Subversion Repositories pvinversion.ecmwf

Compare Revisions

No changes between revisions

Ignore whitespace Rev 2 → Rev 3

/trunk/pvin/prep_iteration.f
0,0 → 1,513
PROGRAM prep_iteration
 
c ************************************************************************
c * Prepare the next step for the PV inversion *
c * Michael Sprenger / Summer, Autumn 2006 *
c ************************************************************************
 
implicit none
 
c ------------------------------------------------------------------------
c Declaration of variables and parameters
c ------------------------------------------------------------------------
c Input and output file
character*80 anomafile
character*80 iterafile
 
c Grid parameters
integer nx,ny,nz
real xmin,ymin,zmin,xmax,ymax,zmax
real dx,dy,dz
real mdv
 
c Numerical epsilon and other variables
real eps
parameter (eps=0.01)
real alpha
 
c 3d arrays
real,allocatable,dimension (:,:,:) :: v_iter,v_anom
real,allocatable,dimension (:,:,:) :: u_iter,u_anom
real,allocatable,dimension (:,:,:) :: t_iter,t_anom
real,allocatable,dimension (:,:,:) :: p_iter,p_anom
 
c Auciliary variables
integer i,j,k
integer stat
character*80 varname
character*80 name
 
c --------------------------------------------------------------------------------
c Input
c --------------------------------------------------------------------------------
 
print*,'********************************************************'
print*,'* PREP_ITERATION *'
print*,'********************************************************'
 
c Read parameter file
open(10,file='fort.10')
read(10,*) iterafile
read(10,*) anomafile
read(10,*) name,alpha
if ( trim(name).ne.'ALPHA' ) stop
close(10)
print*
print*,trim(anomafile)
print*,trim(iterafile)
print*
 
c Get lat/lon gid parameters from input file
call read_dim (nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv,
> anomafile)
print*,'Read_Dim: nx,ny,nz = ',nx,ny,nz
print*,' dx,dy,dz = ',dx,dy,dz
print*,' xmin,ymin,zmin = ',xmin,ymin,zmin
print*,' mdv = ',mdv
print*
 
c Count from 0, not from 1: consistent with <inv_cart.f>.
nx=nx-1
ny=ny-1
nz=nz-1
 
c Allocate memory for 3d arrays
allocate(u_anom (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating u_anom'
allocate(v_anom (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating v_anom'
allocate(t_anom (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating t_anom'
allocate(p_anom (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating p_anom'
allocate(u_iter (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating u_iter'
allocate(v_iter (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating v_iter'
allocate(t_iter (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating t_iter'
allocate(p_iter (0:nx,0:ny,0:nz),STAT=stat)
if (stat.ne.0) print*,'error allocating p_iter'
c Read anomaly and iteration fields
varname='U'
call read_inp (u_anom,varname,anomafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='V'
call read_inp (v_anom,varname,anomafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='T'
call read_inp (t_anom,varname,anomafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='P'
call read_inp (p_anom,varname,anomafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='U'
call read_inp (u_iter,varname,iterafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='V'
call read_inp (v_iter,varname,iterafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='T'
call read_inp (t_iter,varname,iterafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
varname='P'
call read_inp (p_iter,varname,iterafile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
 
c --------------------------------------------------------------------------------
c Modify the iteration fields
c --------------------------------------------------------------------------------
 
do i=0,nx
do j=0,ny
do k=0,nz
 
c Update zonal velocity
if ((abs(u_anom(i,j,k)-mdv).gt.eps).and.
> (abs(u_iter(i,j,k)-mdv).gt.eps)) then
u_iter(i,j,k)=u_iter(i,j,k)-alpha*u_anom(i,j,k)
else
u_iter(i,j,k)=mdv
endif
 
c Update meridional velocity
if ((abs(v_anom(i,j,k)-mdv).gt.eps).and.
> (abs(v_iter(i,j,k)-mdv).gt.eps)) then
v_iter(i,j,k)=v_iter(i,j,k)-alpha*v_anom(i,j,k)
else
v_iter(i,j,k)=mdv
endif
 
c Update temperature
if ((abs(t_anom(i,j,k)-mdv).gt.eps).and.
> (abs(t_iter(i,j,k)-mdv).gt.eps)) then
t_iter(i,j,k)=t_iter(i,j,k)-alpha*t_anom(i,j,k)
else
t_iter(i,j,k)=mdv
endif
 
c Update pressure
if ((abs(p_anom(i,j,k)-mdv).gt.eps).and.
> (abs(p_iter(i,j,k)-mdv).gt.eps)) then
p_iter(i,j,k)=p_iter(i,j,k)-alpha*p_anom(i,j,k)
else
p_iter(i,j,k)=mdv
endif
 
enddo
enddo
enddo
 
 
c --------------------------------------------------------------------------------
c Write output
c --------------------------------------------------------------------------------
 
varname='U'
call write_inp (u_iter,varname,iterafile,nx,ny,nz)
varname='V'
call write_inp (v_iter,varname,iterafile,nx,ny,nz)
varname='T'
call write_inp (t_iter,varname,iterafile,nx,ny,nz)
varname='P'
call write_inp (p_iter,varname,iterafile,nx,ny,nz)
 
 
end
 
 
 
 
c ********************************************************************************
c * NETCDF INPUT AND OUTPUT *
c ********************************************************************************
 
c --------------------------------------------------------------------------------
c Write input field to netcdf
c --------------------------------------------------------------------------------
 
SUBROUTINE write_inp (field,fieldname,pvsrcfile,nx,ny,nz)
 
c Read <fieldname> from netcdf file <pvsrcfile> into <field>. The grid is specified
c by <nx,ny,nz,dx,dy,dz,xmin,ymin,zmin>. A check is performed whether the input
c files are consitent with this grid.
 
implicit none
 
c Declaration of subroutine parameters
integer nx,ny,nz
real field (0:nx,0:ny,0:nz)
character*80 fieldname
character*80 pvsrcfile
 
c Auxiliary variables
integer cdfid,stat
integer vardim(4)
real misdat
real varmin(4),varmax(4),stag(4)
integer ndimin,outid,i,j,k
real max_th
real tmp(0:nx,0:ny,0:nz)
integer ntimes
real time(200)
integer nvars
character*80 vnam(100),varname
integer isok
 
c Get grid parameters
call cdfopn(pvsrcfile,cdfid,stat)
if (stat.ne.0) goto 998
call getvars(cdfid,nvars,vnam,stat)
if (stat.ne.0) goto 998
isok=0
varname='TH'
call check_varok(isok,varname,vnam,nvars)
if (isok.eq.0) goto 998
call getdef(cdfid,varname,ndimin,misdat,vardim,
> varmin,varmax,stag,stat)
if (stat.ne.0) goto 998
time(1)=0.
call gettimes(cdfid,time,ntimes,stat)
if (stat.ne.0) goto 998
call clscdf(cdfid,stat)
if (stat.ne.0) goto 998
 
c Save variables (write definition, if necessary)
call cdfwopn(pvsrcfile,cdfid,stat)
if (stat.ne.0) goto 998
isok=0
varname=fieldname
call check_varok(isok,varname,vnam,nvars)
if (isok.eq.0) then
call putdef(cdfid,varname,ndimin,misdat,vardim,
> varmin,varmax,stag,stat)
if (stat.ne.0) goto 998
endif
call putdat(cdfid,varname,time(1),0,field,stat)
print*,'W ',trim(varname),' ',trim(pvsrcfile)
if (stat.ne.0) goto 998
 
c Close input netcdf file
call clscdf(cdfid,stat)
if (stat.ne.0) goto 998
return
 
c Exception handling
998 print*,'Write_Inp: Problem with input netcdf file... Stop'
stop
 
end
 
 
c --------------------------------------------------------------------------------
c Read input fields for reference profile
c --------------------------------------------------------------------------------
 
SUBROUTINE read_inp (field,fieldname,pvsrcfile,
> nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv)
 
c Read <fieldname> from netcdf file <pvsrcfile> into <field>. The grid is specified
c by <nx,ny,nz,dx,dy,dz,xmin,ymin,zmin>. A check is performed whether the input
c files are consitent with this grid. The missing data value is set to <mdv>.
 
implicit none
 
c Declaration of subroutine parameters
integer nx,ny,nz
real field(0:nx,0:ny,0:nz)
character*80 fieldname
character*80 pvsrcfile
real dx,dy,dz,xmin,ymin,zmin
real mdv
 
c Numerical and physical parameters
real eps
parameter (eps=0.01)
 
c Auxiliary variables
integer cdfid,stat,cdfid99
integer vardim(4)
real misdat
real varmin(4),varmax(4),stag(4)
integer ndimin,outid,i,j,k
real max_th
real tmp(nx,ny,nz)
integer ntimes
real time(200)
integer nvars
character*80 vnam(100),varname
integer isok
 
c Open the input netcdf file
call cdfopn(pvsrcfile,cdfid,stat)
if (stat.ne.0) goto 998
 
c Check whether needed variables are on file
call getvars(cdfid,nvars,vnam,stat)
if (stat.ne.0) goto 998
isok=0
varname=trim(fieldname)
call check_varok(isok,varname,vnam,nvars)
if (isok.eq.0) goto 998
 
c Get the grid parameters from theta
call getdef(cdfid,varname,ndimin,misdat,vardim,
> varmin,varmax,stag,stat)
if (stat.ne.0) goto 998
time(1)=0.
call gettimes(cdfid,time,ntimes,stat)
if (stat.ne.0) goto 998
 
c Check whether grid parameters are consistent
if ( (vardim(1).ne.(nx+1)).or.
> (vardim(2).ne.(ny+1)).or.
> (vardim(3).ne.(nz+1)).or.
> (abs(varmin(1)-xmin).gt.eps).or.
> (abs(varmin(2)-ymin).gt.eps).or.
> (abs(varmin(3)-zmin).gt.eps).or.
> (abs((varmax(1)-varmin(1))/real(vardim(1)-1)-dx).gt.eps).or.
> (abs((varmax(2)-varmin(2))/real(vardim(2)-1)-dy).gt.eps).or.
> (abs((varmax(3)-varmin(3))/real(vardim(3)-1)-dz).gt.eps) )
>then
print*,'Input grid inconsitency...'
print*,' Nx = ',vardim(1),nx+1
print*,' Ny = ',vardim(2),ny+1
print*,' Nz = ',vardim(3),nz+1
print*,' Varminx = ',varmin(1),xmin
print*,' Varminy = ',varmin(2),ymin
print*,' Varminz = ',varmin(3),zmin
print*,' Dx = ',(varmax(1)-varmin(1))/real(nx-1),dx
print*,' Dy = ',(varmax(2)-varmin(2))/real(ny-1),dy
print*,' Dz = ',(varmax(3)-varmin(3))/real(nz-1),dz
goto 998
endif
 
c Load variables
call getdef(cdfid,varname,ndimin,misdat,vardim,
> varmin,varmax,stag,stat)
if (stat.ne.0) goto 998
call getdat(cdfid,varname,time(1),0,field,stat)
print*, 'R ',trim(varname),' ',trim(pvsrcfile)
if (stat.ne.0) goto 998
 
c Close input netcdf file
call clscdf(cdfid,stat)
if (stat.ne.0) goto 998
 
c Set missing data value to <mdv>
do i=1,nx
do j=1,ny
do k=1,nz
if (abs(field(i,j,k)-misdat).lt.eps) then
field(i,j,k)=mdv
endif
enddo
enddo
enddo
 
return
 
c Exception handling
998 print*,'Read_Inp: Problem with input netcdf file... Stop'
stop
 
end
 
c --------------------------------------------------------------------------------
c Check whether variable is found on netcdf file
c --------------------------------------------------------------------------------
 
subroutine check_varok (isok,varname,varlist,nvars)
 
c Check whether the variable <varname> is in the list <varlist(nvars)>. If this is
C the case, <isok> is incremented by 1. Otherwise <isok> keeps its value.
 
implicit none
 
c Declaraion of subroutine parameters
integer isok
integer nvars
character*80 varname
character*80 varlist(nvars)
 
c Auxiliary variables
integer i
 
c Main
do i=1,nvars
if (trim(varname).eq.trim(varlist(i))) isok=isok+1
enddo
 
end
 
c --------------------------------------------------------------------------------
c Get grid parameters
c --------------------------------------------------------------------------------
 
subroutine read_dim (nx,ny,nz,dx,dy,dz,xmin,ymin,zmin,mdv,
> pvsrcfile)
 
c Get the grid parameters from the variable <THETA> on the input file <pvsrcfile>.
c The grid parameters are
c nx,ny,nz : Number of grid points in x, y and z direction
c xmin,ymin,zmin : Minimum domain coordinates in x, y and z direction
c xmax,ymax,zmax : Maximal domain coordinates in x, y and z direction
c dx,dy,dz : Horizontal and vertical resolution
c Additionally, it is checked whether the vertical grid is equally spaced. If ok,
c the grid paramters are transformed from lon/lat to distance (in meters)
 
implicit none
 
c Declaration of subroutine parameters
character*80 pvsrcfile
integer nx,ny,nz
real dx,dy,dz
real xmin,ymin,zmin,xmax,ymax,zmax
real mdv
 
c Numerical epsilon and other physical/geoemtrical parameters
real eps
parameter (eps=0.01)
 
c Auxiliary variables
integer cdfid,cstid
integer ierr
character*80 vnam(100),varname
integer nvars
integer isok
integer vardim(4)
real misdat
real varmin(4),varmax(4),stag(4)
real aklev(1000),bklev(1000),aklay(1000),bklay(1000)
real dh
character*80 csn
integer ndim
integer i
 
c Get all grid parameters
call cdfopn(pvsrcfile,cdfid,ierr)
if (ierr.ne.0) goto 998
call getvars(cdfid,nvars,vnam,ierr)
if (ierr.ne.0) goto 998
isok=0
varname='TH'
call check_varok(isok,varname,vnam,nvars)
if (isok.eq.0) goto 998
call getcfn(cdfid,csn,ierr)
if (ierr.ne.0) goto 998
call cdfopn(csn,cstid,ierr)
if (ierr.ne.0) goto 998
call getdef(cdfid,varname,ndim,misdat,vardim,varmin,varmax,
> stag,ierr)
if (ierr.ne.0) goto 998
nx=vardim(1)
ny=vardim(2)
nz=vardim(3)
xmin=varmin(1)
ymin=varmin(2)
zmin=varmin(3)
call getlevs(cstid,nz,aklev,bklev,aklay,bklay,ierr)
if (ierr.ne.0) goto 998
call getgrid(cstid,dx,dy,ierr)
if (ierr.ne.0) goto 998
xmax=varmax(1)
ymax=varmax(2)
zmax=varmax(3)
dz=(zmax-zmin)/real(nz-1)
call clscdf(cstid,ierr)
if (ierr.ne.0) goto 998
call clscdf(cdfid,ierr)
if (ierr.ne.0) goto 998
 
c Check whether the grid is equallay spaced in the vertical
do i=1,nz-1
dh=aklev(i+1)-aklev(i)
if (abs(dh-dz).gt.eps) then
print*,'Aklev: Vertical grid must be equally spaced... Stop'
print*,(aklev(i),i=1,nz)
stop
endif
dh=aklay(i+1)-aklay(i)
if (abs(dh-dz).gt.eps) then
print*,'Aklay: Vertical grid must be equally spaced... Stop'
print*,(aklay(i),i=1,nz)
stop
endif
enddo
 
c Set missing data value
mdv=misdat
 
return
 
c Exception handling
998 print*,'Read_Dim: Problem with input netcdf file... Stop'
stop
 
end
 
 
Property changes:
Added: svn:executable