Removed global from set_state_space.
parent
fcd016dc25
commit
1fb89a07e9
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@ -66,7 +66,7 @@ if isempty(options.qz_criterium)
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options.qz_criterium = 1+1e-6;
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options.qz_criterium = 1+1e-6;
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end
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end
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oo.dr=set_state_space(oo.dr,M);
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oo.dr=set_state_space(oo.dr,M,options);
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[dr,info,M,options,oo] = resol(1,M,options,oo);
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[dr,info,M,options,oo] = resol(1,M,options,oo);
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@ -142,7 +142,7 @@ M_.lead_lag_incidence = LLI';
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% set the state
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% set the state
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dr=oo_.dr;
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dr=oo_.dr;
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dr.ys =zeros(endo_nbr,1);
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dr.ys =zeros(endo_nbr,1);
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dr=set_state_space(dr,M_);
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dr=set_state_space(dr,M_,options_);
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order_var=dr.order_var;
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order_var=dr.order_var;
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T=H(order_var,order_var);
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T=H(order_var,order_var);
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@ -208,7 +208,7 @@ function [resid,dr] = risky_residuals(ys,M,dr,options,oo)
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d2a = d2(eq,ih1);
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d2a = d2(eq,ih1);
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M.endo_nbr = M.endo_nbr-n_tags;
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M.endo_nbr = M.endo_nbr-n_tags;
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dr = set_state_space(dr,M);
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dr = set_state_space(dr,M,options);
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[junk,dr.i_fwrd_g] = find(lead_lag_incidence(3,dr.order_var));
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[junk,dr.i_fwrd_g] = find(lead_lag_incidence(3,dr.order_var));
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i_fwrd_f = nonzeros(lead_incidence(dr.order_var));
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i_fwrd_f = nonzeros(lead_incidence(dr.order_var));
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@ -434,7 +434,7 @@ function [dr] = first_step_ds(x,M,dr,options,oo)
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d2a = d2(eq,ih1);
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d2a = d2(eq,ih1);
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M.endo_nbr = M.endo_nbr-n_tags;
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M.endo_nbr = M.endo_nbr-n_tags;
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dr = set_state_space(dr,M);
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dr = set_state_space(dr,M,options);
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dr.i_fwrd_g = find(lead_lag_incidence(3,dr.order_var)');
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dr.i_fwrd_g = find(lead_lag_incidence(3,dr.order_var)');
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else
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else
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@ -191,7 +191,7 @@ end
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bayestopt_.penalty = 1e8;
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bayestopt_.penalty = 1e8;
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% Get informations about the variables of the model.
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% Get informations about the variables of the model.
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dr = set_state_space(oo_.dr,M_);
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dr = set_state_space(oo_.dr,M_,options_);
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oo_.dr = dr;
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oo_.dr = dr;
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nstatic = dr.nstatic; % Number of static variables.
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nstatic = dr.nstatic; % Number of static variables.
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npred = dr.npred; % Number of predetermined variables.
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npred = dr.npred; % Number of predetermined variables.
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@ -40,7 +40,7 @@ end
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exe =zeros(M_.exo_nbr,1);
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exe =zeros(M_.exo_nbr,1);
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oo_.dr = set_state_space(oo_.dr,M_);
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oo_.dr = set_state_space(oo_.dr,M_,options_);
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np = size(i_params,1);
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np = size(i_params,1);
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@ -155,7 +155,7 @@ if options_.debug
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save([M_.fname '_debug.mat'],'jacobia_')
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save([M_.fname '_debug.mat'],'jacobia_')
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end
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end
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dr=set_state_space(dr,M_);
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dr=set_state_space(dr,M_,options_);
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kstate = dr.kstate;
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kstate = dr.kstate;
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kad = dr.kad;
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kad = dr.kad;
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kae = dr.kae;
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kae = dr.kae;
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@ -1,19 +1,38 @@
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function dr=set_state_space(dr,M_)
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function dr=set_state_space(dr,DynareModel,DynareOptions)
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% function dr = set_state_space(dr,M_)
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% Write the state space representation of the reduced form solution.
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% finds the state vector for structural state space representation
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% sets many fields of dr
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%@info:
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%
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%! @deftypefn {Function File} {[@var{dr} =} set_state_space (@var{dr},@var{DynareModel},@var{DynareOptions})
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% INPUTS
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%! @anchor{set_state_space}
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% dr: structure of decision rules for stochastic simulations
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%! @sp 1
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%
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%! Write the state space representation of the reduced form solution.
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% OUTPUTS
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%! @sp 2
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% dr: structure of decision rules for stochastic simulations
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%! @strong{Inputs}
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%
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%! @sp 1
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% ALGORITHM
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%! @table @ @var
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% ...
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%! @item dr
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% SPECIAL REQUIREMENTS
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%! Matlab's structure describing decision and transition rules.
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% none
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%! @item DynareModel
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%
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%! Matlab's structure describing the model (initialized by dynare, see @ref{M_})
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%! @item DynareOptions
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%! Matlab's structure describing the current options (initialized by dynare, see @ref{options_}).
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%! @end table
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%! @sp 2
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%! @strong{Outputs}
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%! @sp 1
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%! @table @ @var
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%! @item dr
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%! Matlab's structure describing decision and transition rules.
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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 1
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%! @ref{check}, @ref{discretionary_policy_1}, @ref{dynare_estimation_init}, @ref{dyn_risky_steady_state_solver}, @ref{osr1}, @ref{partial_information/dr1_PI}, @ref{pea/pea_initialization}, @ref{stochastic_solvers}, @ref{stoch_simul}
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%! @sp 2
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%! @strong{This function calls:}
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%! @sp 2
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%! @end deftypefn
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%@eod:
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% Copyright (C) 1996-2011 Dynare Team
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% Copyright (C) 1996-2011 Dynare Team
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%
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%
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@ -31,12 +50,11 @@ function dr=set_state_space(dr,M_)
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%
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%
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% You should have received a copy of the GNU General Public License
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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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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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global options_
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max_lead = M_.maximum_endo_lead;
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max_lead = DynareModel.maximum_endo_lead;
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max_lag = M_.maximum_endo_lag;
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max_lag = DynareModel.maximum_endo_lag;
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endo_nbr = M_.endo_nbr;
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endo_nbr = DynareModel.endo_nbr;
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lead_lag_incidence = M_.lead_lag_incidence;
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lead_lag_incidence = DynareModel.lead_lag_incidence;
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klen = max_lag + max_lead + 1;
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klen = max_lag + max_lead + 1;
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fwrd_var = find(lead_lag_incidence(max_lag+2:end,:))';
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fwrd_var = find(lead_lag_incidence(max_lag+2:end,:))';
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@ -55,8 +73,8 @@ nboth = length(both_var);
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npred = length(pred_var);
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npred = length(pred_var);
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nfwrd = length(fwrd_var);
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nfwrd = length(fwrd_var);
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nstatic = length(stat_var);
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nstatic = length(stat_var);
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if options_.block == 1
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if DynareOptions.block == 1
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order_var = M_.block_structure.variable_reordered;
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order_var = DynareModel.block_structure.variable_reordered;
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else
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else
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order_var = [ stat_var(:); pred_var(:); both_var(:); fwrd_var(:)];
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order_var = [ stat_var(:); pred_var(:); both_var(:); fwrd_var(:)];
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end;
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end;
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@ -81,11 +99,11 @@ kmask(i_kmask) = (1:nd);
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% auxiliary equations
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% auxiliary equations
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% elements that are both in z(t+1) and z(t)
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% elements that are both in z(t+1) and z(t)
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k1 = find([kmask(1:end-M_.endo_nbr) & kmask(M_.endo_nbr+1:end)] );
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k1 = find([kmask(1:end-DynareModel.endo_nbr) & kmask(DynareModel.endo_nbr+1:end)] );
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kad = [];
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kad = [];
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kae = [];
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kae = [];
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if ~isempty(k1)
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if ~isempty(k1)
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kad = kmask(k1+M_.endo_nbr);
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kad = kmask(k1+DynareModel.endo_nbr);
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kae = kmask(k1);
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kae = kmask(k1);
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end
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end
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@ -62,7 +62,7 @@ end
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check_model(M_);
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check_model(M_);
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oo_.dr=set_state_space(dr,M_);
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oo_.dr=set_state_space(dr,M_,options_);
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if PI_PCL_solver
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if PI_PCL_solver
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[oo_.dr, info] = PCL_resol(oo_.steady_state,0);
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[oo_.dr, info] = PCL_resol(oo_.steady_state,0);
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@ -57,7 +57,7 @@ if options_.k_order_solver;
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[dr,info] = dyn_risky_steadystate_solver(oo_.steady_state,M_,dr, ...
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[dr,info] = dyn_risky_steadystate_solver(oo_.steady_state,M_,dr, ...
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options_,oo_);
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options_,oo_);
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else
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else
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dr = set_state_space(dr,M_);
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dr = set_state_space(dr,M_,options_);
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[dr,info] = k_order_pert(dr,M_,options_,oo_);
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[dr,info] = k_order_pert(dr,M_,options_,oo_);
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end
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end
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return;
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return;
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