matlab_class/gcmfaces_calc/calc_zonmean_T.m

function [FLD]=calc_zonmean_T(fld);
%object:    compute zonal mean
%inputs:    fld is the field of interest
%output:    FLD is the zonal mean field
%
%notes:     mygrid.LATS_MASKS is the set of quasi longitudinal lines along which
%               means will computed, as computed in gcmfaces_lines_zonal

global mygrid;

%initialize output:
n3=max(size(fld.f1,3),1); n4=max(size(fld.f1,4),1);
FLD=NaN*squeeze(zeros(length(mygrid.LATS_MASKS),n3,n4));

%use array format to speed up computation below:
fld=convert2array(fld); 
n1=size(fld,1); n2=size(fld,2); 
fld=reshape(fld,n1*n2,n3*n4); 
rac=reshape(convert2array(mygrid.RAC),n1*n2,1)*ones(1,n3*n4);
if n3==length(mygrid.RC); 
   hFacC=reshape(convert2array(mygrid.hFacC),n1*n2,n3*n4);
else; 
   hFacC=reshape(convert2array(mygrid.mskC(:,:,1)),n1*n2,1)*ones(1,n3*n4);
   hFacC(isnan(hFacC))=0;
end;
%masked area only:
rac(isnan(fld))=0;
hFacC(isnan(fld))=0;
fld(isnan(fld))=0;

rac=rac.*hFacC;
fld=fld.*rac;

for iy=1:length(mygrid.LATS_MASKS); 

   %get list ofpoints that form a zonal band:
   mm=convert2array(mygrid.LATS_MASKS(iy).mskCedge);
   mm=find(~isnan(mm)&mm~=0);

   %do the area weighed average along this band: 
   tmp1=sum(fld(mm,:),1); 
   tmp2=sum(rac(mm,:),1); 
   tmp2(tmp2==0)=NaN;
   tmp1=tmp1./tmp2;

   %store:
   FLD(iy,:,:)=reshape(tmp1,n3,n4);

end; 


1	gforget	1.4	function [FLD]=calc_zonmean_T(fld);
2	gforget	1.3	%object: compute zonal mean
3			%inputs: fld is the field of interest
4			%output: FLD is the zonal mean field
5	gforget	1.4	%
6			%notes: mygrid.LATS_MASKS is the set of quasi longitudinal lines along which
7			% means will computed, as computed in gcmfaces_lines_zonal
8	gforget	1.1
9			global mygrid;
10
11			%initialize output:
12			n3=max(size(fld.f1,3),1); n4=max(size(fld.f1,4),1);
13	gforget	1.4	FLD=NaN*squeeze(zeros(length(mygrid.LATS_MASKS),n3,n4));
14	gforget	1.1
15			%use array format to speed up computation below:
16			fld=convert2array(fld);
17			n1=size(fld,1); n2=size(fld,2);
18			fld=reshape(fld,n1n2,n3n4);
19			rac=reshape(convert2array(mygrid.RAC),n1n2,1)ones(1,n3*n4);
20			if n3==length(mygrid.RC);
21			hFacC=reshape(convert2array(mygrid.hFacC),n1n2,n3n4);
22			else;
23	gforget	1.2	hFacC=reshape(convert2array(mygrid.mskC(:,:,1)),n1n2,1)ones(1,n3*n4);
24			hFacC(isnan(hFacC))=0;
25	gforget	1.1	end;
26	gforget	1.6	%masked area only:
27			rac(isnan(fld))=0;
28			hFacC(isnan(fld))=0;
29			fld(isnan(fld))=0;
30
31	gforget	1.1	rac=rac.*hFacC;
32			fld=fld.*rac;
33
34	gforget	1.4	for iy=1:length(mygrid.LATS_MASKS);
35	gforget	1.1
36			%get list ofpoints that form a zonal band:
37	gforget	1.5	mm=convert2array(mygrid.LATS_MASKS(iy).mskCedge);
38			mm=find(~isnan(mm)&mm~=0);
39	gforget	1.1
40			%do the area weighed average along this band:
41			tmp1=sum(fld(mm,:),1);
42			tmp2=sum(rac(mm,:),1);
43			tmp2(tmp2==0)=NaN;
44			tmp1=tmp1./tmp2;
45
46			%store:
47			FLD(iy,:,:)=reshape(tmp1,n3,n4);
48
49			end;
50
51