matlab_class/gcmfaces_IO/prep2nctiles.m


choiceStruct=3;

%===============

if choiceStruct==1;
    structIn=[];
    %
    structIn.vars=mygrid;
    structIn.vars.RF=structIn.vars.RF(1:50);
    %
    structIn.descr={'C-grid parameters (see MITgcm documentation for details).'};
    %
    vars=[]; nv=length(vars)+1;
    vars(nv).fldName='XC'; vars(nv).longName='longitude'; vars(nv).units='degrees_east'; nv=length(vars)+1;
    vars(nv).fldName='YC'; vars(nv).longName='latitude'; vars(nv).units='degrees_north'; nv=length(vars)+1;
    vars(nv).fldName='XG'; vars(nv).longName='longitude'; vars(nv).units='degrees_east'; nv=length(vars)+1;
    vars(nv).fldName='YG'; vars(nv).longName='latitude'; vars(nv).units='degrees_north'; nv=length(vars)+1;
    vars(nv).fldName='RAC'; vars(nv).longName='grid cell area'; vars(nv).units='m^2'; nv=length(vars)+1;
    vars(nv).fldName='RAZ'; vars(nv).longName='grid cell area'; vars(nv).units='m^2'; nv=length(vars)+1;
    vars(nv).fldName='DXC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='DYC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='DXG'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='DYG'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='hFacC'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
    vars(nv).fldName='hFacW'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
    vars(nv).fldName='hFacS'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
    vars(nv).fldName='Depth'; vars(nv).longName='sea floor depth'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='AngleCS'; vars(nv).longName='grid orientation (cosine)'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='AngleSN'; vars(nv).longName='grid orientation (sine)'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='RC'; vars(nv).longName='vertical coordinate'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='RF'; vars(nv).longName='vertical coordinate'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='DRC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    vars(nv).fldName='DRF'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
    %
    structIn.defs=vars;
    %
    struct2nctiles('release1/','GRID',structIn,[90 90]);
end;

%===============

if choiceStruct==2;
    budgName='budgHo'
    
    structIn=[];
    %
    load release1/mat/diags_grid_parms.mat myparms;
    dirMat=['release1/mat/diags_set_' budgName '/']; 
    fileMat=[budgName '_*.mat'];
    structIn.vars=diags_read_from_mat(dirMat,fileMat);

    %vector of time increment
    [listTimes]=diags_list_times({'release1/diags/BUDG/'},{'budg2d_hflux_set1'});
    structIn.vars.dt=diff(listTimes);
    structIn.vars.dt=3600*structIn.vars.dt(1:end-1)';    
    %
    specs=structIn.vars.specs(1);
    if strcmp(specs.units,'W');
        structIn.descr={'Heat budget in extensive form (in Watt, on C-Grid)'};
    elseif strcmp(specs.units,'kg/s');
        structIn.descr={'Mass budget in extensive form (in kg/s, on C-Grid)'};
    elseif strcmp(specs.units,'g/s');
        structIn.descr={'Salt budget in extensive form (in g/s, on C-Grid)'};
    else;
        error('unknown budget');
    end;
    structIn.descr={structIn.descr{:},'between',specs.top,'(top) and',specs.bottom,'(bottom)'};
    %
    vars=[]; nv=length(vars)+1;
    vars(nv).fldName='tend'; vars(nv).longName='tendency term'; vars(nv).units=specs.units; nv=length(vars)+1;
    vars(nv).fldName='trU'; vars(nv).longName='horizontal transport'; vars(nv).units=specs.units; nv=length(vars)+1;
    vars(nv).fldName='trV'; vars(nv).longName='horizontal transport'; vars(nv).units=specs.units; nv=length(vars)+1;
    vars(nv).fldName='trWtop'; vars(nv).longName='vertical transport'; vars(nv).units=specs.units; nv=length(vars)+1;
    vars(nv).fldName='trWbot'; vars(nv).longName='vertical transport'; vars(nv).units=specs.units; nv=length(vars)+1;
    vars(nv).fldName='dt'; vars(nv).longName='time increment'; vars(nv).units='s'; nv=length(vars)+1;
    %
    structIn.defs=vars;
    %
    struct2nctiles('release1/',budgName,structIn,[90 90]);
    
end;

%===============

if choiceStruct==3;

  %budgName='budgHo';

  if budgName(end)=='o'; listFlds={'tend','trU','trV','trWtop'};
  else; listFlds={'tend','trU','trV','trWtop','trWbot'};
  end;

  for ii=1:length(listFlds);
    fldName=listFlds{ii};
    %fldName='trWtop';
    [budgName ' -- ' fldName]

    %directories
    dirIn='r4it11.c65i/';
    dirMat='mat_budg3d/';
    dirOut=fullfile(dirIn,'nctiles_budg',filesep);
    if ~isdir(dirOut); mkdir(dirOut); end;
    dirOut=fullfile(dirOut,budgName,filesep);
    if ~isdir(dirOut); mkdir(dirOut); end;

    %load variable
    eval(['load ' dirIn dirMat 'diags_grid_parms.mat myparms;']);
    dirMat=[dirIn dirMat 'diags_set_' budgName '/'];
    fileMat=[budgName '_*.mat'];
    tic; structIn.vars=diags_read_from_mat(dirMat,fileMat,fldName); toc;

    %time vectors
    [listTimes]=diags_list_times({[dirIn 'diags/BUDG/']},{'budg2d_hflux_set1'});
    structIn.vars.t0=3600*listTimes(1:end-2);
    structIn.vars.t1=3600*listTimes(2:end-1);

    %rename trWtop as trW if adequate
    if strcmp(fldName,'trWtop')&(budgName(end)=='o');
      structIn.vars=setfield(structIn.vars,'trW',structIn.vars.trWtop);
      structIn.vars=rmfield(structIn.vars,'trWtop');
      structIn.vars.listDiags={'trW'};
      fldName='trW';
    end;

    %switch back to upward convention
    if strcmp(fldName(1:3),'trW');
      tmp1=getfield(structIn.vars,fldName);
      structIn.vars=setfield(structIn.vars,fldName,-tmp1);
    end;

    %general description
    tmp1=diags_read_from_mat(dirMat,fileMat,'specs',1);
    specs=tmp1.specs;
    if strcmp(specs.units,'W');
        structIn.descr={'Heat budget in extensive form (in Watt, on C-Grid)'};
    elseif strcmp(specs.units,'kg/s');
        structIn.descr={'Mass budget in extensive form (in kg/s, on C-Grid)'};
    elseif strcmp(specs.units,'g/s');
        structIn.descr={'Salt budget in extensive form (in g/s, on C-Grid)'};
    else;
        error('unknown budget');
    end;

    %variables description
    vars=[]; nv=length(vars)+1;
    vars(nv).fldName=fldName; vars(nv).units=specs.units;
    switch fldName;
    case 'tend'; vars(nv).longName='tendency term';
    case 'trU'; vars(nv).longName='horizontal transport (U)';
    case 'trV'; vars(nv).longName='horizontal transport (V)';
    case 'trW'; vars(nv).longName='upward vertical transport (W)';
    case 'trWtop'; vars(nv).longName='upward vertical transport (W)';
    case 'trWbot'; vars(nv).longName='upward vertical transport (W)';
    end;
    nv=length(vars)+1;
    vars(nv).fldName='t0'; vars(nv).longName='initial time'; vars(nv).units='s'; nv=length(vars)+1;
    vars(nv).fldName='t1'; vars(nv).longName='final time'; vars(nv).units='s'; nv=length(vars)+1;
    %
    structIn.defs=vars;

    %create file
    tic; struct2nctiles(dirIn,fldName,structIn,[90 90]); toc;
    eval(['!mv ' pwd filesep dirIn filesep 'tmp_nctiles' filesep fldName ' ' pwd filesep dirOut]);

  end;%for fldName=listFlds;

end;

1
2	choiceStruct=3;
3
4	%===============
5
6	if choiceStruct==1;
7	structIn=[];
8	%
9	structIn.vars=mygrid;
10	structIn.vars.RF=structIn.vars.RF(1:50);
11	%
12	structIn.descr={'C-grid parameters (see MITgcm documentation for details).'};
13	%
14	vars=[]; nv=length(vars)+1;
15	vars(nv).fldName='XC'; vars(nv).longName='longitude'; vars(nv).units='degrees_east'; nv=length(vars)+1;
16	vars(nv).fldName='YC'; vars(nv).longName='latitude'; vars(nv).units='degrees_north'; nv=length(vars)+1;
17	vars(nv).fldName='XG'; vars(nv).longName='longitude'; vars(nv).units='degrees_east'; nv=length(vars)+1;
18	vars(nv).fldName='YG'; vars(nv).longName='latitude'; vars(nv).units='degrees_north'; nv=length(vars)+1;
19	vars(nv).fldName='RAC'; vars(nv).longName='grid cell area'; vars(nv).units='m^2'; nv=length(vars)+1;
20	vars(nv).fldName='RAZ'; vars(nv).longName='grid cell area'; vars(nv).units='m^2'; nv=length(vars)+1;
21	vars(nv).fldName='DXC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
22	vars(nv).fldName='DYC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
23	vars(nv).fldName='DXG'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
24	vars(nv).fldName='DYG'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
25	vars(nv).fldName='hFacC'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
26	vars(nv).fldName='hFacW'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
27	vars(nv).fldName='hFacS'; vars(nv).longName='fractional thickness'; vars(nv).units='1'; nv=length(vars)+1;
28	vars(nv).fldName='Depth'; vars(nv).longName='sea floor depth'; vars(nv).units='m'; nv=length(vars)+1;
29	vars(nv).fldName='AngleCS'; vars(nv).longName='grid orientation (cosine)'; vars(nv).units='m'; nv=length(vars)+1;
30	vars(nv).fldName='AngleSN'; vars(nv).longName='grid orientation (sine)'; vars(nv).units='m'; nv=length(vars)+1;
31	vars(nv).fldName='RC'; vars(nv).longName='vertical coordinate'; vars(nv).units='m'; nv=length(vars)+1;
32	vars(nv).fldName='RF'; vars(nv).longName='vertical coordinate'; vars(nv).units='m'; nv=length(vars)+1;
33	vars(nv).fldName='DRC'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
34	vars(nv).fldName='DRF'; vars(nv).longName='grid spacing'; vars(nv).units='m'; nv=length(vars)+1;
35	%
36	structIn.defs=vars;
37	%
38	struct2nctiles('release1/','GRID',structIn,[90 90]);
39	end;
40
41	%===============
42
43	if choiceStruct==2;
44	budgName='budgHo'
45
46	structIn=[];
47	%
48	load release1/mat/diags_grid_parms.mat myparms;
49	dirMat=['release1/mat/diags_set_' budgName '/'];
50	fileMat=[budgName '_*.mat'];
51	structIn.vars=diags_read_from_mat(dirMat,fileMat);
52
53	%vector of time increment
54	[listTimes]=diags_list_times({'release1/diags/BUDG/'},{'budg2d_hflux_set1'});
55	structIn.vars.dt=diff(listTimes);
56	structIn.vars.dt=3600*structIn.vars.dt(1:end-1)';
57	%
58	specs=structIn.vars.specs(1);
59	if strcmp(specs.units,'W');
60	structIn.descr={'Heat budget in extensive form (in Watt, on C-Grid)'};
61	elseif strcmp(specs.units,'kg/s');
62	structIn.descr={'Mass budget in extensive form (in kg/s, on C-Grid)'};
63	elseif strcmp(specs.units,'g/s');
64	structIn.descr={'Salt budget in extensive form (in g/s, on C-Grid)'};
65	else;
66	error('unknown budget');
67	end;
68	structIn.descr={structIn.descr{:},'between',specs.top,'(top) and',specs.bottom,'(bottom)'};
69	%
70	vars=[]; nv=length(vars)+1;
71	vars(nv).fldName='tend'; vars(nv).longName='tendency term'; vars(nv).units=specs.units; nv=length(vars)+1;
72	vars(nv).fldName='trU'; vars(nv).longName='horizontal transport'; vars(nv).units=specs.units; nv=length(vars)+1;
73	vars(nv).fldName='trV'; vars(nv).longName='horizontal transport'; vars(nv).units=specs.units; nv=length(vars)+1;
74	vars(nv).fldName='trWtop'; vars(nv).longName='vertical transport'; vars(nv).units=specs.units; nv=length(vars)+1;
75	vars(nv).fldName='trWbot'; vars(nv).longName='vertical transport'; vars(nv).units=specs.units; nv=length(vars)+1;
76	vars(nv).fldName='dt'; vars(nv).longName='time increment'; vars(nv).units='s'; nv=length(vars)+1;
77	%
78	structIn.defs=vars;
79	%
80	struct2nctiles('release1/',budgName,structIn,[90 90]);
81
82	end;
83
84	%===============
85
86	if choiceStruct==3;
87
88	%budgName='budgHo';
89
90	if budgName(end)=='o'; listFlds={'tend','trU','trV','trWtop'};
91	else; listFlds={'tend','trU','trV','trWtop','trWbot'};
92	end;
93
94	for ii=1:length(listFlds);
95	fldName=listFlds{ii};
96	%fldName='trWtop';
97	[budgName ' -- ' fldName]
98
99	%directories
100	dirIn='r4it11.c65i/';
101	dirMat='mat_budg3d/';
102	dirOut=fullfile(dirIn,'nctiles_budg',filesep);
103	if ~isdir(dirOut); mkdir(dirOut); end;
104	dirOut=fullfile(dirOut,budgName,filesep);
105	if ~isdir(dirOut); mkdir(dirOut); end;
106
107	%load variable
108	eval(['load ' dirIn dirMat 'diags_grid_parms.mat myparms;']);
109	dirMat=[dirIn dirMat 'diags_set_' budgName '/'];
110	fileMat=[budgName '_*.mat'];
111	tic; structIn.vars=diags_read_from_mat(dirMat,fileMat,fldName); toc;
112
113	%time vectors
114	[listTimes]=diags_list_times({[dirIn 'diags/BUDG/']},{'budg2d_hflux_set1'});
115	structIn.vars.t0=3600*listTimes(1:end-2);
116	structIn.vars.t1=3600*listTimes(2:end-1);
117
118	%rename trWtop as trW if adequate
119	if strcmp(fldName,'trWtop')&(budgName(end)=='o');
120	structIn.vars=setfield(structIn.vars,'trW',structIn.vars.trWtop);
121	structIn.vars=rmfield(structIn.vars,'trWtop');
122	structIn.vars.listDiags={'trW'};
123	fldName='trW';
124	end;
125
126	%switch back to upward convention
127	if strcmp(fldName(1:3),'trW');
128	tmp1=getfield(structIn.vars,fldName);
129	structIn.vars=setfield(structIn.vars,fldName,-tmp1);
130	end;
131
132	%general description
133	tmp1=diags_read_from_mat(dirMat,fileMat,'specs',1);
134	specs=tmp1.specs;
135	if strcmp(specs.units,'W');
136	structIn.descr={'Heat budget in extensive form (in Watt, on C-Grid)'};
137	elseif strcmp(specs.units,'kg/s');
138	structIn.descr={'Mass budget in extensive form (in kg/s, on C-Grid)'};
139	elseif strcmp(specs.units,'g/s');
140	structIn.descr={'Salt budget in extensive form (in g/s, on C-Grid)'};
141	else;
142	error('unknown budget');
143	end;
144
145	%variables description
146	vars=[]; nv=length(vars)+1;
147	vars(nv).fldName=fldName; vars(nv).units=specs.units;
148	switch fldName;
149	case 'tend'; vars(nv).longName='tendency term';
150	case 'trU'; vars(nv).longName='horizontal transport (U)';
151	case 'trV'; vars(nv).longName='horizontal transport (V)';
152	case 'trW'; vars(nv).longName='upward vertical transport (W)';
153	case 'trWtop'; vars(nv).longName='upward vertical transport (W)';
154	case 'trWbot'; vars(nv).longName='upward vertical transport (W)';
155	end;
156	nv=length(vars)+1;
157	vars(nv).fldName='t0'; vars(nv).longName='initial time'; vars(nv).units='s'; nv=length(vars)+1;
158	vars(nv).fldName='t1'; vars(nv).longName='final time'; vars(nv).units='s'; nv=length(vars)+1;
159	%
160	structIn.defs=vars;
161
162	%create file
163	tic; struct2nctiles(dirIn,fldName,structIn,[90 90]); toc;
164	eval(['!mv ' pwd filesep dirIn filesep 'tmp_nctiles' filesep fldName ' ' pwd filesep dirOut]);
165
166	end;%for fldName=listFlds;
167
168	end;
169