void dealWithL1Stoichiometry(Model & m, bool l2)
{
unsigned int idCount = 0;
char newid[15];
std::string id;
for (unsigned int i = 0; i < m.getNumReactions(); i++)
{
Reaction *r = m.getReaction(i);
unsigned int j;
for (j = 0; j < r->getNumReactants(); j++)
{
SpeciesReference *sr = r->getReactant(j);
if (sr->getDenominator() != 1)
{
long stoich = static_cast<long>(sr->getStoichiometry());
int denom = sr->getDenominator();
ASTNode *node = new ASTNode();
node->setValue(stoich, denom);
if (l2 == true)
{
StoichiometryMath * sm = sr->createStoichiometryMath();
sm->setMath(node);
}
else
{
sprintf(newid, "speciesRefId_%u", idCount);
id.assign(newid);
idCount++;
sr->setId(id);
InitialAssignment * ar = m.createInitialAssignment();
ar->setSymbol(id);
ar->setMath(node);
sr->unsetStoichiometry();
}
}
}
for (j = 0; j < r->getNumProducts(); j++)
{
SpeciesReference *sr = r->getProduct(j);
if (sr->getDenominator() != 1)
{
long stoich = static_cast<long>(sr->getStoichiometry());
int denom = sr->getDenominator();
ASTNode *node = new ASTNode();
node->setValue(stoich, denom);
if (l2 == true)
{
StoichiometryMath * sm = sr->createStoichiometryMath();
sm->setMath(node);
}
else
{
sprintf(newid, "speciesRefId_%u", idCount);
id.assign(newid);
idCount++;
sr->setId(id);
InitialAssignment * ar = m.createInitialAssignment();
ar->setSymbol(id);
ar->setMath(node);
sr->unsetStoichiometry();
}
}
}
}
}
