function hdf_fielddata = ReadHDF5FieldData(file) % function hdf_fielddata = ReadHDF5FieldData(file) % % returns: % % time domain data (if exist) % hdf_fielddata.TD.time % hdf_fielddata.TD.names % hdf_fielddata.TD.values % hdf_fielddata.TD.DataType (0 --> real value data) % % % frequency domain data (if exist) % hdf_fielddata.FD.frequency % hdf_fielddata.FD.values % hdf_fielddata.FD.DataType (0 / 1 --> real / complex value data) % % example: values of timestep 12: % hdf_fielddata.TD.values{12}: array (x,y,z,polarization) % % plot z-field component along y-direction for timestep 12: % plot( hdf_fielddata.TD.values{12}(1,:,1,3) ) % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig % % See also ReadHDF5Mesh ReadHDF5Dump if isOctave hdf_fielddata = ReadHDF5FieldData_octave(file); return end info = hdf5info(file); TD.names = {}; hdf_fielddata = []; for n=1:numel(info.GroupHierarchy.Groups) if strcmp(info.GroupHierarchy.Groups(n).Name,'/FieldData') %found /FieldData, look for either TD or FD data for nGroup=1:numel(info.GroupHierarchy.Groups(n).Groups) %search and read TD data if strcmp(info.GroupHierarchy.Groups(n).Groups(nGroup).Name,'/FieldData/TD') for m=1:numel(info.GroupHierarchy.Groups(n).Groups(nGroup).Datasets) TD.names{m} = info.GroupHierarchy.Groups(n).Groups(nGroup).Datasets(m).Name; for a = 1:numel(info.GroupHierarchy.Groups(n).Groups(nGroup).Datasets(m).Attributes) str = regexp(info.GroupHierarchy.Groups(n).Groups(nGroup).Datasets(m).Attributes(a).Name,'\w/*\w*','match'); TD.(str{end})(m) = double(info.GroupHierarchy.Groups(n).Groups(nGroup).Datasets(m).Attributes(a).Value); end end end end end end if (numel(TD.names)>0) hdf_fielddata.TD=TD; hdf_fielddata.TD.DataType = 0; %real value data for n=1:numel(hdf_fielddata.TD.names) hdf_fielddata.TD.values{n} = double(hdf5read(file,hdf_fielddata.TD.names{n})); end end % extract FD data try hdf_fielddata.FD.frequency = ReadHDF5Attribute(file,'/FieldData/FD','frequency'); catch err % disp(err) return end for n=1:numel(hdf_fielddata.FD.frequency) try hdf_fielddata.FD.values{n} = double(hdf5read(file,['/FieldData/FD/f' int2str(n-1) '_real']) + 1i*hdf5read(file,['/FieldData/FD/f' int2str(n-1) '_imag'])); hdf_fielddata.FD.DataType = 1; %complex value data catch try hdf_fielddata.FD.values{n} = double(hdf5read(file,['/FieldData/FD/f' int2str(n-1)])); hdf_fielddata.FD.DataType = 0; %real value data catch error('openEMS:ReadHDF5FieldData','FD data invalid...') end end end function hdf_fielddata = ReadHDF5FieldData_octave(file) hdf = load( '-hdf5', file ); if ~isfield(hdf,'FieldData') error('no field data found') end if isfield(hdf.FieldData,'TD') %read TD data hdf_fielddata_names = fieldnames(hdf.FieldData.TD); for n=1:numel(hdf_fielddata_names) hdf_fielddata.TD.values{n} = hdf.FieldData.TD.(hdf_fielddata_names{n}); hdf_fielddata.TD.names{n} = ['/FieldData/TD/' hdf_fielddata_names{n}(2:end)]; hdf_fielddata.TD.time(n) = ReadHDF5Attribute(file, hdf_fielddata.TD.names{n},'time'); end hdf_fielddata.TD.DataType = 0; %real value data end if isfield(hdf.FieldData,'FD') %read FD data hdf_fielddata.FD.frequency = ReadHDF5Attribute(file,'/FieldData/FD/','frequency'); try %try reading complex data for n=1:numel(hdf_fielddata.FD.frequency) hdf_fielddata.FD.values{n} = double(hdf.FieldData.FD.(['f' int2str(n-1) '_real']) +1i*hdf.FieldData.FD.(['f' int2str(n-1) '_imag']) ); end hdf_fielddata.FD.DataType = 1; %complex value data catch try %try reading real value data for n=1:numel(hdf_fielddata.FD.frequency) hdf_fielddata.FD.values{n} = double(hdf.FieldData.FD.(['f' int2str(n-1)])); end hdf_fielddata.FD.DataType = 0; %real value data catch error('openEMS:ReadHDF5FieldData','FD data invalid...') end end end