X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Fwham%2Fsrc-M%2Fenergy_p_new.F;h=33e670a803d1746763e2f7ed284336100f58f76f;hb=c65d296f3cdc480d3737eae335a510332b4f0dc8;hp=83f4d5e0b566b57773eed793d32e87824ecd4025;hpb=24267f5c78a1b1b5b8a5eaec6ec89a085630502e;p=unres.git diff --git a/source/wham/src-M/energy_p_new.F b/source/wham/src-M/energy_p_new.F index 83f4d5e..33e670a 100644 --- a/source/wham/src-M/energy_p_new.F +++ b/source/wham/src-M/energy_p_new.F @@ -107,7 +107,7 @@ c write (iout,*) "ft(6)",fact(6)," evdw",evdw," evdw_t",evdw_t etot=wsc*(evdw+fact(6)*evdw_t)+wscp*evdw2+welec*fact(1)*ees & +wvdwpp*evdw1 & +wang*ebe+wtor*fact(1)*etors+wscloc*escloc - & +wstrain*ehpb+nss*ebr+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 + & +wstrain*ehpb+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 & +wcorr6*fact(5)*ecorr6+wturn4*fact(3)*eello_turn4 & +wturn3*fact(2)*eello_turn3+wturn6*fact(5)*eturn6 & +wel_loc*fact(2)*eel_loc+edihcnstr+wtor_d*fact(2)*etors_d @@ -116,7 +116,7 @@ c write (iout,*) "ft(6)",fact(6)," evdw",evdw," evdw_t",evdw_t etot=wsc*(evdw+fact(6)*evdw_t)+wscp*evdw2 & +welec*fact(1)*(ees+evdw1) & +wang*ebe+wtor*fact(1)*etors+wscloc*escloc - & +wstrain*ehpb+nss*ebr+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 + & +wstrain*ehpb+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 & +wcorr6*fact(5)*ecorr6+wturn4*fact(3)*eello_turn4 & +wturn3*fact(2)*eello_turn3+wturn6*fact(5)*eturn6 & +wel_loc*fact(2)*eel_loc+edihcnstr+wtor_d*fact(2)*etors_d @@ -228,8 +228,11 @@ C & +wturn3*fact(2)*gel_loc_turn3(i) & +wturn6*fact(5)*gel_loc_turn6(i) & +wel_loc*fact(2)*gel_loc_loc(i) +c & +wsccor*fact(1)*gsccor_loc(i) +c BYLA ROZNICA Z CLUSTER< OSTATNIA LINIA DODANA enddo endif + if (dyn_ss) call dyn_set_nss return end C------------------------------------------------------------------------ @@ -359,11 +362,14 @@ C integer icant external icant cd print *,'Entering ELJ nnt=',nnt,' nct=',nct,' expon=',expon +c ROZNICA z cluster do i=1,210 do j=1,2 eneps_temp(j,i)=0.0d0 enddo enddo +cROZNICA + evdw=0.0D0 evdw_t=0.0d0 do i=iatsc_s,iatsc_e @@ -397,8 +403,11 @@ c write (iout,*)'i=',i,' j=',j,' itypi=',itypi,' itypj=',itypj e2=fac*bb(itypi,itypj) evdwij=e1+e2 ij=icant(itypi,itypj) +c ROZNICA z cluster eneps_temp(1,ij)=eneps_temp(1,ij)+e1/dabs(eps0ij) eneps_temp(2,ij)=eneps_temp(2,ij)+e2/eps0ij +c + cd sigm=dabs(aa(itypi,itypj)/bb(itypi,itypj))**(1.0D0/6.0D0) cd epsi=bb(itypi,itypj)**2/aa(itypi,itypj) cd write (iout,'(2(a3,i3,2x),6(1pd12.4)/2(3(1pd12.4),5x)/)') @@ -775,6 +784,7 @@ C include 'COMMON.ENEPS' include 'COMMON.IOUNITS' include 'COMMON.CALC' + include 'COMMON.SBRIDGE' logical lprn common /srutu/icall integer icant @@ -806,6 +816,26 @@ C Calculate SC interaction energy. C do iint=1,nint_gr(i) do j=istart(i,iint),iend(i,iint) + IF (dyn_ss_mask(i).and.dyn_ss_mask(j)) THEN + call dyn_ssbond_ene(i,j,evdwij) + evdw=evdw+evdwij +C write (iout,'(a6,2i5,0pf7.3,a3,2f10.3)') +C & 'evdw',i,j,evdwij,' ss',evdw,evdw_t +C triple bond artifac removal + do k=j+1,iend(i,iint) +C search over all next residues + if (dyn_ss_mask(k)) then +C check if they are cysteins +C write(iout,*) 'k=',k + call triple_ssbond_ene(i,j,k,evdwij) +C call the energy function that removes the artifical triple disulfide +C bond the soubroutine is located in ssMD.F + evdw=evdw+evdwij +C write (iout,'(a6,2i5,0pf7.3,a3,2f10.3)') +C & 'evdw',i,j,evdwij,'tss',evdw,evdw_t + endif!dyn_ss_mask(k) + enddo! k + ELSE ind=ind+1 itypj=iabs(itype(j)) if (itypj.eq.ntyp1) cycle @@ -899,6 +929,8 @@ C Calculate the radial part of the gradient C Calculate angular part of the gradient. call sc_grad endif +C write(iout,*) "partial sum", evdw, evdw_t + ENDIF ! dyn_ss enddo ! j enddo ! iint enddo ! i @@ -2915,10 +2947,13 @@ C include 'COMMON.DERIV' include 'COMMON.VAR' include 'COMMON.INTERACT' + include 'COMMON.CONTROL' + include 'COMMON.IOUNITS' dimension ggg(3) ehpb=0.0D0 cd print *,'edis: nhpb=',nhpb,' fbr=',fbr cd print *,'link_start=',link_start,' link_end=',link_end +C write(iout,*) link_end, "link_end" if (link_end.eq.0) return do i=link_start,link_end C If ihpb(i) and jhpb(i) > NRES, this is a SC-SC distance, otherwise a @@ -2935,25 +2970,98 @@ C iii and jjj point to the residues for which the distance is assigned. endif C 24/11/03 AL: SS bridges handled separately because of introducing a specific C distance and angle dependent SS bond potential. - if (ii.gt.nres .and. iabs(itype(iii)).eq.1 .and. +C if (ii.gt.nres .and. iabs(itype(iii)).eq.1 .and. +C & iabs(itype(jjj)).eq.1) then +C write(iout,*) constr_dist,"const" + if (.not.dyn_ss .and. i.le.nss) then + if (ii.gt.nres .and. iabs(itype(iii)).eq.1 .and. & iabs(itype(jjj)).eq.1) then call ssbond_ene(iii,jjj,eij) ehpb=ehpb+2*eij - else -C Calculate the distance between the two points and its difference from the -C target distance. - dd=dist(ii,jj) - rdis=dd-dhpb(i) + endif !ii.gt.neres + else if (ii.gt.nres .and. jj.gt.nres) then +c Restraints from contact prediction + dd=dist(ii,jj) + if (constr_dist.eq.11) then +C ehpb=ehpb+fordepth(i)**4.0d0 +C & *rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)) + ehpb=ehpb+fordepth(i)**4.0d0 + & *rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)) + fac=fordepth(i)**4.0d0 + & *rlornmr1prim(dd,dhpb(i),dhpb1(i),forcon(i))/dd +C write (iout,'(a6,2i5,3f8.3)') "edisl",ii,jj, +C & ehpb,fordepth(i),dd +C write(iout,*) ehpb,"atu?" +C ehpb,"tu?" +C fac=fordepth(i)**4.0d0 +C & *rlornmr1prim(dd,dhpb(i),dhpb1(i),forcon(i))/dd + else + if (dhpb1(i).gt.0.0d0) then + ehpb=ehpb+2*forcon(i)*gnmr1(dd,dhpb(i),dhpb1(i)) + fac=forcon(i)*gnmr1prim(dd,dhpb(i),dhpb1(i))/dd +c write (iout,*) "beta nmr", +c & dd,2*forcon(i)*gnmr1(dd,dhpb(i),dhpb1(i)) + else + dd=dist(ii,jj) + rdis=dd-dhpb(i) C Get the force constant corresponding to this distance. - waga=forcon(i) + waga=forcon(i) C Calculate the contribution to energy. - ehpb=ehpb+waga*rdis*rdis + ehpb=ehpb+waga*rdis*rdis +c write (iout,*) "beta reg",dd,waga*rdis*rdis C C Evaluate gradient. C - fac=waga*rdis/dd -cd print *,'i=',i,' ii=',ii,' jj=',jj,' dhpb=',dhpb(i),' dd=',dd, -cd & ' waga=',waga,' fac=',fac + fac=waga*rdis/dd + endif !end dhpb1(i).gt.0 + endif !end const_dist=11 + do j=1,3 + ggg(j)=fac*(c(j,jj)-c(j,ii)) + enddo + do j=1,3 + ghpbx(j,iii)=ghpbx(j,iii)-ggg(j) + ghpbx(j,jjj)=ghpbx(j,jjj)+ggg(j) + enddo + do k=1,3 + ghpbc(k,jjj)=ghpbc(k,jjj)+ggg(k) + ghpbc(k,iii)=ghpbc(k,iii)-ggg(k) + enddo + else !ii.gt.nres +C write(iout,*) "before" + dd=dist(ii,jj) +C write(iout,*) "after",dd + if (constr_dist.eq.11) then + ehpb=ehpb+fordepth(i)**4.0d0 + & *rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)) + fac=fordepth(i)**4.0d0 + & *rlornmr1prim(dd,dhpb(i),dhpb1(i),forcon(i))/dd +C ehpb=ehpb+fordepth(i)**4*rlornmr1(dd,dhpb(i),dhpb1(i)) +C fac=fordepth(i)**4*rlornmr1prim(dd,dhpb(i),dhpb1(i))/dd +C print *,ehpb,"tu?" +C write(iout,*) ehpb,"btu?", +C & dd,dhpb(i),dhpb1(i),fordepth(i),forcon(i) +C write (iout,'(a6,2i5,3f8.3)') "edisl",ii,jj, +C & ehpb,fordepth(i),dd + else + if (dhpb1(i).gt.0.0d0) then + ehpb=ehpb+2*forcon(i)*gnmr1(dd,dhpb(i),dhpb1(i)) + fac=forcon(i)*gnmr1prim(dd,dhpb(i),dhpb1(i))/dd +c write (iout,*) "alph nmr", +c & dd,2*forcon(i)*gnmr1(dd,dhpb(i),dhpb1(i)) + else + rdis=dd-dhpb(i) +C Get the force constant corresponding to this distance. + waga=forcon(i) +C Calculate the contribution to energy. + ehpb=ehpb+waga*rdis*rdis +c write (iout,*) "alpha reg",dd,waga*rdis*rdis +C +C Evaluate gradient. +C + fac=waga*rdis/dd + endif + endif + do j=1,3 ggg(j)=fac*(c(j,jj)-c(j,ii)) enddo @@ -2973,7 +3081,7 @@ C Cartesian gradient in the SC vectors (ghpbx). enddo endif enddo - ehpb=0.5D0*ehpb + if (constr_dist.ne.11) ehpb=0.5D0*ehpb return end C-------------------------------------------------------------------------- @@ -3179,8 +3287,8 @@ C & delthe0,sig0inv,sigtc,sigsqtc,delthec,it double precision y(2),z(2) delta=0.02d0*pi - time11=dexp(-2*time) - time12=1.0d0 +c time11=dexp(-2*time) +c time12=1.0d0 etheta=0.0D0 c write (iout,*) "nres",nres c write (*,'(a,i2)') 'EBEND ICG=',icg @@ -3206,8 +3314,8 @@ C Zero the energy function and its derivative at 0 or pi. if (i.gt.3 .and. itype(i-2).ne.ntyp1) then #ifdef OSF phii=phi(i) - icrc=0 - call proc_proc(phii,icrc) +c icrc=0 +c call proc_proc(phii,icrc) if (icrc.eq.1) phii=150.0 #else phii=phi(i) @@ -3221,8 +3329,8 @@ C Zero the energy function and its derivative at 0 or pi. if (i.lt.nres .and. itype(i).ne.ntyp1) then #ifdef OSF phii1=phi(i+1) - icrc=0 - call proc_proc(phii1,icrc) +c icrc=0 +c call proc_proc(phii1,icrc) if (icrc.eq.1) phii1=150.0 phii1=pinorm(phii1) z(1)=cos(phii1) @@ -3290,7 +3398,7 @@ c & rad2deg*phii,rad2deg*phii1,ethetai if (i.gt.3) gloc(i-3,icg)=gloc(i-3,icg)+wang*E_tc*dthetg1 if (i.lt.nres) gloc(i-2,icg)=gloc(i-2,icg)+wang*E_tc*dthetg2 gloc(nphi+i-2,icg)=wang*(E_theta+E_tc*dthett) - 1215 continue +c 1215 continue enddo C Ufff.... We've done all this!!! return @@ -3433,7 +3541,9 @@ C etheta=0.0D0 c write (iout,*) "ithetyp",(ithetyp(i),i=1,ntyp1) do i=ithet_start,ithet_end - if (itype(i-1).eq.ntyp1) cycle +c if (itype(i-1).eq.ntyp1) cycle + if ((itype(i-1).eq.ntyp1).or.(itype(i-2).eq.ntyp1).or. + &(itype(i).eq.ntyp1)) cycle if (iabs(itype(i+1)).eq.20) iblock=2 if (iabs(itype(i+1)).ne.20) iblock=1 dethetai=0.0d0 @@ -3445,7 +3555,7 @@ c write (iout,*) "ithetyp",(ithetyp(i),i=1,ntyp1) coskt(k)=dcos(k*theti2) sinkt(k)=dsin(k*theti2) enddo - if (i.gt.3 .and. itype(i-2).ne.ntyp1) then + if (i.gt.3 .and. itype(i-3).ne.ntyp1) then #ifdef OSF phii=phi(i) if (phii.ne.phii) phii=150.0 @@ -3459,13 +3569,14 @@ c write (iout,*) "ithetyp",(ithetyp(i),i=1,ntyp1) enddo else phii=0.0d0 - ityp1=nthetyp+1 +c ityp1=nthetyp+1 do k=1,nsingle + ityp1=ithetyp((itype(i-2))) cosph1(k)=0.0d0 sinph1(k)=0.0d0 enddo endif - if (i.lt.nres .and. itype(i).ne.ntyp1) then + if (i.lt.nres .and. itype(i+1).ne.ntyp1) then #ifdef OSF phii1=phi(i+1) if (phii1.ne.phii1) phii1=150.0 @@ -3480,7 +3591,8 @@ c write (iout,*) "ithetyp",(ithetyp(i),i=1,ntyp1) enddo else phii1=0.0d0 - ityp3=nthetyp+1 +c ityp3=nthetyp+1 + ityp3=ithetyp((itype(i))) do k=1,nsingle cosph2(k)=0.0d0 sinph2(k)=0.0d0 @@ -3597,7 +3709,8 @@ c call flush(iout) etheta=etheta+ethetai if (i.gt.3) gloc(i-3,icg)=gloc(i-3,icg)+wang*dephii if (i.lt.nres) gloc(i-2,icg)=gloc(i-2,icg)+wang*dephii1 - gloc(nphi+i-2,icg)=wang*dethetai +c gloc(nphi+i-2,icg)=wang*dethetai + gloc(nphi+i-2,icg)=gloc(nphi+i-2,icg)+wang*dethetai enddo return end @@ -4365,15 +4478,16 @@ c write (iout,*) 'i=',i,' gloc=',gloc(i-3,icg) difi=phii-phi0(i) if (difi.gt.drange(i)) then difi=difi-drange(i) - edihcnstr=edihcnstr+0.25d0*ftors*difi**4 - gloc(itori-3,icg)=gloc(itori-3,icg)+ftors*difi**3 + edihcnstr=edihcnstr+0.25d0*ftors(i)*difi**4 + gloc(itori-3,icg)=gloc(itori-3,icg)+ftors(i)*difi**3 else if (difi.lt.-drange(i)) then difi=difi+drange(i) - edihcnstr=edihcnstr+0.25d0*ftors*difi**4 - gloc(itori-3,icg)=gloc(itori-3,icg)+ftors*difi**3 + edihcnstr=edihcnstr+0.25d0*ftors(i)*difi**4 + gloc(itori-3,icg)=gloc(itori-3,icg)+ftors(i)*difi**3 endif -! write (iout,'(2i5,2f8.3,2e14.5)') i,itori,rad2deg*phii, -! & rad2deg*difi,0.25d0*ftors*difi**4,gloc(itori-3,icg) +C write (iout,'(a6,2i5,2f8.3,2e14.5)') "edih", +C & i,itori,rad2deg*phii, +C & rad2deg*difi,0.25d0*ftors(i)*difi**4,gloc(itori-3,icg) enddo ! write (iout,*) 'edihcnstr',edihcnstr return @@ -4460,21 +4574,24 @@ c write (iout,*) 'i=',i,' gloc=',gloc(i-3,icg) edihi=0.0d0 if (difi.gt.drange(i)) then difi=difi-drange(i) - edihcnstr=edihcnstr+0.25d0*ftors*difi**4 - gloc(itori-3,icg)=gloc(itori-3,icg)+ftors*difi**3 - edihi=0.25d0*ftors*difi**4 + edihcnstr=edihcnstr+0.25d0*ftors(i)*difi**4 + gloc(itori-3,icg)=gloc(itori-3,icg)+ftors(i)*difi**3 + edihi=0.25d0*ftors(i)*difi**4 else if (difi.lt.-drange(i)) then difi=difi+drange(i) - edihcnstr=edihcnstr+0.25d0*ftors*difi**4 - gloc(itori-3,icg)=gloc(itori-3,icg)+ftors*difi**3 - edihi=0.25d0*ftors*difi**4 + edihcnstr=edihcnstr+0.25d0*ftors(i)*difi**4 + gloc(itori-3,icg)=gloc(itori-3,icg)+ftors(i)*difi**3 + edihi=0.25d0*ftors(i)*difi**4 else difi=0.0d0 endif + write (iout,'(a6,2i5,2f8.3,2e14.5)') "edih", + & i,itori,rad2deg*phii, + & rad2deg*difi,0.25d0*ftors(i)*difi**4 c write (iout,'(2i5,4f10.5,e15.5)') i,itori,phii,phi0(i),difi, c & drange(i),edihi ! write (iout,'(2i5,2f8.3,2e14.5)') i,itori,rad2deg*phii, -! & rad2deg*difi,0.25d0*ftors*difi**4,gloc(itori-3,icg) +! & rad2deg*difi,0.25d0*ftors(i)*difi**4,gloc(itori-3,icg) enddo ! write (iout,*) 'edihcnstr',edihcnstr return @@ -4617,6 +4734,7 @@ c 3 = SC...Ca...Ca...SCi esccor=esccor+v1ij*cosphi+v2ij*sinphi gloci=gloci+j*(v2ij*cosphi-v1ij*sinphi) enddo +C write (iout,*)"EBACK_SC_COR",esccor,i c write (iout,*) "EBACK_SC_COR",i,v1ij*cosphi+v2ij*sinphi,intertyp, c & nterm_sccor(isccori,isccori1),isccori,isccori1 c gloc_sc(intertyp,i-3,icg)=gloc_sc(intertyp,i-3,icg)+wsccor*gloci @@ -6502,7 +6620,7 @@ c---------------------------------------------------------------------------- include 'COMMON.GEO' logical swap double precision vv(2),pizda(2,2),auxmat(2,2),auxvec(2), - & auxvec1(2),auxvec2(1),auxmat1(2,2) + & auxvec1(2),auxvec2(2),auxmat1(2,2) logical lprn common /kutas/ lprn CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC