Пример #1
0
// virtual
bool CConcentrationReference::isPrerequisiteForContext(const CObjectInterface * pObject,
    const CMath::SimulationContextFlag & /* context */,
    const CObjectInterface::ObjectSet & changedObjects) const
{
  // If the value is in the context, it does not depend on the object.
  if (changedObjects.find(this) != changedObjects.end())
    return false;

  // Densities which are not in the context have to be recalculated.
  return true;
}
Пример #2
0
// virtual
bool CParticleReference::isPrerequisiteForContext(const CObjectInterface * pObject,
    const CMath::SimulationContextFlag & context ,
    const CObjectInterface::ObjectSet & changedObjects) const
{
  const CMetab * pSpecies = static_cast< const CMetab * >(getObjectParent());

  if ((context & CMath::UseMoieties) &&
      pSpecies->isDependent())
    {
      return true;
    }

  // If the value is changed it must not be recalculated, i.e., it does not depend on the object.
  if (changedObjects.find(this) != changedObjects.end())
    return false;

  // Amounts which are determine by assignment need to be recalculated.
  if (pSpecies->getStatus() == CModelEntity::ASSIGNMENT)
    return true;

  const CConcentrationReference * pConcentrationReference = NULL;

  if (getObjectName() != "ParticleNumber")
    {
      pConcentrationReference = pSpecies->getInitialConcentrationReference();
    }
  else
    {
      pConcentrationReference = pSpecies->getConcentrationReference();
    }

  // If the concentration was changed in the context we need to recalculate.
  if (changedObjects.find(pConcentrationReference) != changedObjects.end())
    return true;

  return false;
}
Пример #3
0
bool CCopasiObject::isPrerequisiteForContext(const CObjectInterface * pObject,
    const CMath::SimulationContextFlag & /* context */,
    const CObjectInterface::ObjectSet & changedObjects) const
{
  // If the object is among the changed objects it does not depend on anything else.
  if (changedObjects.find(this) != changedObjects.end())
    return false;

#ifdef COPASI_DEBUG
  const CObjectInterface::ObjectSet & Prerequisites = getPrerequisites();

  // This method should only be called for objects which are prerequisites.
  // We check for this only in debug mode.
  assert(Prerequisites.find(pObject) != Prerequisites.end());
#endif // COPASI_DEBUG

  return true;
}
Пример #4
0
// virtual
bool CMathObject::isPrerequisiteForContext(const CObjectInterface * pObject,
    const CMath::SimulationContextFlag & context,
    const CObjectInterface::ObjectSet & changedObjects) const
{
  // This method should only be called for objects which are prerequisites.
  // We check for this only in debug mode.
  assert(mPrerequisites.find(pObject) != mPrerequisites.end());

  switch (mEntityType)
    {
      case CMath::Moiety:

        if ((context & CMath::UpdateMoieties) &&
            mValueType == CMath::TotalMass)
          {
            return true;
          }

        if ((context & CMath::UseMoieties) &&
            mValueType == CMath::DependentMass)
          {
            return true;
          }

        return false;
        break;

      case CMath::Species:

        // For species we need to account for the duality of the intensive and extensive value
        if (mValueType != CMath::Value)
          return true;

        if ((context & CMath::UseMoieties) &&
            mSimulationType == CMath::Dependent &&
            !mIsIntensiveProperty)
          {
            if (mpCorrespondingProperty != pObject)
              {
                return true;
              }

            return false;
          }

        // If the value is in the context, it does not depend on the object.
        if (changedObjects.find(this) != changedObjects.end())
          return false;

        if (mIsIntensiveProperty)
          {
            // Densities which are not in the context have to be recalculated.
            return true;
          }
        else
          {
            // Amount which are determine by assignment need to be recalculated.
            if (mSimulationType == CMath::Assignment)
              return true;

            // If the concentration was changed in the context we need to recalculate.
            if (changedObjects.find(mpCorrespondingProperty) != changedObjects.end())
              return true;

            // If the concentration is calculated by an assignment we need to recalculate.
            if (mpCorrespondingProperty->getSimulationType() == CMath::Assignment)
              return true;

            return false;
          }

        break;

      case CMath::Event:

        if ((context & CMath::EventHandling) &&
            mValueType == CMath::Discontinuous)
          {
            switch ((int) mpExpression->getRoot()->getType())
              {
                case (CEvaluationNode::CHOICE | CEvaluationNodeChoice::IF):
                {
                  const CMathObject * pMathObject = dynamic_cast< const CMathObject * >(pObject);

                  if (pMathObject != NULL &&
                      pMathObject->mValueType == CMath::EventTrigger)
                    {
                      return false;
                    }

                  return true;
                }
                break;

                case (CEvaluationNode::FUNCTION | CEvaluationNodeFunction::FLOOR):
                  return false;
                  break;

                case (CEvaluationNode::FUNCTION | CEvaluationNodeFunction::CEIL):
                  return false;
                  break;

                default:
                  return true;
              }
          }

        return true;
        break;

      case CMath::Delay:

        if (context & CMath::EventHandling)
          {
            return true;
          }

        return (mValueType == CMath::DelayLag);

        break;

      default:
        return true;
    }

  // This should never be reached.
  return true;
}