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The derivatives with respect to endogenous variables of the previous blocks are corrected for a block-decomposed model without bytecode option

time-shift
Ferhat Mihoubi 2011-02-03 12:28:39 +01:00
parent 6674b5ffcf
commit 3ef85c55c3
1 changed files with 6 additions and 10 deletions
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16
preprocessor/DynamicModel.cc
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@ -253,10 +253,6 @@ DynamicModel::writeModelEquationsOrdered_M(const string &dynamic_basename) const
unsigned int block_mfs = getBlockMfs(block);
unsigned int block_recursive = block_size - block_mfs;
deriv_node_temp_terms_t tef_terms;
/*unsigned int block_exo_size = exo_block[block].size();
unsigned int block_exo_det_size = exo_det_block[block].size();
unsigned int block_other_endo_size = other_endo_block[block].size();*/
int block_max_lag = max_leadlag_block[block].first;
local_output_type = oMatlabDynamicModelSparse;
if (global_temporary_terms)
local_temporary_terms = temporary_terms;
@ -326,7 +322,7 @@ DynamicModel::writeModelEquationsOrdered_M(const string &dynamic_basename) const
prev_var = 999999999;
prev_lag = -9999999;
count_col_other_endo = 0;
for (map<pair<int, pair<int, int> >, expr_t>::const_iterator it = tmp_block_exo_derivative.begin(); it != tmp_block_exo_derivative.end(); it++)
for (map<pair<int, pair<int, int> >, expr_t>::const_iterator it = tmp_block_other_endo_derivative.begin(); it != tmp_block_other_endo_derivative.end(); it++)
{
int lag = it->first.first;
unsigned int var = it->first.second.first;
@ -665,7 +661,7 @@ DynamicModel::writeModelEquationsOrdered_M(const string &dynamic_basename) const
}
expr_t id = it->second;
output << " g1_o(" << eqr+1 << ", " << var+1+(lag+block_max_lag)*block_size << ") = ";
output << " g1_o(" << eqr+1 << ", " << /*var+1+(lag+block_max_lag)*block_size*/count_col << ") = ";
id->writeOutput(output, local_output_type, local_temporary_terms);
output << "; % variable=" << symbol_table.getName(symbol_table.getID(eEndogenous, var))
<< "(" << lag
@ -1812,22 +1808,22 @@ DynamicModel::writeSparseDynamicMFile(const string &dynamic_basename, const stri
{
case EVALUATE_FORWARD:
case EVALUATE_BACKWARD:
mDynamicModelFile << " [y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, 1, it_-1, 1);\n";
mDynamicModelFile << " [y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_xd, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, 1, it_-1, 1);\n";
mDynamicModelFile << " residual(y_index_eq)=ys(y_index)-y(it_, y_index);\n";
break;
case SOLVE_FORWARD_SIMPLE:
case SOLVE_BACKWARD_SIMPLE:
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_, 1);\n";
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_xd, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_, 1);\n";
mDynamicModelFile << " residual(y_index_eq)=r;\n";
break;
case SOLVE_FORWARD_COMPLETE:
case SOLVE_BACKWARD_COMPLETE:
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_, 1);\n";
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_xd, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_, 1);\n";
mDynamicModelFile << " residual(y_index_eq)=r;\n";
break;
case SOLVE_TWO_BOUNDARIES_COMPLETE:
case SOLVE_TWO_BOUNDARIES_SIMPLE:
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, b, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_-" << max_lag << ", 1, " << max_lag << ", " << block_recursive << ");\n";
mDynamicModelFile << " [r, y, dr(" << count_call << ").g1, dr(" << count_call << ").g2, dr(" << count_call << ").g3, b, dr(" << count_call << ").g1_x, dr(" << count_call << ").g1_xd, dr(" << count_call << ").g1_o]=" << dynamic_basename << "_" << block + 1 << "(y, x, params, it_-" << max_lag << ", 1, " << max_lag << ", " << block_recursive << ");\n";
mDynamicModelFile << " residual(y_index_eq)=r(:,M_.maximum_lag+1);\n";
break;
default: