95 lines
3.6 KiB
Matlab
95 lines
3.6 KiB
Matlab
function DynareOutput = simul_backward_linear_model(initial_conditions, sample_size, DynareOptions, DynareModel, DynareOutput, innovations)
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%@info:
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%! @deftypefn {Function File} {@var{DynareOutput} =} simul_backward_nonlinear_model (@var{sample_size},@var{DynareOptions}, @var{DynareModel}, @var{DynareOutput})
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%! @anchor{@simul_backward_nonlinear_model}
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%! @sp 1
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%! Simulates a stochastic non linear backward looking model with arbitrary precision (a deterministic solver is used).
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%! @sp 2
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%! @strong{Inputs}
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%! @sp 1
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%! @table @ @var
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%! @item sample_size
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%! Scalar integer, size of the sample to be generated.
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%! @item DynareOptions
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%! Matlab/Octave structure (Options used by Dynare).
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%! @item DynareDynareModel
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%! Matlab/Octave structure (Description of the model).
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%! @item DynareOutput
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%! Matlab/Octave structure (Results reported by Dynare).
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%! @end table
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%! @sp 1
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%! @strong{Outputs}
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%! @sp 1
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%! @table @ @var
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%! @item DynareOutput
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%! Matlab/Octave structure (Results reported by Dynare).
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%! @end table
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%! @sp 2
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%! @strong{This function is called by:}
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%! @sp 2
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%! @strong{This function calls:}
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%! @ref{dynTime}
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%!
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%! @end deftypefn
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%@eod:
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% Copyright (C) 2012-2016 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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if DynareModel.maximum_lead
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error(['simul_backward_nonlinear_model:: The specified model is not backward looking!'])
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end
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if nargin<6
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% Set the covariance matrix of the structural innovations.
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variances = diag(DynareModel.Sigma_e);
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number_of_shocks = length(DynareModel.Sigma_e);
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positive_var_indx = find(variances>0);
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effective_number_of_shocks = length(positive_var_indx);
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covariance_matrix = DynareModel.Sigma_e(positive_var_indx,positive_var_indx);
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covariance_matrix_upper_cholesky = chol(covariance_matrix);
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% Set seed to its default state.
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if DynareOptions.bnlms.set_dynare_seed_to_default
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set_dynare_seed('default');
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end
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% Simulate structural innovations.
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switch DynareOptions.bnlms.innovation_distribution
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case 'gaussian'
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DynareOutput.bnlms.shocks = randn(sample_size,effective_number_of_shocks)*covariance_matrix_upper_cholesky;
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otherwise
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error(['simul_backward_nonlinear_model:: ' DynareOption.bnlms.innovation_distribution ' distribution for the structural innovations is not (yet) implemented!'])
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end
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% Put the simulated innovations in DynareOutput.exo_simul.
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DynareOutput.exo_simul = zeros(sample_size+1,number_of_shocks);
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DynareOutput.exo_simul(2:end,positive_var_indx) = DynareOutput.bnlms.shocks;
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else
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number_of_shocks = size(innovations,2);
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DynareOutput.exo_simul = innovations;
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end
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if DynareOptions.linear
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DynareOutput = simul_backward_linear_model(initial_conditions, sample_size, DynareOptions, ...
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DynareModel, DynareOutput, innovations);
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else
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DynareOutput = simul_backward_nonlinear_model(initial_conditions, sample_size, DynareOptions, ...
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DynareModel, DynareOutput, innovations);
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end
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