profilesMatlabProcessing/profiles_misc/MITprof_resample.m

function [profOut]=MITprof_resample(profIn,fldIn,filOut,method);
%
%[profOut]=MITPROF_RESAMPLE(profIn,fldIn,filOut,method);
%
%     resamples a set of fields (fldIn) to profile 3D locations (profIn)
%     and output the result to nc file (filOut) and memory (profOut).
%     using a chosen interpolation method (method).
%
%     profIn (structure) should contain: prof_depth, prof_lon, prof_lat, prof_date
%     fldIn (structure) should contain: fil, name, long_name, units, tim, 
%         missing_value, FillValue (for nc output), and fld ([] by default).
%         If fld is not [] then it is assumed that user already loaded 
%         the fields from fldIn.fil.
%
%     fldIn.tim can be set to
%         'const' (for time invariant climatology),
%         'monclim' (for monthly climatology)
%         'monser' (for monthly time series)
%         'monloop' (for cyclic monthly time series)
%
%     method can be set to
%         'polygons' (linear in space)
%         'bindata' (nearest neighbor in space)
%
% Example: 
%  grid_load; gcmfaces_global; MITprof_global; addpath matlab/;
%  profIn=idma_float_plot('4900828');
%  %
%  fldIn.fil=fullfile(myenv.MITprof_climdir,filesep,'T_OWPv1_M_eccollc_90x50.bin');
%  fldIn.name='prof_Towp';
%  fldIn.long_name='pot. temp. estimate (OCCA-WOA-PHC combination)';
%  fldIn.units='degree C';
%  fldIn.tim='monclim';
%  fldIn.missing_value=-9999.;
%  fldIn.FillValue=-9999.;
%  fldIn.fld=[];
%  %
%  profOut=MITprof_resample(profIn,fldIn);


gcmfaces_global;

doOut=~isempty(who('filOut')); doOutInit=false;
if doOut; doOut=~isempty(filOut); end;
if doOut; doOutInit=isempty(dir(filOut)); end;

if isempty(who('method')); method='polygons'; end;

%0) check for file types
test0=isfield(fldIn,'fil');
test1=0;
if test0;
  test0=~isempty(dir(fldIn.fil));
  [PATH,NAME,EXT]=fileparts(fldIn.fil);
  fil_nc=fullfile(PATH,NAME,[NAME '.0001.nc']);
  fil_nctiles=fullfile(PATH,NAME,NAME);
  test1=~isempty(dir(fil_nc));
end;
test2=~isempty(fldIn.fld);

%1) deal with time line
if strcmp(fldIn.tim,'monclim');
    tim_fld=[-0.5:12.5]; rec_fld=[12 1:12 1];
    tmp1=datevec(profIn.prof_date);
    tmp2=datenum([tmp1(:,1) ones(profIn.np,2) zeros(profIn.np,3)]);
    tim_prof=(profIn.prof_date-tmp2);
    tim_prof(tim_prof>365)=365;
    tim_prof=tim_prof/365*12;%neglecting differences in months length
    if test2; fldIs3d=(length(size(fldIn.fld{1}))==4); end;
elseif strcmp(fldIn.tim,'monloop')|strcmp(fldIn.tim,'monser');
    if test1;
      eval(['ncload ' fil_nc ' tim']);
      nt=length(tim);
    elseif ~test2;
      %note: 2D case still needs to be treated here ... or via fldIn.is3d ?
      tmp1=dir(fldIn.fil);
      nt=tmp1.bytes/prod(mygrid.ioSize)/length(mygrid.RC)/4;
    else;
      ndim=length(size(fldIn.fld{1}));
      fldIs3d=(ndim==4);
      nt=size(fldIn.fld{1},ndim);
    end;
    tmp1=[1:nt]'; tmp2=ones(nt,1)*[1992 1 15 0 0 0]; tmp2(:,2)=tmp1;
    tim_fld=datenum(tmp2);
    tim_fld=[tim_fld(1)-31 tim_fld' tim_fld(end)+31];
    rec_fld=[nt 1:nt 1];
    if strcmp(fldIn.tim,'monloop');
      tmp1=datenum([1992 1 1 0 0 0]);
      tmp2=datenum([1992+nt/12 1 1 0 0 0]);;
      tim_prof=tmp1+mod(profIn.prof_date-tmp1,tmp2-tmp1);
    else;
      tim_prof=profIn.prof_date;
    end;
    %round up tim_prof to prevent interpolation in time:
    %  tmp3=tim_prof*ones(1,length(tim_fld))-ones(length(tim_prof),1)*tim_fld;
    %  tmp4=sum(tmp3>0,2);
    %  tim_prof=tim_fld(tmp4)';
elseif strcmp(fldIn.tim,'const')|strcmp(fldIn.tim,'std');
    tim_fld=[1 2]; rec_fld=[1 1];
    tim_prof=1.5*ones(profIn.np,1);
    if test2; fldIs3d=(length(size(fldIn.fld{1}))==3); end;
else;
    error('this case remains to be implemented');
end;

lon=profIn.prof_lon; lat=profIn.prof_lat;
depIn=-mygrid.RC; depOut=profIn.prof_depth;
profOut=NaN*ones(profIn.np,profIn.nr);

%2) loop over record pairs
if strcmp(method,'bindata'); gcmfaces_bindata; end;
for tt=1:length(rec_fld)-1;
  ii=find(tim_prof>=tim_fld(tt)&tim_prof<tim_fld(tt+1));
  if ~isempty(ii);
    %tt
    %
    if test2&fldIs3d;
      fld0=fldIn.fld(:,:,:,rec_fld(tt));
      fld1=fldIn.fld(:,:,:,rec_fld(tt+1));
    elseif test2&~fldIs3d;
      fld0=fldIn.fld(:,:,rec_fld(tt));
      fld1=fldIn.fld(:,:,rec_fld(tt+1));
    elseif test1;
      fld0=read_nctiles(fil_nctiles,NAME,rec_fld(tt));
      fld1=read_nctiles(fil_nctiles,NAME,rec_fld(tt+1));
    elseif test0;
      fld0=read_bin(fldIn.fil,rec_fld(tt));
      fld1=read_bin(fldIn.fil,rec_fld(tt+1));
    else;
      error(['file not found:' fldIn.fil]);
    end;
    %
    ndim=length(size(fld0{1}));
    if ndim==2;
      fld0=fld0.*mygrid.mskC(:,:,1);
      fld1=fld1.*mygrid.mskC(:,:,1);
      fldIs3d=0;
    else;
      fld0=fld0.*mygrid.mskC;
      fld1=fld1.*mygrid.mskC;
      fldIs3d=1;
    end;
    fld=cat(ndim+1,fld0,fld1);
    %
    if ~strcmp(method,'bindata');
      arr=gcmfaces_interp_2d(fld,lon(ii),lat(ii),method);
      if fldIs3d;
        arr2=gcmfaces_interp_1d(2,depIn,arr,depOut);
      else;
        arr2=arr;
      end;
      %now linear in time:
      k0=floor(tim_prof(ii));
      a0=tim_prof(ii)-k0;
      if fldIs3d;
        a0=a0*ones(1,profIn.nr);
        profOut(ii,:)=(1-a0).*arr2(:,:,1)+a0.*arr2(:,:,2);
      else;
        profOut(ii,1)=(1-a0).*arr2(:,1)+a0.*arr2(:,2);
      end;
    elseif fldIs3d;
      [prof_i,prof_j]=gcmfaces_bindata(lon(ii),lat(ii));
      FLD=convert2array(fld(:,:,:,1));
      nk=length(mygrid.RC); kk=ones(1,nk);
      np=length(ii); pp=ones(np,1);
      ind2prof=sub2ind(size(FLD),prof_i*kk,prof_j*kk,pp*[1:nk]);
      arr=FLD(ind2prof);
      arr2=gcmfaces_interp_1d(2,depIn,arr,depOut);
      profOut(ii,:)=arr2;
    else;
      error('2D field case is missing here');
    end;
    %    
    if strcmp(fldIn.tim,'std');
      profOut(ii,:)=profOut(ii,:).*randn(size(profOut(ii,:)));
    end;

  end;%if ~isempty(ii);
end;

if ~fldIs3d;
  profOut=profOut(:,1);
end;

%3) deal with file output
if doOutInit;
    %create a header only file to later append resampled fields
    prof=profIn;
    tmp1=fieldnames(prof);
    nt=length(prof.prof_date);
    nr=length(prof.prof_depth);
    for ii=1:length(tmp1);
        tmp2=prod(size(getfield(prof,tmp1{ii})));
        if tmp2==nt*nr; prof=rmfield(prof,tmp1{ii}); end;
    end;
    MITprof_write(filOut,prof);
end;

if doOut;
    if ~fldIs3d;
      dims={'iPROF'};
    else;
      dims={'iDEPTH','iPROF'};
    end;
    %add the array itelf    
    MITprof_addVar(filOut,fldIn.name,'double',dims,profOut);
    
    %add its attributes
    nc=ncopen(filOut,'write');
    ncaddAtt(nc,fldIn.name,'long_name',fldIn.long_name);
    ncaddAtt(nc,fldIn.name,'units',fldIn.units);
    ncaddAtt(nc,fldIn.name,'missing_value',fldIn.missing_value);
    ncaddAtt(nc,fldIn.name,'_FillValue',fldIn.FillValue);
    ncclose(nc);
end;

%4) deal with argument output
if nargout>0; profOut=setfield(profIn,fldIn.name,profOut); end;


1	function [profOut]=MITprof_resample(profIn,fldIn,filOut,method);
2	%
3	%[profOut]=MITPROF_RESAMPLE(profIn,fldIn,filOut,method);
4	%
5	% resamples a set of fields (fldIn) to profile 3D locations (profIn)
6	% and output the result to nc file (filOut) and memory (profOut).
7	% using a chosen interpolation method (method).
8	%
9	% profIn (structure) should contain: prof_depth, prof_lon, prof_lat, prof_date
10	% fldIn (structure) should contain: fil, name, long_name, units, tim,
11	% missing_value, FillValue (for nc output), and fld ([] by default).
12	% If fld is not [] then it is assumed that user already loaded
13	% the fields from fldIn.fil.
14	%
15	% fldIn.tim can be set to
16	% 'const' (for time invariant climatology),
17	% 'monclim' (for monthly climatology)
18	% 'monser' (for monthly time series)
19	% 'monloop' (for cyclic monthly time series)
20	%
21	% method can be set to
22	% 'polygons' (linear in space)
23	% 'bindata' (nearest neighbor in space)
24	%
25	% Example:
26	% grid_load; gcmfaces_global; MITprof_global; addpath matlab/;
27	% profIn=idma_float_plot('4900828');
28	% %
29	% fldIn.fil=fullfile(myenv.MITprof_climdir,filesep,'T_OWPv1_M_eccollc_90x50.bin');
30	% fldIn.name='prof_Towp';
31	% fldIn.long_name='pot. temp. estimate (OCCA-WOA-PHC combination)';
32	% fldIn.units='degree C';
33	% fldIn.tim='monclim';
34	% fldIn.missing_value=-9999.;
35	% fldIn.FillValue=-9999.;
36	% fldIn.fld=[];
37	% %
38	% profOut=MITprof_resample(profIn,fldIn);
39
40
41	gcmfaces_global;
42
43	doOut=~isempty(who('filOut')); doOutInit=false;
44	if doOut; doOut=~isempty(filOut); end;
45	if doOut; doOutInit=isempty(dir(filOut)); end;
46
47	if isempty(who('method')); method='polygons'; end;
48
49	%0) check for file types
50	test0=isfield(fldIn,'fil');
51	test1=0;
52	if test0;
53	test0=~isempty(dir(fldIn.fil));
54	[PATH,NAME,EXT]=fileparts(fldIn.fil);
55	fil_nc=fullfile(PATH,NAME,[NAME '.0001.nc']);
56	fil_nctiles=fullfile(PATH,NAME,NAME);
57	test1=~isempty(dir(fil_nc));
58	end;
59	test2=~isempty(fldIn.fld);
60
61	%1) deal with time line
62	if strcmp(fldIn.tim,'monclim');
63	tim_fld=[-0.5:12.5]; rec_fld=[12 1:12 1];
64	tmp1=datevec(profIn.prof_date);
65	tmp2=datenum([tmp1(:,1) ones(profIn.np,2) zeros(profIn.np,3)]);
66	tim_prof=(profIn.prof_date-tmp2);
67	tim_prof(tim_prof>365)=365;
68	tim_prof=tim_prof/365*12;%neglecting differences in months length
69	if test2; fldIs3d=(length(size(fldIn.fld{1}))==4); end;
70	elseif strcmp(fldIn.tim,'monloop')\|strcmp(fldIn.tim,'monser');
71	if test1;
72	eval(['ncload ' fil_nc ' tim']);
73	nt=length(tim);
74	elseif ~test2;
75	%note: 2D case still needs to be treated here ... or via fldIn.is3d ?
76	tmp1=dir(fldIn.fil);
77	nt=tmp1.bytes/prod(mygrid.ioSize)/length(mygrid.RC)/4;
78	else;
79	ndim=length(size(fldIn.fld{1}));
80	fldIs3d=(ndim==4);
81	nt=size(fldIn.fld{1},ndim);
82	end;
83	tmp1=[1:nt]'; tmp2=ones(nt,1)*[1992 1 15 0 0 0]; tmp2(:,2)=tmp1;
84	tim_fld=datenum(tmp2);
85	tim_fld=[tim_fld(1)-31 tim_fld' tim_fld(end)+31];
86	rec_fld=[nt 1:nt 1];
87	if strcmp(fldIn.tim,'monloop');
88	tmp1=datenum([1992 1 1 0 0 0]);
89	tmp2=datenum([1992+nt/12 1 1 0 0 0]);;
90	tim_prof=tmp1+mod(profIn.prof_date-tmp1,tmp2-tmp1);
91	else;
92	tim_prof=profIn.prof_date;
93	end;
94	%round up tim_prof to prevent interpolation in time:
95	% tmp3=tim_profones(1,length(tim_fld))-ones(length(tim_prof),1)tim_fld;
96	% tmp4=sum(tmp3>0,2);
97	% tim_prof=tim_fld(tmp4)';
98	elseif strcmp(fldIn.tim,'const')\|strcmp(fldIn.tim,'std');
99	tim_fld=[1 2]; rec_fld=[1 1];
100	tim_prof=1.5*ones(profIn.np,1);
101	if test2; fldIs3d=(length(size(fldIn.fld{1}))==3); end;
102	else;
103	error('this case remains to be implemented');
104	end;
105
106	lon=profIn.prof_lon; lat=profIn.prof_lat;
107	depIn=-mygrid.RC; depOut=profIn.prof_depth;
108	profOut=NaN*ones(profIn.np,profIn.nr);
109
110	%2) loop over record pairs
111	if strcmp(method,'bindata'); gcmfaces_bindata; end;
112	for tt=1:length(rec_fld)-1;
113	ii=find(tim_prof>=tim_fld(tt)&tim_prof<tim_fld(tt+1));
114	if ~isempty(ii);
115	%tt
116	%
117	if test2&fldIs3d;
118	fld0=fldIn.fld(:,:,:,rec_fld(tt));
119	fld1=fldIn.fld(:,:,:,rec_fld(tt+1));
120	elseif test2&~fldIs3d;
121	fld0=fldIn.fld(:,:,rec_fld(tt));
122	fld1=fldIn.fld(:,:,rec_fld(tt+1));
123	elseif test1;
124	fld0=read_nctiles(fil_nctiles,NAME,rec_fld(tt));
125	fld1=read_nctiles(fil_nctiles,NAME,rec_fld(tt+1));
126	elseif test0;
127	fld0=read_bin(fldIn.fil,rec_fld(tt));
128	fld1=read_bin(fldIn.fil,rec_fld(tt+1));
129	else;
130	error(['file not found:' fldIn.fil]);
131	end;
132	%
133	ndim=length(size(fld0{1}));
134	if ndim==2;
135	fld0=fld0.*mygrid.mskC(:,:,1);
136	fld1=fld1.*mygrid.mskC(:,:,1);
137	fldIs3d=0;
138	else;
139	fld0=fld0.*mygrid.mskC;
140	fld1=fld1.*mygrid.mskC;
141	fldIs3d=1;
142	end;
143	fld=cat(ndim+1,fld0,fld1);
144	%
145	if ~strcmp(method,'bindata');
146	arr=gcmfaces_interp_2d(fld,lon(ii),lat(ii),method);
147	if fldIs3d;
148	arr2=gcmfaces_interp_1d(2,depIn,arr,depOut);
149	else;
150	arr2=arr;
151	end;
152	%now linear in time:
153	k0=floor(tim_prof(ii));
154	a0=tim_prof(ii)-k0;
155	if fldIs3d;
156	a0=a0*ones(1,profIn.nr);
157	profOut(ii,:)=(1-a0).arr2(:,:,1)+a0.arr2(:,:,2);
158	else;
159	profOut(ii,1)=(1-a0).arr2(:,1)+a0.arr2(:,2);
160	end;
161	elseif fldIs3d;
162	[prof_i,prof_j]=gcmfaces_bindata(lon(ii),lat(ii));
163	FLD=convert2array(fld(:,:,:,1));
164	nk=length(mygrid.RC); kk=ones(1,nk);
165	np=length(ii); pp=ones(np,1);
166	ind2prof=sub2ind(size(FLD),prof_ikk,prof_jkk,pp*[1:nk]);
167	arr=FLD(ind2prof);
168	arr2=gcmfaces_interp_1d(2,depIn,arr,depOut);
169	profOut(ii,:)=arr2;
170	else;
171	error('2D field case is missing here');
172	end;
173	%
174	if strcmp(fldIn.tim,'std');
175	profOut(ii,:)=profOut(ii,:).*randn(size(profOut(ii,:)));
176	end;
177
178	end;%if ~isempty(ii);
179	end;
180
181	if ~fldIs3d;
182	profOut=profOut(:,1);
183	end;
184
185	%3) deal with file output
186	if doOutInit;
187	%create a header only file to later append resampled fields
188	prof=profIn;
189	tmp1=fieldnames(prof);
190	nt=length(prof.prof_date);
191	nr=length(prof.prof_depth);
192	for ii=1:length(tmp1);
193	tmp2=prod(size(getfield(prof,tmp1{ii})));
194	if tmp2==nt*nr; prof=rmfield(prof,tmp1{ii}); end;
195	end;
196	MITprof_write(filOut,prof);
197	end;
198
199	if doOut;
200	if ~fldIs3d;
201	dims={'iPROF'};
202	else;
203	dims={'iDEPTH','iPROF'};
204	end;
205	%add the array itelf
206	MITprof_addVar(filOut,fldIn.name,'double',dims,profOut);
207
208	%add its attributes
209	nc=ncopen(filOut,'write');
210	ncaddAtt(nc,fldIn.name,'long_name',fldIn.long_name);
211	ncaddAtt(nc,fldIn.name,'units',fldIn.units);
212	ncaddAtt(nc,fldIn.name,'missing_value',fldIn.missing_value);
213	ncaddAtt(nc,fldIn.name,'_FillValue',fldIn.FillValue);
214	ncclose(nc);
215	end;
216
217	%4) deal with argument output
218	if nargout>0; profOut=setfield(profIn,fldIn.name,profOut); end;
219
220