function o = write(o, fid, dates, precision, yrsForAvgs) %function o = write(o, fid, dates, precision, yrsForAvgs) % Write Table Row % % INPUTS % o [report_series] report_series object % fid [int] file id % dates [dates] dates for report_series slice % precision [float] precision with which to print the data % yrsForAvgs [bool] the years for which to compute averages % % % OUTPUTS % o [report_series] report_series object % % SPECIAL REQUIREMENTS % none % Copyright (C) 2013 Dynare Team % % This file is part of Dynare. % % Dynare is free software: you can redistribute it and/or modify % it under the terms of the GNU General Public License as published by % the Free Software Foundation, either version 3 of the License, or % (at your option) any later version. % % Dynare is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the % GNU General Public License for more details. % % You should have received a copy of the GNU General Public License % along with Dynare. If not, see . %% Validate options passed to function assert(fid ~= -1); assert(isa(dates, 'dates')); assert(isint(precision)); %% Validate options provided by user assert(ischar(o.tableSubSectionHeader), '@report_series.write: tableSubSectionHeader must be a string'); if isempty(o.tableSubSectionHeader) assert(~isempty(o.data) && isa(o.data, 'dseries'), ... '@report_series.write: must provide data as a dseries'); end assert(ischar(o.tableNegColor), '@report_series.write: tableNegColor must be a string'); assert(ischar(o.tablePosColor), '@report_series.write: tablePosColor must be a string'); assert(ischar(o.tableRowColor), '@report_series.write: tableRowColor must be a string'); assert(islogical(o.tableShowMarkers), '@report_series.write: tableShowMarkers must be true or false'); assert(islogical(o.tableAlignRight), '@report_series.write: tableAlignRight must be true or false'); assert(isfloat(o.tableMarkerLimit), '@report_series,write: tableMarkerLimit must be a float'); %% Write Output dataString = ['%.' num2str(precision) 'f']; precision = 10^precision; fprintf(fid, '%% Table Row (report_series)\n'); if ~isempty(o.tableRowColor) fprintf(fid, '\\rowcolor{%s}', o.tableRowColor); end if ~isempty(o.tableSubSectionHeader) fprintf(fid, '%s', o.tableSubSectionHeader); for i=1:size(dates)+length(yrsForAvgs) fprintf(fid, '&'); end fprintf(fid, '\\\\%%\n'); return; end if o.tableAlignRight fprintf(fid, '\\multicolumn{1}{r}{'); end fprintf(fid, '%s', o.data.tex{:}); if o.tableAlignRight fprintf(fid, '}'); end data = o.data(dates); data = data.data; for i=1:size(data,1) fprintf(fid, '&'); if o.tableShowMarkers if data(i) < -o.tableMarkerLimit fprintf(fid, '\\color{%s}', o.tableNegColor); elseif data(i) > o.tableMarkerLimit fprintf(fid, '\\color{%s}', o.tablePosColor); end fprintf(fid, '['); end fprintf(fid, dataString, round(data(i)*precision)/precision); if o.tableShowMarkers fprintf(fid, ']'); end end % Calculate and display annual averages for i=1:length(yrsForAvgs) slice = o.data(dynDate([num2str(yrsForAvgs(i)) 'q1']):dynDate([num2str(yrsForAvgs(i)) 'q4'])); avg = sum(slice.data)/size(slice); fprintf(fid, '&'); if o.tableShowMarkers if avg < -o.tableMarkerLimit fprintf(fid, '\\color{%s}', o.tableNegColor); elseif avg > o.tableMarkerLimit fprintf(fid, '\\color{%s}', o.tablePosColor); end fprintf(fid, '['); end fprintf(fid, dataString, round(avg*precision)/precision); if o.tableShowMarkers fprintf(fid, ']'); end end fprintf(fid, '\\\\%%\n'); end