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function [x,info] = dynare_solve_block_or_bytecode(y, exo, params, options, M)
% Copyright (C) 2010-2022 Dynare Team
%
% This file is part of Dynare.
%
% Dynare is free software: you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation, either version 3 of the License, or
% (at your option) any later version.
%
% Dynare is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details.
%
% You should have received a copy of the GNU General Public License
% along with Dynare. If not, see <https://www.gnu.org/licenses/>.
info = 0;
x = y;
if options.block && ~options.bytecode
T = NaN(M.block_structure_stat.tmp_nbr, 1);
for b = 1:length(M.block_structure_stat.block)
ss = x;
if M.block_structure_stat.block(b).Simulation_Type ~= 1 && ...
M.block_structure_stat.block(b).Simulation_Type ~= 2
if options.solve_algo <= 4 || options.solve_algo >= 9
[y, check] = dynare_solve('block_mfs_steadystate', ...
ss(M.block_structure_stat.block(b).variable), ...
options, b, ss, exo, params, T, M);
if check ~= 0
% error(['STEADY: convergence
% problems in block ' int2str(b)])
info = 1;
return
end
ss(M.block_structure_stat.block(b).variable) = y;
else
n = length(M.block_structure_stat.block(b).variable);
[ss, T, ~, check] = solve_one_boundary([M.fname '.static' ], ss, exo, ...
params, [], T, M.block_structure_stat.block(b).variable, n, 1, false, b, 0, options.simul.maxit, ...
options.solve_tolf, ...
options.slowc, 0, options.solve_algo, true, false, false, M, options, []);
if check
info = 1;
return
end
end
end
% Compute endogenous if the block is of type evaluate forward/backward
% Also update the temporary terms vector (needed for the dynare_solve case)
[~, x, T, g1] = feval([M.fname '.static'], b, ss, exo, params, T);
end
elseif options.bytecode
if options.solve_algo >= 5 && options.solve_algo <= 8
try
x = bytecode('static', x, exo, params);
catch ME
disp(ME.message);
info = 1;
return
end
elseif options.block
T = NaN(M.block_structure_stat.tmp_nbr, 1);
for b = 1:length(M.block_structure_stat.block)
if M.block_structure_stat.block(b).Simulation_Type ~= 1 && ...
M.block_structure_stat.block(b).Simulation_Type ~= 2
[y, check] = dynare_solve('block_bytecode_mfs_steadystate', ...
x(M.block_structure_stat ...
.block(b).variable), ...
options, b, x, exo, params, T, M);
if check
% error(['STEADY: convergence problems in block '
% int2str(b)])
info = 1;
return
end
x(M.block_structure_stat.block(b).variable) = y;
end
% Compute endogenous if the block is of type evaluate forward/backward
% Also update the temporary terms vector (needed for the dynare_solve case)
try
[~, ~, x, T] = bytecode(x, exo, params, x, 1, x, T, 'evaluate', 'static', ...
['block = ' int2str(b)]);
catch ME
disp(ME.message);
info = 1;
return
end
end
else
[x, check] = dynare_solve('bytecode_steadystate', y, ...
options, exo, params);
if check
% error('STEADY: convergence problems')
info = 1;
return
end
end
end
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