174 lines
6.3 KiB
Matlab
174 lines
6.3 KiB
Matlab
function [fval,cost_flag,ys,trend_coeff,info,PHI,SIGMAu,iXX] = DsgeVarLikelihood(xparam1,gend)
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% stephane.adjemian@ens.fr
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global bayestopt_ estim_params_ M_ options_
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nvx = estim_params_.nvx;
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nvn = estim_params_.nvn;
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ncx = estim_params_.ncx;
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ncn = estim_params_.ncn;
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np = estim_params_.np;
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nx = nvx+nvn+ncx+ncn+np;
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ns = nvx+nvn+ncx+ncn;
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NumberOfObservedVariables = size(options_.varobs,1);
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NumberOfLags = options_.varlag;
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NumberOfParameters = NumberOfObservedVariables*NumberOfLags ;
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mYY = evalin('base', 'mYY');
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mYX = evalin('base', 'mYX');
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mXY = evalin('base', 'mXY');
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mXX = evalin('base', 'mXX');
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fval = [];
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cost_flag = [];
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ys = [];
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trend_coeff = [];
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xparam1_test = xparam1;
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cost_flag = 1;
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if options_.mode_compute ~= 1 & any(xparam1 < bayestopt_.lb)
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k = find(xparam1 < bayestopt_.lb);
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fval = bayestopt_.penalty*min(1e3,exp(sum(bayestopt_.lb(k)-xparam1(k))));
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info = 41;
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cost_flag = 0;
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return;
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end
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if options_.mode_compute ~= 1 & any(xparam1 > bayestopt_.ub)
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k = find(xparam1 > bayestopt_.ub);
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fval = bayestopt_.penalty*min(1e3,exp(sum(xparam1(k)- bayestopt_.ub(k))));
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info = 42;
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cost_flag = 0;
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return;
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end
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Q = M_.Sigma_e;
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for i=1:estim_params_.nvx
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k = estim_params_.var_exo(i,1);
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Q(k,k) = xparam1(i)*xparam1(i);
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end
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offset = estim_params_.nvx;
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if estim_params_.nvn
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disp('DsgeVarLikelihood :: Measurement errors are not implemented!')
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return
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end
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if estim_params_.ncx
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disp('DsgeVarLikelihood :: Correlated structural innovations are not yet implemented!')
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return
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end
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M_.params(estim_params_.param_vals(:,1)) = xparam1(offset+1:end);
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M_.Sigma_e = Q;
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%% Weight of the dsge prior:
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dsge_prior_weight = M_.params(strmatch('dsge_prior_weight',M_.param_names));
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if dsge_prior_weight<(NumberOfParameters+NumberOfObservedVariables)/gend;
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fval = bayestopt_.penalty*min(1e3,(NumberOfParameters+NumberOfObservedVariables)/gend-dsge_prior_weight);
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info = 51
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cost_flag = 0;
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return;
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end
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%------------------------------------------------------------------------------
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% 2. call model setup & reduction program
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%------------------------------------------------------------------------------
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[T,R,SteadyState,info] = dynare_resolve(bayestopt_.restrict_var_list,...
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bayestopt_.restrict_columns,...
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bayestopt_.restrict_aux);
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if info(1) == 1 | info(1) == 2 | info(1) == 5
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fval = bayestopt_.penalty;
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cost_flag = 0;
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return
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elseif info(1) == 3 | info(1) == 4 | info(1) == 20
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fval = bayestopt_.penalty*min(1e3,exp(info(2)));
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cost_flag = 0;
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return
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end
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if options_.loglinear == 1
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constant = log(SteadyState(bayestopt_.mfys));
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else
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constant = SteadyState(bayestopt_.mfys);
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end
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if bayestopt_.with_trend == 1
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disp('DsgeVarLikelihood :: Linear trend is not yet implemented!')
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return
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end
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%------------------------------------------------------------------------------
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% 3. theorretical moments (second order)
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%------------------------------------------------------------------------------
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tmp = lyapunov_symm(T,R*Q*R');% I compute the variance-covariance matrix
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% of the restricted state vector.
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bayestopt_.mf = bayestopt_.mf1;
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mf = bayestopt_.mf1;
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TheoreticalAutoCovarianceOfTheObservedVariables = ...
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zeros(NumberOfObservedVariables,NumberOfObservedVariables,NumberOfLags+1);
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TheoreticalAutoCovarianceOfTheObservedVariables(:,:,1) = tmp(mf,mf);
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for lag = 1:NumberOfLags
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tmp = T*tmp;
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TheoreticalAutoCovarianceOfTheObservedVariables(:,:,lag+1) = tmp(mf,mf);
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end
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GYX = zeros(NumberOfObservedVariables,NumberOfParameters);
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for i=1:NumberOfLags
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GYX(:,(i-1)*NumberOfObservedVariables+1:i*NumberOfObservedVariables) = ...
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TheoreticalAutoCovarianceOfTheObservedVariables(:,:,i+1);
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end
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GXX = kron(eye(NumberOfLags), ...
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TheoreticalAutoCovarianceOfTheObservedVariables(:,:,1));
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for i = 1:NumberOfLags-1
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tmp1 = diag(ones(NumberOfLags-i,1),i);
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tmp2 = diag(ones(NumberOfLags-i,1),-i);
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GXX = GXX + kron(tmp1,TheoreticalAutoCovarianceOfTheObservedVariables(:,:,i+1));
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GXX = GXX + kron(tmp2,TheoreticalAutoCovarianceOfTheObservedVariables(:,:,i+1)');
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end
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GYY = TheoreticalAutoCovarianceOfTheObservedVariables(:,:,1);
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assignin('base','GYY',GYY);
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assignin('base','GXX',GXX);
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assignin('base','GYX',GYX);
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if ~isinf(dsge_prior_weight)
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SIGMAu = dsge_prior_weight*gend*TheoreticalAutoCovarianceOfTheObservedVariables(:,:,1) + mYY ;
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tmp1 = dsge_prior_weight*gend*GYX + mYX;
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tmp2 = inv(dsge_prior_weight*gend*GXX+mXX);
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SIGMAu = SIGMAu - tmp1*tmp2*tmp1';
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if ~ispd(SIGMAu)
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v = diag(SIGMAu);
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k = find(v<0);
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fval = bayestopt_.penalty*min(1e3,exp(abs(v(k))));
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info = 52;
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cost_flag = 0;
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return;
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end
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SIGMAu = SIGMAu / (gend*(dsge_prior_weight+1));
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PHI = tmp2*tmp1';
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prodlng1 = sum(gammaln(.5*((1+dsge_prior_weight)*gend- ...
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NumberOfObservedVariables*NumberOfLags ...
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+1-(1:NumberOfObservedVariables)')));
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prodlng2 = sum(gammaln(.5*(dsge_prior_weight*gend- ...
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NumberOfObservedVariables*NumberOfLags ...
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+1-(1:NumberOfObservedVariables)')));
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lik = .5*NumberOfObservedVariables*log(det(dsge_prior_weight*gend*GXX+mXX)) ...
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+ .5*((dsge_prior_weight+1)*gend-NumberOfParameters)*log(det((dsge_prior_weight+1)*gend*SIGMAu)) ...
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- .5*NumberOfObservedVariables*log(det(dsge_prior_weight*gend*GXX)) ...
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- .5*(dsge_prior_weight*gend-NumberOfParameters)*log(det(dsge_prior_weight*gend*(GYY-GYX*inv(GXX)*GYX'))) ...
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+ .5*NumberOfObservedVariables*gend*log(2*pi) ...
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- .5*log(2)*NumberOfObservedVariables*((dsge_prior_weight+1)*gend-NumberOfParameters) ...
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+ .5*log(2)*NumberOfObservedVariables*(dsge_prior_weight*gend-NumberOfParameters) ...
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- prodlng1 + prodlng2;
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else % cod<6F> par SM (s<>rement pas exact... Que font ici les moments empiriques ?).
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tmp1 = GYX;
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tmp2 = inv(GXX);
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PHI = tmp2*tmp1';
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SIGMAu = GYY - tmp1*tmp2*tmp1;
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% <20> finir de corriger...
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lik = -.5*sum(diag(inv(tmp2)*(mYY-2*tmp1'*mYX'+tmp1'*mXX*tmp1))) ...
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-(gend/2)*log(det(tmp2));
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end
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lnprior = priordens(xparam1,bayestopt_.pshape,bayestopt_.p1,bayestopt_.p2,bayestopt_.p3,bayestopt_.p4);
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fval = (lik-lnprior);
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iXX = tmp2; |