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S09_tracksNew.m
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S09_tracksNew.m
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Created: 19-Apr-2014 17:39:11
% Computer: GLNX86
% Matlab: 7.9
% Author: NK
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function S09_tracksNew
DD=initialise([],mfilename);
%% set ticks here!
% ticks.rez=200;
ticks.rez=get(0,'ScreenPixelsPerInch');
% ticks.rez=42;
ticks.width=297/25.4*ticks.rez/3;
ticks.height=ticks.width * DD.map.out.Y/DD.map.out.X;
% ticks.height=ticks.width/sqrt(2); % Din a4
ticks.y= 0;
ticks.x= 0;
ticks.age=[1,2*365,10];
% ticks.isoper=[DD.thresh.shape.iq,1,10];
ticks.isoper=[.6,1,10];
ticks.radius=[50,250,11];
ticks.radiusToRo=[0.5,5,6];
ticks.amp=[1,20,7];
%ticks.visits=[0,max([maps.AntiCycs.visitsSingleEddy(:); maps.Cycs.visitsSingleEddy(:)]),5];
ticks.visits=[1,20,11];
ticks.visitsunique=[1,10,10];
ticks.dist=[-1500;500;11];
%ticks.dist=[-100;50;16];
ticks.disttot=[1;3000;5];
ticks.vel=[-30;20;6];
ticks.axis=[DD.map.out.west DD.map.out.east DD.map.out.south DD.map.out.north];
ticks.lat=[ticks.axis(3:4),5];
ticks.minMax=cell2mat(extractfield( load([DD.path.analyzed.name, 'vecs.mat']), 'minMax'));
%% main
overmain(ticks,DD)
%%
conclude(DD);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [OUT]=inits(DD)
disp(['loading maps'])
OUT.maps=load([DD.path.analyzed.name, 'maps.mat']);
OUT.la=OUT.maps.Cycs.lat;
OUT.lo=OUT.maps.Cycs.lon;
if DD.switchs.netUstuff
OUT.maps.meanU=load(DD.path.meanU.file);
end
%% collect tracks
OUT.tracksfile=[DD.path.analyzed.name , 'tracks.mat' ];
root=DD.path.analyzedTracks.AC.name;
OUT.ACs={DD.path.analyzedTracks.AC.files.name};
Tac=disp_progress('init','collecting all ACs');
for ff=1:numel(OUT.ACs)
Tac=disp_progress('calc',Tac,numel(OUT.ACs),50);
OUT.tracks.AntiCycs(ff)={[root OUT.ACs{ff}]};
end
%%
root=DD.path.analyzedTracks.C.name;
OUT.Cs={DD.path.analyzedTracks.C.files.name};
Tc=disp_progress('init','collecting all Cs');
for ff=1:numel(OUT.Cs)
Tc=disp_progress('calc',Tc,numel(OUT.Cs),50);
OUT.tracks.Cycs(ff)={[root OUT.Cs{ff}]};
end
%% get vectors
disp(['loading vectors'])
OUT.vecs=load([DD.path.analyzed.name, 'vecs.mat']);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPa(DD,ticks,tracks,sen)
drawColorLinem(ticks,tracks.(sen),'lat','isoper') ;
title([sen '- deflections'])
axis([-2000 1000 -300 300])
set(gca,'ytick',[-100 0 100])
set(gca,'xtick',[-1000 0 500])
colorbar
xlabel('IQ repr. by thickness; latitude repr. by color')
axis equal
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['defletcs' sen],DD.debugmode,'dpng',1);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPb(DD,ticks,tracks,sen)
field='age';
drawColorLine(ticks,tracks.(sen),field,ticks.age(2),ticks.age(1),1,0) ;
decorate(field,ticks,DD,sen,field,'d',1,1);
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['age' sen],DD.debugmode,'dpng',1);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPc(DD,ticks,tracks,sen)
drawColorLine(ticks,tracks.(sen),'isoper',ticks.isoper(2),ticks.isoper(1),0,0) ;
decorate('isoper',ticks,DD,sen,'IQ',' ',0,100)
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['IQ' sen],DD.debugmode,'dpng',1);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPd(DD,ticks,tracks,sen)
drawColorLine(ticks,tracks.(sen),'radiusmean',ticks.radius(2)*1000,ticks.radius(1)*1000,0,0) ;
decorate('radius',ticks,DD,sen,'Radius','km',0,1)
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['radius' sen],DD.debugmode,'dpng',1);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPe(DD,ticks,tracks,sen)
drawColorLine(ticks,tracks.(sen),'peakampto_ellipse',ticks.amp(2)/100,ticks.amp(1)/100,0,0) ;
decorate('amp',ticks,DD,sen,'Amp to ellipse','cm',1,1)
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['TrackPeakampto_ellipse' sen],DD.debugmode,'dpng',1);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function TPf(DD,ticks,tracks,sen)
drawColorLine(ticks,tracks.(sen),'peakampto_contour',ticks.amp(2)/100,ticks.amp(1)/100,0,0) ;
decorate('amp',ticks,DD,sen,'Amp to contour','cm',1,1)
savefig(DD.path.plots,ticks.rez,ticks.width,ticks.height,['TrackPeakampto_contour' sen],DD.debugmode)
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function drawcoast
load coast;
hold on; plot(long,lat,'LineWidth',0.5);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function cb=decorate(field,ticks,DD,tit,tit2,unit,logornot,decim,coast,rats)
if nargin<10
rats=false;
end
if nargin<9
coast=true;
end
% %% TEMP SOLUTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% coast=false
% %% TEMP SOLUTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
axis(ticks.axis);
set(gca,'ytick',ticks.y);
set(gca,'xtick',ticks.x);
cb=colorbar;
if logornot
zticks=linspace(log(ticks.(field)(1)),log(ticks.(field)(2)),ticks.(field)(3))';
zticklabel=round(exp(zticks)*decim)/decim;
if rats
[n,d]=rat(zticklabel);
nc=(num2cell(n));
dc=(num2cell(d));
zticklabel=cellfun(@(a,b) [num2str(a) '/' num2str(b)],nc,dc,'uniformoutput',false);
else
zticklabel=num2str(zticklabel);
end
else
zticks=linspace(ticks.(field)(1),ticks.(field)(2),ticks.(field)(3))';
zticklabel=num2str(round(zticks*decim)/decim);
end
caxis([zticks(1) zticks(end)])
set(cb,'ytick',zticks);
set(cb,'yticklabel',zticklabel);
title([tit,' - ',tit2,' [',unit,']'])
xlabel(['Eddies that died younger ',num2str(DD.thresh.life),' days are excluded'])
if coast
drawcoast;
end
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [maxV,cmap]=drawColorLinem(ticks,files,fieldName,fieldName2)
cmap=jet;% Generate range of color indices that map to cmap
%% get extremata
maxIQ=ticks.isoper(2);
minIQ=ticks.isoper(1);
minV=ticks.lat(1);
maxV=ticks.lat(2);
iqiq=linspace(minIQ,maxIQ,10);
kk=linspace(minV,maxV,size(cmap,1));
% kk=linspace(minIQ,maxIQ,10);
% iqiq=linspace(minV,maxV,size(cmap,1));
meaniq=nan(size(files));
for ee=1:numel(files)
V=load(files{ee},fieldName2);
VViq=V.(fieldName2);
meaniq(ee)=nanmean(VViq);
end
meaniq(meaniq>1)=1;
[~,iqorder]=sort(meaniq,'descend');
maxthick=ticks.rez/300*10;
minthick=ticks.rez/300*0.1;
for ee=iqorder
V=load(files{ee},fieldName,fieldName2,'lat','lon');
% V=load(files{ee});
VV=V.(fieldName);
VViq=V.(fieldName2);
VViq(VViq>1)=1;
if isempty(VV)
continue
end
cm = spline(kk,cmap',VV); % Find interpolated colorvalue
cm(cm>1)=1; % Sometimes iterpolation gives values that are out of [0,1] range...
cm(cm<0)=0;
%% Find interpolated thickness
iq = spline(iqiq,linspace(minthick,maxthick,10),VViq);
iq(iq<0)=minthick;
%% deg2km
yy=[0 cumsum(deg2km(diff(V.lat)))];
xx=[0 cumsum(deg2km(diff(V.lon)).*cosd((V.lat(1:end-1)+V.lat(2:end))/2))];
for ii=1:length(xx)-1
if abs(xx(ii+1)-xx(ii))<1000 % avoid 0->360 jumps
line([xx(ii) xx(ii+1)],[yy(ii) yy(ii+1)],'color',cm(:,ii),'LineWidth',iq(ii));
end
end
end
caxis([minV maxV])
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [maxV,cmap]=drawColorLine(ticks,files,fieldName,maxV,minV,logornot,zeroshift)
cmap=jet;% Generate range of color indices that map to cmap
if logornot
maxV=log(maxV);
minV(minV==0)=1;
minV=log(minV);
end
kk=linspace(minV,maxV,size(cmap,1));
%%
maxIQ=ticks.isoper(2);
minIQ=ticks.isoper(1);
iqiq=linspace(minIQ,maxIQ,10);
%%
meaniq=nan(size(files));
for ee=1:numel(files)
V=load(files{ee},'isoper');
VViq=V.isoper;
meaniq(ee)=nanmean(VViq);
end
meaniq(meaniq>1)=1;
[~,iqorder]=sort(meaniq,'descend');
%%
maxthick=ticks.rez/300*10;
minthick=ticks.rez/300*0.1;
for ee=iqorder
V=load(files{ee},fieldName,'isoper','lat','lon');
VV=V.(fieldName);
VViq=V.isoper;
VViq(VViq>1)=1;
if isempty(VV)
continue
end
if logornot
VV(VV==0)=1;
cm = spline(kk,cmap',log(VV)); % Find interpolated colorvalue
% cm = spline(iqiq,cmap',log(VViq)); % Find interpolated colorvalue
else
cm = spline(kk,cmap',VV); % Find interpolated colorvalue
% cm = spline(iqiq,cmap',VViq); % Find interpolated colorvalue
end
cm(cm>1)=1; % Sometimes iterpolation gives values that are out of [0,1] range...
cm(cm<0)=0;
lo=V.lon;
la=V.lat;
if zeroshift
lo=lo-lo(1);
la=la-la(1);
end
%% Find interpolated thickness
iq = spline(iqiq,linspace(minthick,maxthick,10),VViq);
% iq = spline(kk,linspace(0.01,2,10),VV);
iq(iq<0)=minthick;
%%
for ii=1:length(la)-1
if abs(lo(ii+1)-lo(ii))<10 % avoid 0->360 jumps
line([lo(ii) lo(ii+1)],[la(ii) la(ii+1)],'color',cm(:,ii),'LineWidth',iq(ii));
end
end
end
caxis([minV maxV])
end