145 lines
6.1 KiB
Matlab
145 lines
6.1 KiB
Matlab
function pdraw = prior_draw(init,uniform)
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% This function generate one draw from the joint prior distribution.
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%
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% INPUTS
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% o init [integer] scalar equal to 1 (first call) or 0.
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% o uniform [integer] scalar equal to 1 (first call) or 0.
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%
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% OUTPUTS
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% o pdraw [double] 1*npar vector, draws from the joint prior density.
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%
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%
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% SPECIAL REQUIREMENTS
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% none
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%
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% NOTE 1. Input arguments 1 an 2 are only needed for initialization.
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% NOTE 2. A given draw from the joint prior distribution does not satisfy BK conditions a priori.
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% Copyright (C) 2006-2010 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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persistent p6 p7 p3 p4 lb ub
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persistent uniform_index gaussian_index gamma_index beta_index inverse_gamma_1_index inverse_gamma_2_index
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persistent uniform_draws gaussian_draws gamma_draws beta_draws inverse_gamma_1_draws inverse_gamma_2_draws
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if nargin>0 && init
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p6 = evalin('base', 'bayestopt_.p6');
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p7 = evalin('base', 'bayestopt_.p7');
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p3 = evalin('base', 'bayestopt_.p3');
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p4 = evalin('base', 'bayestopt_.p4');
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lb = evalin('base', 'bayestopt_.lb');
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ub = evalin('base', 'bayestopt_.ub');
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number_of_estimated_parameters = length(p6);
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if nargin>1 && uniform
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prior_shape = repmat(5,number_of_estimated_parameters,1);
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else
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prior_shape = evalin('base', 'bayestopt_.pshape');
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end
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beta_index = find(prior_shape==1);
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if isempty(beta_index)
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beta_draws = 0;
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else
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beta_draws = 1;
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end
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gamma_index = find(prior_shape==2);
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if isempty(gamma_index)
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gamma_draws = 0;
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else
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gamma_draws = 1;
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end
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gaussian_index = find(prior_shape==3);
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if isempty(gaussian_index)
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gaussian_draws = 0;
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else
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gaussian_draws = 1;
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end
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inverse_gamma_1_index = find(prior_shape==4);
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if isempty(inverse_gamma_1_index)
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inverse_gamma_1_draws = 0;
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else
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inverse_gamma_1_draws = 1;
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end
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uniform_index = find(prior_shape==5);
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if isempty(uniform_index)
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uniform_draws = 0;
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else
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uniform_draws = 1;
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end
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inverse_gamma_2_index = find(prior_shape==6);
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if isempty(inverse_gamma_2_index)
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inverse_gamma_2_draws = 0;
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else
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inverse_gamma_2_draws = 1;
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end
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pdraw = zeros(number_of_estimated_parameters,1);
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return
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end
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if uniform_draws
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pdraw(uniform_index) = rand(length(uniform_index),1).*(p4(uniform_index)-p3(uniform_index)) + p3(uniform_index);
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end
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if gaussian_draws
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pdraw(gaussian_index) = randn(length(gaussian_index),1).*p7(gaussian_index) + p6(gaussian_index);
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out_of_bound = find( (pdraw(gaussian_index)'>ub(gaussian_index)) | (pdraw(gaussian_index)'<lb(gaussian_index)));
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while ~isempty(out_of_bound),
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pdraw(gaussian_index(out_of_bound)) = randn(length(gaussian_index(out_of_bound)),1).*p7(gaussian_index(out_of_bound)) + p6(gaussian_index(out_of_bound));
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out_of_bound = find( (pdraw(gaussian_index)'>ub(gaussian_index)) | (pdraw(gaussian_index)'<lb(gaussian_index)));
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end
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end
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if gamma_draws
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pdraw(gamma_index) = gamrnd(p6(gamma_index),p7(gamma_index))+p3(gamma_index);
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out_of_bound = find( (pdraw(gamma_index)'>ub(gamma_index)) | (pdraw(gamma_index)'<lb(gamma_index)));
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while ~isempty(out_of_bound),
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pdraw(gamma_index(out_of_bound)) = gamrnd(p6(gamma_index(out_of_bound)),p7(gamma_index(out_of_bound)))+p3(gamma_index(out_of_bound));
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out_of_bound = find( (pdraw(gamma_index)'>ub(gamma_index)) | (pdraw(gamma_index)'<lb(gamma_index)));
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end
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end
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if beta_draws
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pdraw(beta_index) = (p4(beta_index)-p3(beta_index)).*betarnd(p6(beta_index),p7(beta_index))+p3(beta_index);
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out_of_bound = find( (pdraw(beta_index)'>ub(beta_index)) | (pdraw(beta_index)'<lb(beta_index)));
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while ~isempty(out_of_bound),
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pdraw(beta_index(out_of_bound)) = (p4(beta_index(out_of_bound))-p3(beta_index(out_of_bound))).*betarnd(p6(beta_index(out_of_bound)),p7(beta_index(out_of_bound)))+p3(beta_index(out_of_bound));
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out_of_bound = find( (pdraw(beta_index)'>ub(beta_index)) | (pdraw(beta_index)'<lb(beta_index)));
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end
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end
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if inverse_gamma_1_draws
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pdraw(inverse_gamma_1_index) = ...
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sqrt(1./gamrnd(p7(inverse_gamma_1_index)/2,2./p6(inverse_gamma_1_index)))+p3(inverse_gamma_1_index);
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out_of_bound = find( (pdraw(inverse_gamma_1_index)'>ub(inverse_gamma_1_index)) | (pdraw(inverse_gamma_1_index)'<lb(inverse_gamma_1_index)));
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while ~isempty(out_of_bound),
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pdraw(inverse_gamma_1_index(out_of_bound)) = ...
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sqrt(1./gamrnd(p7(inverse_gamma_1_index(out_of_bound))/2,2./p6(inverse_gamma_1_index(out_of_bound))))+p3(inverse_gamma_1_index(out_of_bound));
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out_of_bound = find( (pdraw(inverse_gamma_1_index)'>ub(inverse_gamma_1_index)) | (pdraw(inverse_gamma_1_index)'<lb(inverse_gamma_1_index)));
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end
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end
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if inverse_gamma_2_draws
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pdraw(inverse_gamma_2_index) = ...
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1./gamrnd(p7(inverse_gamma_2_index)/2,2./p6(inverse_gamma_2_index))+p3(inverse_gamma_2_index);
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out_of_bound = find( (pdraw(inverse_gamma_2_index)'>ub(inverse_gamma_2_index)) | (pdraw(inverse_gamma_2_index)'<lb(inverse_gamma_2_index)));
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while ~isempty(out_of_bound),
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pdraw(inverse_gamma_2_index(out_of_bound)) = ...
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sqrt(1./gamrnd(p7(inverse_gamma_2_index(out_of_bound))/2,2./p6(inverse_gamma_2_index(out_of_bound))))+p3(inverse_gamma_2_index(out_of_bound));
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out_of_bound = find( (pdraw(inverse_gamma_2_index)'>ub(inverse_gamma_2_index)) | (pdraw(inverse_gamma_2_index)'<lb(inverse_gamma_2_index)));
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end
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end
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