& +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------------------------------------------------------------------------
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
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)/)')
include 'COMMON.ENEPS'
include 'COMMON.IOUNITS'
include 'COMMON.CALC'
+ include 'COMMON.SBRIDGE'
logical lprn
common /srutu/icall
integer icant
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
+ write (iout,'(a6,2i5,0pf7.3,a3)')
+ & 'evdw',i,j,evdwij,' ss'
+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
+ write (iout,'(a6,2i5,0pf7.3,a3)')
+ & 'evdw',i,j,evdwij,'tss'
+ endif!dyn_ss_mask(k)
+ enddo! k
+ ELSE
ind=ind+1
itypj=iabs(itype(j))
if (itypj.eq.ntyp1) cycle
C Calculate angular part of the gradient.
call sc_grad
endif
+ ENDIF ! dyn_ss
enddo ! j
enddo ! iint
enddo ! i
ees0ij=4.0D0+fac*fac-3.0D0*(cosb*cosb+cosg*cosg)
ees=ees+eesij
evdw1=evdw1+evdwij
-cd write(iout,'(2(2i3,2x),7(1pd12.4)/2(3(1pd12.4),5x)/)')
-cd & iteli,i,itelj,j,aaa,bbb,ael6i,ael3i,
-cd & 1.0D0/dsqrt(rrmij),evdwij,eesij,
-cd & xmedi,ymedi,zmedi,xj,yj,zj
+c write (iout,'(a6,2i5,0pf7.3,2i5,2e11.3)')
+c &'evdw1',i,j,evdwij
+c &,iteli,itelj,aaa,evdw1
+
+c write (iout,'(a6,2i5,0pf7.3)') 'ees',i,j,eesij
+c write(iout,'(2(2i3,2x),7(1pd12.4)/2(3(1pd12.4),5x)/)')
+c & iteli,i,itelj,j,aaa,bbb,ael6i,ael3i,
+c & 1.0D0/dsqrt(rrmij),evdwij,eesij,
+c & xmedi,ymedi,zmedi,xj,yj,zj
C
C Calculate contributions to the Cartesian gradient.
C
C Contribution to the local-electrostatic energy coming from the i-j pair
eel_loc_ij=a22*muij(1)+a23*muij(2)+a32*muij(3)
& +a33*muij(4)
-cd write (iout,*) 'i',i,' j',j,' eel_loc_ij',eel_loc_ij
-cd write (iout,*) a22,muij(1),a23,muij(2),a32,muij(3)
+c write (iout,*) 'i',i,' j',j,' eel_loc_ij',eel_loc_ij
+c write (iout,'(a6,2i5,0pf7.3)')
+c & 'eelloc',i,j,eel_loc_ij
+c write (iout,*) a22,muij(1),a23,muij(2),a32,muij(3)
eel_loc=eel_loc+eel_loc_ij
C Partial derivatives in virtual-bond dihedral angles gamma
if (calc_grad) then
evdw2_14=evdw2_14+e1+e2
endif
evdwij=e1+e2
-c write (iout,*) i,j,evdwij
+c write (iout,'(a6,2i5,0pf7.3,2i3,3e11.3)')
+c & 'evdw2',i,j,evdwij,iteli,itypj,fac,aad(itypj,iteli),
+c & bad(itypj,iteli)
evdw2=evdw2+evdwij
if (calc_grad) then
C
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
+
+ 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
+ endif
else
C Calculate the distance between the two points and its difference from the
C target distance.
& 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
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)
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)
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
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
dephii=0.0d0
dephii1=0.0d0
theti2=0.5d0*theta(i)
- ityp2=ithetyp(iabs(itype(i-1)))
+ ityp2=ithetyp((itype(i-1)))
do k=1,nntheterm
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
#else
phii=phi(i)
#endif
- ityp1=ithetyp(iabs(itype(i-2)))
+ ityp1=ithetyp((itype(i-2)))
do k=1,nsingle
cosph1(k)=dcos(k*phii)
sinph1(k)=dsin(k*phii)
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
#else
phii1=phi(i+1)
#endif
- ityp3=ithetyp(iabs(itype(i)))
+ ityp3=ithetyp((itype(i)))
do k=1,nsingle
cosph2(k)=dcos(k*phii1)
sinph2(k)=dsin(k*phii1)
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
c write (iout,*) "i",i," ityp1",itype(i-2),ityp1,
c & " ityp2",itype(i-1),ityp2," ityp3",itype(i),ityp3
c call flush(iout)
- ethetai=aa0thet(ityp1,ityp2,ityp3)
+ ethetai=aa0thet(ityp1,ityp2,ityp3,iblock)
do k=1,ndouble
do l=1,k-1
ccl=cosph1(l)*cosph2(k-l)
enddo
endif
do k=1,ntheterm
- ethetai=ethetai+aathet(k,ityp1,ityp2,ityp3)*sinkt(k)
- dethetai=dethetai+0.5d0*k*aathet(k,ityp1,ityp2,ityp3)
+ ethetai=ethetai+aathet(k,ityp1,ityp2,ityp3,iblock)*sinkt(k)
+ dethetai=dethetai+0.5d0*k*aathet(k,ityp1,ityp2,ityp3,iblock)
& *coskt(k)
if (lprn)
- & write (iout,*) "k",k," aathet",aathet(k,ityp1,ityp2,ityp3),
+ & write (iout,*) "k",k,"
+ & aathet",aathet(k,ityp1,ityp2,ityp3,iblock),
& " ethetai",ethetai
enddo
if (lprn) then
endif
do m=1,ntheterm2
do k=1,nsingle
- aux=bbthet(k,m,ityp1,ityp2,ityp3)*cosph1(k)
- & +ccthet(k,m,ityp1,ityp2,ityp3)*sinph1(k)
- & +ddthet(k,m,ityp1,ityp2,ityp3)*cosph2(k)
- & +eethet(k,m,ityp1,ityp2,ityp3)*sinph2(k)
+ aux=bbthet(k,m,ityp1,ityp2,ityp3,iblock)*cosph1(k)
+ & +ccthet(k,m,ityp1,ityp2,ityp3,iblock)*sinph1(k)
+ & +ddthet(k,m,ityp1,ityp2,ityp3,iblock)*cosph2(k)
+ & +eethet(k,m,ityp1,ityp2,ityp3,iblock)*sinph2(k)
ethetai=ethetai+sinkt(m)*aux
dethetai=dethetai+0.5d0*m*aux*coskt(m)
dephii=dephii+k*sinkt(m)*(
- & ccthet(k,m,ityp1,ityp2,ityp3)*cosph1(k)-
- & bbthet(k,m,ityp1,ityp2,ityp3)*sinph1(k))
+ & ccthet(k,m,ityp1,ityp2,ityp3,iblock)*cosph1(k)-
+ & bbthet(k,m,ityp1,ityp2,ityp3,iblock)*sinph1(k))
dephii1=dephii1+k*sinkt(m)*(
- & eethet(k,m,ityp1,ityp2,ityp3)*cosph2(k)-
- & ddthet(k,m,ityp1,ityp2,ityp3)*sinph2(k))
+ & eethet(k,m,ityp1,ityp2,ityp3,iblock)*cosph2(k)-
+ & ddthet(k,m,ityp1,ityp2,ityp3,iblock)*sinph2(k))
if (lprn)
& write (iout,*) "m",m," k",k," bbthet",
- & bbthet(k,m,ityp1,ityp2,ityp3)," ccthet",
- & ccthet(k,m,ityp1,ityp2,ityp3)," ddthet",
- & ddthet(k,m,ityp1,ityp2,ityp3)," eethet",
- & eethet(k,m,ityp1,ityp2,ityp3)," ethetai",ethetai
+ & bbthet(k,m,ityp1,ityp2,ityp3,iblock)," ccthet",
+ & ccthet(k,m,ityp1,ityp2,ityp3,iblock)," ddthet",
+ & ddthet(k,m,ityp1,ityp2,ityp3,iblock)," eethet",
+ & eethet(k,m,ityp1,ityp2,ityp3,iblock)," ethetai",ethetai
enddo
enddo
if (lprn)
do m=1,ntheterm3
do k=2,ndouble
do l=1,k-1
- aux=ffthet(l,k,m,ityp1,ityp2,ityp3)*cosph1ph2(l,k)+
- & ffthet(k,l,m,ityp1,ityp2,ityp3)*cosph1ph2(k,l)+
- & ggthet(l,k,m,ityp1,ityp2,ityp3)*sinph1ph2(l,k)+
- & ggthet(k,l,m,ityp1,ityp2,ityp3)*sinph1ph2(k,l)
+ aux=ffthet(l,k,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(l,k)+
+ & ffthet(k,l,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(k,l)+
+ & ggthet(l,k,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(l,k)+
+ & ggthet(k,l,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(k,l)
ethetai=ethetai+sinkt(m)*aux
dethetai=dethetai+0.5d0*m*coskt(m)*aux
dephii=dephii+l*sinkt(m)*(
- & -ffthet(l,k,m,ityp1,ityp2,ityp3)*sinph1ph2(l,k)-
- & ffthet(k,l,m,ityp1,ityp2,ityp3)*sinph1ph2(k,l)+
- & ggthet(l,k,m,ityp1,ityp2,ityp3)*cosph1ph2(l,k)+
- & ggthet(k,l,m,ityp1,ityp2,ityp3)*cosph1ph2(k,l))
+ & -ffthet(l,k,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(l,k)-
+ & ffthet(k,l,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(k,l)+
+ & ggthet(l,k,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(l,k)+
+ & ggthet(k,l,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(k,l))
dephii1=dephii1+(k-l)*sinkt(m)*(
- & -ffthet(l,k,m,ityp1,ityp2,ityp3)*sinph1ph2(l,k)+
- & ffthet(k,l,m,ityp1,ityp2,ityp3)*sinph1ph2(k,l)+
- & ggthet(l,k,m,ityp1,ityp2,ityp3)*cosph1ph2(l,k)-
- & ggthet(k,l,m,ityp1,ityp2,ityp3)*cosph1ph2(k,l))
+ & -ffthet(l,k,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(l,k)+
+ & ffthet(k,l,m,ityp1,ityp2,ityp3,iblock)*sinph1ph2(k,l)+
+ & ggthet(l,k,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(l,k)-
+ & ggthet(k,l,m,ityp1,ityp2,ityp3,iblock)*cosph1ph2(k,l))
if (lprn) then
write (iout,*) "m",m," k",k," l",l," ffthet",
- & ffthet(l,k,m,ityp1,ityp2,ityp3),
- & ffthet(k,l,m,ityp1,ityp2,ityp3)," ggthet",
- & ggthet(l,k,m,ityp1,ityp2,ityp3),
- & ggthet(k,l,m,ityp1,ityp2,ityp3)," ethetai",ethetai
+ & ffthet(l,k,m,ityp1,ityp2,ityp3,iblock),
+ & ffthet(k,l,m,ityp1,ityp2,ityp3,iblock)," ggthet",
+ & ggthet(l,k,m,ityp1,ityp2,ityp3,iblock),
+ & ggthet(k,l,m,ityp1,ityp2,ityp3,iblock),
+ & " ethetai",ethetai
write (iout,*) cosph1ph2(l,k)*sinkt(m),
& cosph1ph2(k,l)*sinkt(m),
& sinph1ph2(l,k)*sinkt(m),sinph1ph2(k,l)*sinkt(m)
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
y_prime(j) = (dc_norm(j,i) + dc_norm(j,i-1))*sinfac
enddo
do j = 1,3
- z_prime(j) = -uz(j,i-1)
+ z_prime(j) = -uz(j,i-1)*dsign(1.0d0,dfloat(itype(i)))
enddo
c write (2,*) "i",i
c write (2,*) "x_prime",(x_prime(j),j=1,3)
do j = 1,3
xx = xx + x_prime(j)*dc_norm(j,i+nres)
yy = yy + y_prime(j)*dc_norm(j,i+nres)
- zz = zz + dsign(1.0,itype(i))*z_prime(j)*dc_norm(j,i+nres)
+ zz = zz + z_prime(j)*dc_norm(j,i+nres)
enddo
xxtab(i)=xx
Cc diagnostics - remove later
xx1 = dcos(alph(2))
yy1 = dsin(alph(2))*dcos(omeg(2))
- zz1 = -dsign(1.0,itype(i))*dsin(alph(2))*dsin(omeg(2))
+ zz1 = -dsign(1.0d0,itype(i))*dsin(alph(2))*dsin(omeg(2))
write(2,'(3f8.1,3f9.3,1x,3f9.3)')
& alph(2)*rad2deg,omeg(2)*rad2deg,theta(3)*rad2deg,xx,yy,zz,
& xx1,yy1,zz1
c sumene = enesc(x,xx,yy,zz,cost2tab(i+1),sint2tab(i+1))
escloc = escloc + sumene
c write (2,*) "escloc",escloc
+c write (2,*) "i",i," escloc",sumene,escloc,it,itype(i),
+c & zz,xx,yy
if (.not. calc_grad) goto 1
#ifdef DEBUG
C
dZZ_Ci1(k)=0.0d0
dZZ_Ci(k)=0.0d0
do j=1,3
- dZZ_Ci(k)=dZZ_Ci(k)-uzgrad(j,k,2,i-1)*dC_norm(j,i+nres)
- dZZ_Ci1(k)=dZZ_Ci1(k)-uzgrad(j,k,1,i-1)*dC_norm(j,i+nres)
+ dZZ_Ci(k)=dZZ_Ci(k)-uzgrad(j,k,2,i-1)
+ & *dsign(1.0d0,dfloat(itype(i)))*dC_norm(j,i+nres)
+ dZZ_Ci1(k)=dZZ_Ci1(k)-uzgrad(j,k,1,i-1)
+ & *dsign(1.0d0,dfloat(itype(i)))*dC_norm(j,i+nres)
enddo
dXX_XYZ(k)=vbld_inv(i+nres)*(x_prime(k)-xx*dC_norm(k,i+nres))
esccor=esccor+v1ij*cosphi+v2ij*sinphi
gloci=gloci+j*(v2ij*cosphi-v1ij*sinphi)
enddo
+ 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
integer dimen1,dimen2,atom,indx
double precision buffer(dimen1,dimen2)
double precision zapas
- common /contacts_hb/ zapas(3,20,maxres,7),
- & facont_hb(20,maxres),ees0p(20,maxres),ees0m(20,maxres),
- & num_cont_hb(maxres),jcont_hb(20,maxres)
+ common /contacts_hb/ zapas(3,ntyp,maxres,7),
+ & facont_hb(ntyp,maxres),ees0p(ntyp,maxres),ees0m(ntyp,maxres),
+ & num_cont_hb(maxres),jcont_hb(ntyp,maxres)
num_kont=num_cont_hb(atom)
do i=1,num_kont
do k=1,7
integer dimen1,dimen2,atom,indx
double precision buffer(dimen1,dimen2)
double precision zapas
- common /contacts_hb/ zapas(3,20,maxres,7),
- & facont_hb(20,maxres),ees0p(20,maxres),ees0m(20,maxres),
- & num_cont_hb(maxres),jcont_hb(20,maxres)
+ common /contacts_hb/ zapas(3,ntyp,maxres,7),
+ & facont_hb(ntyp,maxres),ees0p(ntyp,maxres),
+ & ees0m(ntyp,maxres),
+ & num_cont_hb(maxres),jcont_hb(ntyp,maxres)
num_kont=buffer(1,indx+26)
num_kont_old=num_cont_hb(atom)
num_cont_hb(atom)=num_kont+num_kont_old
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