writeTSGDataNetCDF.m

function [error] = tsg_writeTSGDataNetCDF( hTsgGUI, filename)
% Function to write TSG data in NetCDF file. 
%
% Input
% -----
% hTsgGUI ............ Handel to the main user interface
% filename ........... Data filename
%
% Output
% ------
% error .............  1 : OK 
%       ............. -1 : an error occured
%
% The data are store using setappdata - Variable name : 'tsg_data'
%
% Caution : replace the fill-value with NaN
% $Id$

% Open the file
% -------------
nc = netcdf(filename, 'clobber');
if isempty(nc)
   msg_error = ['TSG_GOSUD file_lecture : Open file error : ' filename];
   warndlg( msg_error, 'NetCDF write dialog');
   error = -1;
   return;
end

% Initialize loading NetCDF file waitbar
% --------------------------------------
wb = waitbar(0, 'Initializing NetCDF file. Please  wait...');

% We cannot change title property to 'none' (default set as 'tex') inside
% waitbar function (line 81), see
% http://www.mathworks.co.uk/matlabcentral/newsreader/view_thread/115725
% -----------------------------------------------------------------------
hchild = get(wb,'children');
htitle = get(hchild,'title');
set(htitle,'Interpreter','None');

% Get the data from the application GUI
% -------------------------------------
tsg = getappdata( hTsgGUI, 'tsg_data');

% Get global attributes list from class tsg_nc with file 'tsg_ncattr.csv'
% -----------------------------------------------------------------------
nca             = tsg_nc('tsg_ncattr.csv');
nca_keys        = keys(nca);

% Get GF3 variables list codes from class tsg_nc with file 'tsg_ncvar.csv'
% -----------------------------------------------------------------------
ncv             = tsg_nc('tsg_ncvar.csv');
ncv_keys        = keys(ncv);
ncv_fieldNames  = get_fieldnames(ncv);

% Create NetCDF file:
% -------------------

% Variable dimensions
% -------------------
nc('DAYD')      = numel(tsg.DAYD);     % number of TSG measurements
nc('DAYD_WS')   = numel(tsg.DAYD_WS);  % number of water samples
nc('DAYD_EXT')  = numel(tsg.DAYD_EXT); % number of external SSPS or SSTP comparison
nc('NCOEF_CAL') = 5;                   % number of calibration coefficients
nc('NCOEF_LIN') = 2;                   % number of linearisation coefficients

% Fixed dimensions
% ----------------
nc('STRING256') = 256;   
nc('STRING14')  = 14;
nc('STRING4')   = 4;
nc('N1')        = 1;

% display filename after 'Interpreter','None' initialization to prevent
% display console warning
% ---------------------------------------------------------------------
waitbar(1/50,wb,['Writing file: ' filename ' Please  wait...']);

% Create NetCDF global attributes 
% -------------------------------
for i=1:numel(nca_keys)
  nc.(nca_keys{i}) = tsg.(nca_keys{i});
end 

% Create NetCDF variables and attributes
% ---------------------------------------------------
for i=1:numel(ncv_keys)
  for j=1:numel(ncv_fieldNames)
    fn = ncv_fieldNames{j};
    % define dimension
    if strcmp(fn,'dimension')
      nc{ncv_keys{i}} = ncfloat(get(ncv, ncv_keys{i}, fn));
    % define variable atributes
    elseif ~isempty(get(ncv, ncv_keys{i}, fn))
      if ischar(get(ncv, ncv_keys{i}, fn))
        nc{ncv_keys{i}}.(fn) = ncchar(get(ncv, ncv_keys{i}, fn));
      else  
        nc{ncv_keys{i}}.(fn) = ncfloat(get(ncv, ncv_keys{i}, fn));
      end
    end
  end
end

% Create data to NetCDF file:
% ---------------------------

% Write global attributes
% -----------------------
for i=1:numel(nca_keys)
  nc.(nca_keys{i}) = tsg.(nca_keys{i});
end 

% Convert Matlab julian days (datenum) to 1950 reference
% ------------------------------------------------------
d = strmatch('DAYD',ncv_keys);
for i=1:numel(d)
  tsg.(ncv_keys{d(i)}) = datenumToJulian(tsg.(ncv_keys{d(i)}));
end

% Write measurements (variables)
% -------------------------------
for i=1:numel(ncv_keys)
  % display waitbar
  waitbar( i/numel(ncv_keys), wb, ['writing ' ncv_keys{i} ' variable']);
  % DATE as two dimension
  if strmatch('DATE',ncv_keys(i))
    nc{ncv_keys{i}}(:,:) = tsg.(ncv_keys{i});  
  else
    % other one dimension
    nc{ncv_keys{i}}(:)   = tsg.(ncv_keys{i}); 
  end
end

% Close waitbar
% -------------
close(wb)

% Close NetCDF file
% -----------------
endef(nc)
close(nc)

% Everything OK
% -------------
error = 1;

end