101 lines
3.6 KiB
Matlab
101 lines
3.6 KiB
Matlab
function ConvertHDF5_VTK(hdf_file, vtk_prefix, varargin)
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% ConvertHDF5_VTK(hdf_file, vtk_prefix, varargin)
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%
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% Convert openEMS field data stored in the given hdf5 file to a vtk file.
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%
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% arguments:
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% hdf_file: source hdf5 file
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% vtk_prefix: output vtk files prefix
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%
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% optional arguments:
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% 'TD_Dump': activate dump for time-domain data (default is off)
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% 'FD_Dump': activate dump for frequency-domain data (default is on)
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% 'NumPhase': number of phase to dump frequency domain data animation
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% (default is 36 --> 10°)
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% 'FieldName': field name written to vtk, e.g. 'E-Field'
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% 'weight': field weighting
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%
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% for more optional augments have a look at ReadHDF5Dump
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%
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% example:
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% % read time-domian data from hdf5, perform dft and dump as vtk
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% ConvertHDF5_VTK('Et.h5','Ef','NumPhase',18,'Frequency',1e9)
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%
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% openEMS matlab interface
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% -----------------------
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% author: Thorsten Liebig
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%
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% See also ReadHDF5Dump Dump2VTK
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do_FD_dump = 1;
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do_TD_dump = 0;
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phase_N = 36;
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weight = 1;
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fieldname = 'unknown';
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for n=1:2:numel(varargin)
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if (strcmp(varargin{n},'TD_Dump')==1);
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do_TD_dump = varargin{n+1};
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elseif (strcmp(varargin{n},'FD_Dump')==1);
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do_FD_dump = varargin{n+1};
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elseif (strcmp(varargin{n},'NumPhase')==1);
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phase_N = varargin{n+1};
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elseif (strcmp(varargin{n},'FieldName')==1);
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fieldname = varargin{n+1};
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elseif (strcmp(varargin{n},'weight')==1);
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weight = varargin{n+1};
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end
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end
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[field mesh] = ReadHDF5Dump(hdf_file, varargin{:});
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if ((do_TD_dump==0) && (do_FD_dump==0))
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warning('openEMS:ConvertHDF5_VTK','FD and TD dump disabled, nothing to be done...');
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end
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if (do_FD_dump)
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if (~isfield(field,'FD'))
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warning('openEMS:ConvertHDF5_VTK','no FD data found skipping frequency domain vtk dump...');
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else
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%set weighting
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if (numel(weight)~=numel(field.FD.frequency))
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FD_weight = ones(size(field.FD.frequency))*weight(1);
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else
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FD_weight = weight;
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end
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if (field.FD.DataType==1) % dump complex value FD data
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ph = linspace(0,360,phase_N+1);
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ph = ph(1:end-1);
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for n = 1:numel(field.FD.frequency)
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for p = ph
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filename = [vtk_prefix '_' num2str(field.FD.frequency(n)) '_' num2str(p,'%03d') '.vtk' ];
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Dump2VTK(filename, real(FD_weight(n)*field.FD.values{n}*exp(1j*p*pi/180)), mesh, fieldname, varargin{:});
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end
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filename = [vtk_prefix '_' num2str(field.FD.frequency(n)) '_abs.vtk' ];
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Dump2VTK(filename, abs(FD_weight(n)*field.FD.values{n}), mesh, fieldname, varargin{:});
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filename = [vtk_prefix '_' num2str(field.FD.frequency(n)) '_ang.vtk' ];
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Dump2VTK(filename, angle(FD_weight(n)*field.FD.values{n}), mesh, fieldname, varargin{:});
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end
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else % dump real value FD data
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for n = 1:numel(field.FD.frequency)
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filename = [vtk_prefix '_' num2str(field.FD.frequency(n)) '.vtk' ];
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Dump2VTK(filename, real(FD_weight(n)*field.FD.values{n}), mesh, fieldname, varargin{:});
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end
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end
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end
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end
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if (do_TD_dump)
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if (~isfield(field,'TD'))
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warning('openEMS:ConvertHDF5_VTK','no TD data found skipping time domain vtk dump...');
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else
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disp('dumping time domain data...')
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acc = ['%0' int2str(ceil(log10(numel(field.TD.time)+1))) 'd'];
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for n = 1:numel(field.TD.time)
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filename = [vtk_prefix '_TD_' num2str(n,acc) '.vtk' ];
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Dump2VTK(filename, abs(weight(1))*field.TD.values{n}, mesh, fieldname, varargin{:});
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end
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end
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end
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