X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Fcluster%2Fwham%2Fsrc-M%2Freadrtns.F;h=6bb388ab9286a16ba7437c3c50415991afad8290;hb=058b4e72d61c149f66570d580bda9b47464d9df6;hp=666754f51ee79d76efd16baa19b0763cebf874cb;hpb=b1ac4ec5292a0d8ddcc3ad64e27a5ab3a4febe39;p=unres.git diff --git a/source/cluster/wham/src-M/readrtns.F b/source/cluster/wham/src-M/readrtns.F index 666754f..6bb388a 100644 --- a/source/cluster/wham/src-M/readrtns.F +++ b/source/cluster/wham/src-M/readrtns.F @@ -13,14 +13,17 @@ C include 'COMMON.CHAIN' include 'COMMON.HEADER' include 'COMMON.FFIELD' - include 'COMMON.FREE' include 'COMMON.INTERACT' + include "COMMON.SPLITELE" + include 'COMMON.SHIELD' + include 'COMMON.FREE' + include 'COMMON.LANGEVIN' character*320 controlcard,ucase #ifdef MPL include 'COMMON.INFO' #endif - integer i - + integer i,i1,i2,it1,it2 + double precision pi read (INP,'(a80)') titel call card_concat(controlcard) @@ -28,6 +31,50 @@ C call readi(controlcard,'RESCALE',rescale_mode,2) call reada(controlcard,'DISTCHAINMAX',distchainmax,50.0d0) write (iout,*) "DISTCHAINMAX",distchainmax +C Reading the dimensions of box in x,y,z coordinates + call reada(controlcard,'BOXX',boxxsize,100.0d0) + call reada(controlcard,'BOXY',boxysize,100.0d0) + call reada(controlcard,'BOXZ',boxzsize,100.0d0) +c Cutoff range for interactions + call reada(controlcard,"R_CUT",r_cut,15.0d0) + call reada(controlcard,"LAMBDA",rlamb,0.3d0) + call reada(controlcard,"LIPTHICK",lipthick,0.0d0) + call reada(controlcard,"LIPAQBUF",lipbufthick,0.0d0) + if (lipthick.gt.0.0d0) then + bordliptop=(boxzsize+lipthick)/2.0 + bordlipbot=bordliptop-lipthick +C endif + if ((bordliptop.gt.boxzsize).or.(bordlipbot.lt.0.0)) + & write(iout,*) "WARNING WRONG SIZE OF LIPIDIC PHASE" + buflipbot=bordlipbot+lipbufthick + bufliptop=bordliptop-lipbufthick + if ((lipbufthick*2.0d0).gt.lipthick) + &write(iout,*) "WARNING WRONG SIZE OF LIP AQ BUF" + endif + write(iout,*) "bordliptop=",bordliptop + write(iout,*) "bordlipbot=",bordlipbot + write(iout,*) "bufliptop=",bufliptop + write(iout,*) "buflipbot=",buflipbot +C Shielding mode + call readi(controlcard,'SHIELD',shield_mode,0) + write (iout,*) "SHIELD MODE",shield_mode + if (shield_mode.gt.0) then + pi=3.141592d0 +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 + VSolvSphere=4.0/3.0*pi*rpp(1,1)**3 + VSolvSphere_div=VSolvSphere-4.0/3.0*pi*(rpp(1,1)/2.0)**3 + write (iout,*) VSolvSphere,VSolvSphere_div +C long axis of side chain + do i=1,ntyp + long_r_sidechain(i)=vbldsc0(1,i) + short_r_sidechain(i)=sigma0(i) + enddo + buff_shield=1.0d0 + endif call readi(controlcard,'PDBOUT',outpdb,0) call readi(controlcard,'MOL2OUT',outmol2,0) refstr=(index(controlcard,'REFSTR').gt.0) @@ -35,10 +82,18 @@ C pdbref=(index(controlcard,'PDBREF').gt.0) iscode=index(controlcard,'ONE_LETTER') tree=(index(controlcard,'MAKE_TREE').gt.0) + with_dihed_constr = index(controlcard,"WITH_DIHED_CONSTR").gt.0 + call readi(controlcard,'CONSTR_DIST',constr_dist,0) + write (iout,*) "with_dihed_constr ",with_dihed_constr, + & " CONSTR_DIST",constr_dist + with_theta_constr = index(controlcard,"WITH_THETA_CONSTR").gt.0 + write (iout,*) "with_theta_constr ",with_theta_constr + call flush(iout) min_var=(index(controlcard,'MINVAR').gt.0) plot_tree=(index(controlcard,'PLOT_TREE').gt.0) punch_dist=(index(controlcard,'PUNCH_DIST').gt.0) - call readi(controlcard,'NCUT',ncut,1) + call readi(controlcard,'NCUT',ncut,0) + call readi(controlcard,'NCLUST',nclust,5) call readi(controlcard,'SYM',symetr,1) write (iout,*) 'sym', symetr call readi(controlcard,'NSTART',nstart,0) @@ -49,7 +104,8 @@ C lgrp=(index(controlcard,'LGRP').gt.0) caonly=(index(controlcard,'CA_ONLY').gt.0) print_dist=(index(controlcard,'PRINT_DIST').gt.0) - call multreada(controlcard,'CUTOFF',rcutoff,ncut,-1.0d0) + if (ncut.gt.0) + & call multreada(controlcard,'CUTOFF',rcutoff,ncut,-1.0d0) call readi(controlcard,'IOPT',iopt,2) lside = index(controlcard,"SIDE").gt.0 efree = index(controlcard,"EFREE").gt.0 @@ -64,6 +120,18 @@ C write (iout,*) 'beta_h',(beta_h(i),i=1,nT) lprint_cart=index(controlcard,"PRINT_CART") .gt.0 lprint_int=index(controlcard,"PRINT_INT") .gt.0 + call readi(controlcard,'CONSTR_HOMOL',constr_homology,0) + write (iout,*) "with_homology_constr ",with_dihed_constr, + & " CONSTR_HOMOLOGY",constr_homology + print_homology_restraints= + & index(controlcard,"PRINT_HOMOLOGY_RESTRAINTS").gt.0 + print_contact_map=index(controlcard,"PRINT_CONTACT_MAP").gt.0 + print_homology_models= + & index(controlcard,"PRINT_HOMOLOGY_MODELS").gt.0 + call readi(controlcard,'NSAXS',nsaxs,0) + call readi(controlcard,'SAXS_MODE',saxs_mode,0) + write (iout,*) "Number of SAXS restraints",NSAXS," SAXS_MODE", + & SAXS_MODE if (min_var) iopt=1 return end @@ -87,6 +155,8 @@ C include 'COMMON.CONTROL' include 'COMMON.CONTACTS' include 'COMMON.TIME1' + include 'COMMON.TORCNSTR' + include 'COMMON.SHIELD' #ifdef MPL include 'COMMON.INFO' #endif @@ -96,12 +166,13 @@ C double precision x(maxvar) integer itype_pdb(maxres) logical seq_comp - integer i,j + integer i,j,kkk,i1,i2,it1,it2 C C Body C C Read weights of the subsequent energy terms. call card_concat(weightcard) + write(iout,*) weightcard call reada(weightcard,'WSC',wsc,1.0d0) call reada(weightcard,'WLONG',wsc,wsc) call reada(weightcard,'WSCP',wscp,1.0d0) @@ -121,11 +192,60 @@ C Read weights of the subsequent energy terms. call reada(weightcard,'WTORD',wtor_d,1.0D0) call reada(weightcard,'WANG',wang,1.0D0) call reada(weightcard,'WSCLOC',wscloc,1.0D0) + call reada(weightcard,'WSAXS',wsaxs,0.0D0) call reada(weightcard,'SCAL14',scal14,0.4D0) call reada(weightcard,'SCALSCP',scalscp,1.0d0) call reada(weightcard,'CUTOFF',cutoff_corr,7.0d0) call reada(weightcard,'DELT_CORR',delt_corr,0.5d0) if (index(weightcard,'SOFT').gt.0) ipot=6 + call reada(weightcard,"D0CM",d0cm,3.78d0) + call reada(weightcard,"AKCM",akcm,15.1d0) + call reada(weightcard,"AKTH",akth,11.0d0) + call reada(weightcard,"AKCT",akct,12.0d0) + call reada(weightcard,"V1SS",v1ss,-1.08d0) + call reada(weightcard,"V2SS",v2ss,7.61d0) + call reada(weightcard,"V3SS",v3ss,13.7d0) + call reada(weightcard,"EBR",ebr,-5.50D0) + call reada(weightcard,'WSHIELD',wshield,1.0d0) + write(iout,*) 'WSHIELD',wshield + call reada(weightcard,'WLT',wliptran,0.0D0) + call reada(weightcard,"ATRISS",atriss,0.301D0) + call reada(weightcard,"BTRISS",btriss,0.021D0) + call reada(weightcard,"CTRISS",ctriss,1.001D0) + call reada(weightcard,"DTRISS",dtriss,1.001D0) + write (iout,*) "ATRISS=", atriss + write (iout,*) "BTRISS=", btriss + write (iout,*) "CTRISS=", ctriss + write (iout,*) "DTRISS=", dtriss + dyn_ss=(index(weightcard,'DYN_SS').gt.0) + do i=1,maxres + dyn_ss_mask(i)=.false. + enddo + do i=1,maxres-1 + do j=i+1,maxres + dyn_ssbond_ij(i,j)=1.0d300 + enddo + enddo + call reada(weightcard,"HT",Ht,0.0D0) + if (dyn_ss) then + ss_depth=ebr/wsc-0.25*eps(1,1) + Ht=Ht/wsc-0.25*eps(1,1) + akcm=akcm*wstrain/wsc + akth=akth*wstrain/wsc + akct=akct*wstrain/wsc + v1ss=v1ss*wstrain/wsc + v2ss=v2ss*wstrain/wsc + v3ss=v3ss*wstrain/wsc + else + ss_depth=ebr/wstrain-0.25*eps(1,1)*wsc/wstrain + endif + write (iout,'(/a)') "Disulfide bridge parameters:" + write (iout,'(a,f10.2)') 'S-S bridge energy: ',ebr + write (iout,'(2(a,f10.2))') 'd0cm:',d0cm,' akcm:',akcm + write (iout,'(2(a,f10.2))') 'akth:',akth,' akct:',akct + write (iout,'(3(a,f10.2))') 'v1ss:',v1ss,' v2ss:',v2ss, + & ' v3ss:',v3ss + C 12/1/95 Added weight for the multi-body term WCORR call reada(weightcard,'WCORRH',wcorr,1.0D0) if (wcorr4.gt.0.0d0) wcorr=wcorr4 @@ -206,33 +326,20 @@ C Convert sequence to numeric code do i=1,nres itype(i)=rescode(i,sequence(i),iscode) enddo - if (itype(2).eq.10.and.itype(1).eq.ntyp1) then - write (iout,*) - & "Glycine is the first full residue, initial dummy deleted" - do i=1,nres - itype(i)=itype(i+1) - enddo - nres=nres-1 - endif - if (itype(nres-1).eq.10.and.itype(nres).eq.ntyp1) then - write (iout,*) - & "Glycine is the last full residue, terminal dummy deleted" - nres=nres-1 - endif print *,nres print '(20i4)',(itype(i),i=1,nres) do i=1,nres #ifdef PROCOR - if (itype(i).eq.21 .or. itype(i+1).eq.21) then + if (itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) then #else - if (itype(i).eq.21) then + if (itype(i).eq.ntyp1) then #endif itel(i)=0 #ifdef PROCOR - else if (itype(i+1).ne.20) then + else if (iabs(itype(i+1)).ne.20) then #else - else if (itype(i).ne.20) then + else if (iabs(itype(i)).ne.20) then #endif itel(i)=1 else @@ -246,15 +353,81 @@ C Convert sequence to numeric code print *,'Call Read_Bridge.' call read_bridge +C this fragment reads diheadral constrains + if (with_dihed_constr) then + + read (inp,*) ndih_constr + if (ndih_constr.gt.0) then +C read (inp,*) ftors +C write (iout,*) 'FTORS',ftors +C ftors is the force constant for torsional quartic constrains + read (inp,*) (idih_constr(i),phi0(i),drange(i),ftors(i), + & i=1,ndih_constr) + write (iout,*) + & 'There are',ndih_constr,' constraints on phi angles.' + do i=1,ndih_constr + write (iout,'(i5,3f8.3)') idih_constr(i),phi0(i),drange(i), + & ftors(i) + enddo + do i=1,ndih_constr + phi0(i)=deg2rad*phi0(i) + drange(i)=deg2rad*drange(i) + enddo + endif ! endif ndif_constr.gt.0 + endif ! with_dihed_constr + if (with_theta_constr) then +C with_theta_constr is keyword allowing for occurance of theta constrains + read (inp,*) ntheta_constr +C ntheta_constr is the number of theta constrains + if (ntheta_constr.gt.0) then +C read (inp,*) ftors + read (inp,*) (itheta_constr(i),theta_constr0(i), + & theta_drange(i),for_thet_constr(i), + & i=1,ntheta_constr) +C the above code reads from 1 to ntheta_constr +C itheta_constr(i) residue i for which is theta_constr +C theta_constr0 the global minimum value +C theta_drange is range for which there is no energy penalty +C for_thet_constr is the force constant for quartic energy penalty +C E=k*x**4 +C if(me.eq.king.or..not.out1file)then + write (iout,*) + & 'There are',ntheta_constr,' constraints on phi angles.' + do i=1,ntheta_constr + write (iout,'(i5,3f8.3)') itheta_constr(i),theta_constr0(i), + & theta_drange(i), + & for_thet_constr(i) + enddo +C endif + do i=1,ntheta_constr + theta_constr0(i)=deg2rad*theta_constr0(i) + theta_drange(i)=deg2rad*theta_drange(i) + enddo +C if(me.eq.king.or..not.out1file) +C & write (iout,*) 'FTORS',ftors +C do i=1,ntheta_constr +C ii = itheta_constr(i) +C thetabound(1,ii) = phi0(i)-drange(i) +C thetabound(2,ii) = phi0(i)+drange(i) +C enddo + endif ! ntheta_constr.gt.0 + endif! with_theta_constr + nnt=1 nct=nres print *,'NNT=',NNT,' NCT=',NCT - if (itype(1).eq.21) nnt=2 - if (itype(nres).eq.21) nct=nct-1 + if (itype(1).eq.ntyp1) nnt=2 + if (itype(nres).eq.ntyp1) nct=nct-1 if (nstart.lt.nnt) nstart=nnt if (nend.gt.nct .or. nend.eq.0) nend=nct write (iout,*) "nstart",nstart," nend",nend + write (iout,*) "calling read_saxs_consrtr",nsaxs + if (nsaxs.gt.0) call read_saxs_constr nres0=nres + if (constr_homology.gt.0) then + call read_constr_homology(print_homology_restraints) + endif + c if (pdbref) then c read(inp,'(a)') pdbfile c write (iout,'(2a)') 'PDB data will be read from file ',pdbfile @@ -316,14 +489,54 @@ c endif nstart_sup=nnt nstart_seq=nnt nsup=nct-nnt+1 + kkk=1 do i=1,2*nres do j=1,3 - cref(j,i)=c(j,i) + cref(j,i,kkk)=c(j,i) enddo enddo endif call contact(.true.,ncont_ref,icont_ref) endif + if (ns.gt.0) then +C write (iout,'(/a,i3,a)') +C & 'The chain contains',ns,' disulfide-bridging cysteines.' + write (iout,'(20i4)') (iss(i),i=1,ns) + if (dyn_ss) then + write(iout,*)"Running with dynamic disulfide-bond formation" + else + write (iout,'(/a/)') 'Pre-formed links are:' + do i=1,nss + i1=ihpb(i)-nres + i2=jhpb(i)-nres + it1=itype(i1) + it2=itype(i2) + write (iout,'(2a,i3,3a,i3,a,3f10.3)') + & restyp(it1),'(',i1,') -- ',restyp(it2),'(',i2,')',dhpb(i), + & ebr,forcon(i) + enddo + write (iout,'(a)') + endif + endif + if (ns.gt.0.and.dyn_ss) then + do i=nss+1,nhpb + ihpb(i-nss)=ihpb(i) + jhpb(i-nss)=jhpb(i) + forcon(i-nss)=forcon(i) + dhpb(i-nss)=dhpb(i) + enddo + nhpb=nhpb-nss + nss=0 + call hpb_partition + do i=1,ns + dyn_ss_mask(iss(i))=.true. + enddo + endif +c Read distance restraints + if (constr_dist.gt.0) then + call read_dist_constr + call hpb_partition + endif return end c----------------------------------------------------------------------------- @@ -368,10 +581,12 @@ C Check whether the specified bridging residues are cystines. do i=1,ns if (itype(iss(i)).ne.1) then write (iout,'(2a,i3,a)') - & 'Do you REALLY think that the residue ',restyp(iss(i)),i, + & 'Do you REALLY think that the residue ', + & restyp(itype(iss(i))),i, & ' can form a disulfide bridge?!!!' write (*,'(2a,i3,a)') - & 'Do you REALLY think that the residue ',restyp(iss(i)),i, + & 'Do you REALLY think that the residue ', + & restyp(itype(iss(i))),i, & ' can form a disulfide bridge?!!!' #ifdef MPL call mp_stopall(error_msg) @@ -412,8 +627,8 @@ C bridging residues. enddo write (iout,'(a,i3,a)') 'Pair',i,' contains unknown cystine.' 20 continue - dhpb(i)=dbr - forcon(i)=fbr +C dhpb(i)=dbr +C forcon(i)=fbr enddo do i=1,nss ihpb(i)=ihpb(i)+nres @@ -494,6 +709,25 @@ c---------------------------------------------------------------------------- read (rekord(iread:),*) wartosc return end +C---------------------------------------------------------------------- + subroutine multreadi(rekord,lancuch,tablica,dim,default) + implicit none + integer dim,i + integer tablica(dim),default + character*(*) rekord,lancuch + character*80 aux + integer ilen,iread + external ilen + do i=1,dim + tablica(i)=default + enddo + iread=index(rekord,lancuch(:ilen(lancuch))//"=") + if (iread.eq.0) return + iread=iread+ilen(lancuch)+1 + read (rekord(iread:),*,end=10,err=10) (tablica(i),i=1,dim) + 10 return + end + c---------------------------------------------------------------------------- subroutine card_concat(card) include 'DIMENSIONS' @@ -585,6 +819,8 @@ C Get parameter filenames and open the parameter files. open (isidep1,file=sidepname,status="old") call getenv('SCCORPAR',sccorname) open (isccor,file=sccorname,status="old") + call getenv('LIPTRANPAR',liptranname) + open (iliptranpar,file=liptranname,status='old') #ifndef OLDSCP C C 8/9/01 In the newest version SCp interaction constants are read from a file @@ -595,3 +831,653 @@ C #endif return end + subroutine read_dist_constr + implicit real*8 (a-h,o-z) + include 'DIMENSIONS' +#ifdef MPI + include 'mpif.h' +#endif + include 'COMMON.CONTROL' + include 'COMMON.CHAIN' + include 'COMMON.IOUNITS' + include 'COMMON.SBRIDGE' + integer ifrag_(2,100),ipair_(2,100) + double precision wfrag_(100),wpair_(100) + character*500 controlcard + logical lprn /.true./ + write (iout,*) "Calling read_dist_constr" +C write (iout,*) "nres",nres," nstart_sup",nstart_sup," nsup",nsup +C call flush(iout) + write(iout,*) "TU sie wywalam?" + call card_concat(controlcard) + write (iout,*) controlcard + call flush(iout) + call readi(controlcard,"NFRAG",nfrag_,0) + call readi(controlcard,"NPAIR",npair_,0) + call readi(controlcard,"NDIST",ndist_,0) + call reada(controlcard,'DIST_CUT',dist_cut,5.0d0) + call multreadi(controlcard,"IFRAG",ifrag_(1,1),2*nfrag_,0) + call multreadi(controlcard,"IPAIR",ipair_(1,1),2*npair_,0) + call multreada(controlcard,"WFRAG",wfrag_(1),nfrag_,0.0d0) + call multreada(controlcard,"WPAIR",wpair_(1),npair_,0.0d0) + write (iout,*) "NFRAG",nfrag_," NPAIR",npair_," NDIST",ndist_ + write (iout,*) "IFRAG" + do i=1,nfrag_ + write (iout,*) i,ifrag_(1,i),ifrag_(2,i),wfrag_(i) + enddo + write (iout,*) "IPAIR" + do i=1,npair_ + write (iout,*) i,ipair_(1,i),ipair_(2,i),wpair_(i) + enddo + call flush(iout) + do i=1,nfrag_ + if (ifrag_(1,i).lt.nstart_sup) ifrag_(1,i)=nstart_sup + if (ifrag_(2,i).gt.nstart_sup+nsup-1) + & ifrag_(2,i)=nstart_sup+nsup-1 +c write (iout,*) i,ifrag_(1,i),ifrag_(2,i),wfrag_(i) + call flush(iout) + if (wfrag_(i).gt.0.0d0) then + do j=ifrag_(1,i),ifrag_(2,i)-1 + do k=j+1,ifrag_(2,i) + write (iout,*) "j",j," k",k + ddjk=dist(j,k) + if (constr_dist.eq.1) then + nhpb=nhpb+1 + ihpb(nhpb)=j + jhpb(nhpb)=k + dhpb(nhpb)=ddjk + forcon(nhpb)=wfrag_(i) + else if (constr_dist.eq.2) then + if (ddjk.le.dist_cut) then + nhpb=nhpb+1 + ihpb(nhpb)=j + jhpb(nhpb)=k + dhpb(nhpb)=ddjk + forcon(nhpb)=wfrag_(i) + endif + else + nhpb=nhpb+1 + ihpb(nhpb)=j + jhpb(nhpb)=k + dhpb(nhpb)=ddjk + forcon(nhpb)=wfrag_(i)*dexp(-0.5d0*(ddjk/dist_cut)**2) + endif + if (lprn) + & write (iout,'(a,3i5,f8.2,1pe12.2)') "+dist.constr ", + & nhpb,ihpb(nhpb),jhpb(nhpb),dhpb(nhpb),forcon(nhpb) + enddo + enddo + endif + enddo + do i=1,npair_ + if (wpair_(i).gt.0.0d0) then + ii = ipair_(1,i) + jj = ipair_(2,i) + if (ii.gt.jj) then + itemp=ii + ii=jj + jj=itemp + endif + do j=ifrag_(1,ii),ifrag_(2,ii) + do k=ifrag_(1,jj),ifrag_(2,jj) + nhpb=nhpb+1 + ihpb(nhpb)=j + jhpb(nhpb)=k + forcon(nhpb)=wpair_(i) + dhpb(nhpb)=dist(j,k) + write (iout,'(a,3i5,f8.2,f10.1)') "+dist.constr ", + & nhpb,ihpb(nhpb),jhpb(nhpb),dhpb(nhpb),forcon(nhpb) + enddo + enddo + endif + enddo + do i=1,ndist_ + if (constr_dist.eq.11) then + read (inp,*) ihpb(nhpb+1),jhpb(nhpb+1),dhpb(i),dhpb1(i), + & ibecarb(i),forcon(nhpb+1),fordepth(nhpb+1) + fordepth(nhpb+1)=fordepth(nhpb+1)/forcon(nhpb+1) +C write (iout,'(a,3i5,f8.2,f10.1)') "+dist.constr ", +C & nhpb,ihpb(nhpb),jhpb(nhpb),dhpb(nhpb),forcon(nhpb) + else + read (inp,*) ihpb(nhpb+1),jhpb(nhpb+1),forcon(nhpb+1) + endif + if (forcon(nhpb+1).gt.0.0d0) then + nhpb=nhpb+1 + if (ibecarb(i).gt.0) then + ihpb(i)=ihpb(i)+nres + jhpb(i)=jhpb(i)+nres + endif + if (dhpb(nhpb).eq.0.0d0) + & dhpb(nhpb)=dist(ihpb(nhpb),jhpb(nhpb)) +C dhpb(nhpb)=dist(ihpb(nhpb),jhpb(nhpb)) + write (iout,'(a,3i5,f8.2,f10.1)') "+dist.constr ", + & nhpb,ihpb(nhpb),jhpb(nhpb),dhpb(nhpb),forcon(nhpb) + endif +C endif + enddo + call hpb_partition +#ifdef AIX + call flush_(iout) +#else + call flush(iout) +#endif + return + end + +c------------------------------------------------------------------------------- + subroutine read_saxs_constr + implicit real*8 (a-h,o-z) + include 'DIMENSIONS' +#ifdef MPI + include 'mpif.h' +#endif + include 'COMMON.CONTROL' + include 'COMMON.CHAIN' + include 'COMMON.IOUNITS' + include 'COMMON.SBRIDGE' + double precision cm(3) +c read(inp,*) nsaxs + write (iout,*) "Calling read_saxs nsaxs",nsaxs + call flush(iout) + if (saxs_mode.eq.0) then +c SAXS distance distribution + do i=1,nsaxs + read(inp,*) distsaxs(i),Psaxs(i) + enddo + Cnorm = 0.0d0 + do i=1,nsaxs + Cnorm = Cnorm + Psaxs(i) + enddo + write (iout,*) "Cnorm",Cnorm + do i=1,nsaxs + Psaxs(i)=Psaxs(i)/Cnorm + enddo + write (iout,*) "Normalized distance distribution from SAXS" + do i=1,nsaxs + write (iout,'(f8.2,e15.5)') distsaxs(i),Psaxs(i) + enddo + else +c SAXS "spheres". + do i=1,nsaxs + read (inp,'(30x,3f8.3)') (Csaxs(j,i),j=1,3) + enddo + do j=1,3 + cm(j)=0.0d0 + enddo + do i=1,nsaxs + do j=1,3 + cm(j)=cm(j)+Csaxs(j,i) + enddo + enddo + do j=1,3 + cm(j)=cm(j)/nsaxs + enddo + do i=1,nsaxs + do j=1,3 + Csaxs(j,i)=Csaxs(j,i)-cm(j) + enddo + enddo + write (iout,*) "SAXS sphere coordinates" + do i=1,nsaxs + write (iout,'(i5,3f10.5)') i,(Csaxs(j,i),j=1,3) + enddo + endif + return + end +c====------------------------------------------------------------------- + subroutine read_constr_homology(lprn) + + include 'DIMENSIONS' +#ifdef MPI + include 'mpif.h' +#endif + include 'COMMON.SETUP' + include 'COMMON.CONTROL' + include 'COMMON.CHAIN' + include 'COMMON.IOUNITS' + include 'COMMON.GEO' + include 'COMMON.INTERACT' + include 'COMMON.NAMES' + include 'COMMON.HOMRESTR' +c +c For new homol impl +c + include 'COMMON.VAR' +c include 'include_unres/COMMON.VAR' +c + +c double precision odl_temp,sigma_odl_temp,waga_theta,waga_d, +c & dist_cut +c common /przechowalnia/ odl_temp(maxres,maxres,max_template), +c & sigma_odl_temp(maxres,maxres,max_template) + character*2 kic2 + character*24 model_ki_dist, model_ki_angle + character*500 controlcard + integer ki, i, j, k, l, ii_in_use(maxdim),i_tmp,idomain_tmp + integer idomain(max_template,maxres) + integer ilen + external ilen + logical lprn + logical unres_pdb,liiflag +c +c FP - Nov. 2014 Temporary specifications for new vars +c + double precision rescore_tmp,x12,y12,z12,rescore2_tmp, + & rescore3_tmp + double precision, dimension (max_template,maxres) :: rescore + double precision, dimension (max_template,maxres) :: rescore2 + double precision, dimension (max_template,maxres) :: rescore3 + character*24 tpl_k_rescore +c ----------------------------------------------------------------- +c Reading multiple PDB ref structures and calculation of retraints +c not using pre-computed ones stored in files model_ki_{dist,angle} +c FP (Nov., 2014) +c ----------------------------------------------------------------- +c +c +c Alternative: reading from input +#ifdef DEBUG + write (iout,*) "BEGIN READ HOMOLOGY INFO" +#ifdef AIX + call flush_(iout) +#else + call flush(iout) +#endif +#endif + call card_concat(controlcard) + call reada(controlcard,"HOMOL_DIST",waga_dist,1.0d0) + call reada(controlcard,"HOMOL_ANGLE",waga_angle,1.0d0) + call reada(controlcard,"HOMOL_THETA",waga_theta,1.0d0) ! new + call reada(controlcard,"HOMOL_SCD",waga_d,1.0d0) ! new + call reada(controlcard,'DIST_CUT',dist_cut,5.0d0) ! for diff ways of calc sigma + call reada(controlcard,'DIST2_CUT',dist2_cut,9999.0d0) + call readi(controlcard,"HOMOL_NSET",homol_nset,1) + read2sigma=(index(controlcard,'READ2SIGMA').gt.0) + if (homol_nset.gt.1)then + call readi(controlcard,"ISET",iset,1) + call card_concat(controlcard) + read(controlcard,*) (waga_homology(i),i=1,homol_nset) + else + iset=1 + waga_homology(1)=1.0 + endif +c +#ifdef DEBUG + write(iout,*) "read_constr_homology iset",iset + write(iout,*) "waga_homology(",iset,")",waga_homology(iset) +#ifdef AIX + call flush_(iout) +#else + call flush(iout) +#endif +#endif +cd write (iout,*) "nnt",nnt," nct",nct +cd call flush(iout) + + + lim_odl=0 + lim_dih=0 +c +c New +c +c +c Reading HM global scores (prob not required) +c + do i = nnt,nct + do k=1,constr_homology + idomain(k,i)=0 + enddo + enddo +c open (4,file="HMscore") +c do k=1,constr_homology +c read (4,*,end=521) hmscore_tmp +c hmscore(k)=hmscore_tmp ! Another transformation can be used +c write(*,*) "Model", k, ":", hmscore(k) +c enddo +c521 continue + + ii=0 + do i = nnt,nct-2 + do j=i+2,nct + ii=ii+1 + ii_in_use(ii)=0 + enddo + enddo +c write(iout,*) "waga_theta",waga_theta,"waga_d",waga_d + + write (iout,*) "CONSTR_HOMOLOGY",constr_homology + do k=1,constr_homology + + read(inp,'(a)') pdbfile +c write (iout,*) "k ",k," pdbfile ",pdbfile +c Next stament causes error upon compilation (?) +c if(me.eq.king.or. .not. out1file) +c write (iout,'(2a)') 'PDB data will be read from file ', +c & pdbfile(:ilen(pdbfile)) + write (iout,'(a,5x,a)') 'HOMOL: Opening PDB file', + & pdbfile(:ilen(pdbfile)) + open(ipdbin,file=pdbfile,status='old',err=33) + goto 34 + 33 write (iout,'(a,5x,a)') 'Error opening PDB file', + & pdbfile(:ilen(pdbfile)) + stop + 34 continue +c print *,'Begin reading pdb data' +c +c Files containing res sim or local scores (former containing sigmas) +c + + write(kic2,'(bz,i2.2)') k + + tpl_k_rescore="template"//kic2//".sco" + + unres_pdb=.false. + call readpdb_template(k) + do i=1,2*nres + do j=1,3 + crefjlee(j,i)=c(j,i) + enddo + enddo +#ifdef DEBUG + do i=1,nres + write (iout,'(i5,3f8.3,5x,3f8.3)') i,(crefjlee(j,i),j=1,3), + & (crefjlee(j,i+nres),j=1,3) + enddo + write (iout,*) "READ HOMOLOGY INFO" + write (iout,*) "read_constr_homology x: after reading pdb file" + write (iout,*) "waga_homology(",iset,")",waga_homology(iset) + write (iout,*) "waga_dist",waga_dist + write (iout,*) "waga_angle",waga_angle + write (iout,*) "waga_theta",waga_theta + write (iout,*) "waga_d",waga_d + write (iout,*) "dist_cut",dist_cut +#endif +#ifdef AIX + call flush_(iout) +#else + call flush(iout) +#endif + +c +c Distance restraints +c +c ... --> odl(k,ii) +C Copy the coordinates from reference coordinates (?) + do i=1,2*nres + do j=1,3 +c c(j,i)=cref(j,i) +c write (iout,*) "c(",j,i,") =",c(j,i) + enddo + enddo +c +c From read_dist_constr (commented out 25/11/2014 <-> res sim) +c +c write(iout,*) "tpl_k_rescore - ",tpl_k_rescore + open (ientin,file=tpl_k_rescore,status='old') + if (nnt.gt.1) rescore(k,1)=0.0d0 + do irec=nnt,nct ! loop for reading res sim + if (read2sigma) then + read (ientin,*,end=1401) i_tmp,rescore2_tmp,rescore_tmp, + & rescore3_tmp,idomain_tmp + i_tmp=i_tmp+nnt-1 + idomain(k,i_tmp)=idomain_tmp + rescore(k,i_tmp)=rescore_tmp + rescore2(k,i_tmp)=rescore2_tmp + rescore3(k,i_tmp)=rescore3_tmp + write(iout,'(a7,i5,3f10.5,i5)') "rescore", + & i_tmp,rescore2_tmp,rescore_tmp, + & rescore3_tmp,idomain_tmp + else + idomain(k,irec)=1 + read (ientin,*,end=1401) rescore_tmp + +c rescore(k,irec)=rescore_tmp+1.0d0 ! to avoid 0 values + rescore(k,irec)=0.5d0*(rescore_tmp+0.5d0) ! alt transf to reduce scores +c write(iout,*) "rescore(",k,irec,") =",rescore(k,irec) + endif + enddo + 1401 continue + close (ientin) + if (waga_dist.ne.0.0d0) then + ii=0 + do i = nnt,nct-2 + do j=i+2,nct + + x12=c(1,i)-c(1,j) + y12=c(2,i)-c(2,j) + z12=c(3,i)-c(3,j) + distal=dsqrt(x12*x12+y12*y12+z12*z12) +c write (iout,*) k,i,j,distal,dist2_cut + + if (idomain(k,i).eq.idomain(k,j).and.idomain(k,i).ne.0 + & .and. distal.le.dist2_cut ) then + + ii=ii+1 + ii_in_use(ii)=1 + l_homo(k,ii)=.true. + +c write (iout,*) "k",k +c write (iout,*) "i",i," j",j," constr_homology", +c & constr_homology + ires_homo(ii)=i + jres_homo(ii)=j + odl(k,ii)=distal + if (read2sigma) then + sigma_odl(k,ii)=0 + do ik=i,j + sigma_odl(k,ii)=sigma_odl(k,ii)+rescore2(k,ik) + enddo + sigma_odl(k,ii)=sigma_odl(k,ii)/(j-i+1) + if (odl(k,ii).gt.dist_cut) sigma_odl(k,ii) = + & sigma_odl(k,ii)*dexp(0.5d0*(odl(k,ii)/dist_cut)**2-0.5d0) + else + if (odl(k,ii).le.dist_cut) then + sigma_odl(k,ii)=rescore(k,i)+rescore(k,j) + else +#ifdef OLDSIGMA + sigma_odl(k,ii)=(rescore(k,i)+rescore(k,j))* + & dexp(0.5d0*(odl(k,ii)/dist_cut)**2) +#else + sigma_odl(k,ii)=(rescore(k,i)+rescore(k,j))* + & dexp(0.5d0*(odl(k,ii)/dist_cut)**2-0.5d0) +#endif + endif + endif + sigma_odl(k,ii)=1.0d0/(sigma_odl(k,ii)*sigma_odl(k,ii)) + else + ii=ii+1 + l_homo(k,ii)=.false. + endif + enddo + enddo + lim_odl=ii + endif +c +c Theta, dihedral and SC retraints +c + if (waga_angle.gt.0.0d0) then +c open (ientin,file=tpl_k_sigma_dih,status='old') +c do irec=1,maxres-3 ! loop for reading sigma_dih +c read (ientin,*,end=1402) i,j,ki,l,sigma_dih(k,i+nnt-1) ! j,ki,l what for? +c if (i+nnt-1.gt.lim_dih) lim_dih=i+nnt-1 ! right? +c sigma_dih(k,i+nnt-1)=sigma_dih(k,i+nnt-1)* ! not inverse because of use of res. similarity +c & sigma_dih(k,i+nnt-1) +c enddo +c1402 continue +c close (ientin) + do i = nnt+3,nct + if (idomain(k,i).eq.0) then + sigma_dih(k,i)=0.0 + cycle + endif + dih(k,i)=phiref(i) ! right? +c read (ientin,*) sigma_dih(k,i) ! original variant +c write (iout,*) "dih(",k,i,") =",dih(k,i) +c write(iout,*) "rescore(",k,i,") =",rescore(k,i), +c & "rescore(",k,i-1,") =",rescore(k,i-1), +c & "rescore(",k,i-2,") =",rescore(k,i-2), +c & "rescore(",k,i-3,") =",rescore(k,i-3) + + sigma_dih(k,i)=(rescore(k,i)+rescore(k,i-1)+ + & rescore(k,i-2)+rescore(k,i-3))/4.0 +c if (read2sigma) sigma_dih(k,i)=sigma_dih(k,i)/4.0 +c write (iout,*) "Raw sigmas for dihedral angle restraints" +c write (iout,'(i5,10(2f8.2,4x))') i,sigma_dih(k,i) +c sigma_dih(k,i)=hmscore(k)*rescore(k,i)*rescore(k,i-1)* +c rescore(k,i-2)*rescore(k,i-3) ! right expression ? +c Instead of res sim other local measure of b/b str reliability possible + if (sigma_dih(k,i).ne.0) + & sigma_dih(k,i)=1.0d0/(sigma_dih(k,i)*sigma_dih(k,i)) +c sigma_dih(k,i)=sigma_dih(k,i)*sigma_dih(k,i) + enddo + lim_dih=nct-nnt-2 + endif + + if (waga_theta.gt.0.0d0) then +c open (ientin,file=tpl_k_sigma_theta,status='old') +c do irec=1,maxres-2 ! loop for reading sigma_theta, right bounds? +c read (ientin,*,end=1403) i,j,ki,sigma_theta(k,i+nnt-1) ! j,ki what for? +c sigma_theta(k,i+nnt-1)=sigma_theta(k,i+nnt-1)* ! not inverse because of use of res. similarity +c & sigma_theta(k,i+nnt-1) +c enddo +c1403 continue +c close (ientin) + + do i = nnt+2,nct ! right? without parallel. +c do i = i=1,nres ! alternative for bounds acc to readpdb? +c do i=ithet_start,ithet_end ! with FG parallel. + if (idomain(k,i).eq.0) then + sigma_theta(k,i)=0.0 + cycle + endif + thetatpl(k,i)=thetaref(i) +c write (iout,*) "thetatpl(",k,i,") =",thetatpl(k,i) +c write(iout,*) "rescore(",k,i,") =",rescore(k,i), +c & "rescore(",k,i-1,") =",rescore(k,i-1), +c & "rescore(",k,i-2,") =",rescore(k,i-2) +c read (ientin,*) sigma_theta(k,i) ! 1st variant + sigma_theta(k,i)=(rescore(k,i)+rescore(k,i-1)+ + & rescore(k,i-2))/3.0 +c if (read2sigma) sigma_theta(k,i)=sigma_theta(k,i)/3.0 + if (sigma_theta(k,i).ne.0) + & sigma_theta(k,i)=1.0d0/(sigma_theta(k,i)*sigma_theta(k,i)) + +c sigma_theta(k,i)=hmscore(k)*rescore(k,i)*rescore(k,i-1)* +c rescore(k,i-2) ! right expression ? +c sigma_theta(k,i)=sigma_theta(k,i)*sigma_theta(k,i) + enddo + endif + + if (waga_d.gt.0.0d0) then +c open (ientin,file=tpl_k_sigma_d,status='old') +c do irec=1,maxres-1 ! loop for reading sigma_theta, right bounds? +c read (ientin,*,end=1404) i,j,sigma_d(k,i+nnt-1) ! j,ki what for? +c sigma_d(k,i+nnt-1)=sigma_d(k,i+nnt-1)* ! not inverse because of use of res. similarity +c & sigma_d(k,i+nnt-1) +c enddo +c1404 continue + + do i = nnt,nct ! right? without parallel. +c do i=2,nres-1 ! alternative for bounds acc to readpdb? +c do i=loc_start,loc_end ! with FG parallel. + if (itype(i).eq.10) cycle + if (idomain(k,i).eq.0 ) then + sigma_d(k,i)=0.0 + cycle + endif + xxtpl(k,i)=xxref(i) + yytpl(k,i)=yyref(i) + zztpl(k,i)=zzref(i) +c write (iout,*) "xxtpl(",k,i,") =",xxtpl(k,i) +c write (iout,*) "yytpl(",k,i,") =",yytpl(k,i) +c write (iout,*) "zztpl(",k,i,") =",zztpl(k,i) +c write(iout,*) "rescore(",k,i,") =",rescore(k,i) + sigma_d(k,i)=rescore3(k,i) ! right expression ? + if (sigma_d(k,i).ne.0) + & sigma_d(k,i)=1.0d0/(sigma_d(k,i)*sigma_d(k,i)) + +c sigma_d(k,i)=hmscore(k)*rescore(k,i) ! right expression ? +c sigma_d(k,i)=sigma_d(k,i)*sigma_d(k,i) +c read (ientin,*) sigma_d(k,i) ! 1st variant + enddo + endif + enddo +c +c remove distance restraints not used in any model from the list +c shift data in all arrays +c + if (waga_dist.ne.0.0d0) then + ii=0 + liiflag=.true. + do i=nnt,nct-2 + do j=i+2,nct + ii=ii+1 + if (ii_in_use(ii).eq.0.and.liiflag) then + liiflag=.false. + iistart=ii + endif + if (ii_in_use(ii).ne.0.and..not.liiflag.or. + & .not.liiflag.and.ii.eq.lim_odl) then + if (ii.eq.lim_odl) then + iishift=ii-iistart+1 + else + iishift=ii-iistart + endif + liiflag=.true. + do ki=iistart,lim_odl-iishift + ires_homo(ki)=ires_homo(ki+iishift) + jres_homo(ki)=jres_homo(ki+iishift) + ii_in_use(ki)=ii_in_use(ki+iishift) + do k=1,constr_homology + odl(k,ki)=odl(k,ki+iishift) + sigma_odl(k,ki)=sigma_odl(k,ki+iishift) + l_homo(k,ki)=l_homo(k,ki+iishift) + enddo + enddo + ii=ii-iishift + lim_odl=lim_odl-iishift + endif + enddo + enddo + endif + if (constr_homology.gt.0) call homology_partition + if (constr_homology.gt.0) call init_int_table +cd write (iout,*) "homology_partition: lim_theta= ",lim_theta, +cd & "lim_xx=",lim_xx +c write (iout,*) "ithet_start =",ithet_start,"ithet_end =",ithet_end +c write (iout,*) "loc_start =",loc_start,"loc_end =",loc_end +c +c Print restraints +c + if (.not.lprn) return +cd write(iout,*) "waga_theta",waga_theta,"waga_d",waga_d + if(me.eq.king .or. .not. out1file .and. fg_rank.eq.0) then + write (iout,*) "Distance restraints from templates" + do ii=1,lim_odl + write(iout,'(3i5,100(2f8.2,1x,l1,4x))') + & ii,ires_homo(ii),jres_homo(ii), + & (odl(ki,ii),1.0d0/dsqrt(sigma_odl(ki,ii)),l_homo(ki,ii), + & ki=1,constr_homology) + enddo + write (iout,*) "Dihedral angle restraints from templates" + do i=nnt+3,nct + write (iout,'(i5,a4,100(2f8.2,4x))') i,restyp(itype(i)), + & (rad2deg*dih(ki,i), + & rad2deg/dsqrt(sigma_dih(ki,i)),ki=1,constr_homology) + enddo + write (iout,*) "Virtual-bond angle restraints from templates" + do i=nnt+2,nct + write (iout,'(i5,a4,100(2f8.2,4x))') i,restyp(itype(i)), + & (rad2deg*thetatpl(ki,i), + & rad2deg/dsqrt(sigma_theta(ki,i)),ki=1,constr_homology) + enddo + write (iout,*) "SC restraints from templates" + do i=nnt,nct + write(iout,'(i5,100(4f8.2,4x))') i, + & (xxtpl(ki,i),yytpl(ki,i),zztpl(ki,i), + & 1.0d0/dsqrt(sigma_d(ki,i)),ki=1,constr_homology) + enddo + endif +c ----------------------------------------------------------------- + return + end