high_res_cube/eddy_flux/Commands.m


% Load grids
xcs=rdmds(fullfile(inputDirPath,'XC'));
ycs=rdmds(fullfile(inputDirPath,'YC')); 
xcg=rdmds(fullfile(inputDirPath,'XG'));
ycg=rdmds(fullfile(inputDirPath,'YG'));
x=rdmds(fullfile(inputDirPath,'XC'));
y=rdmds(fullfile(inputDirPath,'YC'));

% Load data
t=rdmds(fullfile(inputDirPath,'Ttave'),NaN);
s=rdmds(fullfile(inputDirPath,'Stave'),NaN);

% Plot temperature
figure(1)
shift=-1;
c1=-2;
c2=30;

grph_CS(sq(t(:,:,1)),xcs,ycs,xcg,ycg,c1,c2,shift)
title('Annual average surface temperature (C)');

% Plot salinity
figure(2)
shift=-1;
c1=25;
c2=40;

grph_CS(sq(s(:,:,1)),xcs,ycs,xcg,ycg,c1,c2,shift)
title('Annual average surface salinity ');


%=======================  EH3  =======================

clear all, close all
tx = 85;
ty = 85;
nt = 216;
cx = 510;
cy = 510;
nz = 1;
%  XCS
phi = readbin('XC.data',[tx*nt,ty,nz]);
foo
%%for i = 1:6
%%  surf(te(:,:,i)), view(2), shading interp
%%  pause(1)
%%end
xcs = zeros(6*510,510);
for i = 1:6
  xb = (i-1)*510 + 1;  xe = xb + 510 - 1;
  yb = 1;              ye = 510;
  xcs(xb:xe,yb:ye) = te(:,:,i);
end
xcs = xcs + -360.0*(xcs > 180.0);
clear phi te
%%surf(xcs(:,:)'), view(2), axis equal, shading interp

%  YCS
phi = readbin('YC.data',[tx*nt,ty,nz]);
foo
ycs = zeros(6*510,510);
for i = 1:6
  xb = (i-1)*510 + 1;  xe = xb + 510 - 1;
  yb = 1;              ye = 510;
  ycs(xb:xe,yb:ye) = te(:,:,i);
end
%%ycs = ycs + -360.0*(ycs > 180.0);
%%surf(ycs(:,:)'), view(2), axis equal, shading interp

%  XGS
phi = readbin('XG.data',[tx*nt,ty,nz]);
foo
xgs = zeros(6*510,510);
for i = 1:6
  xb = (i-1)*510 + 1;  xe = xb + 510 - 1;
  yb = 1;              ye = 510;
  xgs(xb:xe,yb:ye) = te(:,:,i);
end
xgs = xgs + -360.0*(xgs > 180.0);
%%surf(xgs(:,:)'), view(2), axis equal, shading interp

%  YGS
phi = readbin('YG.data',[tx*nt,ty,nz]);
foo
ygs = zeros(6*510,510);
for i = 1:6
  xb = (i-1)*510 + 1;  xe = xb + 510 - 1;
  yb = 1;              ye = 510;
  ygs(xb:xe,yb:ye) = te(:,:,i);
end
%%ygs = ygs + -360.0*(ygs > 180.0);
%%surf(ygs(:,:)'), view(2), axis equal, shading interp
clear phi te

[ min(min(xcs)) max(max(xcs)) ; ...
  min(min(ycs)) max(max(ycs)) ; ...
  min(min(xgs)) max(max(xgs)) ; ...
  min(min(ygs)) max(max(ygs)) ; ...
]

%  ave-1995
%
phi = readbin('Tave-1995',[tx*nt,ty,nz]);
foo
%%for i = 1:6
%%  surf(te(:,:,i)), view(2), shading interp
%%  pause(2)
%%end
ta1995 = zeros(6*510,510);
for i = 1:6
  xb = (i-1)*510 + 1;  xe = xb + 510 - 1;
  yb = 1;              ye = 510;
  ta1995(xb:xe,yb:ye) = te(:,:,i);
end
clear phi te
%%surf(ta1995(:,:)'), view(2), axis equal, shading interp


%  Plot using "grph_CS"

shift=-1;
c1=0;
c2=0;
grph_CS(sq(ta1995),xcs,ycs,xgs,ygs,c1,c2,shift)
grph_CS(sq(ta1995),xcs,ycs,xgs,ygs,-2,32,shift)
1	edhill	1.1
2			% Load grids
3			xcs=rdmds(fullfile(inputDirPath,'XC'));
4			ycs=rdmds(fullfile(inputDirPath,'YC'));
5			xcg=rdmds(fullfile(inputDirPath,'XG'));
6			ycg=rdmds(fullfile(inputDirPath,'YG'));
7			x=rdmds(fullfile(inputDirPath,'XC'));
8			y=rdmds(fullfile(inputDirPath,'YC'));
9
10			% Load data
11			t=rdmds(fullfile(inputDirPath,'Ttave'),NaN);
12			s=rdmds(fullfile(inputDirPath,'Stave'),NaN);
13
14			% Plot temperature
15			figure(1)
16			shift=-1;
17			c1=-2;
18			c2=30;
19
20			grph_CS(sq(t(:,:,1)),xcs,ycs,xcg,ycg,c1,c2,shift)
21			title('Annual average surface temperature (C)');
22
23			% Plot salinity
24			figure(2)
25			shift=-1;
26			c1=25;
27			c2=40;
28
29			grph_CS(sq(s(:,:,1)),xcs,ycs,xcg,ycg,c1,c2,shift)
30			title('Annual average surface salinity ');
31
32
33			%======================= EH3 =======================
34
35			clear all, close all
36			tx = 85;
37			ty = 85;
38			nt = 216;
39			cx = 510;
40			cy = 510;
41			nz = 1;
42			% XCS
43			phi = readbin('XC.data',[tx*nt,ty,nz]);
44			foo
45			%%for i = 1:6
46			%% surf(te(:,:,i)), view(2), shading interp
47			%% pause(1)
48			%%end
49			xcs = zeros(6*510,510);
50			for i = 1:6
51			xb = (i-1)*510 + 1; xe = xb + 510 - 1;
52			yb = 1; ye = 510;
53			xcs(xb:xe,yb:ye) = te(:,:,i);
54			end
55			xcs = xcs + -360.0*(xcs > 180.0);
56			clear phi te
57			%%surf(xcs(:,:)'), view(2), axis equal, shading interp
58
59			% YCS
60			phi = readbin('YC.data',[tx*nt,ty,nz]);
61			foo
62			ycs = zeros(6*510,510);
63			for i = 1:6
64			xb = (i-1)*510 + 1; xe = xb + 510 - 1;
65			yb = 1; ye = 510;
66			ycs(xb:xe,yb:ye) = te(:,:,i);
67			end
68			%%ycs = ycs + -360.0*(ycs > 180.0);
69			%%surf(ycs(:,:)'), view(2), axis equal, shading interp
70
71			% XGS
72			phi = readbin('XG.data',[tx*nt,ty,nz]);
73			foo
74			xgs = zeros(6*510,510);
75			for i = 1:6
76			xb = (i-1)*510 + 1; xe = xb + 510 - 1;
77			yb = 1; ye = 510;
78			xgs(xb:xe,yb:ye) = te(:,:,i);
79			end
80			xgs = xgs + -360.0*(xgs > 180.0);
81			%%surf(xgs(:,:)'), view(2), axis equal, shading interp
82
83			% YGS
84			phi = readbin('YG.data',[tx*nt,ty,nz]);
85			foo
86			ygs = zeros(6*510,510);
87			for i = 1:6
88			xb = (i-1)*510 + 1; xe = xb + 510 - 1;
89			yb = 1; ye = 510;
90			ygs(xb:xe,yb:ye) = te(:,:,i);
91			end
92			%%ygs = ygs + -360.0*(ygs > 180.0);
93			%%surf(ygs(:,:)'), view(2), axis equal, shading interp
94			clear phi te
95
96			[ min(min(xcs)) max(max(xcs)) ; ...
97			min(min(ycs)) max(max(ycs)) ; ...
98			min(min(xgs)) max(max(xgs)) ; ...
99			min(min(ygs)) max(max(ygs)) ; ...
100			]
101
102			% ave-1995
103			%
104			phi = readbin('Tave-1995',[tx*nt,ty,nz]);
105			foo
106			%%for i = 1:6
107			%% surf(te(:,:,i)), view(2), shading interp
108			%% pause(2)
109			%%end
110			ta1995 = zeros(6*510,510);
111			for i = 1:6
112			xb = (i-1)*510 + 1; xe = xb + 510 - 1;
113			yb = 1; ye = 510;
114			ta1995(xb:xe,yb:ye) = te(:,:,i);
115			end
116			clear phi te
117			%%surf(ta1995(:,:)'), view(2), axis equal, shading interp
118
119
120
121			% Plot using "grph_CS"
122
123			shift=-1;
124			c1=0;
125			c2=0;
126			grph_CS(sq(ta1995),xcs,ycs,xgs,ygs,c1,c2,shift)
127			grph_CS(sq(ta1995),xcs,ycs,xgs,ygs,-2,32,shift)