openEMS/matlab/ReadNF2FF.m

function nf2ff = ReadNF2FF(nf2ff)
% function nf2ff = ReadNF2FF(nf2ff)
%
% internal function to read calculated nf2ff data, use CalcNF2FF to read
% existing nf2ff data
%
% See also: CalcNF2FF, CreateNF2FFBox
%
% openEMS matlab interface
% -----------------------
% author: Thorsten Liebig, 2012

file = nf2ff.hdf5;

hdf_mesh = ReadHDF5Mesh(file);

nf2ff.r = double(hdf_mesh.lines{1});
nf2ff.theta = double(hdf_mesh.lines{2});
nf2ff.phi = double(hdf_mesh.lines{3});

if isOctave
    nf2ff.freq = double(h5readatt_octave(file,'/nf2ff','Frequency'));
    nf2ff.Prad = double(h5readatt_octave(file,'/nf2ff','Prad'));
    nf2ff.Dmax = double(h5readatt_octave(file,'/nf2ff','Dmax'));
    hdf = load( '-hdf5', file );
    for n=1:numel(nf2ff.freq)
        nf2ff.E_theta{n} = double(hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_imag']) );
        nf2ff.E_phi{n} = double(hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_imag']) );
        nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));
    end
else
    % matlab compatibility to older versions (will be removed soon)
    if (exist('h5read')<2)
        nf2ff.freq = double(hdf5read(file,'/nf2ff','Frequency'));
        nf2ff.Prad = double(hdf5read(file,'/nf2ff','Prad'));
        nf2ff.Dmax = double(hdf5read(file,'/nf2ff','Dmax'));

        for n=1:numel(nf2ff.freq)
            nf2ff.E_theta{n} = double(hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag']));
            nf2ff.E_phi{n} = double(hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag']));
            nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));
        end
        return
    end

    nf2ff.freq = double(h5readatt(file,'/nf2ff','Frequency'));
    nf2ff.Prad = double(h5readatt(file,'/nf2ff','Prad'));
    nf2ff.Dmax = double(h5readatt(file,'/nf2ff','Dmax'));

    for n=1:numel(nf2ff.freq)
        nf2ff.E_theta{n} = double(h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag']));
        nf2ff.E_phi{n} = double(h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag']));
        nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));
    end
end
matlab interface to new nf2ff application 2012-02-02 11:23:50 +00:00			`function nf2ff = ReadNF2FF(nf2ff)`
			`% function nf2ff = ReadNF2FF(nf2ff)`
			`%`
			`% internal function to read calculated nf2ff data, use CalcNF2FF to read`
			`% existing nf2ff data`
			`%`
			`% See also: CalcNF2FF, CreateNF2FFBox`
			`%`
			`% openEMS matlab interface`
			`% -----------------------`
			`% author: Thorsten Liebig, 2012`

			`file = nf2ff.hdf5;`

			`hdf_mesh = ReadHDF5Mesh(file);`

			`nf2ff.r = double(hdf_mesh.lines{1});`
			`nf2ff.theta = double(hdf_mesh.lines{2});`
			`nf2ff.phi = double(hdf_mesh.lines{3});`

			`if isOctave`
			`nf2ff.freq = double(h5readatt_octave(file,'/nf2ff','Frequency'));`
			`nf2ff.Prad = double(h5readatt_octave(file,'/nf2ff','Prad'));`
			`nf2ff.Dmax = double(h5readatt_octave(file,'/nf2ff','Dmax'));`
			`hdf = load( '-hdf5', file );`
			`for n=1:numel(nf2ff.freq)`
ReadNF2FF: fixed support for older matlab versions 2012-02-13 08:58:15 +00:00			`nf2ff.E_theta{n} = double(hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_theta.FD.(['f' int2str(n-1) '_imag']) );`
			`nf2ff.E_phi{n} = double(hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_real']) +1i*hdf.nf2ff.E_phi.FD.(['f' int2str(n-1) '_imag']) );`
			`nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));`
matlab interface to new nf2ff application 2012-02-02 11:23:50 +00:00			`end`
			`else`
ReadNF2FF: fixed support for older matlab versions 2012-02-13 08:58:15 +00:00			`% matlab compatibility to older versions (will be removed soon)`
			`if (exist('h5read')<2)`
			`nf2ff.freq = double(hdf5read(file,'/nf2ff','Frequency'));`
			`nf2ff.Prad = double(hdf5read(file,'/nf2ff','Prad'));`
			`nf2ff.Dmax = double(hdf5read(file,'/nf2ff','Dmax'));`

			`for n=1:numel(nf2ff.freq)`
			`nf2ff.E_theta{n} = double(hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag']));`
			`nf2ff.E_phi{n} = double(hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag']));`
			`nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));`
			`end`
			`return`
			`end`

matlab interface to new nf2ff application 2012-02-02 11:23:50 +00:00			`nf2ff.freq = double(h5readatt(file,'/nf2ff','Frequency'));`
			`nf2ff.Prad = double(h5readatt(file,'/nf2ff','Prad'));`
			`nf2ff.Dmax = double(h5readatt(file,'/nf2ff','Dmax'));`

			`for n=1:numel(nf2ff.freq)`
			`nf2ff.E_theta{n} = double(h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_theta/FD/f' int2str(n-1) '_imag']));`
			`nf2ff.E_phi{n} = double(h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_real']) + 1i*h5read(file,['/nf2ff/E_phi/FD/f' int2str(n-1) '_imag']));`
			`nf2ff.E_norm{n} = double(sqrt(abs(nf2ff.E_theta{n}).^2+abs(nf2ff.E_phi{n}).^2));`
			`end`
			`end`