90 lines
4.2 KiB
Matlab
90 lines
4.2 KiB
Matlab
function [endogenousvariables, info] = sim1_purely_static(endogenousvariables, exogenousvariables, steadystate, M, options)
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% Performs deterministic simulation of a purely static model
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% Copyright © 2021-2022 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 <https://www.gnu.org/licenses/>.
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if nnz(M.lead_lag_incidence(1,:)) ~= M.endo_nbr
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error('All endogenous variables must appear at the current period!')
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end
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if ismember(options.solve_algo, [12,14])
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[funcs, feedback_vars_idxs] = setup_time_recursive_block_simul(M);
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else
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dynamicmodel = str2func(sprintf('%s.%s', M.fname, 'dynamic'));
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dynamicmodel_s = str2func('dynamic_static_model_for_simulation');
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end
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function [r, J] = block_wrapper(z, feedback_vars_idx, func, y_dynamic, x, sparse_rowval, sparse_colval, sparse_colptr, T)
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% NB: do as few computations as possible inside this function, since it is
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% called a very large number of times
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y_dynamic(feedback_vars_idx) = z;
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[~, ~, r, J] = feval(func, y_dynamic, x, M.params, steadystate, ...
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sparse_rowval, sparse_colval, sparse_colptr, T);
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end
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info.status = true;
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y = endogenousvariables(:,1);
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for it = 1:options.periods
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if ismember(options.solve_algo, [12,14])
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x = exogenousvariables(it,:);
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T = NaN(M.block_structure.dyn_tmp_nbr);
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y_dynamic = [NaN(M.endo_nbr, 1); y; NaN(M.endo_nbr, 1)];
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for blk = 1:length(M.block_structure.block)
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sparse_rowval = M.block_structure.block(blk).g1_sparse_rowval;
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sparse_colval = M.block_structure.block(blk).g1_sparse_colval;
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sparse_colptr = M.block_structure.block(blk).g1_sparse_colptr;
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if M.block_structure.block(blk).Simulation_Type ~= 1 % Not an evaluate forward block
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[z, check, ~, ~, errorcode] = dynare_solve(@block_wrapper, y_dynamic(feedback_vars_idxs{blk}), ...
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options.simul.maxit, options.dynatol.f, ...
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options.dynatol.x, options, ...
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feedback_vars_idxs{blk}, funcs{blk}, y_dynamic, x, sparse_rowval, sparse_colval, sparse_colptr, T);
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if check
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info.status = false;
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if options.debug
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dprintf('sim1_purely_static: Nonlinear solver routine failed with errorcode=%i in block %i and period %i.', errorcode, blk, it)
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end
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end
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y_dynamic(feedback_vars_idxs{blk}) = z;
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end
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%% Compute endogenous if the block is of type evaluate or if there are recursive variables in a solve block.
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%% Also update the temporary terms vector.
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[y_dynamic, T] = feval(funcs{blk}, y_dynamic, x, M.params, ...
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steadystate, sparse_rowval, sparse_colval, ...
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sparse_colptr, T);
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end
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endogenousvariables(:,it) = y_dynamic(M.endo_nbr+(1:M.endo_nbr));
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else
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[tmp, check, ~, ~, errorcode] = dynare_solve(dynamicmodel_s, y, ...
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options.simul.maxit, options.dynatol.f, options.dynatol.x, ...
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options, dynamicmodel, exogenousvariables, M.params, steadystate, it);
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if check
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info.status = false;
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if options.debug
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dprintf('sim1_purely_static: Nonlinear solver routine failed with errorcode=%i in period %i.', errorcode, it)
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end
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end
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endogenousvariables(:,it) = tmp;
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end
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y = endogenousvariables(:,it);
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end
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end
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