osse/utils/cart2cyl.m

function [z] = cart2cyl(c,thetai,rhoi,varargin)
% z=cart2cyl(c,xi,yi);
%
% Re-grids model output in cylindrical coords to cartesian.
%  c     is a 2-D or 3-D scalar or z-vector field
%  xi,yi are vectors of the new regular lat-lon grid to interpolate to.
%  z     is the interpolated data with dimensions of size(xi) by size(yi).
%
% e.g.
% >> t=rdmds('Ttave.0000513360');
% >> xi=-179:2:180;yi=-89:2:90;
% >> ti=cyl2cart(t,xi,yi);
%

NN=size(c);
%[theta rho nz]=size(c);
[x y nz]=size(c);
%[RHO,THETA] = meshgrid(1:rho,-pi+2*pi/theta:2*pi/theta:pi);
[Y,X] = meshgrid(-(x-1)/2:(x-1)/2,-(y-1)/2:(y-1)/2);
%[x,y] = pol2cart(THETA,RHO);
[theta,rho] = cart2pol(X,Y);
theta=(theta./(pi*2)+0.5).*size(thetai,2);
%theta=rot90(theta.*180./pi,-1);
%[nx ny nz]=size(c);
%nx=theta;ny=rho;
ntheta=x;nrho=y;

%X=reshape(x,[1 nx*ny]);
%Y=reshape(y,[1 nx*ny]);
THETA=reshape(theta,[1 ntheta*nrho]);
RHO=reshape(rho,[1 ntheta*nrho]);
%del=griddata_preprocess(Y,X,yi,xi',varargin{:});
del=griddata_preprocess(RHO,THETA,rhoi,thetai',varargin{:});

for k=1:nz;
 C=reshape(c(:,:,k),[1 ntheta*nrho]);
z(:,:,k)=griddata(RHO,THETA,C,rhoi,thetai',varargin{:});
%z(:,:,k)=griddata(Y,X,C,yi,xi',varargin{:});
% z(:,:,k)=griddata_fast(del,[C C(il) C(ig)],varargin{:});
end % k

% Split vertical and time dimensions
if size(NN,2)>2
z=reshape(z,[size(z,1) size(z,2) NN(3:end)]);
end
1	afe	1.1	function [z] = cart2cyl(c,thetai,rhoi,varargin)
2			% z=cart2cyl(c,xi,yi);
3			%
4			% Re-grids model output in cylindrical coords to cartesian.
5			% c is a 2-D or 3-D scalar or z-vector field
6			% xi,yi are vectors of the new regular lat-lon grid to interpolate to.
7			% z is the interpolated data with dimensions of size(xi) by size(yi).
8			%
9			% e.g.
10			% >> t=rdmds('Ttave.0000513360');
11			% >> xi=-179:2:180;yi=-89:2:90;
12			% >> ti=cyl2cart(t,xi,yi);
13			%
14
15			NN=size(c);
16			%[theta rho nz]=size(c);
17			[x y nz]=size(c);
18			%[RHO,THETA] = meshgrid(1:rho,-pi+2pi/theta:2pi/theta:pi);
19			[Y,X] = meshgrid(-(x-1)/2:(x-1)/2,-(y-1)/2:(y-1)/2);
20			%[x,y] = pol2cart(THETA,RHO);
21			[theta,rho] = cart2pol(X,Y);
22			theta=(theta./(pi2)+0.5).size(thetai,2);
23			%theta=rot90(theta.*180./pi,-1);
24			%[nx ny nz]=size(c);
25			%nx=theta;ny=rho;
26			ntheta=x;nrho=y;
27
28			%X=reshape(x,[1 nx*ny]);
29			%Y=reshape(y,[1 nx*ny]);
30			THETA=reshape(theta,[1 ntheta*nrho]);
31			RHO=reshape(rho,[1 ntheta*nrho]);
32			%del=griddata_preprocess(Y,X,yi,xi',varargin{:});
33			del=griddata_preprocess(RHO,THETA,rhoi,thetai',varargin{:});
34
35			for k=1:nz;
36			C=reshape(c(:,:,k),[1 ntheta*nrho]);
37			z(:,:,k)=griddata(RHO,THETA,C,rhoi,thetai',varargin{:});
38			%z(:,:,k)=griddata(Y,X,C,yi,xi',varargin{:});
39			% z(:,:,k)=griddata_fast(del,[C C(il) C(ig)],varargin{:});
40			end % k
41
42			% Split vertical and time dimensions
43			if size(NN,2)>2
44			z=reshape(z,[size(z,1) size(z,2) NN(3:end)]);
45			end