Merge branch 'devel' of mmka.chem.univ.gda.pl:unres into devel

[unres.git] / source / unres / src_MD / energy_p_new_barrier.F
diff --git a/source/unres/src_MD/energy_p_new_barrier.F b/source/unres/src_MD/energy_p_new_barrier.F

index 1a99285..9edadf8 100644 (file)
--- a/source/unres/src_MD/energy_p_new_barrier.F
+++ b/source/unres/src_MD/energy_p_new_barrier.F
@@ -1065,7 +1065,7 @@ C------------------------------------------------------------------------
       & 'ESC=   ',1pE16.6,' WEIGHT=',1pD16.6,' (SC local)'/
       & 'ETORS= ',1pE16.6,' WEIGHT=',1pD16.6,' (torsional)'/
       & 'ETORSD=',1pE16.6,' WEIGHT=',1pD16.6,' (double torsional)'/
-     & 'EHBP=  ',1pE16.6,' WEIGHT=',1pD16.6,
+     & 'EHPB=  ',1pE16.6,' WEIGHT=',1pD16.6,
       & ' (SS bridges & dist. cnstr.)'/
       & 'ECORR4=',1pE16.6,' WEIGHT=',1pD16.6,' (multi-body)'/
       & 'ECORR5=',1pE16.6,' WEIGHT=',1pD16.6,' (multi-body)'/
@@ -4266,49 +4266,90 @@ C iii and jjj point to the residues for which the distance is assigned.
            iii=ii
            jjj=jj
          endif
-cd        write (iout,*) "i",i," ii",ii," iii",iii," jj",jj," jjj",jjj
+c        write (iout,*) "i",i," ii",ii," iii",iii," jj",jj," jjj",jjj,
+c     &    dhpb(i),dhpb1(i),forcon(i)
  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. itype(iii).eq.1 .and. itype(jjj).eq.1) then
            call ssbond_ene(iii,jjj,eij)
            ehpb=ehpb+2*eij
  cd          write (iout,*) "eij",eij
+        else if (ii.gt.nres .and. jj.gt.nres) then
+c Restraints from contact prediction
+          dd=dist(ii,jj)
+          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)
+C Calculate the contribution to energy.
+            ehpb=ehpb+waga*rdis*rdis
+c            write (iout,*) "beta reg",dd,waga*rdis*rdis
+C
+C Evaluate gradient.
+C
+            fac=waga*rdis/dd
+          endif  
+          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
  C Calculate the distance between the two points and its difference from the
  C target distance.
-        dd=dist(ii,jj)
-        rdis=dd-dhpb(i)
+          dd=dist(ii,jj)
+          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)
+            waga=forcon(i)
  C Calculate the contribution to energy.
-        ehpb=ehpb+waga*rdis*rdis
+            ehpb=ehpb+waga*rdis*rdis
+c            write (iout,*) "alpha reg",dd,waga*rdis*rdis
  C
  C Evaluate gradient.
  C
-        fac=waga*rdis/dd
+            fac=waga*rdis/dd
+          endif
  cd      print *,'i=',i,' ii=',ii,' jj=',jj,' dhpb=',dhpb(i),' dd=',dd,
  cd   &   ' waga=',waga,' fac=',fac
-        do j=1,3
-          ggg(j)=fac*(c(j,jj)-c(j,ii))
-        enddo
+            do j=1,3
+              ggg(j)=fac*(c(j,jj)-c(j,ii))
+            enddo
  cd      print '(i3,3(1pe14.5))',i,(ggg(j),j=1,3)
  C If this is a SC-SC distance, we need to calculate the contributions to the
  C Cartesian gradient in the SC vectors (ghpbx).
-        if (iii.lt.ii) then
+          if (iii.lt.ii) then
            do j=1,3
              ghpbx(j,iii)=ghpbx(j,iii)-ggg(j)
              ghpbx(j,jjj)=ghpbx(j,jjj)+ggg(j)
            enddo
-        endif
+          endif
  cgrad        do j=iii,jjj-1
  cgrad          do k=1,3
  cgrad            ghpbc(k,j)=ghpbc(k,j)+ggg(k)
  cgrad          enddo
  cgrad        enddo
-        do k=1,3
-          ghpbc(k,jjj)=ghpbc(k,jjj)+ggg(k)
-          ghpbc(k,iii)=ghpbc(k,iii)-ggg(k)
-        enddo
+          do k=1,3
+            ghpbc(k,jjj)=ghpbc(k,jjj)+ggg(k)
+            ghpbc(k,iii)=ghpbc(k,iii)-ggg(k)
+          enddo
          endif
        enddo
        ehpb=0.5D0*ehpb