function dynare_estimation(var_list,dname) % function dynare_estimation(var_list) % runs the estimation of the model % % INPUTS % var_list: selected endogenous variables vector % % OUTPUTS % none % % SPECIAL REQUIREMENTS % none % Copyright (C) 2003-2012 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 . global options_ oo_ M_ oo_recursive_ %% Decide if a DSGE or DSGE-VAR has to be estimated. if ~isempty(strmatch('dsge_prior_weight',M_.param_names)) options_.dsge_var = 1; end var_list = check_list_of_variables(options_, M_, var_list); options_.varlist = var_list; if isfield(options_,'nobs') nobs = options_.nobs; else nobs = []; end nnobs = length(nobs); horizon = options_.forecast; if nargin<2 || ~exist(dname) || isempty(dname) dname = M_.fname; end M_.dname = dname; if options_.mode_compute && options_.analytic_derivation, analytic_derivation0=options_.analytic_derivation; options_.analytic_derivation=1; end if nnobs > 1 for i=1:nnobs options_.nobs = nobs(i); M_.dname = [dname '_' int2str(nobs(i))]; dynare_estimation_1(var_list,M_.dname); oo_recursive_{nobs(i)} = oo_; end else dynare_estimation_1(var_list,dname); end if options_.mode_compute && options_.analytic_derivation, options_.analytic_derivation=analytic_derivation0; end if nnobs > 1 && horizon > 0 mh_replic = options_.mh_replic; rawdata = read_variables(options_.datafile,options_.varobs,[],options_.xls_sheet,options_.xls_range); gend = options_.nobs; rawdata = rawdata(options_.first_obs:options_.first_obs+gend-1,:); % Take the log of the variables if needed if options_.loglinear && ~options_.logdata % and if the data are not in logs, then... rawdata = log(rawdata); end endo_names = M_.endo_names; n_varobs = size(options_.varobs,1); if isempty(var_list) var_list = endo_names; nvar = size(endo_names,1); SelecVariables = transpose(1:nvar); else nvar = size(var_list,1); SelecVariables = []; for i=1:nvar if ~isempty(strmatch(var_list(i,:),endo_names,'exact')) SelecVariables = [SelecVariables;strmatch(var_list(i,:),endo_names, ... 'exact')]; else error(['Estimation: ' var_list(i,:) ' isn''t an endogenous' ... 'variable']) end end end IdObs = zeros(n_varobs,1); for j=1:n_varobs for i=1:nvar iobs = strmatch(options_.varobs(j,:),var_list,'exact'); end if ~isempty(iobs) IdObs(j,1) = iobs; end end k = 3+min(nobs(end)-nobs(1)+horizon, ... size(rawdata,1)-nobs(1)); data2 = rawdata(end-k+1:end,:); [nbplt,nr,nc,lr,lc,nstar] = pltorg(nvar); m = 1; for i = 1:size(var_list,1) if mod(i,nstar) == 1 hfig = dyn_figure(options_,'Name','Out of sample forecasts'); m = 1; end subplot(nr,nc,m) hold on if any(i==IdObs) k2 = find(i==IdObs); if options_.loglinear == 1 plot(1:k,exp(data2(end-k+1:end,k2))','-k','linewidth',2); else plot(1:k,data2(end-k+1:end,k2)','-k','linewidth',2); end offsetx = 3; else offsetx = 0; end vname = deblank(var_list(i,:)); maxlag = M_.maximum_lag; for j=1:nnobs if mh_replic > 0 eval(['oo_.RecursiveForecast.Mean.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.MeanForecast.Mean.' ... vname '(maxlag+1:end);']); eval(['oo_.RecursiveForecast.HPDinf.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.MeanForecast.HPDinf.' ... vname '(maxlag+1:end);']); eval(['oo_.RecursiveForecast.HPDsup.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.MeanForecast.HPDsup.' ... vname '(maxlag+1:end);']); eval(['oo_.RecursiveForecast.HPDTotalinf.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.PointForecast.HPDinf.' ... vname '(maxlag+1:end);']); eval(['oo_.RecursiveForecast.HPDTotalsup.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.PointForecast.HPDsup.' ... vname '(maxlag+1:end);']); else eval(['oo_.RecursiveForecast.Mean.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.forecast.Mean.' ... vname ';']); eval(['oo_.RecursiveForecast.HPDinf.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.forecast.HPDinf.' ... vname ';']); eval(['oo_.RecursiveForecast.HPDsup.' vname '(j,:) =' ... 'oo_recursive_{' int2str(nobs(j)) '}.forecast.HPDsup.' ... vname ';']); end x = offsetx+nobs(j)-nobs(1)+(1:horizon); y = eval(['oo_.RecursiveForecast.Mean.' vname '(j,:)']); y1 = eval(['oo_.RecursiveForecast.HPDinf.' vname '(j,:)']); y2 = eval(['oo_.RecursiveForecast.HPDsup.' vname '(j,:)']); plot(x,y,'-b','linewidth',2) plot(x,y1,'--g', ... 'linewidth',1.5) plot(x,y2,'--g', ... 'linewidth',1.5) if mh_replic y3 = eval(['oo_.RecursiveForecast.HPDTotalinf.' vname '(j,:)']); y4 = eval(['oo_.RecursiveForecast.HPDTotalsup.' vname ... '(j,:)']); plot(x,y3,'--r', ... 'linewidth',1.5) plot(x,y4,'--r','linewidth',1.5) end end % set(gca,'XTick',offsetx+[1 10 20 30 40 50 60 70 80 90]); % set(gca,'XTickLabel',{'1';'10';'20';'30';'40';'50';'60';'70';'80';'90'}); % xlim([1 options_.forecast+10]); if any(k==IdObs) plot([offsetx+1 offsetx+1],ylim,'-c') end box on title(vname,'Interpreter','none') hold off m = m + 1; end end