#include "CTRL_CPPOPTIONS.h" #ifdef ALLOW_OBCS # include "OBCS_OPTIONS.h" #endif subroutine ctrl_getobcss( I mytime, I myiter, I mythid & ) c ================================================================== c SUBROUTINE ctrl_getobcss c ================================================================== c c o Get southern obc of the control vector and add it c to dyn. fields c c started: heimbach@mit.edu, 29-Aug-2001 c c new flags: gebbie@mit.edu, 25 Jan 2003. c c ================================================================== c SUBROUTINE ctrl_getobcss c ================================================================== implicit none #ifdef ALLOW_OBCSS_CONTROL c == global variables == #include "EEPARAMS.h" #include "SIZE.h" #include "PARAMS.h" #include "GRID.h" #include "OBCS.h" #include "ctrl.h" #include "ctrl_dummy.h" #include "optim.h" c == routine arguments == _RL mytime integer myiter integer mythid c == local variables == integer bi,bj integer i,j,k integer itlo,ithi integer jtlo,jthi integer jmin,jmax integer imin,imax integer ilobcss integer iobcs _RL dummy _RL obcssfac logical obcssfirst logical obcsschanged integer obcsscount0 integer obcsscount1 integer jp1 cih Integer nk,nz _RL tmpz (nr,nsx,nsy) _RL stmp character*(80) fnamein cih logical doglobalread logical ladinit character*(80) fnameobcss c == external functions == integer ilnblnk external ilnblnk c == end of interface == jtlo = mybylo(mythid) jthi = mybyhi(mythid) itlo = mybxlo(mythid) ithi = mybxhi(mythid) jmin = 1-oly jmax = sny+oly imin = 1-olx imax = snx+olx jp1 = 1 c-- Now, read the control vector. doglobalread = .false. ladinit = .false. if (optimcycle .ge. 0) then ilobcss=ilnblnk( xx_obcss_file ) write(fnameobcss(1:80),'(2a,i10.10)') & xx_obcss_file(1:ilobcss), '.', optimcycle endif c-- Get the counters, flags, and the interpolation factor. call ctrl_get_gen_rec( I xx_obcssstartdate, xx_obcssperiod, O obcssfac, obcssfirst, obcsschanged, O obcsscount0,obcsscount1, I mytime, myiter, mythid ) cih do iobcs = 1,nobcs if ( obcssfirst ) then call active_read_xz( fnameobcss, tmpfldxz, & (obcsscount0-1)*nobcs+iobcs, & doglobalread, ladinit, optimcycle, & mythid, xx_obcss_dummy ) CNMA #ifdef CTRL_OBCS_MODES cih if ( optimcycle .ge. 0) then cih If normal velocity if (iobcs .eq. 3) then cih Begin loop over x-points. do bj = jtlo,jthi do bi = itlo, ithi do i = imin,imax cih If open boundary. if ( OB_Js(i,bi,bj) .ne. 0. ) then j = OB_Js(i,bi,bj) cih Determine number of open vertical layers. nz = 0 do k = 1,Nr nz = nz + maskS(i,j+jp1,k,bi,bj) end do cih Compute absolute velocities from the barotropic-baroclinic modes. do k = 1,Nr if (k.le.nz) then stmp = 0. do nk = 1,nz stmp = stmp + & modesv(k,nk,nz)*tmpfldxz(i,nk,bi,bj) end do tmpz(k,bi,bj) = stmp else tmpz(k,bi,bj) = 0. end if end do do k = 1,Nr tmpfldxz(i,k,bi,bj) = tmpz(k,bi,bj) & *recip_hFacS(i,j+jp1,k,bi,bj) end do cih End if open boundary. end if cih End loop over x-points end do end do end do cih End if iobcs = 3. end if cih cih cih If tangential velocity if (iobcs .eq. 4) then cih Begin loop over x-points. do bj = jtlo,jthi do bi = itlo, ithi do i = imin,imax cih If open boundary. if ( OB_Js(i,bi,bj) .ne. 0. ) then j = OB_Js(i,bi,bj) cih Determine number of open vertical layers. nz = 0 do k = 1,Nr nz = nz + maskW(i,j,k,bi,bj) end do cih Compute absolute velocities from the barotropic-baroclinic modes. do k = 1,Nr if (k.le.nz) then stmp = 0. do nk = 1,nz stmp = stmp + & modesv(k,nk,nz)*tmpfldxz(i,nk,bi,bj) end do tmpz(k,bi,bj) = stmp else tmpz(k,bi,bj) = 0. end if end do do k = 1,Nr tmpfldxz(i,k,bi,bj) = tmpz(k,bi,bj) & *recip_hFacW(i,j,k,bi,bj) end do cih End if open boundary. end if cih End loop over x-points end do end do end do cih End if iobcs = 4. end if cih End if optimcycle > 0 . end if CNMA #endif cih do bj = jtlo,jthi do bi = itlo,ithi do k = 1,nr do i = imin,imax xx_obcss1(i,k,bi,bj,iobcs) = tmpfldxz (i,k,bi,bj) enddo enddo enddo enddo cih End if obcssfirst endif cih if ( (obcssfirst) .or. (obcsschanged) ) then cih do bj = jtlo,jthi do bi = itlo,ithi do k = 1,nr do i = imin,imax tmpfldxz(i,k,bi,bj) = xx_obcss1(i,k,bi,bj,iobcs) enddo enddo enddo enddo cih call exf_swapffields_xz( tmpfldxz2, tmpfldxz, mythid) cih do bj = jtlo,jthi do bi = itlo,ithi do k = 1,nr do i = imin,imax xx_obcss0(i,k,bi,bj,iobcs) = tmpfldxz2(i,k,bi,bj) enddo enddo enddo enddo cih call active_read_xz( fnameobcss, tmpfldxz, & (obcsscount1-1)*nobcs+iobcs, & doglobalread, ladinit, optimcycle, & mythid, xx_obcss_dummy ) CNMA #ifdef CTRL_OBCS_MODES cih if ( optimcycle .ge. 0) then cih If normal velocity if (iobcs .eq. 3) then cih Begin loop over x-points. do bj = jtlo,jthi do bi = itlo, ithi do i = imin,imax cih If open boundary. if ( OB_Js(i,bi,bj) .ne. 0. ) then j = OB_Js(i,bi,bj) cih Determine number of open vertical layers. nz = 0 do k = 1,Nr nz = nz + maskS(i,j+jp1,k,bi,bj) end do cih Compute absolute velocities from the barotropic-baroclinic modes. do k = 1,Nr if (k.le.nz) then stmp = 0. do nk = 1,nz stmp = stmp + & modesv(k,nk,nz)*tmpfldxz(i,nk,bi,bj) end do tmpz(k,bi,bj) = stmp else tmpz(k,bi,bj) = 0. end if end do do k = 1,Nr tmpfldxz(i,k,bi,bj) = tmpz(k,bi,bj) & *recip_hFacS(i,j+jp1,k,bi,bj) end do cih End if open boundary. end if cih End loop over x-points end do end do end do cih End if iobcs = 3. end if cih cih cih If tangential velocity if (iobcs .eq. 4) then cih Begin loop over x-points. do bj = jtlo,jthi do bi = itlo, ithi do i = imin,imax cih If open boundary. if ( OB_Js(i,bi,bj) .ne. 0. ) then j = OB_Js(i,bi,bj) cih Determine number of open vertical layers. nz = 0 do k = 1,Nr nz = nz + maskW(i,j,k,bi,bj) end do cih Compute absolute velocities from the barotropic-baroclinic modes. do k = 1,Nr if (k.le.nz) then stmp = 0. do nk = 1,nz stmp = stmp + & modesv(k,nk,nz)*tmpfldxz(i,nk,bi,bj) end do tmpz(k,bi,bj) = stmp else tmpz(k,bi,bj) = 0. end if end do do k = 1,Nr c tmpfldxz(i,k,bi,bj) = tmpz(k,bi,bj) tmpfldxz(i,k,bi,bj) = tmpz(k,bi,bj) & *recip_hFacW(i,j,k,bi,bj) end do cih End if open boundary. end if cih End loop over x-points end do end do end do cih End if iobcs = 4. end if cih End if optimcycle > 0 . end if CNMA #endif cih do bj = jtlo,jthi do bi = itlo,ithi do k = 1,nr do i = imin,imax xx_obcss1 (i,k,bi,bj,iobcs) = tmpfldxz (i,k,bi,bj) enddo enddo enddo enddo cih End if obcssfirst .or. obcschanged endif c-- Add control to model variable. do bj = jtlo,jthi do bi = itlo,ithi c-- Calculate mask for tracer cells (0 => land, 1 => water). do k = 1,nr do i = 1,snx j = OB_Js(i,bi,bj) if (iobcs .EQ. 1) then OBSt(i,k,bi,bj) = OBSt (i,k,bi,bj) & + obcssfac *xx_obcss0(i,k,bi,bj,iobcs) & + (1. _d 0 - obcssfac)*xx_obcss1(i,k,bi,bj,iobcs) OBSt(i,k,bi,bj) = OBSt(i,k,bi,bj) & *maskS(i,j+jp1,k,bi,bj) else if (iobcs .EQ. 2) then OBSs(i,k,bi,bj) = OBSs (i,k,bi,bj) & + obcssfac *xx_obcss0(i,k,bi,bj,iobcs) & + (1. _d 0 - obcssfac)*xx_obcss1(i,k,bi,bj,iobcs) OBSs(i,k,bi,bj) = OBSs(i,k,bi,bj) & *maskS(i,j+jp1,k,bi,bj) else if (iobcs .EQ. 4) then OBSu(i,k,bi,bj) = OBSu (i,k,bi,bj) & + obcssfac *xx_obcss0(i,k,bi,bj,iobcs) & + (1. _d 0 - obcssfac)*xx_obcss1(i,k,bi,bj,iobcs) OBSu(i,k,bi,bj) = OBSu(i,k,bi,bj) & *maskW(i,j,k,bi,bj) else if (iobcs .EQ. 3) then OBSv(i,k,bi,bj) = OBSv (i,k,bi,bj) & + obcssfac *xx_obcss0(i,k,bi,bj,iobcs) & + (1. _d 0 - obcssfac)*xx_obcss1(i,k,bi,bj,iobcs) OBSv(i,k,bi,bj) = OBSv(i,k,bi,bj) & *maskS(i,j+jp1,k,bi,bj) endif enddo enddo enddo enddo C-- End over iobcs loop enddo #else /* ALLOW_OBCSS_CONTROL undefined */ c == routine arguments == _RL mytime integer myiter integer mythid c-- CPP flag ALLOW_OBCSS_CONTROL undefined. #endif /* ALLOW_OBCSS_CONTROL */ end