prefix='stDiag'; namA='r527'; Nexp=1; Nc=size(namA,2); %-- % $Header: /home/ubuntu/mnt/e9_copy/MITgcm_contrib/jmc_script/plot_StD.m,v 1.1 2008/10/08 18:18:04 jmc Exp $ % $Name: $ nItMx=1e10*ones(1,Nexp); %nItMx(3)=11; %nItMx=60*ones(1,Nexp); namLg=namA ; namLg=strrep(namLg,'_','\_'); %----------- %- ngEn = Nb of Energy plot: = 2 or = 4 ; ngEn=2; %- test if the variable krd is define : if size(who('krd'),1) > 0, fprintf('krd is defined and = %i \n',krd); else fprintf('krd undefined ; set to 1 \n'); krd=1 ; end if krd > 0, %- define list of fields to read in: %listV={'Eta','U','V','W','T','S','DETADT2','RELHUM','Phi'}; %listV={'Eta','U','V','W','T','S','CONVADJ','DETADT2'}; %listV={'Eta','UE_VEL_C','VN_VEL_C','W','T','DETADT2','Phi'}; %- or take all them: clear listV ; listV='all_flds'; %----------- %- start to read the longest record: n=1; rf=-1; if strcmp(char(listV),'all_flds'), rf=0; end [ntA(n),rList,tim,vv1,listV,kList] = ... read_StD(prefix,namA(n,:),listV); nIt=ntA(n); nk=size(vv1,1); nRg=size(vv1,3); %- set global dims: & load vvA --> vvB nbV=size(listV,2); nrec=nIt; n3d=nk; nReg=nRg; vvA=zeros(n3d,nrec,nReg,5,nbV,Nexp); tiA=zeros(nrec,2,Nexp); vvA(1:nk,1:nIt,1:nRg,:,:,n)=vv1; tiA(1:nIt,:,n)=tim; %---- for n=2:Nexp, [ntA(n),rList,tim,vv1,listV] = ... read_StD(prefix,namA(n,:),listV); nIt=ntA(n); nk=size(vv1,1); nRg=size(vv1,3); if (nrec < nIt), fprintf('\n'); error([' Nb of records=',int2str(nIt),' exceeds nrec=',int2str(nrec)]); end if (n3d < nk), fprintf('\n'); error([' Nb of Levels=',int2str(nk),' exceeds n3d=',int2str(n3d)]); end vvA(1:nk,1:nIt,1:nRg,:,:,n)=vv1; tiA(1:nIt,:,n)=tim; end; if krd == 2, fprintf('save to "sav_StD.mat" file ...'); save('sav_StD.mat','vvA','tiA','ntA','rList','listV'); fprintf(' done\n') end elseif krd < 0, fprintf('load from "sav_StD.mat" file ...'); load sav_StD fprintf(' done\n'); nbV=size(listV,2); end if krd ~= 0, ttA=squeeze(tiA(:,2,:)); ttA=ttA/86400; titT='days'; %ttA=ttA/30 ; titT='month'; ttA=ttA/12 ; titT='year'; end %========================================================= ttax1=0 ; ttax2=0 ; ttay=zeros(nbV,2); %-- fixed time axis bound : % ttax1=15.; ttax2=20.; %-- fixed Y axis bound : % ttay(4,:)=[0 0.6]; %----------- fprintf('Total length: ntA=');fprintf(' %i ,',ntA); fprintf(' \n'); for n=1:Nexp, fprintf(' exp %i : time(d):%10.2f ->%10.2f \n', n,ttA(1,n),ttA(ntA(n),n) ); end; %-- list_on=zeros(1,nbV); nbG=8; nbG=min(nbG,nbV); list_on(1:nbG)=1 ; %list_on(1:6)=[1 1 1 1 1 1]; isA=ones(1,Nexp); ieA=ntA; %- limit the length : for search of isA <->1500y: find(ttA(:,2) == 1500) %isA=isA*31 ; % drop the 1rst mnth (1 Monitor/d) %isA=isA*36 ; % drop the 1rst year (1 Monitor/10d) %isA(1)=31 ; isA(2)=4 ; % drop the 1rst mnth %ieA(:)=360; isA(:)=1; linA(1,:)='k-'; % ieA(1)=60 ; % ieA(1)=1152 ; linA(2,:)='b-'; linA(3,:)='r-'; linA(4,:)='g-'; linA(5,:)='m-'; linA(6,:)='c-'; ieA=min(ieA,nItMx); %titall='AIM , Cubic-G (32x32) , cpl-FM Forcing' ; %titall='Global Ocean, Cubic-G (32x32) , NCEP Forc (2)' ; titall=['Exp: ',namLg(1,:)]; %========================================================= for ng=1:nbV, %------------------- flag=list_on(ng); kl=0; vv1=vvA(:,:,:,:,ng,:); namV=char(listV(ng)); titv=strrep(namV,'_','\_'); %if strcmp(namV,'Eta'), vv1=vv1/100; titv='Eta [mb]'; end %if strcmp(namV,'T'), kl=1; end if strcmp(namV,'T'), namfil=['../res_',namA(2:end),'/RC']; D=dir([namfil,'.data']); if size(D,1) == 1, rC=rdmds(namfil); fprintf(' convert Pot.Temp to Temp.:'); % fprintf(' convert Pot.Temp to Temp.:'); fprintf(' %i',size(vv1)); kappa=2/7; facP=squeeze(rC)/1.e+5; facP=facP.^kappa; var=facP*ones(1,nrec*4*Nexp); var=reshape(var,[nk-1 nrec 1 4 Nexp]); vv1([2:nk],:,1,[1:4],:)=vv1([2:nk],:,1,[1:4],:).*var; % for k=2:nk, vv1(k,:,1,[1:4],:)=vv1(k,:,1,[1:4],:)*facP(k-1); end fprintf(' OK\n'); else fprintf(' no file: %s\n',namfil); end end %if ng == 1, flag=2*list_on(1) ; end if kl > 0, titv=[titv,'\_',int2str(kl)]; fprintf([' var= ',namV,' at level k= %i \n'],kl); end if flag == 1 %-- figure(ng); set(ng,'position',[100+100*ng 60+40*ng 500 700]);clf; % if ng == 2, var=squeeze(vv1(2,:,1,:,:)); end % to get surf.Temp if kList(ng) == 1, var=squeeze(vv1(1+kl,:,1,:,:)); dd=squeeze(max(var)-min(var)); av=squeeze(mean(var)); if Nexp == 1, av=av'; dd=dd'; end ; for nv=1:4, subplot(410+nv); ttmn=' Mx-mn:'; ttav=' Av:'; for n=1:Nexp, plot(ttA(isA(n):ieA(n),n),var(isA(n):ieA(n),nv,n),linA(n,:)); if n == 1, hold on ; end ; ttmn=sprintf([ttmn,' %2.1e ;'],dd(nv,n)); ttav=sprintf([ttav,' %3.2e ;'],av(nv,n)); end ; hold off ; AA=axis ; dAA=AA(4)-AA(3); if AA(3)*AA(4) <= 0, AA(3)=min(AA(3),-dAA/10); AA(4)=max(AA(4),dAA/10); end if ttax1 < ttax2, AA(1)=ttax1; AA(2)=ttax2; end; axis(AA); grid ; if nv == 1, title(['Avr ',titv,' ',ttmn]); end if nv == 2, title(['Std-Dev ',titv,' ',ttav]); end if nv == 3, title(['min ',titv,' ',ttav]); legend(namLg(1:Nexp,:),0); end if nv == 4, title(['Max ',titv,' ',ttav]); end %if nv == 2, title(['Del-2 ',titv,' ',ttav]); end end ; xlabel(titT); else n=1; for nv=1:4, subplot(410+nv); var=squeeze(vv1(2:nk,:,1,nv,n))'; mnV=min(var(:)); MxV=max(var(:)); ccv=c_levs(mnV,MxV,-12); [cs,h]=contour(ttA(isA(n):ieA(n),n),[1:nk-1],var(isA(n):ieA(n),:)',ccv); %clabel(cs);isoline0(h); colorbar; if nv == 1, title(['Avr ',titv]); end if nv == 2, title(['Std-Dev ',titv]); end if nv == 3, title(['min ',titv]); ; end if nv == 4, title(['Max ',titv]); end AA=axis; dAA=AA(4)-AA(3); ttmn=sprintf('mn= %4.3g , Mx= %4.3g',mnV,MxV); text(AA(1)*.4+AA(2)*.6,AA(3)-0.27*dAA,ttmn); end ; xlabel(titT); end %-- axes('position',[.01,.01,.99,.99],'Visible','off'); T=text(0.5,0.97,titall); set(T,'HorizontalAlignment','center','FontSize',12); Td=text(0.99,0.01,date); set(Td,'HorizontalAlignment','right','FontSize',6); %--- end %------------------- end %=========================================================