/
sub09HOMEedit.m
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sub09HOMEedit.m
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function sub09_trackstuff
load S09main II DD T
try
load trackinit
catch me
disp(me.message)
trackinit(DD);
end
%%
senses=DD.FieldKeys.senses;
catsen=@(f) [TR.(senses{1}).cats.(f) TR.(senses{2}).cats.(f) ];
t2l=@(t) linspace(t(1),t(2),t(3));
%%
rad=catsen('radiusmean')/1000;
U =catsen('U')*100;
age=catsen('age');
lat=abs(catsen('lat'));
%%
rightyscalenum=5;
age(end+1:end+rightyscalenum)=max(age)-0;
lat(end+1:end+rightyscalenum)=t2l([min(lat) max(lat) rightyscalenum]);
rad(end+1:end+rightyscalenum)=t2l([min(rad) max(rad) rightyscalenum]);
U(end+1:end+rightyscalenum)=10;
%%
[~,sml2lrg] = (sort(rad)) ;
age=age(fliplr(sml2lrg));
lat=lat(fliplr(sml2lrg));
rad=rad(fliplr(sml2lrg));
U=U(fliplr(sml2lrg));
%%
zerage = age<=0 ;
age(zerage)=[];
lat(zerage)=[];
rad(zerage)=[];
U(zerage)=[];
%%
clf
hs=scatter(age,lat,rad,U);
axis tight
set(gca,'XAxisLocation','bottom')
set(gca,...
'ytick',t2l(T.lat),...
'xtick',t2l(T.age));
cb=colorbar;
cb1 = findobj(gcf,'Type','axes','Tag','Colorbar');
cbIm = findobj(cb1,'Type','image');
alpha(cbIm,0.5)
set(cb,'location','north','xtick',t2l(T.vel),'xlim',T.vel([1 2]))
doublemap([T.vel(1) 0 T.vel(2)],II.aut,II.win,[.9 1 .9],20)
h1=gca;
h1pos = get(h1,'Position'); % store position of first axes
h2 = axes('Position',h1pos,...
'XAxisLocation','top',...
'YAxisLocation','right',...
'Color','none',...
'ytick',linspace(0,1,rightyscalenum),...
'xtick',[],...
'yticklabel',round(t2l([min(rad) max(rad) rightyscalenum])));
ylabel(h2,'radius [km]')
ylabel(h1,'lat [{\circ}]')
xlabel(h1,'age [d]')
xlabel(h2,'zon. vel. [cm/s]')
set(get(gcf,'children'),'clipping','off')
set(get(hs,'children'),'clipping','off')
savefig(DD.path.plots,T.rez,T.width,T.height,['sct-ageLatRadU'],'dpdf');
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function trackinit(DD)
tsenses=fieldnames(DD.path.analyzedTracks)';
senses=DD.FieldKeys.senses;
lims2array=@(lims) lims(labindex,1):lims(labindex,2);
ss=2
tsen=tsenses{ss};
sen = senses{ss};
root=DD.path.analyzedTracks.(tsen).name;
eds= DD.path.analyzedTracks.(tsen).files;
tsen=tsenses{1};
rootB=DD.path.analyzedTracks.(tsen).name;
eds=dir([root '*.mat'])
getfirst=@(x) x(1);
%%
figure(10)
for ss= 3:1:numel(eds)
% SI(ss)=load([root eds(ss).name]);
% S=SI(ss);
% x=S.age*24*60*60;
% y=cumsum(S.distInM);
% STD(ss)=std(S.distInM);
% lat(ss)=mean(S.lat);
% ym(ss)=max(S.distInM);
% p=polyfit(x,y,1);
% u(ss)=p(1);
% [~,R(ss)]=(polyfit(x,y,1));
% [Y,delta] = polyval(p,x,R(ss));
% delt(ss)=mean(delta);
%
% % hold on
% % plot(x,y,'r',x,Y)
% len(ss)=numel(x);
% % ra(ss)=(nanmean(S.peakampto_ellipse)) ;
% ra(ss)=(nanmean(S.radiusmean )) ;
if max(abs(SI(ss).distInM))>1e6
ss
end
end
sibug
for si=1:7
y=extractdeepfield(sibug(si).eddy.trck,'geo.lat')
x=extractdeepfield(sibug(si).eddy.trck,'geo.lon')
hold on
plot(x,y,'*','color',rand(1,3))
end
%%
ra=ra-min(ra);
ra=ra/max(ra)
%%
figure(1)
clf
takes=3:1:numel(u)
scatter(abs(u(takes)),abs(lat(takes)),(ra(takes)).^2*100,len(takes))
set(gca,'xlim',[-.1 .5])
colorbar
set(gca,'clim',[10 50])
%%
figure(2)
clf
takes=3:1:numel(u)
scatter(len(takes),abs(lat(takes)),abs(u(takes))*300,(STD(takes)))
set(gca,'xlim',[-.1 .5])
colorbar
axis tight
end