edfanei=enetb(25,i,iparm)
edfabet=enetb(26,i,iparm)
#ifdef DEBUG
- write (iout,'(3i5,6f5.2,14f12.3)') i,ib,iparm,(ft(l),l=1,6),
+ write (iout,'(3i5,6f5.2,16f12.3)') i,ib,iparm,(ft(l),l=1,6),
& evdw+evdw_t,evdw2,ees,evdw1,ecorr,eel_loc,estr,ebe,escloc,
& etors,etors_d,eello_turn3,eello_turn4,esccor,
& ehomology_constr,edfadis,edfator,edfanei,edfabet
& +ft(2)*wturn3*eello_turn3
& +ft(5)*wturn6*eturn6+ft(2)*wel_loc*eel_loc
& +edihcnstr+ft(2)*wtor_d*etors_d+ft(1)*wsccor*esccor
- & +wbond*estr+ehomology_constr+wdfa_dist*edfadis
+ & +wbond*estr+wdfa_dist*edfadis
& +wdfa_tor*edfator+wdfa_nei*edfanei+wdfa_beta*edfabet
#else
etot=wsc*(evdw+ft(6)*evdw_t)+wscp*evdw2
& +ft(2)*wturn3*eello_turn3
& +ft(5)*wturn6*eturn6+ft(2)*wel_loc*eel_loc+edihcnstr
& +ft(2)*wtor_d*etors_d+ft(1)*wsccor*esccor
- & +wbond*estr+ehomology_constr+wdfa_dist*edfadis
+ & +wbond*estr+wdfa_dist*edfadis
& +wdfa_tor*edfator+wdfa_nei*edfanei+wdfa_beta*edfabet
#endif
#ifdef DEBUG
call enerprint(energia(0),fT)
endif
#endif
+#ifdef DEBUG
+ write (iout,*) "homol_nset",homol_nset,nR(ib,iparm)
+#endif
+ if (homol_nset.gt.1) then
+
+ do kk=1,nR(ib,iparm)
+ Econstr=waga_homology(kk)*ehomology_constr
+ v(i,kk,ib,iparm)=
+ & -beta_h(ib,iparm)*(etot+Econstr)
+#ifdef DEBUG
+ write (iout,'(4i5,4e15.5)') i,kk,ib,iparm,
+ & etot,Econstr,v(i,kk,ib,iparm)
+#endif
+ enddo ! kk
+
+ else
+
+ etot=etot+ehomology_constr
do kk=1,nR(ib,iparm)
Econstr=0.0d0
do j=1,nQ
& etot,v(i,kk,ib,iparm)
#endif
enddo ! kk
+
+ endif
enddo ! ib
enddo ! iparm
enddo ! i
estr=enetb(18,i,iparm)
esccor=enetb(19,i,iparm)
edihcnstr=enetb(20,i,iparm)
+ ehomology_constr=enetb(22,i,iparm)
+ if (homol_nset.gt.1)
+ & ehomology_constr=waga_homology(homol_nset)*ehomology_constr
edfadis=enetb(23,i,iparm)
edfator=enetb(24,i,iparm)
edfanei=enetb(25,i,iparm)
edfabet=enetb(26,i,iparm)
#ifdef DEBUG
- write (iout,'(3i5,6f5.2,14f12.3)') i,ib,iparm,(ft(l),l=1,6),
+ write (iout,'(3i5,6f5.2,17f12.3)') i,ib,iparm,(ft(l),l=1,6),
& evdw+evdw_t,evdw2,ees,evdw1,ecorr,eel_loc,estr,ebe,escloc,
& etors,etors_d,eello_turn3,eello_turn4,esccor,edihcnstr,
& ehomology_constr+wdfa_dist*edfadis+wdfa_tor*edfator+
& +wbond*estr+ehomology_constr+wdfa_dist*edfadis
& +wdfa_tor*edfator+wdfa_nei*edfanei+wdfa_beta*edfabet
#endif
-c write (iout,*) "i",i," ib",ib,
-c & " temp",1.0d0/(1.987d-3*beta_h(ib,iparm))," etot",etot,
-c & " entfac",entfac(i)
+#ifdef DEBUG
+ write (iout,*) "i",i," ib",ib,
+ & " temp",1.0d0/(1.987d-3*beta_h(ib,iparm))," etot",etot,
+ & " entfac",entfac(i)," ecorr",etot-entfac(i)/beta_h(ib,iparm)
etot=etot-entfac(i)/beta_h(ib,iparm)
+#endif
if(etot.lt.potEmin_all(ib,iparm)) potEmin_all(ib,iparm)=etot
-c write (iout,*) "efree",etot," potEmin",potEmin_all(ib,iparm)
+#ifdef DEBUG
+ write (iout,*) "efree",etot," potEmin",potEmin_all(ib,iparm)
+#endif
enddo ! ib
enddo ! iparm
enddo ! i
esccor=enetb(19,t,iparm)
edihcnstr=enetb(20,t,iparm)
ehomology_constr=enetb(22,t,iparm)
+ if (homol_nset.gt.1)
+ & ehomology_constr=waga_homology(homol_nset)*ehomology_constr
+ edfadis=enetb(23,t,iparm)
+ edfator=enetb(24,t,iparm)
+ edfanei=enetb(25,t,iparm)
+ edfabet=enetb(26,t,iparm)
do k=0,nGridT
betaT=startGridT+k*delta_T
temper=betaT
#endif
weight=dexp(-betaT*(etot-potEmin)+entfac(t))
#ifdef DEBUG
+ write (iout,'(3i5,6f5.2,17f12.3)') i,ib,iparm,(ft(l),l=1,6),
+ & evdw+evdw_t,evdw2,ees,evdw1,ecorr,eel_loc,estr,ebe,escloc,
+ & etors,etors_d,eello_turn3,eello_turn4,esccor,edihcnstr,
+ & ehomology_constr+wdfa_dist*edfadis+wdfa_tor*edfator+
+ & wdfa_nei*edfanei+wdfa_beta*edfabet
write (iout,*) "iparm",iparm," t",t," temper",temper,
& " etot",etot," entfac",entfac(t),
& " efree",etot-entfac(t)/betaT," potEmin",potEmin,