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IncidenceMatrix.cc
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sebastien authored
trunk preprocessor: added missing headers in IncidenceMatrix.cc (otherwise fails to compile with gcc 4.3) git-svn-id: https://www.dynare.org/svn/dynare/dynare_v4@2259 ac1d8469-bf42-47a9-8791-bf33cf982152
sebastien authoredtrunk preprocessor: added missing headers in IncidenceMatrix.cc (otherwise fails to compile with gcc 4.3) git-svn-id: https://www.dynare.org/svn/dynare/dynare_v4@2259 ac1d8469-bf42-47a9-8791-bf33cf982152
Shocks.hh 7.50 KiB
/*
* Copyright © 2003-2021 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/>.
*/
#ifndef _SHOCKS_HH
#define _SHOCKS_HH
using namespace std;
#include <string>
#include <vector>
#include <map>
#include "Statement.hh"
#include "SymbolTable.hh"
#include "ExprNode.hh"
class AbstractShocksStatement : public Statement
{
public:
// The tuple is (period1, period2, value)
using det_shocks_t = map<int, vector<tuple<int, int, expr_t>>>;
protected:
//! Is this statement a "mshocks" statement ? (instead of a "shocks" statement)
const bool mshocks;
//! Does this "shocks" statement replace the previous ones?
const bool overwrite;
const det_shocks_t det_shocks;
const SymbolTable &symbol_table;
void writeDetShocks(ostream &output) const;
void writeJsonDetShocks(ostream &output) const;
AbstractShocksStatement(bool mshocks_arg, bool overwrite_arg,
det_shocks_t det_shocks_arg,
const SymbolTable &symbol_table_arg);
};
class ShocksStatement : public AbstractShocksStatement
{
public:
using var_and_std_shocks_t = map<int, expr_t>;
using covar_and_corr_shocks_t = map<pair<int, int>, expr_t>;
private:
const var_and_std_shocks_t var_shocks, std_shocks;
const covar_and_corr_shocks_t covar_shocks, corr_shocks;
void writeVarOrStdShock(ostream &output, var_and_std_shocks_t::const_iterator &it, bool stddev) const;
void writeVarAndStdShocks(ostream &output) const;
void writeCovarOrCorrShock(ostream &output, covar_and_corr_shocks_t::const_iterator &it, bool corr) const;
void writeCovarAndCorrShocks(ostream &output) const;
bool has_calibrated_measurement_errors() const;
public:
ShocksStatement(bool overwrite_arg,
det_shocks_t det_shocks_arg,
var_and_std_shocks_t var_shocks_arg,
var_and_std_shocks_t std_shocks_arg, covar_and_corr_shocks_t covar_shocks_arg,
covar_and_corr_shocks_t corr_shocks_arg,
const SymbolTable &symbol_table_arg);
void checkPass(ModFileStructure &mod_file_struct, WarningConsolidation &warnings) override;
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class MShocksStatement : public AbstractShocksStatement
{
public:
MShocksStatement(bool overwrite_arg,
det_shocks_t det_shocks_arg,
const SymbolTable &symbol_table_arg);
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
/* Represents a shocks(surprise) block.
Given the differences with the plain “shocks” block, it was easier to make
it a separate class. */
class ShocksSurpriseStatement : public Statement
{
public:
//! Does this "shocks(surprise)" statement replace the previous ones?
const bool overwrite;
const AbstractShocksStatement::det_shocks_t surprise_shocks;
private:
const SymbolTable &symbol_table;
public:
ShocksSurpriseStatement(bool overwrite_arg,
AbstractShocksStatement::det_shocks_t surprise_shocks_arg,
const SymbolTable &symbol_table_arg);
void checkPass(ModFileStructure &mod_file_struct, WarningConsolidation &warnings) override;
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class ConditionalForecastPathsStatement : public Statement
{
private:
const AbstractShocksStatement::det_shocks_t paths;
const SymbolTable &symbol_table;
int path_length{-1};
public:
ConditionalForecastPathsStatement(AbstractShocksStatement::det_shocks_t paths_arg,
const SymbolTable &symbol_table_arg);
void checkPass(ModFileStructure &mod_file_struct, WarningConsolidation &warnings) override;
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class MomentCalibration : public Statement
{
public:
struct Constraint
{
int endo1, endo2;
string lags;
expr_t lower_bound, upper_bound;
};
using constraints_t = vector<Constraint>;
private:
constraints_t constraints;
const SymbolTable &symbol_table;
public:
MomentCalibration(constraints_t constraints_arg,
const SymbolTable &symbol_table_arg);
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;};
class IrfCalibration : public Statement
{
public:
struct Constraint
{
int endo;
int exo;
string periods;
expr_t lower_bound, upper_bound;
};
using constraints_t = vector<Constraint>;
private:
constraints_t constraints;
const SymbolTable &symbol_table;
const OptionsList options_list;
public:
IrfCalibration(constraints_t constraints_arg,
const SymbolTable &symbol_table_arg,
OptionsList options_list_arg);
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class ShockGroupsStatement : public Statement
{
public:
struct Group
{
string name;
vector<string> list;
};
using group_t = vector<Group>;
private:
group_t shock_groups;
string name;
public:
ShockGroupsStatement(group_t shock_groups_arg, string name_arg);
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class Init2shocksStatement : public Statement
{
private:
const vector<pair<int, int>> init2shocks;
const string name;
const SymbolTable &symbol_table;
public:
Init2shocksStatement(vector<pair<int, int>> init2shocks_arg, string name_arg, const SymbolTable &symbol_table_arg);
void checkPass(ModFileStructure &mod_file_struct, WarningConsolidation &warnings) override;
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override;
void writeJsonOutput(ostream &output) const override;
};
class HeteroskedasticShocksStatement : public Statement
{
public:
// Maps exo symb_id to list of tuples (period1, period2, value/scale)
using heteroskedastic_shocks_t = map<int, vector<tuple<int, int, expr_t>>>;
private:
const bool overwrite;
const heteroskedastic_shocks_t values, scales;
const SymbolTable &symbol_table;
public:
HeteroskedasticShocksStatement(bool overwrite_arg, const heteroskedastic_shocks_t &values_arg,
const heteroskedastic_shocks_t &scales_arg,
const SymbolTable &symbol_table_arg);
void writeOutput(ostream &output, const string &basename, bool minimal_workspace) const override; void writeJsonOutput(ostream &output) const override;
};
#endif