edihcnstr=0
endif
- if (constr_homology.ge.1) then
+ if (constr_homology.ge.1.and.waga_homology(iset).ne.0d0) then
call e_modeller(ehomology_constr)
c print *,'iset=',iset,'me=',me,ehomology_constr,
c & 'Processor',fg_rank,' CG group',kolor,
#endif
enddo
enddo
- if (constr_homology.gt.0) then
+ if (constr_homology.gt.0.and.waga_homology(iset).ne.0d0) then
do i=1,nct
do j=1,3
gradc(j,i,icg)=gradc(j,i,icg)+duscdiff(j,i)
& evdwij
endif
- if (energy_dec) write (iout,'(a6,2i5,0pf7.3)')
- & 'evdw',i,j,evdwij
-
+ if (energy_dec) then
+ write (iout,'(a6,2i5,0pf7.3)') 'evdw',i,j,evdwij
+ call flush(iout)
+ endif
C Calculate gradient components.
e1=e1*eps1*eps2rt**2*eps3rt**2
fac=-expon*(e1+evdwij)*rij_shift
do i=ibondp_start,ibondp_end
diff = vbld(i)-vbldp0
c write (iout,*) i,vbld(i),vbldp0,diff,AKP*diff*diff
+ if (energy_dec) write (iout,'(a7,i5,4f7.3)')
+ & "estr bb",i,vbld(i),vbldp0,diff,AKP*diff*diff
estr=estr+diff*diff
do j=1,3
gradb(j,i-1)=AKP*diff*dc(j,i-1)/vbld(i)
diff=vbld(i+nres)-vbldsc0(1,iti)
c write (iout,*) i,iti,vbld(i+nres),vbldsc0(1,iti),diff,
c & AKSC(1,iti),AKSC(1,iti)*diff*diff
+ if (energy_dec) then
+ write (iout,*)
+ & "estr sc",i,iti,vbld(i+nres),vbldsc0(1,iti),diff,
+ & AKSC(1,iti),AKSC(1,iti)*diff*diff
+ call flush(iout)
+ endif
estr=estr+0.5d0*AKSC(1,iti)*diff*diff
do j=1,3
gradbx(j,i)=AKSC(1,iti)*diff*dc(j,i+nres)/vbld(i+nres)
sinkt(k)=dsin(k*theti2)
enddo
C if (i.gt.3) then
- if (i.gt.3 .and. itype(i-3).ne.ntyp1) then
+ if (i.gt.3 .and. itype(imax0(i-3,1)).ne.ntyp1) then
#ifdef OSF
phii=phi(i)
if (phii.ne.phii) phii=150.0
& phii1*rad2deg,ethetai
c lprn1=.false.
etheta=etheta+ethetai
+ if (energy_dec) write (iout,'(a6,i5,0pf7.3)')
+ & 'ebend',i,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)=gloc(nphi+i-2,icg)+wang*dethetai
c
- do i=1,19
+ do i=1,max_template
distancek(i)=9999999.9
enddo
endif
enddo
- min_odl=minval(distancek)
+
+c min_odl=minval(distancek)
+ do kk=1,constr_homology
+ if(l_homo(kk,ii)) then
+ min_odl=distancek(kk)
+ exit
+ endif
+ enddo
+ do kk=1,constr_homology
+ if(l_homo(kk,ii) .and. distancek(kk).lt.min_odl)
+ & min_odl=distancek(kk)
+ enddo
c write (iout,* )"min_odl",min_odl
#ifdef DEBUG
write (iout,*) "ij dij",i,j,dij
do i=idihconstr_start_homo,idihconstr_end_homo
kat2=0.0d0
c betai=beta(i,i+1,i+2,i+3)
- betai = phi(i+3)
+ betai = phi(i)
c write (iout,*) "betai =",betai
do k=1,constr_homology
dih_diff(k)=pinorm(dih(k,i)-betai)
include 'COMMON.IOUNITS'
include 'COMMON.FFIELD'
include 'COMMON.TORCNSTR'
+ include 'COMMON.CONTROL'
logical lprn
C Set lprn=.true. for debugging
lprn=.false.
c lprn=.true.
etors_d=0.0D0
do i=iphid_start,iphid_end
+ etors_d_ii=0.0D0
itori=itortyp(itype(i-2))
itori1=itortyp(itype(i-1))
itori2=itortyp(itype(i))
sinphi2=dsin(j*phii1)
etors_d=etors_d+v1cij*cosphi1+v1sij*sinphi1+
& v2cij*cosphi2+v2sij*sinphi2
+ if (energy_dec) etors_d_ii=etors_d_ii+
+ & v1cij*cosphi1+v1sij*sinphi1+v2cij*cosphi2+v2sij*sinphi2
gloci1=gloci1+j*(v1sij*cosphi1-v1cij*sinphi1)
gloci2=gloci2+j*(v2sij*cosphi2-v2cij*sinphi2)
enddo
sinphi1m2=dsin(l*phii-(k-l)*phii1)
etors_d=etors_d+v1cdij*cosphi1p2+v2cdij*cosphi1m2+
& v1sdij*sinphi1p2+v2sdij*sinphi1m2
+ if (energy_dec) etors_d_ii=etors_d_ii+
+ & v1cdij*cosphi1p2+v2cdij*cosphi1m2+
+ & v1sdij*sinphi1p2+v2sdij*sinphi1m2
gloci1=gloci1+l*(v1sdij*cosphi1p2+v2sdij*cosphi1m2
& -v1cdij*sinphi1p2-v2cdij*sinphi1m2)
gloci2=gloci2+(k-l)*(v1sdij*cosphi1p2-v2sdij*cosphi1m2
& -v1cdij*sinphi1p2+v2cdij*sinphi1m2)
enddo
enddo
+ if (energy_dec) write (iout,'(a6,i5,0pf7.3)')
+ & 'etor_d',i,etors_d_ii
gloc(i-3,icg)=gloc(i-3,icg)+wtor_d*gloci1
gloc(i-2,icg)=gloc(i-2,icg)+wtor_d*gloci2
c write (iout,*) "gloci", gloc(i-3,icg)