cd write (iout,*) '*******i',i,' iti1',iti
cd write (iout,*) 'b1',b1(:,iti)
cd write (iout,*) 'b2',b2(:,iti)
-cd write (iout,*) 'Ug',Ug(:,:,i-2)
+cd write (iout,*) "phi(",i,")=",phi(i)," sin1",sin1," cos1",cos1
+cd write (iout,*) 'Ug',Ug(:,:,i-2)
c if (i .gt. iatel_s+2) then
if (i .gt. nnt+2) then
call matvec2(Ug(1,1,i-2),b2(1,i-2),Ub2(1,i-2))
mu(k,i-2)=Ub2(k,i-2)+b1(k,i-1)
enddo
C write (iout,*) 'mumu',i,b1(1,i-1),Ub2(1,i-2)
-c write (iout,*) 'mu ',mu(:,i-2),i-2
+cd write (iout,*) 'mu ',mu(:,i-2),i-2
+cd write (iout,*) 'b1 ',b1(:,i-1),i-2
+cd write (iout,*) 'Ub2 ',Ub2(:,i-2),i-2
+cd write (iout,*) 'Ug ',Ug(:,:,i-2),i-2
+cd write (iout,*) 'b2 ',b2(:,i-2),i-2
cd write (iout,*) 'mu1',mu1(:,i-2)
cd write (iout,*) 'mu2',mu2(:,i-2)
if (wcorr4.gt.0.0d0 .or. wcorr5.gt.0.0d0 .or.wcorr6.gt.0.0d0)
C
C 14/01/2014 TURN3,TUNR4 does no go under periodic boundry condition
do i=iturn3_start,iturn3_end
- if (i.le.1) cycle
+CAna if (i.le.1) cycle
C write(iout,*) "tu jest i",i
if (itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1
C changes suggested by Ana to avoid out of bounds
- & .or.((i+4).gt.nres)
- & .or.((i-1).le.0)
+CAna & .or.((i+4).gt.nres)
+CAna & .or.((i-1).le.0)
C end of changes by Ana
& .or. itype(i+2).eq.ntyp1
& .or. itype(i+3).eq.ntyp1) cycle
- if(i.gt.1)then
- if(itype(i-1).eq.ntyp1)cycle
- end if
- if(i.LT.nres-3)then
- if (itype(i+4).eq.ntyp1) cycle
- end if
+CAna if(i.gt.1)then
+CAna if(itype(i-1).eq.ntyp1)cycle
+CAna end if
+CAna if(i.LT.nres-3)then
+CAna if (itype(i+4).eq.ntyp1) cycle
+CAna end if
dxi=dc(1,i)
dyi=dc(2,i)
dzi=dc(3,i)
num_cont_hb(i)=num_conti
enddo
do i=iturn4_start,iturn4_end
- if (i.le.1) cycle
+cAna if (i.le.1) cycle
if (itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1
C changes suggested by Ana to avoid out of bounds
- & .or.((i+5).gt.nres)
- & .or.((i-1).le.0)
+cAna & .or.((i+5).gt.nres)
+cAna & .or.((i-1).le.0)
C end of changes suggested by Ana
& .or. itype(i+3).eq.ntyp1
& .or. itype(i+4).eq.ntyp1
- & .or. itype(i+5).eq.ntyp1
- & .or. itype(i).eq.ntyp1
- & .or. itype(i-1).eq.ntyp1
+cAna & .or. itype(i+5).eq.ntyp1
+cAna & .or. itype(i).eq.ntyp1
+cAna & .or. itype(i-1).eq.ntyp1
& ) cycle
dxi=dc(1,i)
dyi=dc(2,i)
c Loop over all pairs of interacting peptide groups except i,i+2 and i,i+3
c
do i=iatel_s,iatel_e
- if (i.le.1) cycle
+cAna if (i.le.1) cycle
if (itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1
C changes suggested by Ana to avoid out of bounds
- & .or.((i+2).gt.nres)
- & .or.((i-1).le.0)
+cAna & .or.((i+2).gt.nres)
+cAna & .or.((i-1).le.0)
C end of changes by Ana
- & .or. itype(i+2).eq.ntyp1
- & .or. itype(i-1).eq.ntyp1
+cAna & .or. itype(i+2).eq.ntyp1
+cAna & .or. itype(i-1).eq.ntyp1
& ) cycle
dxi=dc(1,i)
dyi=dc(2,i)
num_conti=num_cont_hb(i)
do j=ielstart(i),ielend(i)
C write (iout,*) i,j
- if (j.le.1) cycle
+cAna if (j.le.1) cycle
if (itype(j).eq.ntyp1.or. itype(j+1).eq.ntyp1
C changes suggested by Ana to avoid out of bounds
- & .or.((j+2).gt.nres)
- & .or.((j-1).le.0)
+cAna & .or.((j+2).gt.nres)
+cAna & .or.((j-1).le.0)
C end of changes by Ana
- & .or.itype(j+2).eq.ntyp1
- & .or.itype(j-1).eq.ntyp1
+cAna & .or.itype(j+2).eq.ntyp1
+cAna & .or.itype(j-1).eq.ntyp1
&) cycle
call eelecij(i,j,ees,evdw1,eel_loc)
enddo ! j
logical lprn /.false./, lprn1 /.false./
etheta=0.0D0
do i=ithet_start,ithet_end
- if (i.eq.2) cycle
+c if (i.eq.2) cycle
c print *,i,itype(i-1),itype(i),itype(i-2)
if ((itype(i-1).eq.ntyp1).or.(itype(i-2).eq.ntyp1)
& .or.(itype(i).eq.ntyp1)) cycle
coskt(k)=dcos(k*theti2)
sinkt(k)=dsin(k*theti2)
enddo
- if (i.gt.3 .and. itype(i-3).ne.ntyp1) then
+ if (i.gt.3 .and. itype(max0(i-3,1)).ne.ntyp1) then
#ifdef OSF
phii=phi(i)
if (phii.ne.phii) phii=150.0
enddo
else
phii=0.0d0
- ityp1=nthetyp+1
+ ityp1=ithetyp(itype(i-2))
do k=1,nsingle
cosph1(k)=0.0d0
sinph1(k)=0.0d0
enddo
else
phii1=0.0d0
- ityp3=nthetyp+1
+ ityp3=ithetyp(itype(i))
do k=1,nsingle
cosph2(k)=0.0d0
sinph2(k)=0.0d0
c & dscp1,dscp2,sumene
c sumene = enesc(x,xx,yy,zz,cost2tab(i+1),sint2tab(i+1))
escloc = escloc + sumene
+ if (energy_dec) write (iout,'(a6,i5,0pf7.3)')
+ & 'escloc',i,sumene
c write (2,*) "i",i," escloc",sumene,escloc,it,itype(i)
c & ,zz,xx,yy
c#define DEBUG
esccor=0.0D0
do i=itau_start,itau_end
if ((itype(i-2).eq.ntyp1).or.(itype(i-1).eq.ntyp1)) cycle
- esccor_ii=0.0D0
isccori=isccortyp(itype(i-2))
isccori1=isccortyp(itype(i-1))
c write (iout,*) "EBACK_SC_COR",i,nterm_sccor(isccori,isccori1)
phii=phi(i)
do intertyp=1,3 !intertyp
+ esccor_ii=0.0D0
cc Added 09 May 2012 (Adasko)
cc Intertyp means interaction type of backbone mainchain correlation:
c 1 = SC...Ca...Ca...Ca
v2ij=v2sccor(j,intertyp,isccori,isccori1)
cosphi=dcos(j*tauangle(intertyp,i))
sinphi=dsin(j*tauangle(intertyp,i))
+ if (energy_dec) esccor_ii=esccor_ii+v1ij*cosphi+v2ij*sinphi
esccor=esccor+v1ij*cosphi+v2ij*sinphi
gloci=gloci+j*(v2ij*cosphi-v1ij*sinphi)
enddo
+ if (energy_dec) write (iout,'(a6,i5,i2,0pf7.3)')
+ & 'esccor',i,intertyp,esccor_ii
c write (iout,*) "EBACK_SC_COR",i,v1ij*cosphi+v2ij*sinphi,intertyp
gloc_sc(intertyp,i-3,icg)=gloc_sc(intertyp,i-3,icg)+wsccor*gloci
if (lprn)