X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Funres%2Fsrc_MD%2Fenergy_p_new_barrier.F;h=2e0ac3774277e9bc85695386647e1ad71c1fa086;hb=3e5191c219c2c8855e212d6852e6ef50f7e14ead;hp=74bd3ae7d5f777704887d37693f96b130d8bb398;hpb=462b4b0ab826c82da8fbe9e4425f5329306b1952;p=unres.git

diff --git a/source/unres/src_MD/energy_p_new_barrier.F b/source/unres/src_MD/energy_p_new_barrier.F
index 74bd3ae..2e0ac37 100644
--- a/source/unres/src_MD/energy_p_new_barrier.F
+++ b/source/unres/src_MD/energy_p_new_barrier.F
@@ -4569,6 +4569,18 @@ c     write (*,'(a,i2)') 'EBEND ICG=',icg
 C Zero the energy function and its derivative at 0 or pi.
         call splinthet(theta(i),0.5d0*delta,ss,ssd)
         it=itype(i-1)
+        ichir1=isign(1,itype(i-2))
+        ichir2=isign(1,itype(i))
+         if (itype(i-2).eq.10) ichir1=isign(1,itype(i-1))
+         if (itype(i).eq.10) ichir2=isign(1,itype(i-1))
+         if (itype(i-1).eq.10) then
+          itype1=isign(10,itype(i-2))
+          ichir11=isign(1,itype(i-2))
+          ichir12=isign(1,itype(i-2))
+          itype2=isign(10,itype(i))
+          ichir21=isign(1,itype(i))
+          ichir22=isign(1,itype(i))
+         endif
         if (i.gt.3) then
 #ifdef OSF
 	  phii=phi(i)
@@ -4602,15 +4614,27 @@ C dependent on the adjacent virtual-bond-valence angles (gamma1 & gamma2).
 C In following comments this theta will be referred to as t_c.
         thet_pred_mean=0.0d0
         do k=1,2
-          athetk=athet(k,it)
-          bthetk=bthet(k,it)
+            athetk=athet(k,it,ichir1,ichir2)
+            bthetk=bthet(k,it,ichir1,ichir2)
+          if (it.eq.10) then
+             athetk=athet(k,itype1,ichir11,ichir12)
+             bthetk=bthet(k,itype2,ichir21,ichir22)
+          endif
           thet_pred_mean=thet_pred_mean+athetk*y(k)+bthetk*z(k)
         enddo
         dthett=thet_pred_mean*ssd
         thet_pred_mean=thet_pred_mean*ss+a0thet(it)
 C Derivatives of the "mean" values in gamma1 and gamma2.
-        dthetg1=(-athet(1,it)*y(2)+athet(2,it)*y(1))*ss
-        dthetg2=(-bthet(1,it)*z(2)+bthet(2,it)*z(1))*ss
+        dthetg1=(-athet(1,it,ichir1,ichir2)*y(2)
+     &+athet(2,it,ichir1,ichir2)*y(1))*ss
+         dthetg2=(-bthet(1,it,ichir1,ichir2)*z(2)
+     &          +bthet(2,it,ichir1,ichir2)*z(1))*ss
+         if (it.eq.10) then
+      dthetg1=(-athet(1,itype1,ichir11,ichir12)*y(2)
+     &+athet(2,itype1,ichir11,ichir12)*y(1))*ss
+        dthetg2=(-bthet(1,itype2,ichir21,ichir22)*z(2)
+     &         +bthet(2,itype2,ichir21,ichir22)*z(1))*ss
+         endif
         if (theta(i).gt.pi-delta) then
           call theteng(pi-delta,thet_pred_mean,theta0(it),f0,fprim0,
      &         E_tc0)
@@ -4937,9 +4961,11 @@ C
           enddo
         enddo
 10      continue
-        if (lprn1) write (iout,'(i2,3f8.1,9h ethetai ,f10.5)') 
-     &   i,theta(i)*rad2deg,phii*rad2deg,
+c        lprn1=.true.
+        if (lprn1) write (iout,'(a4,i2,3f8.1,9h ethetai ,f10.5)') 
+     &  'ebe', i,theta(i)*rad2deg,phii*rad2deg,
      &   phii1*rad2deg,ethetai
+c        lprn1=.false.
         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