/[MITgcm]/MITgcm_contrib/gael/profilesMatlabProcessing/ecco_v4/insitu_cost.m

Diff of /MITgcm_contrib/gael/profilesMatlabProcessing/ecco_v4/insitu_cost.m

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-revision 1.3 by gforget,
Fri Jul  8 12:48:59 2011 UTC
+revision 1.13 by gforget,
Tue May 10 21:38:51 2016 UTC
 Line 1
- function []=insitu_cost(dirData,doComp,varargin);
+ function []=insitu_cost(doComp,varargin);
- %[]=insitu_cost(dirData,listData,listVar,varargin);
+ %object:        computes or displays cost function statistics
- %object:        computes or displays cost function statistics
+ %input:         doComp states whether to compute & save (1) or load & display (0)
- %input:         dirData is the data main directory name
- %               doComp states whether to compute & save (1) or load & display (0)
  %optional must take the following form {'name',param1,param2,...} Active ones are
- %               {'subdirData',subdirData} is the data subdirectory name ('profiles/output/' by default)
+ %               {'dirData',dirData} is the data subdirectory name ('profiles/output/' by default)
  %               {'listData',data1,data2,...} where data1 e.g. is 'argo_indian.nc'
  %               {'listVar',var1,var2} where var1 and var2 are 'T' and 'S'
  %               {'years',year0,year1} to limit computation to [year0 year1] interval
- %               {'subdirMat',subdirMat} where subdirMat is the output subdirectory ('mat/' by default)
+ %               {'dirMat',dirMat} where dirMat is the output subdirectory ('mat/' by default)
  %               {'suffMat',suffMat} is the mat file suffix ('all' by default)
- %               {'subdirTex',subdirTex} where subdirTex is the tex directory ('tex/' by default)
+ %               {'dirTex',dirTex} where dirTex is the tex directory ('tex/' by default)
+ %               {'nameTex',nameTex} is the tex file name ('myPlots' by default)
  %               {'addToTex',addToTex} states whether (1) or not (0 default) to
- %                       augment an ongoing tex file (see write2tex.m, subdirTex)
+ %                        augment an ongoing tex file (see write2tex.m, dirTex)
  %
- %example:        insitu_cost('./',1,{'listData','argo_in*'});
+ %example:         insitu_cost('./',1,{'listData','argo_in*'});
+ gcmfaces_global;
+ global myparms;
- %load paths and grid:
- %--------------------
- global mygrid; if isempty(mygrid); grid_load('GRID/',5,'compact'); end;
- %set more optional paramaters to default values
- year0=1992; year1=2008;
- listData={'WOD09_XBT*','WOD09_CTD*','argo_in*','argo_at*','argo_pa*','seals*'};
  listVar={'T','S'};
+ listBas={'atlExt','pacExt','indExt','arct'};
+ if sum([90 1170]~=mygrid.ioSize)>0; listBas={}; end;
+ listBasTxt=''; for bb=1:length(listBas); listBasTxt=[listBasTxt ' ' listBas{bb} '*']; end;
  %shorter test case: listData={'argo_in*'}; listVar={'T'};
- subdirData='/profiles/output/';
+ dirData='/profiles/output/';
- subdirMat='mat/'; suffMat='_all';
+ dirMat='mat/'; suffMat='_all';
- subdirTex='tex/'; addToTex=0;
+ dirTex='tex/'; addToTex=0; nameTex='myPlots';
  %set more optional paramaters to user defined values
- for ii=1:nargin-2;
+ for ii=1:nargin-1;
     if strcmp(varargin{ii}{1},'listData'); listData={varargin{ii}{2:end}};
     elseif strcmp(varargin{ii}{1},'listVar'); listVar={varargin{ii}{2:end}};
     elseif strcmp(varargin{ii}{1},'years'); year0=varargin{ii}{2}; year1=varargin{ii}{3};
-    elseif strcmp(varargin{ii}{1},'subdirMat'); subdirMat=varargin{ii}{2};
+    elseif strcmp(varargin{ii}{1},'dirMat'); dirMat=varargin{ii}{2};
     elseif strcmp(varargin{ii}{1},'suffMat'); suffMat=['_' varargin{ii}{2}];
-    elseif strcmp(varargin{ii}{1},'subdirTex'); subdirTex=varargin{ii}{2};
+    elseif strcmp(varargin{ii}{1},'dirTex'); dirTex=varargin{ii}{2};
     elseif strcmp(varargin{ii}{1},'addToTex'); addToTex=varargin{ii}{2};
-    elseif strcmp(varargin{ii}{1},'subdirData'); subdirData=varargin{ii}{2};
+    elseif strcmp(varargin{ii}{1},'nameTex'); nameTex=varargin{ii}{2};
+    elseif strcmp(varargin{ii}{1},'dirData'); dirData=varargin{ii}{2};
     else;
         warning('inputCheck:insitu_cost',...
             ['unknown option ''' varargin{ii}{1} ''' was ignored']);
     end;
  end;
+ if isempty(myparms)|isempty(mygrid);
+   load([dirMat 'diags_grid_parms.mat']);
+ end;
+ if isempty(whos('year0'));
+   year0=myparms.yearInAve(1); year1=myparms.yearInAve(2);
+ end;
+ if isempty(whos('listData'));
+   listData=dir([dirMat 'profiles/output/*.nc'])
+   listData={listData(:).name};
+   for ff=1:length(listData); listData{ff}=[listData{ff}(1:end-3) '*']; end;
+ end;
  if doComp;
  %time limits:
-Line 51 
 date0=datenum(year0,1,1); date1=datenum(
+Line 64 
 date0=datenum(year0,1,1); date1=datenum(
  for vv=1:length(listVar);
      varCur=listVar{vv};
      %get the cost square root:
-     [MITprof]=MITprof_stats_load([dirData '/' subdirData],listData,varCur);
+     [MITprof]=MITprof_stats_load([dirData],listData,varCur);
+     if ~isfield(MITprof,'prof_point');
+       loc_tile=gcmfaces_loc_tile(90,90,MITprof.prof_lon,MITprof.prof_lat);
+       MITprof.prof_point=loc_tile.point;
+     end;
      %mask out values that are not in year range:
      ii=find(MITprof.prof_date<date0|MITprof.prof_date>date1);
      MITprof.prof(ii,:)=NaN;
-Line 80 
 for vv=1:length(listVar);
+Line 96 
 for vv=1:length(listVar);
      eval(['misfitDistrib' varCur '.x=x;']); eval(['misfitDistrib' varCur '.y=y;']);
      eval(['misfitDistrib' varCur '.z=z;']); eval(['misfitDistrib' varCur '.n=n;']);
+     %upper ocean temporal distribution
+     for bb=1:length(listBas);
+     for ll=1:3;
+       bbb=listBas{bb};
+       if ll==1;     Lmin=-90; Lmax=-25; txt=[bbb '_90S25S_misDis' varCur];
+       elseif ll==2; Lmin=-25; Lmax=25; txt=[bbb '_25S25N_misDis' varCur];
+       elseif ll==3; Lmin=25; Lmax=90; txt=[bbb '_25N90N_misDis' varCur];
+       end;
+       msk=v4_basin(bbb);
+       msk(mygrid.YC<Lmin|mygrid.YC>Lmax)=0;
+       %
+       msk=convert2array(msk);
+       MITprof.prof_msk=msk(MITprof.prof_point);
+       MITprofSub=MITprof_subset(MITprof,'msk',1,'depth',[0 700]);
+       %
+       tmp_date=(MITprofSub.prof_date-date0)/365;
+       [x,y,z,n]=MITprof_stats(tmp_date,[0:1/4:1+(year1-year0)],MITprofSub.prof,[-5:0.25:5]);
+       z(n==0)=NaN; n(n==0)=NaN;
+       eval([txt '.x=x;']); eval([txt '.y=y;']);
+       eval([txt '.z=z;']); eval([txt '.n=n;']);
+     end;
+     end;
  end;
- eval(['save ' dirData '/' subdirMat 'insitu_cost' suffMat '.mat costAve* misfitDistrib* depthTimeCost* year* listData listVar;']);
+ if ~isdir([dirMat 'cost/']); mkdir([dirMat 'cost/']); end;
+ eval(['save ' dirMat 'cost/insitu_cost' suffMat '.mat costAve* misfitDistrib* depthTimeCost* year* ' ...
+       'listData listVar listBas ' listBasTxt ';']);
  else;%display result
- eval(['load ' dirData '/' subdirMat 'insitu_cost' suffMat '.mat;']);
+ if isdir([dirMat 'cost/']); dirMat=[dirMat 'cost/']; end;
+ eval(['load ' dirMat 'insitu_cost' suffMat '.mat;']);
  figureL;
-Line 97 
 for vv=1:length(listVar);
+Line 140 
 for vv=1:length(listVar);
      eval(['x=depthTimeCost' varCur '.x;']); eval(['y=depthTimeCost' varCur '.y;']);
      eval(['z=depthTimeCost' varCur '.z;']); eval(['n=depthTimeCost' varCur '.n;']);
-     z(n<1e2)=NaN;
+     z(n<1e2)=NaN; y=y+year0-1;
      subplot(2,length(listVar),vv); depthStretchPlot('pcolor',{y,x,z},[0:200:1000 1500:500:6000],[0 1000 4000]);
      caxis([0 8]); shading flat; colorbar; ylabel('depth (in m)');
-     xlabel(['date (in years since ' num2str(year0) ')']);
      title(sprintf('mean cost for %s: %0.3g (median: %0.3g)',varCur,costCur));
      %latitudinal distribution:
-Line 113 
 for vv=1:length(listVar);
+Line 155 
 for vv=1:length(listVar);
  end;
  myCaption={'Cost function (top) for in situ profiles, as a function of depth and time. ',...
          'Distribution of normalized misfits (bottom) as a function of latitude. For T (left) and S (right).'};
- if addToTex; write2tex([dirData '/' subdirTex '/myPlots.tex'],2,myCaption,gcf); end;
+ if addToTex; write2tex([dirTex '/' nameTex '.tex'],2,myCaption,gcf); end;
+ if ~isempty(listBas);
+ ii=0;
+ ii=ii+1; listPanels(ii).bas='atlExt'; listPanels(ii).ll=3;
+ ii=ii+1; listPanels(ii).bas='pacExt'; listPanels(ii).ll=3;
+ ii=ii+1; listPanels(ii).bas='arct'; listPanels(ii).ll=3;
+ ii=ii+1; listPanels(ii).bas='atlExt'; listPanels(ii).ll=2;
+ ii=ii+1; listPanels(ii).bas='pacExt'; listPanels(ii).ll=2;
+ ii=ii+1; listPanels(ii).bas='indExt'; listPanels(ii).ll=2;
+ ii=ii+1; listPanels(ii).bas='atlExt'; listPanels(ii).ll=1;
+ ii=ii+1; listPanels(ii).bas='pacExt'; listPanels(ii).ll=1;
+ ii=ii+1; listPanels(ii).bas='indExt'; listPanels(ii).ll=1;
+ for vv=1:length(listVar);
+   varCur=listVar{vv};
+   figureL;
+   for ii=1:9;
+       bbb=listPanels(ii).bas; ll=listPanels(ii).ll;
+       if ll==1;     Lmin=-90; Lmax=-25; txt=[bbb '_90S25S_misDis' varCur];
+       elseif ll==2; Lmin=-25; Lmax=25; txt=[bbb '_25S25N_misDis' varCur];
+       elseif ll==3; Lmin=25; Lmax=90; txt=[bbb '_25N90N_misDis' varCur];
+       end;
+     eval(['x=' txt '.x;']); eval(['y=' txt '.y;']);
+     eval(['z=' txt '.z;']); eval(['n=' txt '.n;']);
+     x=x+year0-1;
+     tmp1=(nansum(n,2)>1e4)*ones(1,size(n,2)); z(tmp1==0)=NaN;
+     subplot(3,3,ii); contourf(x,y,z,[0:0.05:0.5]); grid on;
+     caxis([0 0.5]); colorbar; title(txt,'Interpreter','none');
+     %title([txt ', normalized misfit pdf'],'Interpreter','none');
+     if mod(ii,3)==1; ylabel('normalized misfit'); end;
+     %if ii<=6; set(gca,'XTick',[]); end;
+   end;
+ myCaption={'Distribution of normalized misfits per basin (panel) as ',...
+         'a function of latitude, for ',varCur};
+ if addToTex; write2tex([dirTex '/' nameTex '.tex'],2,myCaption,gcf); end;
+ end;
+ end;
  end;

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