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| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
|---|---|
| date | Mon, 05 Dec 2011 18:04:34 +0100 |
| parents | f0afece42f48 |
| children |
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% RESP returns the complex response of a transfer function as an Analysis Object. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: RESP returns the complex response of a transfer function as % an Analysis Object. % % CALL: a = resp(obj, f); % compute response for vector f % a = resp(obj, f1, f2, nf); % compute response from f1 to f2 in nf % steps. % a = resp(obj, pl); % compute response from parameter list. % a = resp(obj); % compute response % % <a href="matlab:utils.helper.displayMethodInfo('ltpda_tf', 'resp')">Parameters Description</a> % % VERSION: $Id: resp.m,v 1.14 2011/04/18 16:50:51 ingo Exp $ % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function varargout = resp(varargin) %%% Check if this is a call for parameters if utils.helper.isinfocall(varargin{:}) varargout{1} = getInfo(varargin{3}); return end %%% Input objects checks if nargin < 1 error('### incorrect number of inputs.') end objs = {}; rest = {}; plin = []; invars = {}; % Check input shape % only one input -> keep shape % more than one input -> convert to list. classMatch = zeros(nargin, 1); for ii = 1:nargin if isa(varargin{ii}, 'ltpda_tf') classMatch(ii) = 1; end end for ii = 1:nargin if classMatch(ii) == 1 if sum(classMatch) == 1 objs = num2cell(varargin{ii}); invars = [invars repmat({inputname(ii)}, 1, numel(varargin{ii}))]; else objs = [objs reshape(num2cell(varargin{ii}), 1, [])]; invars = [invars repmat({inputname(ii)}, 1, numel(varargin{ii}))]; end else if isa(varargin{ii}, 'plist') plin = [plin varargin{ii}]; else rest = [rest {varargin{ii}}]; end end end % Combine the input plists plin = combine(plin, plist()); % Initialize output bank = plin.combine(getDefaultPlist('Range')).find('bank'); switch lower(bank) case 'none' bs = ao.initObjectWithSize(size(objs,1), size(objs,2)); otherwise bs = []; end % Loop over transfer functions for pp=1:numel(objs) % process this transfer function obj = objs{pp}; % Now look at the model name = obj.name; if (plin.isparam('f')) || ... (numel(rest) == 1 && isnumeric(rest{1}) && isvector(rest{1})) || ... (numel(rest) == 1 && isa(rest{1}, 'ao') && isa(rest{1}.data, 'fsdata')) || ... (numel(rest) == 1 && isa(rest{1}, 'ao') && isa(rest{1}.data, 'xydata')) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%% Response with a f vector %%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% r = obj.resp(plist-object('f')) %%% r = obj.resp(ao-object(fsdata)) %%% r = obj.resp(ao-object(xydata)) if numel(rest) == 1 pl = combine(plist('f', rest{1}), getDefaultPlist('List')); else pl = combine(plin, getDefaultPlist('List')); end %%% Get f-vector f = pl.find('f'); %%% Get the f-vector from the AO if isa(f, 'ao') f = f.data.x; elseif isnumeric(f) && isvector(f) %%% nothing to do else error('### The f-vector must be a vector or an AO, but it is from the class [%s]', class(f)); end elseif (plin.isparam('f1')) || ... (plin.isparam('f2')) || ... (numel(rest) == 0) || ... (numel(rest) == 2 && isnumeric(rest{1}) && isnumeric(rest{2})) || ... (numel(rest) == 3 && isnumeric(rest{1}) && isnumeric(rest{2}) && isnumeric(rest{3})) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%% Response with f1, f2 and nf %%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% r = obj.resp(plist-object('f1', 'f2')) %%% r = obj.resp(plist-object('f1')) %%% r = obj.resp(plist-object('f2')) %%% r = obj.resp() %%% r = obj.resp(f1, f2) %%% r = obj.resp(f1, f2, nf) if numel(rest) == 0 && plin.nparams == 0 pl = getDefaultPlist('Range'); elseif numel(rest) == 2 pl = combine(plist('f1', rest{1}, 'f2', rest{2}), getDefaultPlist('Range')); elseif numel(rest) == 3 pl = combine(plist('f1', rest{1}, 'f2', rest{2}, 'nf', rest{3}), getDefaultPlist('Range')); else pl = combine(plin, getDefaultPlist('Range')); end f1 = pl.find('f1'); f2 = pl.find('f2'); nf = pl.find('nf'); scale = pl.find('scale'); % Get the default values if 'f1' or 'f2' are not existing if isa(obj, 'miir') || isa(obj, 'mfir') % Special case for iir- and fir filters. if isempty(f1), f1 = obj.fs/1000; end if isempty(f2), f2 = obj.fs/2-1/nf; end if isempty(f1), f1 = 0; end if isempty(f2), f2 = 0.5; end else if isempty(f1), f1 = getlowerFreq(obj)/10; end if isempty(f2), f2 = getupperFreq(obj)*10; end end switch lower(scale) case 'lin' f = linspace(f1, f2, nf); case 'log' f = logspace(log10(f1), log10(f2), nf); end else error('### Unknown or incorrect number of inputs.'); end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%% deal with rows %%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% reshape_f = false; if size(f,1) > 1 f = f.'; reshape_f = true; end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%% compute the response %%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% r = respCore(obj, f); %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%% Build output AO %%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% if reshape_f f = f.'; r = r.'; end % create new output fsdata fsd = fsdata(f, r); % set yunits = ounits./iunits fsd.setXunits('Hz'); fsd.setYunits(obj.ounits./obj.iunits); % set fs, if the object is a discrete filter if isa(obj, 'ltpda_filter') fsd.setFs(obj.fs); end % make output analysis object b = ao(fsd); switch lower(bank) case 'none' % Add history b.addHistory(getInfo('None'), pl, invars, obj.hist); % set name if isempty(name) b.setName(sprintf('resp(%s)', invars{pp})); else b.setName(sprintf('resp(%s)', name)); end % Add to outputs bs(pp) = b; case 'serial' if isempty(bs) bs = b; oname = obj.name; else bs = bs .* b; oname = [oname '.*' obj.name]; end case 'parallel' if isempty(bs) bs = b; oname = obj.name; else bs = bs + b; oname = [oname '+' obj.name]; end otherwise error('Unknown option for parameter ''bank'': %s', bank); end end if strcmpi(bank, 'parallel') || strcmpi(bank, 'serial') inhists = []; for ii = 1:numel(objs) inhists = [inhists objs{ii}.hist]; end % Add history bs.addHistory(getInfo('None'), pl, [], inhists); % set name bs.setName(sprintf('resp(%s)', oname)); end % Outputs if nargout == 0 iplot(bs) elseif nargout == numel(bs) % List of outputs for ii = 1:numel(bs) varargout{ii} = bs(ii); end else % Single output varargout{1} = bs; end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Local Functions % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % FUNCTION: getInfo % % DESCRIPTION: Get Info Object % % HISTORY: 11-07-07 M Hewitson % Creation. % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function ii = getInfo(varargin) if nargin == 1 && strcmpi(varargin{1}, 'None') sets = {}; pls = []; elseif nargin == 1&& ~isempty(varargin{1}) && ischar(varargin{1}) sets{1} = varargin{1}; pls = getDefaultPlist(sets{1}); else sets = {'List', 'Range'}; pls = []; for kk=1:numel(sets) pls = [pls getDefaultPlist(sets{kk})]; end end % Build info object ii = minfo(mfilename, 'ltpda_tf', 'ltpda', utils.const.categories.sigproc, '$Id: resp.m,v 1.14 2011/04/18 16:50:51 ingo Exp $', sets, pls); ii.setModifier(false); ii.setArgsmin(1); end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % FUNCTION: getDefaultPlist % % DESCRIPTION: Get Default Plist % % HISTORY: 11-07-07 M Hewitson % Creation. % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function plout = getDefaultPlist(set) persistent pl; persistent lastset; if exist('pl', 'var')==0 || isempty(pl) || ~strcmp(lastset, set) pl = buildplist(set); lastset = set; end plout = pl; end function plo = buildplist(set) switch lower(set) case 'list' plo = plist(); p = param({'f',['A vector of frequencies to evaluate at or an AO \n',... 'whereby the x-axis is taken for the frequency values.']}, paramValue.EMPTY_DOUBLE); plo.append(p); case 'range' plo = plist(); p = param({'f1','Start frequency.'}, paramValue.EMPTY_DOUBLE); plo.append(p); p = param({'f2','Stop frequency.'}, paramValue.EMPTY_DOUBLE); plo.append(p); p = param({'nf','Number of evaluation frequencies.'}, paramValue.DOUBLE_VALUE(1000)); plo.append(p); p = param({'scale',['Spacing of frequencies:<ul>', ... '<li>''lin'' - Linear scale.</li>', ... '<li>''log'' - Logarithmic scale.</li></ul>']}, {2, {'lin', 'log'} paramValue.SINGLE}); plo.append(p); otherwise error('### Unknown set [%s]', set); end p = param({'bank',['How to handle a vector of input filters<br/>(only iir and fir filters):<ul>',... '<li>''None'' - process each filter individually.</li>',... '<li>''Serial'' - return the response of a serial filter bank.</li>',... '<li>''Parallel'' - return the response of a parallel filter bank.</li></ul>']}, {1, {'none', 'serial', 'parallel'}, paramValue.SINGLE}); plo.append(p); end