------- n - p
      IF (po.LE.3.0d0) THEN
         goto 500
      ELSE IF ((po.GT.3.0d0).AND.(po.LE.370.0d0)) THEN
         ca = 47.3d0
         cc = 0.513d0
         cd = -4.27d0
         goto 600
      ELSE IF ((po.GT.370.0d0).AND.(umo.LE.110.0d0)) THEN
         a1 = 38.5d0
         a2 = 0.46d0
         a3 = 125.0d0
         a4 = 15.0d0
         goto 800
      ELSE
         goto 700
      ENDIF
*
   40 CONTINUE
*---------------------------- nbar - p
      IF (po.LE.1.1d0) THEN
         goto 500
      ELSE IF ((po.GT.1.1d0).AND.(po.LE.280.0d0)) THEN
         cb = 133.6d0
         cc = -1.22d0
         cd = 13.7d0
         cn = -0.7d0
         goto 600
      ELSE IF ((po.GT.280.0d0).AND.(umo.LE.110.0d0)) THEN
         a1 = 38.5d0
         a2 = 0.46d0
         a3 = 125.0d0
         a4 = 15.0d0
         a5 = 77.43d0
         a6 = -0.6d0
         goto 800
      ELSE
         goto 700
      ENDIF
*
   50 CONTINUE
*---------------------------- Klong - p , Kshort - p
      r = rndm(v)
      IF (r.LE.0.5d0) THEN
*                             K+ - p
         goto 80
      ELSE
*                             K- - p
         goto 90
      ENDIF
*
   60 CONTINUE
*---------------------------- pi+ - p
      IF (po.LE.4.0d0) THEN
         goto 500
      ELSE IF ((po.GT.4.0d0).AND.(po.LE.340.0d0)) THEN
         ca = 16.4d0
         cb = 19.3d0
         cc = 0.19d0
         cn = -0.42d0
         goto 600
      ELSE IF ((po.GT.340.0d0).AND.(umo.LE.47.0d0)) THEN
         a1 = 24.0d0
         a2 = 0.6d0
         a3 = 160.0d0
         a5 = -7.9d0
         a6 = -0.46d0
         goto 800
      ELSE
         f1 = 2.0d0/3.0d0
         goto 10
      ENDIF
*
   70 CONTINUE
*---------------------------- pi- - p
      IF (po.LE.2.5d0) THEN
         goto 500
      ELSE IF ((po.GT.2.5d0).AND.(po.LE.370.0d0)) THEN
         ca = 33.0d0
         cb = 14.0d0
         cc = 0.456d0
         cd = -4.03d0
         cn = -1.36d0
         goto 600
      ELSE IF ((po.GT.370.0d0).AND.(umo.LE.47.0d0)) THEN
         a1 = 24.0d0
         a2 = 0.6d0
         a3 = 160.0d0
         goto 800
      ELSE
         f1 = 2.0d0/3.0d0
         goto 10
      ENDIF
*
   80 CONTINUE
*---------------------------- K+ - p
      IF (po.LE.2.0d0) THEN
         goto 500
      ELSE IF ((po.GT.2.0d0).AND.(po.LE.310.0d0)) THEN
         ca = 18.1d0
         cc = 0.26d0
         cd = -1.0d0
         goto 600
      ELSE IF ((po.GT.310.0d0).AND.(umo.LE.110.0d0)) THEN
         a1 = 20.3d0
         a2 = 0.59d0
         a3 = 140.0d0
         a5 = -30.13d0
         a6 = -0.58d0
         goto 800
      ELSE
         f1 = 2.0d0/3.0d0
         goto 10
      ENDIF
*
   90 CONTINUE
*---------------------------- K- - p
      IF (po.LE.3.0d0) THEN
         goto 500
      ELSE IF ((po.GT.3.0d0).AND.(po.LE.310.0d0)) THEN
         ca = 32.1d0
         cc = 0.66d0
         cd = -5.6d0
         goto 600
      ELSE IF ((po.GT.310.0d0).AND.(umo.LE.110.0d0)) THEN
         a1 = 20.3d0
         a2 = 0.59d0
         a3 = 140.0d0
         goto 800
      ELSE
         f1 = 2.0d0/3.0d0
         goto 10
      ENDIF
*
  100 CONTINUE
*---------------------------- Lambda - p
      IF (po.LE.0.6d0) THEN
         goto 500
      ELSE IF ((po.GT.0.6d0).AND.(po.LE.21.0d0)) THEN
         ca = 30.4d0
         cd = 1.6d0
         goto 600
      ELSE
         goto 10
      ENDIF
*
  110 CONTINUE
*---------------------------- pi0 - p
*                             1/2(pi+p + pi-p)
      ipio  = 1
      kproj = 13
      goto 1
*
  120 CONTINUE
*---------------------------- K0 - p
      IF (po.LE.2.0d0) THEN
         goto 500
      ELSE IF ((po.GT.2.0d0).AND.(po.LE.310.0d0)) THEN
*                             K+ - n
         ca = 18.7d0
         cc = 0.21d0
         cd = -0.89d0
         goto 600
      ELSE
         goto 80
      ENDIF
*
  130 CONTINUE
*---------------------------- K0bar - p
      IF (po.LE.1.8d0) THEN
         goto 500
      ELSE IF ((po.GT.1.8d0).AND.(po.LE.310.0d0)) THEN
*                             K- - n
         ca = 25.2d0
         cc = 0.38d0
         cd = -2.9d0
         goto 600
      ELSE
         goto 90
      ENDIF
*
  140 CONTINUE
*---------------------------- Klong - n , Kshort - n
      r = rndm(v)
      IF (r.LE.0.5d0) THEN
*                             K+ - n
         goto 150
      ELSE
*                             K- - n
         goto 160
      ENDIF
*
  150 CONTINUE
*---------------------------- K+ - n
      IF (po.LE.2.0d0) THEN
         goto 500
      ELSE IF ((po.GT.2.0d0).AND.(po.LE.310.0d0)) THEN
         ca = 18.7d0
         cc = 0.21d0
         cd = -0.89d0
         goto 600
      ELSE
         goto 90
      ENDIF
*
  160 CONTINUE
*---------------------------- K- - n
      IF (po.LE.1.8d0) THEN
         goto 500
      ELSE IF ((po.GT.1.8d0).AND.(po.LE.310.0d0)) THEN
         ca = 25.2d0
         cc = 0.38d0
         cd = -2.9d0
         goto 600
      ELSE
         goto 80
      ENDIF
*
  500 CONTINUE
      CALL sihnel(kproj,ktarg,po,sel)
      CALL sihnin(kproj,ktarg,po,sin)
      stot = sel + sin
      goto 900
*
  600 CONTINUE
      stot = f1*(ca+cb*po**cn+cc*(log(po))**2+cd*log(po))
      goto 900
*
  700 CONTINUE
      IF(istrum.EQ.14.AND.istrut.EQ.2)THEN
    DO 701 i=1,20
      IF(umo.LE.sqs(i))go to 702
  701   CONTINUE
    i=20
  702   CONTINUE
    IF ((i.EQ.20).AND.(umo.GT.sqs(20)))THEN
      tepp=siiv(20)+(log(umo)-log(sqs(20)))*(siiv(20)-siiv(19))/
     *         (log(sqs(20))-log(sqs(19)))
          stot=f1*tepp
    ELSE
      tepp=siiv(i-1)+(umo-sqs(i-1))*(siiv(i)-siiv(i-1))/
     *         (sqs(i)-sqs(i-1))
          stot=f1*tepp
    ENDIF
      ELSEIF(istrum.EQ.22.AND.istrut.EQ.2)THEN
    DO 711 i=1,40
      IF(umo.LE.sqs22(i))go to 712
  711   CONTINUE
    i=40
  712   CONTINUE
    IF ((i.EQ.40).AND.(umo.GT.sqs22(40)))THEN
      tepp=siiv22(40)+(log(umo)-log(sqs22(40)))*
     *    (siiv22(40)-siiv22(39))/
     *         (log(sqs22(40))-log(sqs22(39)))
          stot=f1*tepp
    ELSE
      tepp=siiv22(i-1)+(umo-sqs22(i-1))*(siiv22(i)-siiv22(i-1))/
     *         (sqs22(i)-sqs22(i-1))
          stot=f1*tepp
    ENDIF
      ELSE
        stot = f1*(param1+param4*log(po)**2+param5*log(po))
      ENDIF
      goto 900
*
  800 CONTINUE
      stot = f1*(a1+a2*(log(umo2/a3))**2+a4/umo2+a5*umo2**a6)
*
  900 CONTINUE
      IF ((ipio.EQ.1).AND.(kproj.EQ.13)) THEN
         spio1 = stot
         kproj = 14
         goto 1
      ENDIF
      IF ((ipio.EQ.1).AND.(kproj.EQ.14)) THEN
         spio2 = stot
         stot = 0.5d0*(spio1+spio2)
      ENDIF
      dshnto = stot
      RETURN
*
  999 CONTINUE
*-------------------------- leptons..
      dshnto = 1.e-10
      RETURN
      END
*
*===dshnel===============================================================*
*
      DOUBLE PRECISION FUNCTION dshnel(KPROJ,KTARG,UMO)
 
**********************************************************************
*   Elastic hadron-nucleon cross sections         S.Roesler 13/1/93  *
*                                                                    *
*   SIHNEL is called for c.m. energies below 50 GeV. Otherwise       *
*   a parametrisation of antiproton-proton elastic cross sections    *
*   obtained from DTUJET92 is used.                                  *
**********************************************************************
 
      IMPLICIT DOUBLE PRECISION (a-h,o-z)
      SAVE
      CHARACTER*8  aname
      COMMON /dpar/ aname(210),aam(210),ga(210),tau(210),iich(210),
     &              iibar(210),k1(210),k2(210)
*
      f1 = 1.0d0
      ca = 0.0d0
      cb = 0.0d0
      cc = 0.0d0
      cd = 0.0d0
      cn = 0.0d0
*
      ipio  = 0
      spio1 = 0.0d0
      spio2 = 0.0d0
*
      param1  =   7.789333344
      param4  =  0.7488331199e-01
      param5  = -0.6963931322
*
      umo2   = umo**2
      epn = (umo**2-aam(kproj)**2-aam(ktarg)**2)/(2.0d0*aam(ktarg))
      po  = sqrt((epn-aam(kproj))*(epn+aam(kproj)))
*
    1 CONTINUE
*
      goto( 10, 10,999,999,999,999,999, 10, 10,999,
     &     999, 30, 20, 20, 20, 20, 10, 10, 30, 10,
     &      10, 10, 40, 20, 20) kproj
*
   10 CONTINUE
      IF (umo.LE.50.0d0) THEN
         CALL sihnel(kproj,ktarg,po,sel)
         goto 900
      ELSE
         f1 = 1.0d0
         goto 500
      ENDIF
*
   20 CONTINUE
      IF (umo.LE.50.0d0) THEN
         CALL sihnel(kproj,ktarg,po,sel)
         goto 900
      ELSE
         f1 = 2.0d0/3.0d0
         goto 500
      ENDIF
*
   30 CONTINUE
*---------------------------- Klong - p , Kshort - p
      r = rndm(v)
      IF (r.LE.0.5d0) THEN
*                             K+ - p
         kproj = 15
      ELSE
*                             K- - p
         kproj = 16
      ENDIF
      goto 1
*
   40 CONTINUE
*---------------------------- pi0 - p
*                             1/2(pi+p + pi-p)
      ipio  = 1
      kproj = 13
      goto 1
*
  500 CONTINUE
      sel = f1*(param1+param4*log(po)**2+param5*log(po))
*
  900 CONTINUE
      IF ((ipio.EQ.1).AND.(kproj.EQ.13)) THEN
         spio1 = sel
         kproj = 14
         goto 1
      ENDIF
      IF ((ipio.EQ.1).AND.(kproj.EQ.14)) THEN
         spio2 = sel
         sel = 0.5d0*(spio1+spio2)
      ENDIF
      dshnel = sel
      RETURN
*
  999 CONTINUE
*-------------------------- leptons..
      dshnel = 1.e-10
      RETURN
      END