Added Posterior distribution of the conditional variance
decomposition (more tests are needed). The results are saved in oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition. Contrary to the asymptotic variance decomposition, we do not report contribution shares but contribution levels of each structural shock. LIMITATIONS: * Won't work in a model with measurement errors. * Won't work in a model with correlated shocks. * The routines do not compute the covariance decompositions. git-svn-id: https://www.dynare.org/svn/dynare/trunk@2719 ac1d8469-bf42-47a9-8791-bf33cf982152time-shift
parent
19b704d54b
commit
dedca98dba
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@ -64,8 +64,8 @@ function [info,description] = check_posterior_analysis_data(type,M_)
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generic_post_data_file_name = 'PosteriorVarianceDecomposition';
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generic_post_data_file_name = 'PosteriorVarianceDecomposition';
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case 'correlation'
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case 'correlation'
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generic_post_data_file_name = 'PosteriorCorrelations';
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generic_post_data_file_name = 'PosteriorCorrelations';
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case 'dynamic_decomposition'
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case 'conditional decomposition'
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generic_post_data_file_name = 'PosteriorDynamicVarianceDecomposition';
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generic_post_data_file_name = 'PosteriorConditionalVarianceDecomposition';
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otherwise
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otherwise
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disp('This feature is not yest implemented!')
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disp('This feature is not yest implemented!')
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end
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end
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@ -35,6 +35,7 @@ function oo_ = compute_moments_varendo(options_,M_,oo_,var_list_)
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NumberOfExogenousVariables = M_.exo_nbr;
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NumberOfExogenousVariables = M_.exo_nbr;
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list_of_exogenous_variables = M_.exo_names;
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list_of_exogenous_variables = M_.exo_names;
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NumberOfLags = options_.ar;
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NumberOfLags = options_.ar;
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Steps = options_.conditional_variance_decomposition_dates;
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% COVARIANCE MATRIX.
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% COVARIANCE MATRIX.
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for i=1:NumberOfEndogenousVariables
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for i=1:NumberOfEndogenousVariables
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for j=i:NumberOfEndogenousVariables
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for j=i:NumberOfEndogenousVariables
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@ -55,3 +56,9 @@ function oo_ = compute_moments_varendo(options_,M_,oo_,var_list_)
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oo_ = posterior_analysis('decomposition',var_list_(i,:),M_.exo_names(j,:),[],options_,M_,oo_);
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oo_ = posterior_analysis('decomposition',var_list_(i,:),M_.exo_names(j,:),[],options_,M_,oo_);
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end
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end
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end
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end
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% CONDITIONAL VARIANCE DECOMPOSITION.
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for i=1:NumberOfEndogenousVariables
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for j=1:NumberOfExogenousVariables
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oo_ = posterior_analysis('conditional decomposition',var_list_(i,:),M_.exo_names(j,:),Steps,options_,M_,oo_);
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end
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end
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@ -0,0 +1,54 @@
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function PackedConditionalVarianceDecomposition = conditional_variance_decomposition(StateSpaceModel, Steps, SubsetOfVariables)
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% This function computes the conditional variance decomposition of a given state space model
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% for a subset of endogenous variables.
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%
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% INPUTS
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% StateSpaceModel [structure] Specification of the state space model.
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% Steps [integer] 1*h vector of dates.
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% SubsetOfVariables [integer] 1*q vector of indices.
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%
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% OUTPUTS
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% PackedConditionalVarianceDecomposition [double] n(n+1)/2*p matrix, where p is the number of state innovations and
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% n is equal to length(SubsetOfVariables).
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%
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% SPECIAL REQUIREMENTS
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%
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% [1] The covariance matrix of the state innovations needs to be diagonal.
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% [2] In this version, absence of measurement errors is assumed...
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% Copyright (C) 2009 Dynare Team
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%
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% This file is part of Dynare.
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%
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% Dynare is free software: you can redistribute it and/or modify
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% it under the terms of the GNU General Public License as published by
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% the Free Software Foundation, either version 3 of the License, or
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% (at your option) any later version.
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%
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% Dynare is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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% GNU General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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ConditionalVariance = zeros(StateSpaceModel.number_of_state_equations,StateSpaceModel.number_of_state_equations);
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ConditionalVariance = repmat(ConditionalVariance,[1 1 length(Steps) StateSpaceModel.number_of_state_innovations]);
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BB = StateSpaceModel.impulse_matrix*transpose(StateSpaceModel.impulse_matrix);
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for h = 1:length(Steps)
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for t = 0:Steps(h)
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for i=1:StateSpaceModel.number_of_state_innovations
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ConditionalVariance(:,:,h,i) = ...
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StateSpaceModel.transition_matrix*ConditionalVariance(:,:,h,i)*transpose(StateSpaceModel.transition_matrix) ...
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+BB*StateSpaceModel.state_innovations_covariance_matrix(i,i);
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end
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end
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end
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ConditionalVariance = ConditionalVariance(SubsetOfVariables,SubsetOfVariables,:,:);
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NumberOfVariables = length(SubsetOfVariables);
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PackedConditionalVarianceDecomposition = zeros(NumberOfVariables*(NumberOfVariables+1)/2,length(Steps),StateSpaceModel.number_of_state_innovations);
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for i=1:StateSpaceModel.number_of_state_innovations
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for h = 1:length(Steps)
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PackedConditionalVarianceDecomposition(:,h,i) = vech(ConditionalVariance(:,:,h,i));
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end
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end
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@ -0,0 +1,83 @@
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function oo_ = conditional_variance_decomposition_posterior_analysis(NumberOfSimulations, dname, fname, ...
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Steps, exonames, exo, vartan, var, mh_conf_sig, oo_)
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% Copyright (C) 2009 Dynare Team
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%
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% This file is part of Dynare.
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%
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% Dynare is free software: you can redistribute it and/or modify
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% it under the terms of the GNU General Public License as published by
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% the Free Software Foundation, either version 3 of the License, or
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% (at your option) any later version.
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%
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% Dynare is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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% GNU General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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indx = check_name(vartan,var);
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if isempty(indx)
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disp(['posterior_analysis:: ' var ' is not a stationary endogenous variable!'])
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return
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end
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endogenous_variable_index = sum(1:indx);
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exogenous_variable_index = check_name(exonames,exo);
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if isempty(exogenous_variable_index)
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disp(['posterior_analysis:: ' exo ' is not a declared exogenous variable!'])
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return
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end
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tmp = dir([ dname '/metropolis/' fname '_PosteriorConditionalVarianceDecomposition*.mat']);
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NumberOfFiles = length(tmp);
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i1 = 1; tmp = zeros(NumberOfSimulations,length(Steps));
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for file = 1:NumberOfFiles
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load([dname '/metropolis/' fname '_PosteriorConditionalVarianceDecomposition' int2str(file) '.mat']);
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% (endovar,time,exovar,simul)
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i2 = i1 + size(Conditional_decomposition_array,4) - 1;
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tmp(i1:i2,:) = transpose(dynare_squeeze(Conditional_decomposition_array(endogenous_variable_index,:,exogenous_variable_index,:)));
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i1 = i2+1;
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end
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name = [ var '.' exo ];
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if isfield(oo_,'PosteriorTheoreticalMoments')
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if isfield(oo_.PosteriorTheoreticalMoments,'dsge')
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if isfield(oo_.PosteriorTheoreticalMoments.dsge,'ConditionalVarianceDecomposition')
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if isfield(oo_.PosteriorTheoreticalMoments.dsge.VarianceDecomposition.mean,name)
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if sum(Steps-oo_.PosteriorTheoreticalMoments.dsge.VarianceDecomposition.mean.(name)(1,:)) == 0
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% Nothing (new) to do here...
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return
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end
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end
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end
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end
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end
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posterior_mean = NaN(2,length(Steps));
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posterior_mean(1,:) = Steps;
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posterior_median = NaN(1,length(Steps));
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posterior_variance = NaN(1,length(Steps));
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posterior_deciles = NaN(9,length(Steps));
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posterior_density = NaN(2^9,2,length(Steps));
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posterior_hpdinf = NaN(1,length(Steps));
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posterior_hpdsup = NaN(1,length(Steps));
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for i=1:length(Steps)
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if ~isconst(tmp(:,i))
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[post_mean, post_median, post_var, hpd_interval, post_deciles, density] = ...
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posterior_moments(tmp(:,i),1,mh_conf_sig);
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posterior_mean(2,i) = post_mean;
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posterior_median(i) = post_median;
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posterior_variance(i) = post_var;
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posterior_deciles(:,i) = post_deciles;
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posterior_hpdinf(i) = hpd_interval(1);
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posterior_hpdinf(i) = hpd_interval(2);
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posterior_density(:,:,i) = density;
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end
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end
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.mean.' name ' = posterior_mean;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.median.' name ' = posterior_median;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.variance.' name ' = posterior_variance;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.hpdinf.' name ' = posterior_hpdinf;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.hpdsup.' name ' = posterior_hpdsup;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.deciles.' name ' = posterior_deciles;']);
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eval(['oo_.PosteriorTheoreticalMoments.dsge.ConditionalVarianceDecomposition.density.' name ' = posterior_density;']);
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@ -0,0 +1,112 @@
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function [nvar,vartan,NumberOfConditionalDecompFiles] = ...
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dsge_posterior_theoretical_conditional_variance_decomposition(SampleSize,Steps,M_,options_,oo_)
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% This function estimates the posterior distribution of the conditional variance
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% decomposition of the endogenous variables (or a subset of the endogenous variables).
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%
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% INPUTS
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% SampleSize [integer] scalar, number of draws in the posterior distribution.
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% Steps [integer] 1*h vector of dates.
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%
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% OUTPUTS
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% nvar [integer] scalar, number of endogenous variables.
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% vartan [string] array, list of endogenous variables.
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% NumberOfConditionalDecompFiles [integer] scalar.
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% Copyright (C) 2009 Dynare Team
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%
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% This file is part of Dynare.
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%
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% Dynare is free software: you can redistribute it and/or modify
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% it under the terms of the GNU General Public License as published by
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% the Free Software Foundation, either version 3 of the License, or
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% (at your option) any later version.
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%
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% Dynare is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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% GNU General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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type = 'posterior';% To be defined as a input argument later...
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% Set varlist (vartan)
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[ivar,vartan] = set_stationary_variables_list;
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nvar = length(ivar);
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% Set the size of the auto-correlation function to zero.
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nar = options_.ar;
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options_.ar = 0;
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% Get informations about the _posterior_draws files.
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DrawsFiles = dir([M_.dname '/metropolis/' M_.fname '_' type '_draws*' ]);
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NumberOfDrawsFiles = length(DrawsFiles);
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NumberOfDrawsFiles = rows(DrawsFiles);
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NumberOfSavedElementsPerSimulation = nvar*(nvar+1)/2*M_.exo_nbr*length(Steps);
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MaXNumberOfConditionalDecompLines = ceil(options_.MaxNumberOfBytes/NumberOfSavedElementsPerSimulation/8);
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if SampleSize<=MaXNumberOfConditionalDecompLines
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Conditional_decomposition_array = zeros(nvar*(nvar+1)/2,length(Steps),M_.exo_nbr,SampleSize);
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NumberOfConditionalDecompFiles = 1;
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else
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Conditional_decomposition_array = zeros(nvar*(nvar+1)/2,length(Steps),M_.exo_nbr,MaXNumberOfConditionalDecompLines);
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NumberOfLinesInTheLastConditionalDecompFile = mod(SampleSize,MaXNumberOfConditionalDecompLines);
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NumberOfConditionalDecompFiles = ceil(SampleSize/MaXNumberOfCOnditionalDecompLines);
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end
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NumberOfConditionalDecompLines = rows(Conditional_decomposition_array);
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ConditionalDecompFileNumber = 1;
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StateSpaceModel.number_of_state_equations = M_.endo_nbr;
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StateSpaceModel.number_of_state_innovations = M_.exo_nbr;
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endo_nbr = M_.endo_nbr;
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nstatic = oo_.dr.nstatic;
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npred = oo_.dr.npred;
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iv = (1:endo_nbr)';
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ic = [ nstatic+(1:npred) endo_nbr+(1:size(oo_.dr.ghx,2)-npred) ]';
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aux = oo_.dr.transition_auxiliary_variables;
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k = find(aux(:,2) > npred);
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aux(:,2) = aux(:,2) + nstatic;
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aux(k,2) = aux(k,2) + oo_.dr.nfwrd;
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linea = 0;
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for file = 1:NumberOfDrawsFiles
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load([M_.dname '/metropolis/' DrawsFiles(file).name ]);
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isdrsaved = columns(pdraws)-1;
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NumberOfDraws = rows(pdraws);
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for linee = 1:NumberOfDraws
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linea = linea+1;
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if isdrsaved
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set_parameters(pdraws{linee,1});% Needed to update the covariance matrix of the state innovations.
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dr = pdraws{linee,2};
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else
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set_parameters(pdraws{linee,1});
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[dr,info] = resol(oo_.steady_state,0);
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end
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[StateSpaceModel.transition_matrix,StateSpaceModel.impulse_matrix] = kalman_transition_matrix(dr,iv,ic,aux,M_.exo_nbr);
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StateSpaceModel.state_innovations_covariance_matrix = M_.Sigma_e;
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clear('dr');
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Conditional_decomposition_array(:,:,:,linea) = conditional_variance_decomposition(StateSpaceModel, Steps, ivar);
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if linea == NumberOfConditionalDecompLines
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save([M_.dname '/metropolis/' M_.fname '_PosteriorConditionalVarianceDecomposition' int2str(ConditionalDecompFileNumber) '.mat' ], ...
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'Conditional_decomposition_array');
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ConditionalDecompFileNumber = ConditionalDecompFileNumber + 1;
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linea = 0;
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test = ConditionalDecompFileNumber-NumberOfConditionalDecompFiles;
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if ~test% Prepare the last round...
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Conditional_decomposition_array = zeros(nvar*(nvar+1)/2,length(Steps),M_.exo_nbr,NumberOfLinesInTheLastConditionalDecompFile);
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NumberOfConditionalDecompLines = NumberOfLinesInTheLastConditionalDecompFile;
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ConditionalDecompFileNumber = ConditionalDecompFileNumber - 1;
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elseif test<0;
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Conditional_decomposition_array = zeros(nvar*(nvar+1)/2,length(Steps),M_.exo_nbr,MaXNumberOfConditionalDecompLines);
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else
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clear('Conditional_decomposition_array');
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end
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end
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end
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end
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options_.ar = nar;
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@ -183,10 +183,17 @@ function global_initialization()
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options_.student_degrees_of_freedom = 3;
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options_.student_degrees_of_freedom = 3;
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options_.trace_plot_ma = 200;
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options_.trace_plot_ma = 200;
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options_.mh_autocorrelation_function_size = 30;
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options_.mh_autocorrelation_function_size = 30;
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options_.plot_priors = 0;
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options_.plot_priors = 1;
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options_.cova_compute = 1;
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options_.cova_compute = 1;
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options_.parallel = 0;
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options_.parallel = 0;
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options_.number_of_grid_points_for_kde = 2^9;
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quarter = 1;
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years = [1 2 3 4 5 10 20 30 40 50];
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options_.conditional_variance_decomposition_dates = zeros(1,length(years));
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for i=1:length(years)
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options_.conditional_variance_decomposition_dates(i) = ...
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(years(i)-1)*4+quarter;
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end
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% Misc
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% Misc
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options_.conf_sig = 0.6;
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options_.conf_sig = 0.6;
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oo_.exo_simul = [];
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oo_.exo_simul = [];
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@ -1,5 +1,4 @@
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function oo_ = posterior_analysis(type,arg1,arg2,arg3,options_,M_,oo_)
|
function oo_ = posterior_analysis(type,arg1,arg2,arg3,options_,M_,oo_)
|
||||||
|
|
||||||
% Copyright (C) 2008 Dynare Team
|
% Copyright (C) 2008 Dynare Team
|
||||||
%
|
%
|
||||||
% This file is part of Dynare.
|
% This file is part of Dynare.
|
||||||
|
@ -46,7 +45,7 @@ function oo_ = posterior_analysis(type,arg1,arg2,arg3,options_,M_,oo_)
|
||||||
function oo_ = job(type,SampleSize,arg1,arg2,arg3,options_,M_,oo_,nvar,vartan)
|
function oo_ = job(type,SampleSize,arg1,arg2,arg3,options_,M_,oo_,nvar,vartan)
|
||||||
narg1 = 8;
|
narg1 = 8;
|
||||||
narg2 = 10;
|
narg2 = 10;
|
||||||
if ~(nargin==narg1 | nargin==narg2)
|
if ~(nargin==narg1 || nargin==narg2)
|
||||||
error('posterior_analysis:: Call to function job is buggy!')
|
error('posterior_analysis:: Call to function job is buggy!')
|
||||||
end
|
end
|
||||||
switch type
|
switch type
|
||||||
|
@ -71,6 +70,13 @@ function oo_ = job(type,SampleSize,arg1,arg2,arg3,options_,M_,oo_,nvar,vartan)
|
||||||
end
|
end
|
||||||
oo_ = correlation_posterior_analysis(SampleSize,M_.dname,M_.fname,...
|
oo_ = correlation_posterior_analysis(SampleSize,M_.dname,M_.fname,...
|
||||||
vartan,nvar,arg1,arg2,arg3,options_.mh_conf_sig,oo_,M_,options_);
|
vartan,nvar,arg1,arg2,arg3,options_.mh_conf_sig,oo_,M_,options_);
|
||||||
|
case 'conditional decomposition'
|
||||||
|
if nargin==narg1
|
||||||
|
[nvar,vartan,NumberOfFiles] = ...
|
||||||
|
dsge_posterior_theoretical_conditional_variance_decomposition(SampleSize,arg3,M_,options_,oo_);
|
||||||
|
end
|
||||||
|
oo_ = conditional_variance_decomposition_posterior_analysis(SampleSize,M_.dname,M_.fname,...
|
||||||
|
arg3,M_.exo_names,arg2,vartan,arg1,options_.mh_conf_sig,oo_);
|
||||||
otherwise
|
otherwise
|
||||||
disp('Not yet implemented')
|
disp('Not yet implemented')
|
||||||
end
|
end
|
Loading…
Reference in New Issue