include 'COMMON.SBRIDGE'
include 'COMMON.MD'
include 'COMMON.SETUP'
+ include 'COMMON.CONTROL'
+ include 'COMMON.SHIELD'
character*1 t1,t2,t3
character*1 onelett(4) /"G","A","P","D"/
character*1 toronelet(-2:2) /"p","a","G","A","P"/
c B2(2,i) = b(4)
c B2(1,-i) =b(2)
c B2(2,-i) =-b(4)
- B1tilde(1,i) = b(3)
- B1tilde(2,i) =-b(5)
- B1tilde(1,-i) =-b(3)
- B1tilde(2,-i) =b(5)
+ B1tilde(1,i) = b(3,i)
+ B1tilde(2,i) =-b(5,i)
+C B1tilde(1,-i) =-b(3,i)
+C B1tilde(2,-i) =b(5,i)
b1tilde(1,i)=0.0d0
b1tilde(2,i)=0.0d0
- B2(1,i) = b(2)
- B2(2,i) = b(4)
- B2(1,-i) =b(2)
- B2(2,-i) =-b(4)
+ B2(1,i) = b(2,i)
+ B2(2,i) = b(4,i)
+C B2(1,-i) =b(2,i)
+C B2(2,-i) =-b(4,i)
c b2(1,i)=0.0d0
c b2(2,i)=0.0d0
C write (iout,'(3(a,f10.2))') 'v1ss:',v1ss,' v2ss:',v2ss,
C & ' v3ss:',v3ss
C endif
+C set the variables used for shielding effect
+C write (iout,*) "SHIELD MODE",shield_mode
+C if (shield_mode.gt.0) then
+C VSolvSphere the volume of solving sphere
+C print *,pi,"pi"
+C rpp(1,1) is the energy r0 for peptide group contact and will be used for it
+C there will be no distinction between proline peptide group and normal peptide
+C group in case of shielding parameters
+C VSolvSphere=4.0/3.0*pi*rpp(1,1)**3
+C VSolvSphere_div=VSolvSphere-4.0/3.0*pi*(rpp(1,1)/2.0)**3
+C write (iout,*) VSolvSphere,VSolvSphere_div
+C long axis of side chain
+C do i=1,ntyp
+C long_r_sidechain(i)=vbldsc0(1,i)
+C short_r_sidechain(i)=sigma0(i)
+C enddo
+C lets set the buffor value
+C buff_shield=1.0d0
+C endif
return
111 write (iout,*) "Error reading bending energy parameters."
goto 999
#else
call getenv(var,val)
#endif
-
+C set the variables used for shielding effect
+C if (shield_mode.gt.0) then
+C VSolvSphere the volume of solving sphere
+C print *,pi,"pi"
+C rpp(1,1) is the energy r0 for peptide group contact and will be used for it
+C there will be no distinction between proline peptide group and normal peptide
+C group in case of shielding parameters
+C VSolvSphere=4.0/3.0*pi*rpp(1,1)**3
+C VSolvSphere_div=VSolvSphere-4.0/3.0*pi*(rpp(1,1)/2.0)**3
+C long axis of side chain
+C do i=1,ntyp
+C long_r_sidechain(i)=vbldsc0(1,i)
+C short_r_sidechain(i)=sigma0(i)
+C enddo
+C lets set the buffor value
+C buff_shield=1.0d0
+C endif
return
end