// #######################################################################
SpeciesReference* SBML_formatter::species2SpeciesReference(const Species* species, const Reaction* rxn, string addToSpeciesID){
  string value = species->getId(); 
  
  SpeciesReference* SR = new SpeciesReference(species->getLevel(), species->getVersion());
  
  value = species->getId();

  if (addToSpeciesID != ""){
    // sets the species name, as 
    value.append(addToSpeciesID);
  }
  
  SR->setSpecies(value);
  
  SR->setStoichiometry(1);
  SR->setId((value.append("_ref_")).append(dtostr(unique)));
  value.clear();
  value.append(species->getId());
  SR->setName((value.append("_in_rxn_")).append(rxn->getId()));
  // unique is a static variable which allows anything that needs a modelwide unique value to get
  // one;
  unique++;

  return SR;
}
예제 #2
0
void
Model::convertStoichiometryMath()
{
  unsigned int n, j;
  Reaction * r;
  SpeciesReference *sr;
  unsigned int idCount = 0;
  char newid[15];
  std::string id;

  for (n = 0; n < getNumReactions(); n++)
  {
    r = getReaction(n);
    for (j = 0; j < r->getNumReactants(); j++)
    {
      sr = r->getReactant(j);
      if (sr->isSetStoichiometryMath())
      {
        if (!sr->isSetId())
        {
          sprintf(newid, "generatedId_%u", idCount);
          id.assign(newid);
          sr->setId(id);
          idCount++;
        }
        else
        {
          id = sr->getId();
        }
        sr->setConstant(false);

        AssignmentRule * ar = createAssignmentRule();
        ar->setVariable(id);
        if (sr->getStoichiometryMath()->isSetMath())
        {
          ar->setMath(sr->getStoichiometryMath()->getMath());
        }
      }
    }
    for (j = 0; j < r->getNumProducts(); j++)
    {
      sr = r->getProduct(j);
      if (sr->isSetStoichiometryMath())
      {
        if (!sr->isSetId())
        {
          sprintf(newid, "generatedId_%u", idCount);
          id.assign(newid);
          sr->setId(id);
          idCount++;
        }
        else
        {
          id = sr->getId();
        }

        sr->setConstant(false);
        AssignmentRule * ar = createAssignmentRule();
        ar->setVariable(id);
        if (sr->getStoichiometryMath()->isSetMath())
        {
          ar->setMath(sr->getStoichiometryMath()->getMath());
        }
      }
    }
  }
}
예제 #3
0
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();
        }
      }
    }
  }
}