function oo_ = compute_moments_varendo(type,options_,M_,oo_,var_list_) % Computes the second order moments (autocorrelation function, covariance % matrix and variance decomposition) distributions for all the endogenous variables selected in % var_list_. The results are saved in oo_ % % INPUTS: % type [string] 'posterior' or 'prior' % options_ [structure] Dynare structure. % M_ [structure] Dynare structure (related to model definition). % oo_ [structure] Dynare structure (results). % var_list_ [string] Array of string with endogenous variable names. % % OUTPUTS % oo_ [structure] Dynare structure (results). % % SPECIAL REQUIREMENTS % none % Copyright (C) 2008-2010 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 . fprintf('Estimation::compute_moments_varendo: I''m computing endogenous moments (this may take a while)... '); if strcmpi(type,'posterior') posterior = 1; if nargin==4 var_list_ = char(options_.varobs); end elseif strcmpi(type,'prior') posterior = 0; if nargin==4 var_list_ = options_.prior_analysis_endo_var_list; if isempty(var_list_) options_.prior_analysis_var_list = char(options_.varobs); end end else error('compute_moments_varendo:: Unknown type!') end NumberOfEndogenousVariables = rows(var_list_); NumberOfExogenousVariables = M_.exo_nbr; NumberOfLags = options_.ar; NoDecomposition = options_.nodecomposition; if isfield(options_,'conditional_variance_decomposition') Steps = options_.conditional_variance_decomposition; else Steps = 0; end % COVARIANCE MATRIX. if posterior for i=1:NumberOfEndogenousVariables for j=i:NumberOfEndogenousVariables oo_ = posterior_analysis('variance',var_list_(i,:),var_list_(j,:),[],options_,M_,oo_); end end else for i=1:NumberOfEndogenousVariables for j=i:NumberOfEndogenousVariables oo_ = prior_analysis('variance',var_list_(i,:),var_list_(j,:),[],options_,M_,oo_); end end end % CORRELATION FUNCTION. if posterior for h=NumberOfLags:-1:1 for i=1:NumberOfEndogenousVariables for j=1:NumberOfEndogenousVariables oo_ = posterior_analysis('correlation',var_list_(i,:),var_list_(j,:),h,options_,M_,oo_); end end end else for h=NumberOfLags:-1:1 for i=1:NumberOfEndogenousVariables for j=1:NumberOfEndogenousVariables oo_ = prior_analysis('correlation',var_list_(i,:),var_list_(j,:),h,options_,M_,oo_); end end end end % VARIANCE DECOMPOSITION. if M_.exo_nbr > 1 if ~NoDecomposition if posterior for i=1:NumberOfEndogenousVariables for j=1:NumberOfExogenousVariables oo_ = posterior_analysis('decomposition',var_list_(i,:),M_.exo_names(j,:),[],options_,M_,oo_); end end else for i=1:NumberOfEndogenousVariables for j=1:NumberOfExogenousVariables oo_ = prior_analysis('decomposition',var_list_(i,:),M_.exo_names(j,:),[],options_,M_,oo_); end end end end % CONDITIONAL VARIANCE DECOMPOSITION. if Steps if posterior for i=1:NumberOfEndogenousVariables for j=1:NumberOfExogenousVariables oo_ = posterior_analysis('conditional decomposition',i,M_.exo_names(j,:),Steps,options_,M_,oo_); end end else for i=1:NumberOfEndogenousVariables for j=1:NumberOfExogenousVariables oo_ = prior_analysis('conditional decomposition',var_list_(i,:),M_.exo_names(j,:),Steps,options_,M_,oo_); end end end end end fprintf(' Done!\n');