1 |
prefix='dynStD'; |
2 |
%prefix='oceStD'; |
3 |
pCoords=0; |
4 |
namA='c06'; |
5 |
Nexp=1; Nc=size(namA,2); |
6 |
nAvr=1; |
7 |
%- to plot annual mean instead of 10.d aver: |
8 |
%nAvr=36; |
9 |
%-- |
10 |
|
11 |
% $Header: /u/gcmpack/MITgcm_contrib/jmc_script/plot_StD.m,v 1.4 2015/03/05 20:57:26 jmc Exp $ |
12 |
% $Name: $ |
13 |
|
14 |
nItMx=1e10*ones(1,Nexp); %nItMx(3)=11; |
15 |
%nItMx=60*ones(1,Nexp); |
16 |
namLg=namA ; namLg=strrep(namLg,'_','\_'); |
17 |
undef=123456.7; |
18 |
%----------- |
19 |
%- test if the variable krd is define : |
20 |
if size(who('krd'),1) > 0, |
21 |
fprintf('krd is defined and = %i \n',krd); |
22 |
else |
23 |
fprintf('krd undefined ; set to 1 \n'); krd=1 ; |
24 |
end |
25 |
if krd > 0, |
26 |
%- define list of fields to read in: |
27 |
%listV={'Eta','U','V','W','T','S','DETADT2','RELHUM','Phi'}; |
28 |
%listV={'Eta','U','V','W','T','S','CONVADJ','DETADT2'}; |
29 |
%listV={'Eta','UE_VEL_C','VN_VEL_C','W','T','DETADT2','Phi'}; |
30 |
%- or take all them: |
31 |
clear listV ; listV='all_flds'; |
32 |
%----------- |
33 |
|
34 |
%- start to read the longest record: |
35 |
n=1; rf=-1; if strcmp(char(listV),'all_flds'), rf=0; end |
36 |
[ntA(n),rList,tim,vv1,listV,kList] = ... |
37 |
read_StD(prefix,namA(n,:),listV); |
38 |
nIt=ntA(n); nk=size(vv1,1); nRg=size(vv1,3); |
39 |
vv1(find(vv1==undef))=NaN; |
40 |
%- set global dims: & load vvA --> vvB |
41 |
nbV=size(listV,2); |
42 |
nrec=nIt; n3d=nk; nReg=nRg; |
43 |
vvA=zeros(n3d,nrec,nReg,5,nbV,Nexp); tiA=zeros(nrec,2,Nexp); |
44 |
vvA(1:nk,1:nIt,1:nRg,:,:,n)=vv1; tiA(1:nIt,:,n)=tim; |
45 |
%---- |
46 |
for n=2:Nexp, |
47 |
[ntA(n),rList,tim,vv1,listV] = ... |
48 |
read_StD(prefix,namA(n,:),listV); |
49 |
nIt=ntA(n); nk=size(vv1,1); nRg=size(vv1,3); |
50 |
vv1(find(vv1==undef))=NaN; |
51 |
if (nrec < nIt), |
52 |
fprintf('\n'); |
53 |
error([' Nb of records=',int2str(nIt),' exceeds nrec=',int2str(nrec)]); |
54 |
end |
55 |
if (n3d < nk), |
56 |
fprintf('\n'); |
57 |
error([' Nb of Levels=',int2str(nk),' exceeds n3d=',int2str(n3d)]); |
58 |
end |
59 |
vvA(1:nk,1:nIt,1:nRg,:,:,n)=vv1; tiA(1:nIt,:,n)=tim; |
60 |
end; |
61 |
if krd == 2, |
62 |
fprintf('save to "sav_StD.mat" file ...'); |
63 |
save('sav_StD.mat','vvA','tiA','ntA','rList','listV'); |
64 |
fprintf(' done\n') |
65 |
end |
66 |
elseif krd < 0, |
67 |
fprintf('load from "sav_StD.mat" file ...'); |
68 |
load sav_StD |
69 |
fprintf(' done\n'); nbV=size(listV,2); |
70 |
end |
71 |
if krd ~= 0, |
72 |
ttA=squeeze(tiA(:,2,:)); |
73 |
ttA=ttA/3600; titT='hrs'; ttA=ttA/24 ; titT='days'; |
74 |
ttA=ttA/30 ; titT='month'; ttA=ttA/12 ; titT='year'; |
75 |
%- change to plot annual mean: |
76 |
if nAvr > 1 & rem(nrec,nAvr)==0, |
77 |
nrec=nrec/nAvr; ntA=ntA/nAvr; |
78 |
vvA=reshape( vvA,[n3d nAvr nrec nReg 5 nbV Nexp]); |
79 |
vvA=reshape(mean(vvA,2),[n3d nrec nReg 5 nbV Nexp]); |
80 |
ttA=reshape( ttA,[nAvr nrec Nexp]); |
81 |
ttA=reshape(mean(ttA,1),[nrec Nexp]); |
82 |
end |
83 |
end |
84 |
%========================================================= |
85 |
|
86 |
ttax1=0 ; ttax2=0 ; ttay=zeros(nbV,2); |
87 |
%-- fixed time axis bound : |
88 |
% ttax1=15.; ttax2=20.; |
89 |
%-- fixed Y axis bound : |
90 |
% ttay(4,:)=[0 0.6]; |
91 |
%----------- |
92 |
fprintf('Total length: ntA=');fprintf(' %i ,',ntA); fprintf(' \n'); |
93 |
for n=1:Nexp, |
94 |
fprintf(' exp %i : time(d):%10.2f ->%10.2f \n', n,ttA(1,n),ttA(ntA(n),n) ); |
95 |
end; |
96 |
%- |
97 |
|
98 |
list_on=zeros(1,nbV); |
99 |
nbG=10; |
100 |
nbG=min(nbG,nbV); list_on(1:nbG)=1 ; |
101 |
%list_on(1:6)=[1 1 1 1 1 1]; |
102 |
%list_on(5:7)=0; |
103 |
|
104 |
isA=ones(1,Nexp); ieA=ntA; |
105 |
%- limit the length : for search of isA <->1500y: find(ttA(:,2) == 1500) |
106 |
%isA=isA*3 ; % drop the 1rst mnth (1 Monitor/10.d) |
107 |
%ieA(:)=360; isA(:)=1; |
108 |
|
109 |
linA(1,:)='k-'; % ieA(1)=60 ; % ieA(1)=1152 ; |
110 |
linA(2,:)='b-'; |
111 |
linA(3,:)='r-'; |
112 |
linA(4,:)='g-'; |
113 |
linA(5,:)='m-'; |
114 |
linA(6,:)='c-'; |
115 |
|
116 |
ieA=min(ieA,nItMx); |
117 |
titall=['Exp: ',namLg(1,:)]; |
118 |
|
119 |
%========================================================= |
120 |
|
121 |
%-default: dxRed=0; dyRed=0; dxB=0.1; dyB=0.9; |
122 |
dxRed=0; dyRed=0.03; dxB=0.02; dyB=0.9; |
123 |
[xyP,xyB]=def_subP(-4,dxRed,dyRed,dxB,dyB); |
124 |
xyP(:,2)=xyP(:,2)+0.010; |
125 |
xyB(:,2)=xyB(:,2)+0.010; |
126 |
|
127 |
fxb=100; fyb=60; |
128 |
%fxb=-2600; fyb=160; %fxb=100; |
129 |
|
130 |
for ng=1:nbV, |
131 |
%------------------- |
132 |
yax=[1:nk-1]; if pCoords == 0, yax=-[1:nk-1]; end |
133 |
flag=list_on(ng); |
134 |
vv1=vvA(:,:,:,:,ng,:); namV=char(listV(ng)); |
135 |
titv=strrep(namV,'_','\_'); |
136 |
if strcmp(namV,'Eta') & pCoords == 1, vv1=vv1/100; titv='Eta [mb]'; end |
137 |
if strcmp(namV,'T') & pCoords == 1, |
138 |
namfil=['../res_',namA(1:end),'/RC']; D=dir([namfil,'.data']); |
139 |
if size(D,1) == 1, |
140 |
rC=rdmds(namfil); |
141 |
fprintf(' convert Pot.Temp to Temp.:'); |
142 |
% fprintf(' convert Pot.Temp to Temp.:'); fprintf(' %i',size(vv1)); |
143 |
kappa=2/7; facP=squeeze(rC)/1.e+5; facP=facP.^kappa; |
144 |
var=facP*ones(1,nrec*4*Nexp); var=reshape(var,[nk-1 nrec 1 4 Nexp]); |
145 |
vv1([2:nk],:,1,[1:4],:)=vv1([2:nk],:,1,[1:4],:).*var; |
146 |
% for k=2:nk, vv1(k,:,1,[1:4],:)=vv1(k,:,1,[1:4],:)*facP(k-1); end |
147 |
fprintf(' OK\n'); |
148 |
else |
149 |
fprintf(' no file: %s\n',namfil); |
150 |
end |
151 |
end |
152 |
|
153 |
if flag == 1 |
154 |
%-- |
155 |
figure(ng); set(ng,'position',[fxb+100*ng fyb+40*ng 500 700]);clf; |
156 |
colormap jet |
157 |
if kList(ng) == 1, |
158 |
var=squeeze(vv1(1,:,1,:,:)); |
159 |
dd=squeeze(max(var)-min(var)); av=squeeze(mean(var)); |
160 |
if Nexp == 1, av=av'; dd=dd'; end ; |
161 |
for nv=1:4, |
162 |
axes('position',xyP(nv,:)); ttmn=' Mx-mn:'; ttav=' Av:'; |
163 |
for n=1:Nexp, |
164 |
plot(ttA(isA(n):ieA(n),n),var(isA(n):ieA(n),nv,n),linA(n,:)); |
165 |
if n == 1, hold on ; end ; |
166 |
ttmn=sprintf([ttmn,' %2.1e ;'],dd(nv,n)); |
167 |
ttav=sprintf([ttav,' %3.2e ;'],av(nv,n)); |
168 |
end ; hold off ; |
169 |
AA=axis ; dAA=AA(4)-AA(3); |
170 |
if AA(3)*AA(4) <= 0, AA(3)=min(AA(3),-dAA/10); AA(4)=max(AA(4),dAA/10); end |
171 |
if ttax1 < ttax2, AA(1)=ttax1; AA(2)=ttax2; end; |
172 |
axis(AA); grid ; |
173 |
if nv == 1, title(['Avr ',titv,' ',ttmn]); xlabel(titT); end |
174 |
if nv == 2, title(['Std-Dev ',titv,' ',ttav]); end |
175 |
if nv == 3, title(['min ',titv,' ',ttav]); legend(namLg(1:Nexp,:),0); end |
176 |
if nv == 4, title(['Max ',titv,' ',ttav]); end |
177 |
%if nv == 2, title(['Del-2 ',titv,' ',ttav]); end |
178 |
end ; %xlabel(titT); |
179 |
else |
180 |
n=1; k1=2; |
181 |
if strcmp(namV,'CONVADJ') || strcmp(namV,'DRHODR'), |
182 |
k1=3; yax=yax(2:nk-1); |
183 |
end |
184 |
for nv=1:4, |
185 |
axes('position',xyP(nv,:)); |
186 |
var=squeeze(vv1(k1:nk,:,1,nv,n))'; mnV=min(var(:)); MxV=max(var(:)); |
187 |
ccv=c_levs(mnV,MxV,-12); %ccv=c_levs(mnV,MxV,-20); |
188 |
if MxV > mnV, |
189 |
[cs,h]=contour(ttA(isA(n):ieA(n),n),yax,var(isA(n):ieA(n),:)',ccv); |
190 |
%clabel(cs);isoline0(h); |
191 |
BB=colorbar; set(BB,'Position',xyB(nv,:)); |
192 |
end |
193 |
if nv == 1, title(['Avr ',titv]); xlabel(titT); end |
194 |
if nv == 2, title(['Std-Dev ',titv]); end |
195 |
if nv == 3, title(['min ',titv]); ; end |
196 |
if nv == 4, title(['Max ',titv]); end |
197 |
AA=axis; dAA=AA(4)-AA(3); |
198 |
ttmn=sprintf('mn= %4.3g , Mx= %4.3g',mnV,MxV); |
199 |
text(AA(1)*.4+AA(2)*.6,AA(3)-0.20*dAA,ttmn); |
200 |
end ; %xlabel(titT); |
201 |
end |
202 |
%-- |
203 |
axes('position',[.01,.01,.99,.99],'Visible','off'); |
204 |
T=text(0.2,0.98,titall); |
205 |
set(T,'HorizontalAlignment','center','FontSize',12); |
206 |
Td=text(0.01,0.01,date); |
207 |
set(Td,'HorizontalAlignment','left','FontSize',6); |
208 |
%--- |
209 |
end |
210 |
|
211 |
%------------------- |
212 |
end |
213 |
|
214 |
%========================================================= |