Diagnostics/DiagUtility/rdmnc_mod.m

function [S] = rdmnc_mod(varargin)
% S=RDMNC(FILE1,FILE2,...)
% S=RDMNC(FILE1,...,ITER)
% S=RDMNC(FILE1,...,'VAR1','VAR2',...)
% S=RDMNC(FILE1,...,'VAR1','VAR2',...,ITER)
%
%  FILE1 ... is either a single file name (e.g. 'state.nc') or a wild-card
%        strings expanding to a group of file names (e.g. 'state.*.nc').
%        There are no assumptions about suffices (e.g. 'state.*' works)
%  VAR1 ... are model variable names as written in the MNC/netcdf file
%  ITER  is a vector of time levels (consecutive indices referring to snap-shot
%        in the MNC/netcdf file i.e. 1,2,3,... and not model time)
%  S     is a structure with mutliple fields
%
% rdmnc() is a rudimentary wrapper for joining and reading netcdf files
% produced by MITgcm.  It does not give the same flexibility as opening the
% netcdf files directly using netcdf(). It is useful for quick loading of
% entire model fields which are distributed in multiple netcdf files.
% rdmnc() also reads non-MITgcm generated netcdf files.
%
% e.g. To plot the surface temperature in last time-level written to file
% >> S=rdmnd('state.*','XC','YC','RC','T',Inf);
% >> imagesc( S.XC, S.YC, S.T(:,:,1)' );
%
% $Header: /u/gcmpack/MITgcm/utils/matlab/rdmnc.m,v 1.1 2004/03/08 16:45:56 adcroft Exp $

%Defaults
global verbose
file={};
filepaths={};
files={};
verbose=0;
varlist={};
timelevels=[];

% Process function arguments
for iarg=1:nargin;
    arg=varargin{iarg};
    if ischar(arg)
        switch char(arg)
        case 'verbose',
            verbose=1;
        otherwise,
            if isempty( dir(char(arg)) )
                varlist{end+1}={arg};
            else
                file{end+1}={arg};
            end
        end
    else
        if isempty(timelevels)
            timelevels=arg;
        else
            error('Specify the time levels in a vector and not as multiple numeric arguments')
        end
    end
end

if verbose; disp('Verbose mode enabled'); end

% Create list of filenames
for eachfile=file
        filepathtemp=eachfile{:}{:};
        indecies = find(filepathtemp=='/');
        if ~isempty(indecies)
        filepathtemp = filepathtemp(1:indecies(end));
        else
        filepathtemp = '';
        end
    expandedEachFile=dir(char(eachfile{1}));
    for i=1:size(expandedEachFile,1);
        if expandedEachFile(i).isdir==0
            files{end+1}=expandedEachFile(i).name;
            filepaths{end+1}=filepathtemp;
        end
    end
end

% Open each file
S.attributes=[];
for ieachfile=1:length(files)
    eachfile = [filepaths{ieachfile},files{ieachfile}];
    nc=netcdf(char(eachfile),'read');
    if ismncfile(nc)
        S=rdmnc_local(nc,varlist,timelevels,S);
    else
        S=rdnetcdf_local(nc,varlist,S);
    end
    close(nc);
end

% -----------------------------------------------------------------------------
function [result] = ismncfile(nc);
result=~isempty(nc.('MITgcm_mnc_ver'));
% -----------------------------------------------------------------------------
function [A] = read_att(nc);
global verbose
allatt=ncnames(att(nc)); if verbose; allatt, end
A='none';
for attr=allatt;
 A.(char(attr))=nc.(char(attr))(:);
end
% -----------------------------------------------------------------------------
function [i0,j0,fn] = findTileOffset(S);
global verbose
fn=0;
if isfield(S,'attributes') & isfield(S.attributes,'global')
 G=S.attributes.global;
 tn=G.tile_number;
 snx=G.sNx; sny=G.sNy; nsx=G.nSx; nsy=G.nSy; npx=G.nPx; npy=G.nPy;
 ntx=nsx*npx;nty=nsy*npy;
 gbi=mod(tn-1,ntx); gbj=(tn-gbi-1)/ntx;
 i0=snx*gbi; j0=sny*gbj;
 if isfield(S.attributes.global,'exch2_myFace')
  fn=G.exch2_myFace;
 end
else
 i0=0;j0=0;
end
[snx,sny,nsx,nsy,npx,npy,ntx,nty,i0,j0,fn];
% -----------------------------------------------------------------------------
function [S] = rdnetcdf_local(nc,varlist,S)
% Read all attributes and variable data from a netcdf file
% with special operations for MNC style data
global verbose

% No variables specified? Default to all
if isempty(varlist)
 varlist=ncnames(var(nc)); if verbose; varlist, end
end

% Attributes for structure
S.attributes=read_att(nc);

% Read variable data
for ivar=1:size(varlist,2);
 cvar=char(varlist{ivar});
 tmpdata=nc{cvar}(:);
 if isempty(tmpdata)
  disp(['No such variable ''' cvar ''' in netcdf file' name(nc)])
 else
  tmpdata=squeeze(permute(tmpdata,[9:-1:1]));
  S.(cvar)=tmpdata;
  S.attributes.(cvar)=read_att(nc{cvar});
 end
end
% -----------------------------------------------------------------------------
function [S] = rdmnc_local(nc,varlist,timelevels,S)
% Read all attributes and variable data from a netcdf file
% with special operations for MNC style data
global verbose

nt=size( nc('T'), 1); if verbose; nt, end

% No variables specified? Default to all
if isempty(varlist)
 varlist=ncnames(var(nc)); if verbose; varlist, end
end

% No iterations specified? Default to all
if isempty(timelevels) | isnan(timelevels)
 timelevels=1:nt;
elseif timelevels == Inf
 timelevels=nt;
end

% Sanity checks
if max( find(timelevels > nt) )
 error('Requested time level is beyond time dimension in netcdf file')
end

% Attributes for structure
if timelevels>0; S.timelevels_read_from_file=timelevels; end
S.attributes.global=read_att(nc);

% Read variable data
for ivar=1:size(varlist,2);
 cvar=char(varlist{ivar}); if verbose; cvar, end
 if isempty(nc{cvar})
  disp(['No such variable ''' cvar ''' in MNC file ' name(nc)])
  continue
 end
 dims=ncnames(dim(nc{cvar}));
 if dims{1}=='T'
  if verbose; disp(['Reading variable ''' cvar ''' with record dimension']); end
  tmpdata=nc{cvar}(timelevels,:);
 else
  if verbose; disp(['Reading variable ''' cvar '''']); end
  tmpdata=nc{cvar}(:);
 end
 if isempty(tmpdata)
  error(['No such variable ''' cvar ''' in MNC file ' name(nc)])
 else
  tmpdata=squeeze(permute(tmpdata,[9:-1:1]));
  [ni nj nk nm nn no np]=size(tmpdata);
  [ni nj nk nm nn no np];
  if np~=1; error('Wow! This is a very high dimension variable...'); end
  [i0,j0,fn]=findTileOffset(S);
  cdim=dims{end}; if cdim(1)~='X'; i0=0; end
  cdim=dims{end}; if cdim(1)=='Y'; i0=j0; j0=0; end
  if length(dims)>1;
   cdim=dims{end-1}; if cdim(1)~='Y'; j0=0; end
  else
   j0=0;
  end
  S.(cvar)(i0+(1:ni),j0+(1:nj),(1:nk),(1:nm),(1:nn),(1:no),(1:np))=tmpdata;
  S.attributes.(cvar)=read_att(nc{cvar});
 end
end

if isempty(S)
 error('Something didn''t work!!!')
end
% -----------------------------------------------------------------------------
1	function [S] = rdmnc_mod(varargin)
2	% S=RDMNC(FILE1,FILE2,...)
3	% S=RDMNC(FILE1,...,ITER)
4	% S=RDMNC(FILE1,...,'VAR1','VAR2',...)
5	% S=RDMNC(FILE1,...,'VAR1','VAR2',...,ITER)
6	%
7	% FILE1 ... is either a single file name (e.g. 'state.nc') or a wild-card
8	% strings expanding to a group of file names (e.g. 'state.*.nc').
9	% There are no assumptions about suffices (e.g. 'state.*' works)
10	% VAR1 ... are model variable names as written in the MNC/netcdf file
11	% ITER is a vector of time levels (consecutive indices referring to snap-shot
12	% in the MNC/netcdf file i.e. 1,2,3,... and not model time)
13	% S is a structure with mutliple fields
14	%
15	% rdmnc() is a rudimentary wrapper for joining and reading netcdf files
16	% produced by MITgcm. It does not give the same flexibility as opening the
17	% netcdf files directly using netcdf(). It is useful for quick loading of
18	% entire model fields which are distributed in multiple netcdf files.
19	% rdmnc() also reads non-MITgcm generated netcdf files.
20	%
21	% e.g. To plot the surface temperature in last time-level written to file
22	% >> S=rdmnd('state.*','XC','YC','RC','T',Inf);
23	% >> imagesc( S.XC, S.YC, S.T(:,:,1)' );
24	%
25	% $Header: /u/gcmpack/MITgcm/utils/matlab/rdmnc.m,v 1.1 2004/03/08 16:45:56 adcroft Exp $
26
27	%Defaults
28	global verbose
29	file={};
30	filepaths={};
31	files={};
32	verbose=0;
33	varlist={};
34	timelevels=[];
35
36	% Process function arguments
37	for iarg=1:nargin;
38	arg=varargin{iarg};
39	if ischar(arg)
40	switch char(arg)
41	case 'verbose',
42	verbose=1;
43	otherwise,
44	if isempty( dir(char(arg)) )
45	varlist{end+1}={arg};
46	else
47	file{end+1}={arg};
48	end
49	end
50	else
51	if isempty(timelevels)
52	timelevels=arg;
53	else
54	error('Specify the time levels in a vector and not as multiple numeric arguments')
55	end
56	end
57	end
58
59	if verbose; disp('Verbose mode enabled'); end
60
61	% Create list of filenames
62	for eachfile=file
63	filepathtemp=eachfile{:}{:};
64	indecies = find(filepathtemp=='/');
65	if ~isempty(indecies)
66	filepathtemp = filepathtemp(1:indecies(end));
67	else
68	filepathtemp = '';
69	end
70	expandedEachFile=dir(char(eachfile{1}));
71	for i=1:size(expandedEachFile,1);
72	if expandedEachFile(i).isdir==0
73	files{end+1}=expandedEachFile(i).name;
74	filepaths{end+1}=filepathtemp;
75	end
76	end
77	end
78
79	% Open each file
80	S.attributes=[];
81	for ieachfile=1:length(files)
82	eachfile = [filepaths{ieachfile},files{ieachfile}];
83	nc=netcdf(char(eachfile),'read');
84	if ismncfile(nc)
85	S=rdmnc_local(nc,varlist,timelevels,S);
86	else
87	S=rdnetcdf_local(nc,varlist,S);
88	end
89	close(nc);
90	end
91
92	% -----------------------------------------------------------------------------
93	function [result] = ismncfile(nc);
94	result=~isempty(nc.('MITgcm_mnc_ver'));
95	% -----------------------------------------------------------------------------
96	function [A] = read_att(nc);
97	global verbose
98	allatt=ncnames(att(nc)); if verbose; allatt, end
99	A='none';
100	for attr=allatt;
101	A.(char(attr))=nc.(char(attr))(:);
102	end
103	% -----------------------------------------------------------------------------
104	function [i0,j0,fn] = findTileOffset(S);
105	global verbose
106	fn=0;
107	if isfield(S,'attributes') & isfield(S.attributes,'global')
108	G=S.attributes.global;
109	tn=G.tile_number;
110	snx=G.sNx; sny=G.sNy; nsx=G.nSx; nsy=G.nSy; npx=G.nPx; npy=G.nPy;
111	ntx=nsxnpx;nty=nsynpy;
112	gbi=mod(tn-1,ntx); gbj=(tn-gbi-1)/ntx;
113	i0=snxgbi; j0=snygbj;
114	if isfield(S.attributes.global,'exch2_myFace')
115	fn=G.exch2_myFace;
116	end
117	else
118	i0=0;j0=0;
119	end
120	[snx,sny,nsx,nsy,npx,npy,ntx,nty,i0,j0,fn];
121	% -----------------------------------------------------------------------------
122	function [S] = rdnetcdf_local(nc,varlist,S)
123	% Read all attributes and variable data from a netcdf file
124	% with special operations for MNC style data
125	global verbose
126
127	% No variables specified? Default to all
128	if isempty(varlist)
129	varlist=ncnames(var(nc)); if verbose; varlist, end
130	end
131
132	% Attributes for structure
133	S.attributes=read_att(nc);
134
135	% Read variable data
136	for ivar=1:size(varlist,2);
137	cvar=char(varlist{ivar});
138	tmpdata=nc{cvar}(:);
139	if isempty(tmpdata)
140	disp(['No such variable ''' cvar ''' in netcdf file' name(nc)])
141	else
142	tmpdata=squeeze(permute(tmpdata,[9:-1:1]));
143	S.(cvar)=tmpdata;
144	S.attributes.(cvar)=read_att(nc{cvar});
145	end
146	end
147	% -----------------------------------------------------------------------------
148	function [S] = rdmnc_local(nc,varlist,timelevels,S)
149	% Read all attributes and variable data from a netcdf file
150	% with special operations for MNC style data
151	global verbose
152
153	nt=size( nc('T'), 1); if verbose; nt, end
154
155	% No variables specified? Default to all
156	if isempty(varlist)
157	varlist=ncnames(var(nc)); if verbose; varlist, end
158	end
159
160	% No iterations specified? Default to all
161	if isempty(timelevels) \| isnan(timelevels)
162	timelevels=1:nt;
163	elseif timelevels == Inf
164	timelevels=nt;
165	end
166
167	% Sanity checks
168	if max( find(timelevels > nt) )
169	error('Requested time level is beyond time dimension in netcdf file')
170	end
171
172	% Attributes for structure
173	if timelevels>0; S.timelevels_read_from_file=timelevels; end
174	S.attributes.global=read_att(nc);
175
176	% Read variable data
177	for ivar=1:size(varlist,2);
178	cvar=char(varlist{ivar}); if verbose; cvar, end
179	if isempty(nc{cvar})
180	disp(['No such variable ''' cvar ''' in MNC file ' name(nc)])
181	continue
182	end
183	dims=ncnames(dim(nc{cvar}));
184	if dims{1}=='T'
185	if verbose; disp(['Reading variable ''' cvar ''' with record dimension']); end
186	tmpdata=nc{cvar}(timelevels,:);
187	else
188	if verbose; disp(['Reading variable ''' cvar '''']); end
189	tmpdata=nc{cvar}(:);
190	end
191	if isempty(tmpdata)
192	error(['No such variable ''' cvar ''' in MNC file ' name(nc)])
193	else
194	tmpdata=squeeze(permute(tmpdata,[9:-1:1]));
195	[ni nj nk nm nn no np]=size(tmpdata);
196	[ni nj nk nm nn no np];
197	if np~=1; error('Wow! This is a very high dimension variable...'); end
198	[i0,j0,fn]=findTileOffset(S);
199	cdim=dims{end}; if cdim(1)~='X'; i0=0; end
200	cdim=dims{end}; if cdim(1)=='Y'; i0=j0; j0=0; end
201	if length(dims)>1;
202	cdim=dims{end-1}; if cdim(1)~='Y'; j0=0; end
203	else
204	j0=0;
205	end
206	S.(cvar)(i0+(1:ni),j0+(1:nj),(1:nk),(1:nm),(1:nn),(1:no),(1:np))=tmpdata;
207	S.attributes.(cvar)=read_att(nc{cvar});
208	end
209	end
210
211	if isempty(S)
212	error('Something didn''t work!!!')
213	end
214	% -----------------------------------------------------------------------------