function [field mesh] = ReadHDF5Dump(file, varargin) %[field mesh] = ReadHDF5Dump(file, varargin) % % Read a hdf5 field dump, including an interpolation and frequency domain % transformation. % % For more information about the output, refer to the help of % ReadHDF5Mesh and ReadHDF5FieldData % % possible arguments: % 'Range' see GetField_Range % 'Interpolation' see GetField_Interpolation % 'Frequency' see GetField_TD2FD % 'CloseAlpha': 0 (default) / 1 % % example: % [field mesh] = ReadHDF5Dump('Et.h5'); % or % [field mesh] = ReadHDF5Dump('Et.h5','Range',{[0 100],[-20 20],[50 90]}); % or % [field mesh] = ReadHDF5Dump('Et.h5','Interpolation',[21 1 101],'Frequency',300e6); % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig % % See also ReadHDF5Mesh ReadHDF5FieldData GetField_Interpolation % GetField_TD2FD GetField_Range field = ReadHDF5FieldData(file); mesh = ReadHDF5Mesh(file); if (nargin<2) return end % evaluate arguments in a specific order for n=1:2:(nargin-1) if (strcmp(varargin{n},'Range')==1); [field mesh] = GetField_Range(field, mesh, varargin{n+1}); end end for n=1:2:(nargin-1) if (strcmp(varargin{n},'Interpolation')==1); [field mesh] = GetField_Interpolation(field,mesh,varargin{n+1}); end end for n=1:2:(nargin-1) if (strcmp(varargin{n},'Frequency')==1); field = GetField_TD2FD(field,varargin{n+1}); end end for n=1:2:(nargin-1) if (strcmp(varargin{n},'CloseAlpha')==1); if ((varargin{n+1}==1) && (mesh.type==1)) mesh.lines{2}(end+1)=mesh.lines{2}(1)+2*pi; if (isfield(field,'TD')) for n = 1:numel(field.TD.values) field.TD.values{n}(:,end+1,:,:) = field.TD.values{n}(:,1,:,:); end end if (isfield(field,'FD')) for n = 1:numel(field.FD.values) field.FD.values{n}(:,end+1,:,:) = field.FD.values{n}(:,1,:,:); end end end end end