%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Build a CROCO climatology file % % Extrapole and interpole temperature and salinity from a % Climatology to get boundary and initial conditions for % CROCO (climatology and initial netcdf files) . % Get the velocities and sea surface elevation via a % geostrophic computation. % % Data input format (netcdf): % temperature(T, Z, Y, X) % T : time [Months] % Z : Depth [m] % Y : Latitude [degree north] % X : Longitude [degree east] % % Data source : IRI/LDEO Climate Data Library (World Ocean Atlas 1998) % http://ingrid.ldgo.columbia.edu/ % http://iridl.ldeo.columbia.edu/SOURCES/.NOAA/.NODC/.WOA98/ % % Pierrick Penven, IRD, 2002. % % Version of 10-Oct-2002 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% clear all close all %%%%%%%%%%%%%%%%%%%%% USERS DEFINED VARIABLES %%%%%%%%%%%%%%%%%%%%%%%% % % Common parameters % crocotools_param % % Title % title='Climatology'; % % Switches for selecting what to process (1=ON) % makeclim=1; %1: process boundary data makeoa=1; %1: process oa data makeini=1; %1: process initial data % % Grid file name - Climatology file name % Initial file name - OA file name % grdname='croco_grd.nc'; clmname='croco_clm.nc'; ininame='croco_ini.nc'; oaname ='croco_oa.nc'; % % Day of initialisation % tini=15; % % Set times and cycles: monthly climatology for all data % time=[15:30:345]; % time cycle=360; % cycle % % Data climatology file name: % datafile='../../OCCAM_AGULHAS/Matlab/occam_agulhas_ext_clm.nc'; % % %%%%%%%%%%%%%%%%%%% END USERS DEFINED VARIABLES %%%%%%%%%%%%%%%%%%%%%%% % % Title % disp(' ') disp([' Making the clim: ',clmname]) disp(' ') disp([' Title: ',title]) % % Read in the grid % disp(' ') disp(' Read in the grid...') nc=netcdf(grdname,'r'); Lp=length(nc('xi_rho')); Mp=length(nc('eta_rho')); hmax=max(max(nc{'h'}(:))); close(nc); % % Create the climatology file % if (makeclim) disp(' ') disp(' Create the climatology file...') create_climfile(clmname,grdname,title,... theta_s,theta_b,hc,N,... time,cycle,'clobber'); end % % Create the OA file % if (makeoa) disp(' ') disp(' Create the OA file...') nc=netcdf(datafile,'r'); Z=nc{'Z'}(:); close(nc) create_oafile(oaname,grdname,title,Z,... time,cycle,'clobber'); % % Horizontal extrapolations % disp(' ') disp(' Horizontal interpolations') disp(' ') disp(' Temperature...') int_data_occam(oaname,datafile,'temp','lon_rho','lat_rho','temp','lonT','latT',1); disp(' ') disp(' Salinity...') int_data_occam(oaname,datafile,'salt','lon_rho','lat_rho','salt','lonT','latT',1); disp(' ') disp(' U...') int_data_occam(oaname,datafile,'u','lon_u','lat_u','u','lonU','latU',1); disp(' ') disp(' V...') int_data_occam(oaname,datafile,'v','lon_v','lat_v','v','lonU','latU',1); disp(' ') disp(' UBAR...') int_data_occam(oaname,datafile,'ubar','lon_u','lat_u','ubar','lonU','latU',0); disp(' ') disp(' VBAR...') int_data_occam(oaname,datafile,'vbar','lon_v','lat_v','vbar','lonU','latU',0); disp(' ') disp(' ZETA...') int_data_occam(oaname,datafile,'zeta','lon_rho','lat_rho','zeta','lonT','latT',0); int_data_occam(oaname,datafile,'ssh','lon_rho','lat_rho','zeta','lonT','latT',0); end % % Vertical interpolations % if (makeclim) disp(' ') disp(' Vertical interpolations') disp(' ') disp(' Temperature...') vinterp_clm(clmname,grdname,oaname,'temp','tclm_time','Z',0,'r'); disp(' ') disp(' Salinity...') vinterp_clm(clmname,grdname,oaname,'salt','sclm_time','Z',0,'r'); disp(' ') disp(' U...') vinterp_clm(clmname,grdname,oaname,'u','uclm_time','Z',0,'u'); disp(' ') disp(' V...') vinterp_clm(clmname,grdname,oaname,'v','vclm_time','Z',0,'v'); disp(' ') disp(' ZETA...') rem_avg_zeta(clmname,grdname,oaname) disp(' ') disp(' UBAR & VBAR...') barotropic_currents(clmname,grdname,obc) end % % Initial file % if (makeini) disp(' ') disp(' Initial') create_inifile(ininame,grdname,title,... theta_s,theta_b,hc,N,... tini,'clobber'); disp(' ') disp(' Temperature...') vinterp_clm(ininame,grdname,oaname,'temp','tclm_time','Z',tini,'r',1); disp(' ') disp(' Salinity...') vinterp_clm(ininame,grdname,oaname,'salt','sclm_time','Z',tini,'r',1); end % % Make a few plots % disp(' ') disp(' Make a few plots...') test_clim(clmname,grdname,'temp',1) figure test_clim(clmname,grdname,'salt',1) figure test_clim(clmname,grdname,'temp',6) figure test_clim(clmname,grdname,'salt',6) % % End % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%