function DumpFF2VTK2(filename, farfield, thetaRange, phiRange, varargin) % DumpFF2VTK(filename, farfield, thetaRange, phiRange, varargin) % % Dump 3D far field pattern to a vtk file % % input: % filename: filename of VTK file, existing file will be overwritten % farfield: farfield in V/m % thetaRange: theta range in deg % phiRange: phi range in deg % % variable input: % 'scale': - linear scale of plot, doesn't affect gain values % 'logscale': - if set, show farfield with logarithmic scale % - set the dB value for point of origin % - values below will be clamped % 'maxgain': - add max gain in dB to normalized farfield % - only valid if logscale is set % - default is 0dB % % example: % DumpFF2VTK(filename, farfield, thetaRange, phiRange, ... % 'scale', 2, 'logscale', -20, 'maxgain', 3) % % see also examples/NF2FF/infDipol.m % % See also CreateNF2FFBox, CalcNF2FF % % openEMS matlab interface % ----------------------- % author: Thorsten Liebig % defaults scale = 1; maxgain = 0; logscale = []; for n=1:2:numel(varargin) if (strcmp(varargin{n},'maxgain')==1); maxgain = varargin{n+1}; elseif (strcmp(varargin{n},'logscale')==1); logscale = varargin{n+1}; elseif (strcmp(varargin{n},'scale')==1); scale = varargin{n+1}; end end if ~isempty(logscale) farfield = 20*log10(farfield) + maxgain - logscale; ind = find(farfield<0); farfield(ind)=0; else % force 0 for linear plot logscale = 0; end t = thetaRange*pi/180; a = phiRange*pi/180; fid = fopen(filename,'w+'); % set nan values to zero ind = find(isnan(farfield)); if (~isempty(ind)) warning('openEMS:Dump2VTK','field contains nan, setting to zero'); farfield(ind)=0; end % set inf values to zero ind = find(isinf(farfield)); if (~isempty(ind)) warning('openEMS:Dump2VTK','field contains inf, setting to zero'); farfield(ind)=0; end fprintf(fid,'# vtk DataFile Version 3.0\n'); fprintf(fid,'Structured Grid by matlab-interface of openEMS\n'); fprintf(fid,'ASCII\n'); fprintf(fid,'DATASET STRUCTURED_GRID\n'); fprintf(fid,'DIMENSIONS %d %d %d\n',1,numel(t),numel(a)); fprintf(fid,'POINTS %d double\n',numel(t)*numel(a)); for na=1:numel(phiRange) for nt=1:numel(thetaRange) fprintf(fid,'%e %e %e\n',... scale*farfield(nt,na)*sin(t(nt))*cos(a(na)),... scale*farfield(nt,na)*sin(t(nt))*sin(a(na)),... scale*farfield(nt,na)*cos(t(nt))); end end fprintf(fid,'\n\n'); fprintf(fid,'POINT_DATA %d\n',numel(t)*numel(a)); fprintf(fid,['SCALARS gain double 1\nLOOKUP_TABLE default\n']); fclose(fid); dumpField = farfield(:) + logscale; save('-ascii','-append',filename,'dumpField')