stepan
/
preprocessor
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

Fix bytecode compilation of external function nodes

master
Sébastien Villemot 2022-05-20 11:43:02 +02:00
parent 591b5e5f9e
commit 171cd65566
No known key found for this signature in database
GPG Key ID: 2CECE9350ECEBE4A
8 changed files with 61 additions and 66 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

44
src/DynamicModel.cc
View File

@ -168,11 +168,11 @@ DynamicModel::operator=(const DynamicModel &m)
}
void
DynamicModel::compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const
DynamicModel::compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const
{
if (auto it = derivatives[1].find({ eq, getDerivID(symbol_table.getID(SymbolType::endogenous, symb_id), lag) });
it != derivatives[1].end())
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, true, false);
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, true, false, tef_terms);
else
{
FLDZ_ fldz;
@ -181,11 +181,11 @@ DynamicModel::compileDerivative(ofstream &code_file, unsigned int &instruction_n
}
void
DynamicModel::compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const
DynamicModel::compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const
{
if (auto it = blocks_derivatives[blk].find({ eq, var, lag });
it != blocks_derivatives[blk].end())
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, true, false);
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, true, false, tef_terms);
else
{
FLDZ_ fldz;
@ -886,9 +886,11 @@ DynamicModel::writeDynamicBytecode(const string &basename) const
fbeginblock.write(code_file, instruction_number);
temporary_terms_t temporary_terms_union;
compileTemporaryTerms(code_file, instruction_number, true, false, temporary_terms_union, temporary_terms_idxs);
deriv_node_temp_terms_t tef_terms;
compileModelEquations(code_file, instruction_number, true, false, temporary_terms_union, temporary_terms_idxs);
compileTemporaryTerms(code_file, instruction_number, true, false, temporary_terms_union, temporary_terms_idxs, tef_terms);
compileModelEquations(code_file, instruction_number, true, false, temporary_terms_union, temporary_terms_idxs, tef_terms);
FENDEQU_ fendequ;
fendequ.write(code_file, instruction_number);
@ -915,7 +917,7 @@ DynamicModel::writeDynamicBytecode(const string &basename) const
if (!my_derivatives[eq].size())
my_derivatives[eq].clear();
my_derivatives[eq].emplace_back(var, lag, count_u);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false, tef_terms);
FSTPU_ fstpu(count_u);
fstpu.write(code_file, instruction_number);
@ -977,7 +979,7 @@ DynamicModel::writeDynamicBytecode(const string &basename) const
prev_lag = lag;
count_col_endo++;
}
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, count_col_endo-1);
fstpg3.write(code_file, instruction_number);
}
@ -996,7 +998,7 @@ DynamicModel::writeDynamicBytecode(const string &basename) const
prev_lag = lag;
count_col_exo++;
}
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, true, false, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, count_col_exo-1);
fstpg3.write(code_file, instruction_number);
}
@ -1152,16 +1154,16 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
}
else if (equ_type == EquationType::evaluateRenormalized)
{
eq_node = getBlockEquationRenormalizedExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
}
break;
case BlockSimulationType::solveBackwardComplete:
@ -1182,8 +1184,8 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
FBINARY_ fbinary{static_cast<int>(BinaryOpcode::minus)};
fbinary.write(code_file, instruction_number);
@ -1221,7 +1223,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, getBlockEquationID(block, 0), getBlockVariableID(block, 0), 0);
fnumexpr.write(code_file, instruction_number);
}
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), 0, temporary_terms_union, blocks_temporary_terms_idxs);
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), 0, temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
{
FSTPG_ fstpg(0);
fstpg.write(code_file, instruction_number);
@ -1260,7 +1262,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
Uf[eqr].Ufl->lag = lag;
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, eqr, varr, lag);
fnumexpr.write(code_file, instruction_number);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, lag, temporary_terms_union, blocks_temporary_terms_idxs);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, lag, temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
FSTPU_ fstpu(count_u);
fstpu.write(code_file, instruction_number);
count_u++;
@ -1337,7 +1339,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
int varr = getBlockVariableID(block, var);
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, eqr, varr, lag);
fnumexpr.write(code_file, instruction_number);
compileDerivative(code_file, instruction_number, eqr, varr, lag, temporary_terms_union, blocks_temporary_terms_idxs);
compileDerivative(code_file, instruction_number, eqr, varr, lag, temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, blocks_jacob_cols_endo[block].at({ var, lag }));
fstpg3.write(code_file, instruction_number);
}
@ -1348,7 +1350,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
int varr = 0; // Dummy value, actually unused by the bytecode MEX
FNUMEXPR_ fnumexpr(ExpressionType::FirstExoDerivative, eqr, varr, lag);
fnumexpr.write(code_file, instruction_number);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, blocks_jacob_cols_exo[block].at({ var, lag }));
fstpg3.write(code_file, instruction_number);
}
@ -1359,7 +1361,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
int varr = 0; // Dummy value, actually unused by the bytecode MEX
FNUMEXPR_ fnumexpr(ExpressionType::FirstExodetDerivative, eqr, varr, lag);
fnumexpr.write(code_file, instruction_number);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, blocks_jacob_cols_exo_det[block].at({ var, lag }));
fstpg3.write(code_file, instruction_number);
}
@ -1370,7 +1372,7 @@ DynamicModel::writeDynamicBlockBytecode(const string &basename) const
int varr = 0; // Dummy value, actually unused by the bytecode MEX
FNUMEXPR_ fnumexpr(ExpressionType::FirstOtherEndoDerivative, eqr, varr, lag);
fnumexpr.write(code_file, instruction_number);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false);
d->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, true, false, tef_terms);
FSTPG3_ fstpg3(eq, var, lag, blocks_jacob_cols_other_endo[block].at({ var, lag }));
fstpg3.write(code_file, instruction_number);
}

4
src/DynamicModel.hh
View File

@ -185,9 +185,9 @@ private:
map<expr_t, tuple<int, int, int>> &reference_count) const override;
//! Write derivative code of an equation w.r. to a variable
void compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const;
//! Write chain rule derivative code of an equation w.r. to a variable
void compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const;
//! Get the type corresponding to a derivation ID
SymbolType getTypeByDerivID(int deriv_id) const noexcept(false) override;

8
src/ExprNode.cc
View File

@ -169,14 +169,6 @@ ExprNode::writeOutput(ostream &output, ExprNodeOutputType output_type, const tem
writeOutput(output, output_type, temporary_terms, temporary_terms_idxs, {});
}
void
ExprNode::compile(ostream &CompileCode, unsigned int &instruction_number,
bool lhs_rhs, const temporary_terms_t &temporary_terms,
const temporary_terms_idxs_t &temporary_terms_idxs, bool dynamic, bool steady_dynamic) const
{
compile(CompileCode, instruction_number, lhs_rhs, temporary_terms, temporary_terms_idxs, dynamic, steady_dynamic, {});
}
void
ExprNode::writeExternalFunctionOutput(ostream &output, ExprNodeOutputType output_type,
const temporary_terms_t &temporary_terms,

2
src/ExprNode.hh
View File

@ -410,7 +410,7 @@ public:
virtual double eval(const eval_context_t &eval_context) const noexcept(false) = 0;
virtual void compile(ostream &CompileCode, unsigned int &instruction_number, bool lhs_rhs, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, bool dynamic, bool steady_dynamic, const deriv_node_temp_terms_t &tef_terms) const = 0;
void compile(ostream &CompileCode, unsigned int &instruction_number, bool lhs_rhs, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, bool dynamic, bool steady_dynamic) const;
//! Creates a static version of this node
/*!
This method duplicates the current node by creating a similar node from which all leads/lags have been stripped,

11
src/ModelTree.cc
View File

@ -1260,10 +1260,9 @@ ModelTree::testNestedParenthesis(const string &str) const
}
void
ModelTree::compileTemporaryTerms(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs) const
ModelTree::compileTemporaryTerms(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs, deriv_node_temp_terms_t &tef_terms) const
{
// To store the functions that have already been written in the form TEF* = ext_fun();
deriv_node_temp_terms_t tef_terms;
for (auto [tt, idx] : temporary_terms_idxs)
{
if (dynamic_cast<AbstractExternalFunctionNode *>(tt))
@ -1398,7 +1397,7 @@ ModelTree::writeModelEquations(ostream &output, ExprNodeOutputType output_type,
}
void
ModelTree::compileModelEquations(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, const temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs) const
ModelTree::compileModelEquations(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, const temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const
{
for (int eq = 0; eq < static_cast<int>(equations.size()); eq++)
{
@ -1419,8 +1418,8 @@ ModelTree::compileModelEquations(ostream &code_file, unsigned int &instruction_n
if (vrhs != 0) // The right hand side of the equation is not empty ==> residual=lhs-rhs;
{
lhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic);
lhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic, tef_terms);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic, tef_terms);
FBINARY_ fbinary{static_cast<int>(BinaryOpcode::minus)};
fbinary.write(code_file, instruction_number);
@ -1430,7 +1429,7 @@ ModelTree::compileModelEquations(ostream &code_file, unsigned int &instruction_n
}
else // The right hand side of the equation is empty ==> residual=lhs;
{
lhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic);
lhs->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, dynamic, steady_dynamic, tef_terms);
FSTPR_ fstpr(eq);
fstpr.write(code_file, instruction_number);
}

4
src/ModelTree.hh
View File

@ -237,7 +237,7 @@ protected:
void writeTemporaryTerms(const temporary_terms_t &tt, temporary_terms_t &temp_term_union, const temporary_terms_idxs_t &tt_idxs, ostream &output, ExprNodeOutputType output_type, deriv_node_temp_terms_t &tef_terms) const;
void writeJsonTemporaryTerms(const temporary_terms_t &tt, temporary_terms_t &temp_term_union, ostream &output, deriv_node_temp_terms_t &tef_terms, const string &concat) const;
//! Compiles temporary terms
void compileTemporaryTerms(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileTemporaryTerms(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs, deriv_node_temp_terms_t &tef_terms) const;
//! Adds information for (non-block) bytecode simulation in a separate .bin file
void writeBytecodeBinFile(const string &filename, int &u_count_int, bool &file_open, bool is_two_boundaries) const;
//! Fixes output when there are more than 32 nested parens, Issue #1201
@ -260,7 +260,7 @@ protected:
Optionally put the external function variable calls into TEF terms */
void writeJsonModelLocalVariables(ostream &output, bool write_tef_terms, deriv_node_temp_terms_t &tef_terms) const;
//! Compiles model equations
void compileModelEquations(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, const temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileModelEquations(ostream &code_file, unsigned int &instruction_number, bool dynamic, bool steady_dynamic, const temporary_terms_t &temporary_terms_union, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const;
//! Writes LaTeX model file
void writeLatexModelFile(const string &mod_basename, const string &latex_basename, ExprNodeOutputType output_type, bool write_equation_tags) const;

50
src/StaticModel.cc
View File

@ -103,11 +103,11 @@ StaticModel::StaticModel(const DynamicModel &m) :
}
void
StaticModel::compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const
StaticModel::compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const
{
if (auto it = derivatives[1].find({ eq, getDerivID(symbol_table.getID(SymbolType::endogenous, symb_id), 0) });
it != derivatives[1].end())
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, false, false);
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, false, false, tef_terms);
else
{
FLDZ_ fldz;
@ -116,11 +116,11 @@ StaticModel::compileDerivative(ofstream &code_file, unsigned int &instruction_nu
}
void
StaticModel::compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const
StaticModel::compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const
{
if (auto it = blocks_derivatives[blk].find({ eq, var, lag });
it != blocks_derivatives[blk].end())
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, false, false);
it->second->compile(code_file, instruction_number, false, temporary_terms, temporary_terms_idxs, false, false, tef_terms);
else
{
FLDZ_ fldz;
@ -420,9 +420,11 @@ StaticModel::writeStaticBytecode(const string &basename) const
fbeginblock.write(code_file, instruction_number);
temporary_terms_t temporary_terms_union;
compileTemporaryTerms(code_file, instruction_number, false, false, temporary_terms_union, temporary_terms_idxs);
deriv_node_temp_terms_t tef_terms;
compileModelEquations(code_file, instruction_number, false, false, temporary_terms_union, temporary_terms_idxs);
compileTemporaryTerms(code_file, instruction_number, false, false, temporary_terms_union, temporary_terms_idxs, tef_terms);
compileModelEquations(code_file, instruction_number, false, false, temporary_terms_union, temporary_terms_idxs, tef_terms);
FENDEQU_ fendequ;
fendequ.write(code_file, instruction_number);
@ -449,7 +451,7 @@ StaticModel::writeStaticBytecode(const string &basename) const
my_derivatives[eq].clear();
my_derivatives[eq].emplace_back(var, count_u);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, false, false);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, false, false, tef_terms);
FSTPSU_ fstpsu(count_u);
fstpsu.write(code_file, instruction_number);
@ -511,7 +513,7 @@ StaticModel::writeStaticBytecode(const string &basename) const
my_derivatives[eq].clear();
my_derivatives[eq].emplace_back(var, count_u);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, false, false);
d1->compile(code_file, instruction_number, false, temporary_terms_union, temporary_terms_idxs, false, false, tef_terms);
FSTPG2_ fstpg2(eq, var);
fstpg2.write(code_file, instruction_number);
}
@ -660,16 +662,16 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
}
else if (equ_type == EquationType::evaluateRenormalized)
{
eq_node = getBlockEquationRenormalizedExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
}
break;
case BlockSimulationType::solveBackwardComplete:
@ -688,8 +690,8 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
FBINARY_ fbinary{static_cast<int>(BinaryOpcode::minus)};
fbinary.write(code_file, instruction_number);
@ -716,7 +718,7 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, 0, 0);
fnumexpr.write(code_file, instruction_number);
}
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), temporary_terms_union, blocks_temporary_terms_idxs);
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
{
FSTPG_ fstpg(0);
fstpg.write(code_file, instruction_number);
@ -748,7 +750,7 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
Uf[eqr].Ufl->var = varr;
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, eqr, varr);
fnumexpr.write(code_file, instruction_number);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, 0, temporary_terms_union, blocks_temporary_terms_idxs);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, 0, temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
FSTPSU_ fstpsu(count_u);
fstpsu.write(code_file, instruction_number);
count_u++;
@ -836,16 +838,16 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
}
else if (equ_type == EquationType::evaluateRenormalized)
{
eq_node = getBlockEquationRenormalizedExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
lhs->compile(code_file, instruction_number, true, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
}
break;
case BlockSimulationType::solveBackwardComplete:
@ -864,8 +866,8 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
eq_node = getBlockEquationExpr(block, i);
lhs = eq_node->arg1;
rhs = eq_node->arg2;
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false);
lhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
rhs->compile(code_file, instruction_number, false, temporary_terms_union, blocks_temporary_terms_idxs, false, false, tef_terms);
FBINARY_ fbinary{static_cast<int>(BinaryOpcode::minus)};
fbinary.write(code_file, instruction_number);
@ -890,7 +892,7 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, 0, 0);
fnumexpr.write(code_file, instruction_number);
}
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), temporary_terms_union, blocks_temporary_terms_idxs);
compileDerivative(code_file, instruction_number, getBlockEquationID(block, 0), getBlockVariableID(block, 0), temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
{
FSTPG2_ fstpg2(0, 0);
fstpg2.write(code_file, instruction_number);
@ -909,7 +911,7 @@ StaticModel::writeStaticBlockBytecode(const string &basename) const
FNUMEXPR_ fnumexpr(ExpressionType::FirstEndoDerivative, eqr, varr, 0);
fnumexpr.write(code_file, instruction_number);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, 0, temporary_terms_union, blocks_temporary_terms_idxs);
compileChainRuleDerivative(code_file, instruction_number, block, eq, var, 0, temporary_terms_union, blocks_temporary_terms_idxs, tef_terms);
FSTPG2_ fstpg2(eq, var);
fstpg2.write(code_file, instruction_number);

4
src/StaticModel.hh
View File

@ -78,9 +78,9 @@ private:
void evaluateJacobian(const eval_context_t &eval_context, jacob_map_t *j_m, bool dynamic);
//! Write derivative code of an equation w.r. to a variable
void compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileDerivative(ofstream &code_file, unsigned int &instruction_number, int eq, int symb_id, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const;
//! Write chain rule derivative code of an equation w.r. to a variable
void compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs) const;
void compileChainRuleDerivative(ofstream &code_file, unsigned int &instruction_number, int blk, int eq, int var, int lag, const temporary_terms_t &temporary_terms, const temporary_terms_idxs_t &temporary_terms_idxs, const deriv_node_temp_terms_t &tef_terms) const;
//! Get the type corresponding to a derivation ID
SymbolType getTypeByDerivID(int deriv_id) const noexcept(false) override;