X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Fwham%2Fsrc%2Fenergy_p_new.F;h=d857079aab6250551bc82e40915577cd83d9e78a;hb=5ff7ad0bbfd2c60edf49b10b9f9e6f81ff42a1e2;hp=06bdd765f89cb8ab9c12a31cf10d725a886d930a;hpb=e7fd0c7782f6f624b41009800df8e3d5e0e9add5;p=unres.git diff --git a/source/wham/src/energy_p_new.F b/source/wham/src/energy_p_new.F index 06bdd76..d857079 100644 --- a/source/wham/src/energy_p_new.F +++ b/source/wham/src/energy_p_new.F @@ -107,7 +107,7 @@ c write (iout,*) "ft(6)",fact(6)," evdw",evdw," evdw_t",evdw_t etot=wsc*(evdw+fact(6)*evdw_t)+wscp*evdw2+welec*fact(1)*ees & +wvdwpp*evdw1 & +wang*ebe+wtor*fact(1)*etors+wscloc*escloc - & +wstrain*ehpb+nss*ebr+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 + & +wstrain*ehpb+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 & +wcorr6*fact(5)*ecorr6+wturn4*fact(3)*eello_turn4 & +wturn3*fact(2)*eello_turn3+wturn6*fact(5)*eturn6 & +wel_loc*fact(2)*eel_loc+edihcnstr+wtor_d*fact(2)*etors_d @@ -116,7 +116,7 @@ c write (iout,*) "ft(6)",fact(6)," evdw",evdw," evdw_t",evdw_t etot=wsc*(evdw+fact(6)*evdw_t)+wscp*evdw2 & +welec*fact(1)*(ees+evdw1) & +wang*ebe+wtor*fact(1)*etors+wscloc*escloc - & +wstrain*ehpb+nss*ebr+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 + & +wstrain*ehpb+wcorr*fact(3)*ecorr+wcorr5*fact(4)*ecorr5 & +wcorr6*fact(5)*ecorr6+wturn4*fact(3)*eello_turn4 & +wturn3*fact(2)*eello_turn3+wturn6*fact(5)*eturn6 & +wel_loc*fact(2)*eel_loc+edihcnstr+wtor_d*fact(2)*etors_d @@ -154,6 +154,7 @@ c write (iout,*) "ft(6)",fact(6)," evdw",evdw," evdw_t",evdw_t energia(19)=esccor energia(20)=edihcnstr energia(21)=evdw_t +c if (dyn_ss) call dyn_set_nss c detecting NaNQ #ifdef ISNAN #ifdef AIX @@ -770,6 +771,7 @@ C include 'COMMON.ENEPS' include 'COMMON.IOUNITS' include 'COMMON.CALC' + include 'COMMON.SBRIDGE' logical lprn common /srutu/icall integer icant @@ -800,6 +802,21 @@ C Calculate SC interaction energy. C do iint=1,nint_gr(i) do j=istart(i,iint),iend(i,iint) +C in case of diagnostics write (iout,*) "TU SZUKAJ",i,j,dyn_ss_mask(i),dyn_ss_mask(j) +C /06/28/2013 Adasko: In case of dyn_ss - dynamic disulfide bond +C formation no electrostatic interactions should be calculated. If it +C would be allowed NaN would appear + IF (dyn_ss_mask(i).and.dyn_ss_mask(j)) THEN +C /06/28/2013 Adasko: dyn_ss_mask is logical statement wheather this Cys +C residue can or cannot form disulfide bond. There is still bug allowing +C Cys...Cys...Cys bond formation + call dyn_ssbond_ene(i,j,evdwij) +C /06/28/2013 Adasko: dyn_ssbond_ene is dynamic SS bond foration energy +C function in ssMD.F + evdw=evdw+evdwij +c if (energy_dec) write (iout,'(a6,2i5,0pf7.3,a3)') +c & 'evdw',i,j,evdwij,' ss' + ELSE ind=ind+1 itypj=itype(j) dscj_inv=vbld_inv(j+nres) @@ -866,6 +883,7 @@ c--------------------------------------------------------------- c write (iout,*) "i",i," j",j," itypi",itypi," itypj",itypj, c & " ij",ij," eneps",aux*e1/dabs(eps(itypi,itypj)), c & aux*e2/eps(itypi,itypj) +c write (iout,'(a6,2i5,0pf7.3)') 'evdw',i,j,evdwij if (lprn) then sigm=dabs(aa(itypi,itypj)/bb(itypi,itypj))**(1.0D0/6.0D0) epsi=bb(itypi,itypj)**2/aa(itypi,itypj) @@ -889,6 +907,7 @@ C Calculate the radial part of the gradient C Calculate angular part of the gradient. call sc_grad endif + ENDIF ! dyn_ss enddo ! j enddo ! iint enddo ! i @@ -2869,16 +2888,16 @@ C Evaluate bridge-strain energy and its gradient in virtual-bond and SC vectors. C implicit real*8 (a-h,o-z) include 'DIMENSIONS' - include 'DIMENSIONS.ZSCOPT' include 'COMMON.SBRIDGE' include 'COMMON.CHAIN' include 'COMMON.DERIV' include 'COMMON.VAR' include 'COMMON.INTERACT' + include 'COMMON.IOUNITS' dimension ggg(3) ehpb=0.0D0 -cd print *,'edis: nhpb=',nhpb,' fbr=',fbr -cd print *,'link_start=',link_start,' link_end=',link_end +cd write(iout,*)'edis: nhpb=',nhpb,' fbr=',fbr +cd write(iout,*)'link_start=',link_start,' link_end=',link_end if (link_end.eq.0) return do i=link_start,link_end C If ihpb(i) and jhpb(i) > NRES, this is a SC-SC distance, otherwise a @@ -2893,43 +2912,88 @@ C iii and jjj point to the residues for which the distance is assigned. iii=ii jjj=jj endif +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 (.not.dyn_ss .and. i.le.nss) then +C 15/02/13 CC dynamic SSbond - additional check 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 + endif +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 - do j=iii,jjj-1 + endif do k=1,3 - ghpbc(k,j)=ghpbc(k,j)+ggg(k) + ghpbc(k,jjj)=ghpbc(k,jjj)+ggg(k) + ghpbc(k,iii)=ghpbc(k,iii)-ggg(k) enddo - enddo endif enddo ehpb=0.5D0*ehpb @@ -2990,11 +3054,12 @@ C deltat12=om2-om1+2.0d0 cosphi=om12-om1*om2 eij=akcm*deltad*deltad+akth*(deltat1*deltat1+deltat2*deltat2) - & +akct*deltad*deltat12 + & +akct*deltad*deltat12+ebr +c & +akct*deltad*deltat12 & +v1ss*cosphi+v2ss*cosphi*cosphi+v3ss*cosphi*cosphi*cosphi -c write(iout,*) i,j,"rij",rij,"d0cm",d0cm," akcm",akcm," akth",akth, -c & " akct",akct," deltad",deltad," deltat",deltat1,deltat2, -c & " deltat12",deltat12," eij",eij + write(iout,*) i,j,"rij",rij,"d0cm",d0cm," akcm",akcm," akth",akth, + & " akct",akct," deltad",deltad," deltat",deltat1,deltat2, + & " deltat12",deltat12," eij",eij,"ebr",ebr ed=2*akcm*deltad+akct*deltat12 pom1=akct*deltad pom2=v1ss+2*v2ss*cosphi+3*v3ss*cosphi*cosphi @@ -3039,6 +3104,7 @@ c include 'COMMON.FFIELD' include 'COMMON.CONTROL' double precision u(3),ud(3) + lprn=.false. estr=0.0d0 do i=nnt+1,nct diff = vbld(i)-vbldp0 @@ -3058,8 +3124,9 @@ c nbi=nbondterm(iti) if (nbi.eq.1) then diff=vbld(i+nres)-vbldsc0(1,iti) -c write (iout,*) i,iti,vbld(i+nres),vbldsc0(1,iti),diff, -c & AKSC(1,iti),AKSC(1,iti)*diff*diff + if (lprn) + & write (iout,*) i,iti,vbld(i+nres),vbldsc0(1,iti),diff, + & AKSC(1,iti),AKSC(1,iti)*diff*diff estr=estr+0.5d0*AKSC(1,iti)*diff*diff do j=1,3 gradbx(j,i)=AKSC(1,iti)*diff*dc(j,i+nres)/vbld(i+nres) @@ -3088,8 +3155,9 @@ c & AKSC(1,iti),AKSC(1,iti)*diff*diff usum=usum+uprod1 usumsqder=usumsqder+ud(j)*uprod2 enddo -c write (iout,*) i,iti,vbld(i+nres),(vbldsc0(j,iti), -c & AKSC(j,iti),abond0(j,iti),u(j),j=1,nbi) + if (lprn) + & write (iout,*) i,iti,vbld(i+nres),(vbldsc0(j,iti), + & AKSC(j,iti),abond0(j,iti),u(j),j=1,nbi) estr=estr+uprod/usum do j=1,3 gradbx(j,i)=usumsqder/(usum*usum)*dc(j,i+nres)/vbld(i+nres) @@ -3961,7 +4029,8 @@ c sumene = enesc(x,xx,yy,zz,cost2tab(i+1),sint2tab(i+1)) escloc = escloc + sumene c write (2,*) "escloc",escloc if (.not. calc_grad) goto 1 -#ifdef DEBUG + +#ifdef DEBUG2 C C This section to check the numerical derivatives of the energy of ith side C chain in xx, yy, zz, and theta. Use the -DDEBUG compiler option or insert @@ -4492,7 +4561,7 @@ c amino-acid residues. C Set lprn=.true. for debugging lprn=.false. c lprn=.true. -c write (iout,*) "EBACK_SC_COR",iphi_start,iphi_end,nterm_sccor +c write (iout,*) "EBACK_SC_COR",itau_start,itau_end,nterm_sccor esccor=0.0D0 do i=itau_start,itau_end esccor_ii=0.0D0 @@ -6311,18 +6380,18 @@ c-------------------------------------------------------------------------- logical lprn common /kutas/ lprn CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC -C -C Parallel Antiparallel -C -C o o -C /l\ /j\ -C / \ / \ -C /| o | | o |\ -C \ j|/k\| / \ |/k\|l / -C \ / \ / \ / \ / -C o o o o -C i i -C +C C +C Parallel Antiparallel C +C C +C o o C +C /l\ /j\ C +C / \ / \ C +C /| o | | o |\ C +C \ j|/k\| / \ |/k\|l / C +C \ / \ / \ / \ / C +C o o o o C +C i i C +C C CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC itk=itortyp(itype(k)) s1= scalar2(AEAb1(1,2,imat),CUgb2(1,i)) @@ -6414,22 +6483,22 @@ c---------------------------------------------------------------------------- include 'COMMON.GEO' logical swap double precision vv(2),pizda(2,2),auxmat(2,2),auxvec(2), - & auxvec1(2),auxvec2(1),auxmat1(2,2) + & auxvec1(2),auxvec2(2),auxmat1(2,2) logical lprn common /kutas/ lprn CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC -C -C Parallel Antiparallel -C -C o o -C \ /l\ /j\ / -C \ / \ / \ / -C o| o | | o |o -C \ j|/k\| \ |/k\|l -C \ / \ \ / \ -C o o -C i i -C +C C +C Parallel Antiparallel C +C C +C o o C +C \ /l\ /j\ / C +C \ / \ / \ / C +C o| o | | o |o C +C \ j|/k\| \ |/k\|l C +C \ / \ \ / \ C +C o o C +C i i C +C C CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC cd write (2,*) 'eello6_graph2: i,',i,' j',j,' k',k,' l',l C AL 7/4/01 s1 would occur in the sixth-order moment, @@ -6602,18 +6671,18 @@ c---------------------------------------------------------------------------- double precision vv(2),pizda(2,2),auxmat(2,2),auxvec(2) logical swap CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC -C -C Parallel Antiparallel -C -C o o -C /l\ / \ /j\ -C / \ / \ / \ -C /| o |o o| o |\ -C j|/k\| / |/k\|l / -C / \ / / \ / -C / o / o -C i i -C +C C +C Parallel Antiparallel C +C C +C o o C +C /l\ / \ /j\ C +C / \ / \ / \ C +C /| o |o o| o |\ C +C j|/k\| / |/k\|l / C +C / \ / / \ / C +C / o / o C +C i i C +C C CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC C C 4/7/01 AL Component s1 was removed, because it pertains to the respective @@ -6720,18 +6789,18 @@ c---------------------------------------------------------------------------- & auxvec1(2),auxmat1(2,2) logical swap CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC -C -C Parallel Antiparallel -C -C o o -C /l\ / \ /j\ -C / \ / \ / \ -C /| o |o o| o |\ -C \ j|/k\| \ |/k\|l -C \ / \ \ / \ -C o \ o \ -C i i -C +C C +C Parallel Antiparallel C +C C +C o o C +C /l\ / \ /j\ C +C / \ / \ / \ C +C /| o |o o| o |\ C +C \ j|/k\| \ |/k\|l C +C \ / \ \ / \ C +C o \ o \ C +C i i C +C C CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC C C 4/7/01 AL Component s1 was removed, because it pertains to the respective