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view m-toolbox/classes/@ao/dft.m @ 0:f0afece42f48
Import.
author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Wed, 23 Nov 2011 19:22:13 +0100 |
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% DFT computes the DFT of the input time-series at the requested frequencies. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: DFT computes the DFT of the input time-series at the requested % frequencies. % % CALL: b = dft(a, pl) % % <a href="matlab:utils.helper.displayMethodInfo('ao', 'dft')">Parameters Description</a> % % VERSION: $Id: dft.m,v 1.29 2011/04/08 08:56:13 hewitson Exp $ % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function varargout = dft(varargin) % Check if this is a call for parameters if utils.helper.isinfocall(varargin{:}) varargout{1} = getInfo(varargin{3}); return end import utils.const.* utils.helper.msg(msg.PROC3, 'running %s/%s', mfilename('class'), mfilename); % Collect input variable names in_names = cell(size(varargin)); for ii = 1:nargin,in_names{ii} = inputname(ii);end % Collect all AOs [as, ao_invars] = utils.helper.collect_objects(varargin(:), 'ao', in_names); [pl, pl_invars] = utils.helper.collect_objects(varargin(:), 'plist', in_names); % Make copies or handles to inputs bs = copy(as, nargout); % Combine plists pl = parse(pl, getDefaultPlist); % Loop over input AOs for j=1:numel(bs) if ~isa(bs(j).data, 'tsdata') warning('!!! The DFT can only be computed on input time-series. Skipping AO %s', ao_invars{j}); else % Extract necessary parameters f = find(pl, 'f'); if isa(f, 'ao') && (isa(f.data, 'fsdata') || isa(f.data, 'xydata')) f = f.data.getX; end % Compute f if necessary if f == -1 f = linspace(0, bs(j).data.fs/2, length(bs(j).data.getY)/2+1); end % Compute DFT fs = bs(j).data.fs; N = length(bs(j).data.getY); J = -2*pi*1i.*[0:N-1]/fs; dft = zeros(size(f)); for kk = 1:length(f) dft(kk) = exp(f(kk)*J)*bs(j).data.getY; end % Make output fsdata AO yunits = bs(j).data.yunits; % Keep the data shape of the input AO if size(bs(j).data.y,1) ~= 1 f = f.'; dft = dft.'; end bs(j).data = fsdata(f, dft, bs(j).data.fs); bs(j).data.setXunits('Hz'); bs(j).data.setYunits(yunits./unit('Hz')); % Set name bs(j).name = sprintf('dft(%s)', ao_invars{j}); % Add history bs(j).addHistory(getInfo('None'), pl, ao_invars(j), bs(j).hist); % Clear the errors since they don't make sense anymore clearErrors(bs(j)); end end % Set output if nargout == numel(bs) % List of outputs for ii = 1:numel(bs) varargout{ii} = bs(ii); end else % Single output varargout{1} = bs; end end %-------------------------------------------------------------------------- % Get Info Object %-------------------------------------------------------------------------- function ii = getInfo(varargin) if nargin == 1 && strcmpi(varargin{1}, 'None') sets = {}; pls = []; else sets = {'Default'}; pls = getDefaultPlist; end % Build info object ii = minfo(mfilename, 'ao', 'ltpda', utils.const.categories.sigproc, '$Id: dft.m,v 1.29 2011/04/08 08:56:13 hewitson Exp $', sets, pls); end %-------------------------------------------------------------------------- % Get Default Plist %-------------------------------------------------------------------------- function plout = getDefaultPlist() persistent pl; if exist('pl', 'var')==0 || isempty(pl) pl = buildplist(); end plout = pl; end function pl = buildplist() pl = plist({'f', ['The vector of frequencies at which to compute the DFT <br>or an AO ' ... 'where the x-axis is taken for the frequency values.']}, paramValue.DOUBLE_VALUE(-1)); end