148 lines
5.3 KiB
Modula-2
Executable File
148 lines
5.3 KiB
Modula-2
Executable File
// --+ options: json=compute +--
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/* REMARK
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** ------
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**
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** You need to have the first line on top of the mod file. The options defined on this line are passed
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** to the dynare command (you can add other options, separated by spaces or commas). The option defined
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** here is mandatory for the decomposition. It forces Dynare to output another representation of the
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** model in JSON file (additionaly to the matlab files) which is used here to manipulate the equations.
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*/
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var
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U2_Q_YED
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U2_G_YER
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U2_STN
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U2_ESTN
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U2_EHIC
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DE_Q_YED
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DE_G_YER
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DE_EHIC
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;
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varexo
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res_U2_Q_YED
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res_U2_G_YER
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res_U2_STN
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res_U2_ESTN
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res_U2_EHIC
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res_DE_Q_YED
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res_DE_G_YER
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res_DE_EHIC
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;
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parameters
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u2_q_yed_ecm_u2_q_yed_L1
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u2_q_yed_ecm_u2_stn_L1
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u2_q_yed_u2_g_yer_L1
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u2_q_yed_u2_stn_L1
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u2_g_yer_ecm_u2_q_yed_L1
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u2_g_yer_ecm_u2_stn_L1
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u2_g_yer_u2_q_yed_L1
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u2_g_yer_u2_g_yer_L1
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u2_g_yer_u2_stn_L1
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u2_stn_ecm_u2_q_yed_L1
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u2_stn_ecm_u2_stn_L1
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u2_stn_u2_q_yed_L1
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u2_stn_u2_g_yer_L1
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u2_estn_u2_estn_L1
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u2_ehic_u2_ehic_L1
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de_q_yed_ecm_de_q_yed_L1
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de_q_yed_ecm_u2_stn_L1
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de_q_yed_de_g_yer_L1
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de_q_yed_u2_stn_L1
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de_g_yer_ecm_de_q_yed_L1
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de_g_yer_ecm_u2_stn_L1
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de_g_yer_de_q_yed_L1
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de_g_yer_de_g_yer_L1
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de_g_yer_u2_stn_L1
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de_ehic_de_ehic_L1
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;
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u2_q_yed_ecm_u2_q_yed_L1 = -0.82237516589315 ;
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u2_q_yed_ecm_u2_stn_L1 = -0.323715338568976 ;
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u2_q_yed_u2_g_yer_L1 = 0.0401361895021084 ;
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u2_q_yed_u2_stn_L1 = 0.058397703958446 ;
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u2_g_yer_ecm_u2_q_yed_L1 = 0.0189896046977421 ;
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u2_g_yer_ecm_u2_stn_L1 = -0.109597659887432 ;
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u2_g_yer_u2_q_yed_L1 = 0.0037667967632025 ;
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u2_g_yer_u2_g_yer_L1 = 0.480506381923644 ;
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u2_g_yer_u2_stn_L1 = -0.0722359286123494 ;
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u2_stn_ecm_u2_q_yed_L1 = -0.0438500662608356 ;
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u2_stn_ecm_u2_stn_L1 = -0.153283917138772 ;
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u2_stn_u2_q_yed_L1 = 0.0328744983772825 ;
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u2_stn_u2_g_yer_L1 = 0.292121949736756 ;
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u2_estn_u2_estn_L1 = 1 ;
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u2_ehic_u2_ehic_L1 = 1 ;
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de_q_yed_ecm_de_q_yed_L1 = -0.822375165893149 ;
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de_q_yed_ecm_u2_stn_L1 = -0.323715338568977 ;
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de_q_yed_de_g_yer_L1 = 0.0401361895021082 ;
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de_q_yed_u2_stn_L1 = 0.0583977039584461 ;
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de_g_yer_ecm_de_q_yed_L1 = 0.0189896046977422 ;
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de_g_yer_ecm_u2_stn_L1 = -0.109597659887433 ;
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de_g_yer_de_q_yed_L1 = 0.00376679676320256;
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de_g_yer_de_g_yer_L1 = 0.480506381923643 ;
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de_g_yer_u2_stn_L1 = -0.0722359286123494 ;
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de_ehic_de_ehic_L1 = 1 ;
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model;
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diff(U2_Q_YED) = u2_q_yed_ecm_u2_q_yed_L1 * (U2_Q_YED(-1) - U2_EHIC(-1))
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+ u2_q_yed_ecm_u2_stn_L1 * (U2_STN(-1) - U2_ESTN(-1))
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+ u2_q_yed_u2_g_yer_L1 * diff(U2_G_YER(-1))
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+ u2_q_yed_u2_stn_L1 * diff(U2_STN(-1))
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+ res_U2_Q_YED ;
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diff(U2_G_YER) = u2_g_yer_ecm_u2_q_yed_L1 * (U2_Q_YED(-1) - U2_EHIC(-1))
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+ u2_g_yer_ecm_u2_stn_L1 * (U2_STN(-1) - U2_ESTN(-1))
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+ u2_g_yer_u2_q_yed_L1 * diff(U2_Q_YED(-1))
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+ u2_g_yer_u2_g_yer_L1 * diff(U2_G_YER(-1))
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+ u2_g_yer_u2_stn_L1 * diff(U2_STN(-1))
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+ res_U2_G_YER ;
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diff(U2_STN) = u2_stn_ecm_u2_q_yed_L1 * (U2_Q_YED(-1) - U2_EHIC(-1))
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+ u2_stn_ecm_u2_stn_L1 * (U2_STN(-1) - U2_ESTN(-1))
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+ u2_stn_u2_q_yed_L1 * diff(U2_Q_YED(-1))
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+ u2_stn_u2_g_yer_L1 * diff(U2_G_YER(-1))
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+ res_U2_STN ;
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U2_ESTN = u2_estn_u2_estn_L1 * U2_ESTN(-1)
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+ res_U2_ESTN ;
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U2_EHIC = u2_ehic_u2_ehic_L1 * U2_EHIC(-1)
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+ res_U2_EHIC ;
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diff(DE_Q_YED) = de_q_yed_ecm_de_q_yed_L1 * (DE_Q_YED(-1) - DE_EHIC(-1))
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+ de_q_yed_ecm_u2_stn_L1 * (U2_STN(-1) - U2_ESTN(-1))
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+ de_q_yed_de_g_yer_L1 * diff(DE_G_YER(-1))
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+ de_q_yed_u2_stn_L1 * diff(U2_STN(-1))
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+ res_DE_Q_YED ;
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diff(DE_G_YER) = de_g_yer_ecm_de_q_yed_L1 * (DE_Q_YED(-1) - DE_EHIC(-1))
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+ de_g_yer_ecm_u2_stn_L1 * (U2_STN(-1) - U2_ESTN(-1))
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+ de_g_yer_de_q_yed_L1 * diff(DE_Q_YED(-1))
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+ de_g_yer_de_g_yer_L1 * diff(DE_G_YER(-1))
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+ de_g_yer_u2_stn_L1 * diff(U2_STN(-1))
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+ res_DE_G_YER ;
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DE_EHIC = de_ehic_de_ehic_L1 * DE_EHIC(-1)
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+ res_DE_EHIC ;
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end;
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pooled_fgls(dseries('data_var.mat'), ...
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{'de','u2'}, ...
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{'*_q_yed_ecm_*_q_yed_L1', ...
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'*_q_yed_ecm_u2_stn_L1', ...
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'*_q_yed_*_g_yer_L1', ...
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'*_q_yed_u2_stn_L1', ...
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'*_g_yer_ecm_*_q_yed_L1', ...
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'*_g_yer_ecm_u2_stn_L1', ...
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'*_g_yer_*_q_yed_L1', ...
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'*_g_yer_*_g_yer_L1', ...
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'*_g_yer_u2_stn_L1', ...
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'*_ehic_*_ehic_L1'});
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