cleaning - unecessary files deleted

[unres.git] / source / unres / src_CSA / rmsd.F

      subroutine rms_nac_nnc(rms,frac,frac_nn,co,lprn)
        implicit real*8 (a-h,o-z)
        include 'DIMENSIONS'
        include 'COMMON.CHAIN'
        include 'COMMON.CONTACTS'
        include 'COMMON.IOUNITS'
        double precision przes(3),obr(3,3)
        logical non_conv,lprn
c        call fitsq(rms,c(1,nstart_seq),cref(1,nstart_sup),nsup,przes,
c     &             obr,non_conv)
c        rms=dsqrt(rms)
        call rmsd(rms)
        call contact(.false.,ncont,icont,co)
        frac=contact_fract(ncont,ncont_ref,icont,icont_ref)
        frac_nn=contact_fract_nn(ncont,ncont_ref,icont,icont_ref)
        if (lprn) write (iout,'(a,f8.3/a,f8.3/a,f8.3/a,f8.3)')
     &    'RMS deviation from the reference structure:',rms,
     &    ' % of native contacts:',frac*100,
     &    ' % of nonnative contacts:',frac_nn*100,
     &    ' contact order:',co

      return
      end      
c---------------------------------------------------------------------------
      subroutine rmsd(drms)
      implicit real*8 (a-h,o-z)
      include 'DIMENSIONS'
#ifdef MPI
      include 'mpif.h'
#endif
      include 'COMMON.CHAIN'
      include 'COMMON.IOUNITS'  
      include 'COMMON.INTERACT'
      logical non_conv
      double precision przes(3),obrot(3,3)
      double precision ccopy(3,maxres2+2),crefcopy(3,maxres2+2)

      iatom=0
c      print *,"nz_start",nz_start," nz_end",nz_end
      do i=nz_start,nz_end
        iatom=iatom+1
        iti=itype(i)
        do k=1,3
         ccopy(k,iatom)=c(k,i+nstart_seq-nstart_sup)
         crefcopy(k,iatom)=cref(k,i)
        enddo
        if (iz_sc.eq.1.and.iti.ne.10) then
          iatom=iatom+1
          do k=1,3
           ccopy(k,iatom)=c(k,nres+i+nstart_seq-nstart_sup)
           crefcopy(k,iatom)=cref(k,nres+i)
          enddo
        endif
      enddo

c ----- diagnostics
c          write (iout,*) 'Ccopy and CREFcopy'
c          print '(i5,3f10.5,5x,3f10.5)',(k,(ccopy(j,k),j=1,3),
c     &           (crefcopy(j,k),j=1,3),k=1,iatom)
c          write (iout,'(i5,3f10.5,5x,3f10.5)') (k,(ccopy(j,k),j=1,3),
c     &           (crefcopy(j,k),j=1,3),k=1,iatom)
c ----- end diagnostics

      call fitsq(roznica,ccopy(1,1),crefcopy(1,1),iatom,
     &                                      przes,obrot,non_conv) 
      if (non_conv) then
          print *,'Problems in FITSQ!!! rmsd'
          write (iout,*) 'Problems in FITSQ!!! rmsd'
          print *,'Ccopy and CREFcopy'
          write (iout,*) 'Ccopy and CREFcopy'
          print '(i5,3f10.5,5x,3f10.5)',(k,(ccopy(j,k),j=1,3),
     &           (crefcopy(j,k),j=1,3),k=1,iatom)
          write (iout,'(i5,3f10.5,5x,3f10.5)') (k,(ccopy(j,k),j=1,3),
     &           (crefcopy(j,k),j=1,3),k=1,iatom)
#ifdef MPI
c          call mpi_abort(mpi_comm_world,ierror,ierrcode)
           roznica=100.0
#else          
          stop
#endif
       endif
       drms=dsqrt(dabs(roznica))
c ---- diagnostics
c       write (iout,*) "rms",drms
c ---- end diagnostics
       return
       end

c--------------------------------------------
      subroutine rmsd_csa(drms)
      implicit real*8 (a-h,o-z)
      include 'DIMENSIONS'
#ifdef MPI
      include 'mpif.h'
#endif
      include 'COMMON.CHAIN'
      include 'COMMON.IOUNITS'  
      include 'COMMON.INTERACT'
      logical non_conv
      double precision przes(3),obrot(3,3)
      double precision ccopy(3,maxres2+2),crefcopy(3,maxres2+2)

      iatom=0
      do i=nz_start,nz_end
        iatom=iatom+1
        iti=itype(i)
        do k=1,3
         ccopy(k,iatom)=c(k,i)
         crefcopy(k,iatom)=crefjlee(k,i)
        enddo
        if (iz_sc.eq.1.and.iti.ne.10) then
          iatom=iatom+1
          do k=1,3
           ccopy(k,iatom)=c(k,nres+i)
           crefcopy(k,iatom)=crefjlee(k,nres+i)
          enddo
        endif
      enddo

      call fitsq(roznica,ccopy(1,1),crefcopy(1,1),iatom,
     &                                      przes,obrot,non_conv) 
      if (non_conv) then
          print *,'Problems in FITSQ!!! rmsd_csa'
          write (iout,*) 'Problems in FITSQ!!! rmsd_csa'
          print *,'Ccopy and CREFcopy'
          write (iout,*) 'Ccopy and CREFcopy'
          print '(i5,3f10.5,5x,3f10.5)',(k,(ccopy(j,k),j=1,3),
     &           (crefcopy(j,k),j=1,3),k=1,iatom)
          write (iout,'(i5,3f10.5,5x,3f10.5)') (k,(ccopy(j,k),j=1,3),
     &           (crefcopy(j,k),j=1,3),k=1,iatom)
#ifdef MPI
          call mpi_abort(mpi_comm_world,ierror,ierrcode)
#else          
          stop
#endif
       endif
       drms=dsqrt(dabs(roznica))
       return
       end

c---------------------------------------------------------------------------
      subroutine calc_tmscore(tmscore_dp,lprn)
      implicit real*8 (a-h,o-z)
      include 'DIMENSIONS'
#ifdef MPI
      include 'mpif.h'
#endif
      include 'COMMON.CHAIN'
      include 'COMMON.IOUNITS'  
      include 'COMMON.INTERACT'
      real x1(maxres),y1(maxres),z1(maxres)
      integer n_1(maxres),L1
      real x2(maxres),y2(maxres),z2(maxres)
      integer n_2(maxres),L2
      real TM,Rcomm
      integer Lcomm
      logical lprn

      L1=0
c      print *,"nz_start",nz_start," nz_end",nz_end
      do i=nz_start,nz_end
         L1=L1+1
         n_1(L1)=L1
         x1(L1)=c(1,i+nstart_seq-nstart_sup)
         y1(L1)=c(2,i+nstart_seq-nstart_sup)
         z1(L1)=c(3,i+nstart_seq-nstart_sup)

         n_2(L1)=L1
         x2(L1)=cref(1,i)
         y2(L1)=cref(2,i)
         z2(L1)=cref(3,i)
      enddo
      L2=L1

      call TMscore(L1,x1,y1,z1,n_1,L2,x2,y2,z2,n_2,TM,Rcomm,Lcomm)

      tmscore_dp=TM
      if (lprn) then
       write (iout,'(a40,f8.2)')
     &      'TM-score with the reference structure: ',TM
      endif
      return
      end