Mercurial > hg > ltpda
view m-toolbox/classes/@ao/fromComplexDatafile.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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% FROMCOMPLEXDATAFILE Construct an AO from filename AND parameter list %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % FUNCTION: fromDatafile % % DESCRIPTION: Construct an AO from filename AND parameter list % % CALL: a = fromComplexDatafile(a, pli) % % PARAMETER: a: empty ao-object % pli: plist-object (must contain the filename) % % VERSION: $Id: fromComplexDatafile.m,v 1.12 2011/08/12 09:55:39 hewitson Exp $ % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function objs = fromComplexDatafile(ain, pli) utils.helper.msg(utils.const.msg.PROC1, 'loading complex data from filename and/or plist'); VERSION = '$Id: fromComplexDatafile.m,v 1.12 2011/08/12 09:55:39 hewitson Exp $'; % get AO info mi = ao.getInfo('ao', 'From Complex ASCII File'); % Set the method version string in the minfo object mi.setMversion([VERSION '-->' mi.mversion]); % Get filename file_name = find(pli, 'filename'); file_path = find(pli, 'filepath'); [filePath, fileName, ext] = fileparts(file_name); % Add the file extenstion to the fileName fileName = strcat(fileName, ext); % Define the path of the if ~isempty(file_path) && ~isempty(filePath) % Do nothing because we will use filePath elseif ~isempty(file_path) filePath = file_path; elseif ~isempty(filePath) % Do nothing because we will use filePath else filePath = pwd(); end absolutePathname = fullfile(filePath, fileName); % Check if the abolute Pathname exist if ~exist(absolutePathname, 'file') absolutePathname = fileName; end %%%%%%%%%% Get default parameter list %%%%%%%%%% pl = applyDefaults(mi.plists, pli); pl = pset(pl, 'filename', fileName); pl = pset(pl, 'filepath', filePath); data_type = find (pl, 'type'); columns = find (pl, 'columns'); comment_char = find (pl, 'comment_char'); orig_col = columns; % necessary for the histroy objs = []; %%%%%%%%%% read file %%%%%%%%%% [fid,msg] = fopen (absolutePathname, 'r'); if (fid < 0) error ('### can not open file: %s \n### error msg: %s', fileName, msg); end %%%%%%%%%% create scan format: '%f %f %f %f %f %*[^\n]' %%%%%%%%%% scan_format = ''; read_col = 0; sort_col = sort(columns); %%%%%%%%%% Get/Count max number of lines %%%%%%%%%% maxLines = numlines(fid); utils.helper.msg(utils.const.msg.PROC2, 'Counting lines: %d', maxLines); fseek(fid, 0, 'bof'); %%%%%%%%%% Read data %%%%%%%%%% readlines = min(50000, maxLines); nlines = 0; %%% Based on skipping the not used columns we have to transform the columns. %%% We must transform the columns [ 2 5 2 6 5 7] to [ 1 2 1 3 2 4] %%% In each loop we have to replace the corresponding value. In the first loop %%% the first minimum, in the second loop the second minimum, ... with the %%% current loop number. for j=1:max(columns) if ismember(j, columns) scan_format = [scan_format '%n ']; read_col = read_col + 1; replace = min(sort_col); columns (columns==replace) = read_col; sort_col(sort_col==replace) = []; else scan_format = [scan_format '%*n ']; end end scan_format = [deblank(scan_format) '%*[^\n]']; %%% preallocate data array f_data = zeros(maxLines, read_col); %%% check if using robust read: 'yes'/'no' or true/false or 'true'/'false' robust = find(pl, 'Robust'); if isempty(robust) robust = false; elseif ischar(robust) if strcmpi(robust, 'yes') || strcmpi(robust, 'true') robust = true; else robust = false; end end if robust f_data = robustRead(fid, f_data, columns, orig_col); else %%% Look for the first line of data if ~isempty(comment_char) while ~feof(fid) f = deblank(fgetl(fid)); if ~isempty(f) if f(1) ~= comment_char break; end end end else f = deblank(fgetl(fid)); end %%% Scan it to find how many columns we have in the file C = textscan(f, scan_format, 1, 'CollectOutput', 1); if any(isnan(C{:})) error('### Error in file format. Perhaps you specified more columns than the file contains?'); end fseek(fid, 0, 'bof'); %%% read file to end while ~feof(fid) && nlines < maxLines if isempty(comment_char) C = textscan(fid, scan_format, readlines, ... 'CollectOutput', 1); else C = textscan(fid, scan_format, readlines, ... 'CommentStyle', comment_char, ... 'CollectOutput', 1); end f_data(nlines+1:nlines+size(C{1},1),:) = C{1}; nlines = nlines + length(C{1}); if isempty(C{1}) error('\n### There are no data.\n### Did you use the right comment character?\n### The current comment character is: [%s]\n### Use a parameter list with the parameter:\n### plist(''comment_char'', ''%%'')', comment_char); end utils.helper.msg(utils.const.msg.PROC2, 'read %09d lines of %09d', nlines, maxLines); end fclose(fid); %%% get only the data we want if size(f_data,1) > nlines f_data = f_data(1:nlines, :); end end %%%%%%%%%% Create for each three columns the data object %%%%%%%%%% %%%%%%%%%% The numbers in columns must be straight %%%%%%%%%% if mod(length(columns),3) ~= 0 error('### The numbers in columns must be multiple of three.'); end complex_type = pl.find('complex_type'); for lauf = 1:length(columns)/3 data_x = f_data(:, columns(lauf*3-2)); data_y_1 = f_data(:, columns(lauf*3-1)); data_y_2 = f_data(:, columns(lauf*3)); if strcmpi(complex_type, 'abs/deg') data_y = data_y_1 .* exp(1i*data_y_2*pi/180); elseif strcmpi(complex_type, 'dB/deg') data_y = 10.^(data_y_1./20) .* exp(1i*data_y_2*pi/180); elseif strcmpi(complex_type, 'abs/rad') data_y = data_y_1 .* exp(1i*data_y_2); elseif strcmpi(complex_type, 'dB/rad') data_y = 10.^(data_y_1./20) .* exp(1i*data_y_2); elseif strcmpi(complex_type, 'real/imag') data_y = complex(data_y_1, data_y_2); else error('### I can not handle real [%s] and imaginary [%s].', real_type, imag_type); end % create data object corresponding to the parameter list ao_data = []; switch lower(data_type) case 'tsdata' ao_data = tsdata(data_x, data_y); case 'fsdata' ao_data = fsdata(data_x, data_y); case 'cdata' error('### Please code me up'); case 'xydata' ao_data = xydata(data_x, data_y); otherwise error('### unknown data type ''%s''', data_type); end aa = ao(ao_data); % overide the default name if isempty(pl.find('name')) pl.pset('name', sprintf('%s_%02d_%02d_%02d', fileName, orig_col(lauf*3-2), orig_col(lauf*3-1), orig_col(lauf*3))); end % set units aa.setXunits(pl.find('xunits')); aa.setYunits(pl.find('yunits')); % Add history pl = pl.pset('columns', [orig_col(lauf*3-2) orig_col(lauf*3-1) orig_col(lauf*3)]); aa.addHistory(mi, pl, [], []); objs = [objs aa]; end % set any object properties now objs.setObjectProperties(pl); end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Local Functions % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % FUNCTION: numlines % % SYNTAX: count = numlines(fid); % % DESCRIPTION: Number of lines in an ASCII file % % HISTORY: 02-08-2002 Peter Acklam, CSSM post % Creation. % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function lines = numlines(fid) lines = 0; % number of lines in file nlchr = uint8(sprintf('\n')); % newline chr as uint8 bsize = 4 * 256 * 8192; % block size to read while ~feof(fid) block = fread(fid, bsize, '*uint8'); lines = lines + sum(block == nlchr); end if ~isempty(block) % in case file is empty lines = lines + double(block(end) ~= nlchr); end end % A robust and slow data reader function f_data = robustRead(fid, f_data, columns, orig_cols) cols = unique(columns); ocols = unique(orig_cols); Nline = 1; while ~feof(fid) % read and parse line tokens = sscanf(fgets(fid), '%f'); % parse tokens if ~isempty(tokens) f_data(Nline, cols) = tokens(ocols); if mod(Nline, 1000) == 0 utils.helper.msg(utils.const.msg.PROC2, 'lines read: %d', Nline); end Nline = Nline + 1; end end % drop empty lines f_data = f_data(1:Nline-1, :); end