X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Funres%2Fsrc_MD%2Fenergy_p_new_barrier.F;h=cbf930c6d4bcb460f0174fe5ccedb9ad1ba985da;hb=f37cfff89ef75a184b0c7bbbac2ecea2efc1d157;hp=a91710d6a8c397c7941fa928b2f44f301a451f7c;hpb=704f5e118547ecaa66556599d5d9001bacb7448c;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 a91710d..cbf930c 100644 --- a/source/unres/src_MD/energy_p_new_barrier.F +++ b/source/unres/src_MD/energy_p_new_barrier.F @@ -3895,6 +3895,7 @@ C Derivatives in gamma(i+1) gel_loc_turn3(i+1)=gel_loc_turn3(i+1) & +0.5d0*(pizda(1,1)+pizda(2,2)) C Cartesian derivatives +!DIR$ UNROLL(0) do l=1,3 c ghalf1=0.5d0*agg(l,1) c ghalf2=0.5d0*agg(l,2) @@ -4361,6 +4362,7 @@ C include 'COMMON.VAR' include 'COMMON.INTERACT' include 'COMMON.IOUNITS' + include 'COMMON.CONTROL' dimension ggg(3) ehpb=0.0D0 cd write(iout,*)'edis: nhpb=',nhpb,' fbr=',fbr @@ -4396,6 +4398,16 @@ 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 (constr_dist.eq.11) then + ehpb=ehpb+fordepth(i)**4.0d0 + & *rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)) + fac=fordepth(i)**4.0d0 + & *rlornmr1prim(dd,dhpb(i),dhpb1(i),forcon(i))/dd + if (energy_dec) write (iout,'(a6,2i5,f15.6,2f8.3)') + & "edisl",ii,jj, + & fordepth(i)**4.0d0*rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)), + & fordepth(i),dd + else 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 @@ -4413,7 +4425,8 @@ C C Evaluate gradient. C fac=waga*rdis/dd - endif + endif + endif do j=1,3 ggg(j)=fac*(c(j,jj)-c(j,ii)) enddo @@ -4429,6 +4442,18 @@ C C Calculate the distance between the two points and its difference from the C target distance. dd=dist(ii,jj) + if (constr_dist.eq.11) then + ehpb=ehpb+fordepth(i)**4.0d0 + & *rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)) + fac=fordepth(i)**4.0d0 + & *rlornmr1prim(dd,dhpb(i),dhpb1(i),forcon(i))/dd + if (energy_dec) write (iout,'(a6,2i5,f15.6,2f8.3)') + 7 "edisl",ii,jj, + & fordepth(i)**4.0d0*rlornmr1(dd,dhpb(i),dhpb1(i),forcon(i)), + & fordepth(i),dd +c if (energy_dec) +c & write (iout,*) fac + else 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 @@ -4446,6 +4471,7 @@ C Evaluate gradient. C fac=waga*rdis/dd endif + endif cd print *,'i=',i,' ii=',ii,' jj=',jj,' dhpb=',dhpb(i),' dd=',dd, cd & ' waga=',waga,' fac=',fac do j=1,3 @@ -4471,7 +4497,10 @@ cgrad enddo enddo endif enddo - ehpb=0.5D0*ehpb + if (constr_dist.ne.11) ehpb=0.5D0*ehpb +c do i=1,nres +c write (iout,*) "ghpbc",i,(ghpbc(j,i),j=1,3) +c enddo return end C-------------------------------------------------------------------------- @@ -4903,7 +4932,7 @@ c & " ithet_end",ithet_end sinkt(k)=dsin(k*theti2) enddo C if (i.gt.3) then - if (i.gt.3 .and. itype(imax0(i-3,1)).ne.ntyp1) then + if (i.gt.3 .and. itype(max0(i-3,1)).ne.ntyp1) then #ifdef OSF phii=phi(i) if (phii.ne.phii) phii=150.0 @@ -6048,9 +6077,13 @@ c write(iout,*) "waga_theta",waga_theta,"waga_d",waga_d j = jres_homo(ii) dij=dist(i,j) c write (iout,*) "dij(",i,j,") =",dij + nexl=0 do k=1,constr_homology c write(iout,*) ii,k,i,j,l_homo(k,ii),dij,odl(k,ii) - if(.not.l_homo(k,ii)) cycle + if(.not.l_homo(k,ii)) then + nexl=nexl+1 + cycle + endif distance(k)=odl(k,ii)-dij c write (iout,*) "distance(",k,") =",distance(k) c @@ -6069,6 +6102,7 @@ c & (distance(k)**2+sigma_odlir(k,ii)**2)) endif enddo +c write (iout,*) "distance: ii",ii," nexl",nexl c min_odl=minval(distancek) @@ -6089,7 +6123,15 @@ c write (iout,* )"min_odl",min_odl write (iout,*) "distancek",(distancek(k),k=1,constr_homology) write (iout,* )"min_odl",min_odl #endif +#ifdef OLDRESTR odleg2=0.0d0 +#else + if (waga_dist.ge.0.0d0) then + odleg2=nexl + else + odleg2=0.0d0 + endif +#endif do k=1,constr_homology c Nie wiem po co to liczycie jeszcze raz! c odleg3=-waga_dist(iset)*((distance(i,j,k)**2)/ @@ -6232,10 +6274,10 @@ c write (iout,*) idihconstr_start_homo,idihconstr_end_homo enddo #endif 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 + kat2=0.0d0 do k=1,constr_homology dih_diff(k)=pinorm(dih(k,i)-betai) c write (iout,*) "dih_diff(",k,") =",dih_diff(k) @@ -6243,13 +6285,16 @@ c if (dih_diff(i,k).gt.3.14159) dih_diff(i,k)= c & -(6.28318-dih_diff(i,k)) c if (dih_diff(i,k).lt.-3.14159) dih_diff(i,k)= c & 6.28318+dih_diff(i,k) - +#ifdef OLD_DIHED kat3=-0.5d0*dih_diff(k)**2*sigma_dih(k,i) ! waga_angle rmvd from Gaussian argument +#else + kat3=(dcos(dih_diff(k))-1)*sigma_dih(k,i) ! waga_angle rmvd from Gaussian argument +#endif c kat3=-0.5d0*waga_angle*dih_diff(k)**2*sigma_dih(k,i) gdih(k)=dexp(kat3) kat2=kat2+gdih(k) -c write(iout,*) "kat2=", kat2, "exp(kat3)=", exp(kat3) -c write(*,*)"" +c write(iout,*) "i",i," k",k," sigma",sigma_dih(k,i), +c & " kat2=", kat2, "gdih=",gdih(k) enddo c write (iout,*) "gdih",(gdih(k),k=1,constr_homology) ! exps c write (iout,*) "i",i," betai",betai," kat2",kat2 ! sum of exps @@ -6271,7 +6316,11 @@ c ---------------------------------------------------------------------- sum_gdih=kat2 sum_sgdih=0.0d0 do k=1,constr_homology +#ifdef OLD_DIHED sgdih=-gdih(k)*dih_diff(k)*sigma_dih(k,i) ! waga_angle rmvd +#else + sgdih=-gdih(k)*dsin(dih_diff(k))*sigma_dih(k,i) ! waga_angle rmvd +#endif c sgdih=-gdih(k)*dih_diff(k)*sigma_dih(k,i)*waga_angle sum_sgdih=sum_sgdih+sgdih enddo @@ -6281,7 +6330,7 @@ c grad_dih3=sum_sgdih/sum_gdih c write(iout,*)i,k,gdih,sgdih,beta(i+1,i+2,i+3,i+4),grad_dih3 ccc write(iout,747) "GRAD_KAT_1", i, nphi, icg, grad_dih3, ccc & gloc(nphi+i-3,icg) - gloc(i,icg)=gloc(i,icg)+grad_dih3 + gloc(i-3,icg)=gloc(i-3,icg)+grad_dih3 c if (i.eq.25) then c write(iout,*) "i",i,"icg",icg,"gloc(",i,icg,")",gloc(i,icg) c endif @@ -6350,7 +6399,9 @@ c utheta_i=-0.5d0*theta_diff(k)**2*sigma_theta(k,i) ! waga_theta rmvd from Gaussian argument c utheta_i=-0.5d0*waga_theta*theta_diff(k)**2*sigma_theta(k,i) ! waga_theta? gtheta(k)=dexp(utheta_i) ! + min_utheta_i? - gutheta_i=gutheta_i+dexp(utheta_i) ! Sum of Gaussians (pk) + gutheta_i=gutheta_i+gtheta(k) ! Sum of Gaussians (pk) +c write (iout,*) "i",i," k",k," sigma_theta",sigma_theta(k,i), +c & " gtheta",gtheta(k) c Gradient for single Gaussian restraint in subr Econstr_back c dutheta(j-2)=dutheta(j-2)+wfrag_back(1,i,iset)*dtheta_i/(ii-1) c @@ -6422,7 +6473,9 @@ c c usc_diff(i)=-0.5d0*waga_d*(dxx**2+dyy**2+dzz**2)*sigma_d(k,i) ! waga_d? c uscdiffk(k)=usc_diff(i) guscdiff2(k)=dexp(usc_diff_i) ! without min_scdiff - guscdiff(i)=guscdiff(i)+dexp(usc_diff_i) !Sum of Gaussians (pk) +c write(iout,*) "i",i," k",k," sigma_d",sigma_d(k,i), +c & " guscdiff2",guscdiff2(k) + guscdiff(i)=guscdiff(i)+guscdiff2(k) !Sum of Gaussians (pk) c write (iout,'(i5,6f10.5)') j,xxtab(j),yytab(j),zztab(j), c & xxref(j),yyref(j),zzref(j) enddo