/[MITgcm]/MITgcm_contrib/gael/matlab_class/gcmfaces_IO/write2nctiles.m

Diff of /MITgcm_contrib/gael/matlab_class/gcmfaces_IO/write2nctiles.m

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-revision 1.3 by gforget,
Sun Feb  2 01:47:38 2014 UTC
+revision 1.4 by gforget,
Mon Feb  3 14:28:52 2014 UTC
 Line 13 
 function [dimOut]=write2nctiles(fileOut,
  %               'units' is the unit of fld (default : '(unknown)').
  %               'missval' is the missing value (default : NaN).
  %               'fillval' is the fill value (default : NaN).
+ %               'tileNo' is a map of tile indices (default is face number)
  %netcdf dimensions : array dimensions are simply set to 'i1,i2,...'
  gcmfaces_global;
-Line 23 
 doCheck=0;%set to one to print stuff to
+Line 24 
 doCheck=0;%set to one to print stuff to
  descr='';
  rdm='';
  fldName=inputname(2); longName='';
- units='(unknown)'; missval=NaN; fillval=NaN;
+ units='(unknown)'; missval=NaN; fillval=NaN; dimIn=[];
- dimIn=[];
+ tileNo=mygrid.XC; for ff=1:mygrid.nFaces; tileNo{ff}(:)=ff; end;
  %set more optional paramaters to user defined values
  for ii=1:nargin-3;
-Line 49 
 for ii=1:nargin-3;
+Line 50 
 for ii=1:nargin-3;
                  strcmp(varargin{ii}{1},'units')|...
                  strcmp(varargin{ii}{1},'missval')|...
                  strcmp(varargin{ii}{1},'fillval')|...
+                 strcmp(varargin{ii}{1},'tileNo')|...
                  strcmp(varargin{ii}{1},'dimIn');
              eval([varargin{ii}{1} '=varargin{ii}{2};']);
          else;
-Line 58 
 for ii=1:nargin-3;
+Line 60 
 for ii=1:nargin-3;
      end;
  end;
- for ff=1:mygrid.nFaces;
+ %split fldIn (if isa gcmfaces) into tiles
+ tileList=unique(convert2vector(tileNo));
+ tileList=tileList(~isnan(tileList));
+ ntile=length(tileList);
+ %
+ if isa(fldIn,'gcmfaces');
+  for ff=1:ntile;
+    tmp1=[];
+    for gg=1:mygrid.nFaces;
+      [tmpi,tmpj]=find(tileNo{gg}==ff);
+      if ~isempty(tmpi);
+        tmpi=[min(tmpi(:)):max(tmpi(:))];
+        tmpj=[min(tmpj(:)):max(tmpj(:))];
+        tmp1=fldIn{gg}(tmpi,tmpj,:,:);
+      end;
+    end;
+    fldTiles{ff}=tmp1;
+  end;
+ end;
+ %start processing loop
+ for ff=1:ntile;
  if isa(fldIn,'gcmfaces');
-   fldTile=fldIn{ff};
+   fldTile=fldTiles{ff};
    %reverse order of dimensions
    nn=length(size(fldTile));
    fldTile=permute(fldTile,[nn:-1:1]);
  else;
    fldTile=fldIn;
  end;
- fileTile=[fileOut sprintf('.%03d.nc',ff)];
+ fileTile=[fileOut sprintf('.%04d.nc',ff)];
  %select dimensions of relevance:
  nDim=length(size(fldTile));
-Line 109 
 dimOut{ff}=dimlist;
+Line 132 
 dimOut{ff}=dimlist;
  if doCreate;
    %create netcdf file:
    %-------------------
-   ncid=nccreate(fileTile,'NETCDF4');
+ % ncid=nccreate(fileTile,'NETCDF4');%to allow for big files
+   ncid=nccreate(fileTile,'clobber');
    if ~isempty(rdm);
      descr2=[descr ' -- ' rdm{1}];
    else;
      descr2=descr;
    end;
-   ncputAtt(ncid,'','description',descr);
+   ncputAtt(ncid,'','description',descr2);
    for pp=2:length(rdm);
    tmp1=char(pp+63);
    netcdf.putAtt(ncid,nc_global,tmp1,rdm{pp});
-Line 159 
 if (myenv.useNativeMatlabNetcdf); netcdf
+Line 183 
 if (myenv.useNativeMatlabNetcdf); netcdf
  ncputvar(ncid,fldName,fldTile);
  ncclose(ncid);
- end;%for ff=1:mygrid.nFaces;
+ end;%for ff=1:ntile;

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