coriolis/vlsisapd/doc/openChams/Operator.dox

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// -*- C++ -*-
namespace OpenChams {
/*! \class Operator::Constraint
*
* This class describes a constraint.
* A constraint is used to set that a parameter's value is defined relative to another parameter value or to an equation:
* deviceA.paramI = deviceB.paramJ * factor
* deviceA.paramI = equation * factor
*/
/*! \fn Operator::Constraint::Constraint(Name ref, Name refParam, double factor)
* \brief creates a new constraint.
*
* \param ref the reference object (device, instace or circuit).
* \param refParam the reference parameter.
* \param factor the factor of the constraint.
*/
/*! \fn inline Name Operator::Constraint::getRef()
* \brief returns the name of the object referenced by the constraint.
*/
/*! \fn inline Name Operator::Constraint::getRefParam()
* \brief returns the name of the parameter referenced by the constraint.
*/
/*! \fn inline double Operator::Constraint::getFactor()
* \brief returns the factor of the constraint.
*/
/*! \class Operator
*
* This class describes an operator of a sizing procedure.
*/
/*! \fn Operator::Operator(Name name, Name simulModel, unsigned callOrder)
* \brief creates a new operator.
*
* \param name the name of the operator.
* \param simulModel the simulation model of the operator.
* \param callOrder the call order of the operator in the sizing procedure.
*/
/*! \fn void Operator::addConstraint(Name paramName, Name ref, Name refParam)
* \brief adds a Constraint to the operator.
*
* Constraint formula is : paramName = ref.refParam.
* Since the operator is associated to an instance, it is not necessaray to precise the name of this instance.
*
* \param paramName the name of the parameter to set.
* \param ref the name of the referenced object.
* \param refParam the name of the referenced parameter.
*/
/*! \fn void Operator::addConstraint(Name paramName, Name ref, Name refParam, double factor)
* \brief adds a Constraint to the operator.
*
* Constraint formula is : paramName = ref.refParam * factor.
* Since the operator is associated to an instance, it is not necessaray to precise the name of this instance.
*
* \param paramName the name of the parameter to set.
* \param ref the name of the referenced object.
* \param refParam the name of the referenced parameter.
* \param factor the multiplicty factor.
*/
/*! \fn void Operator::addConstraint(Name paramName, Name refEquation)
* \brief adds an equation Constraint to the operator.
*
* Constraint formula is : paramName = equation.
* Since the operator is associated to an instance, it is not necessaray to precise the name of this instance.
*
* \param paramName the name of the parameter to set.
* \param refEquation the referenced equation.
*/
/*! \fn void Operator::addConstraint(Name paramName, Name refEquation, double factor)
* \brief adds an equation Constraint to the operator.
*
* Constraint formula is : paramName = equation * factor.
* Since the operator is associated to an instance, it is not necessaray to precise the name of this instance.
*
* \param paramName the name of the parameter to set.
* \param refEquation the referenced equation.
* \param factor the multiplicty factor.
*/
/*! \fn inline Name Operator::getName()
* \brief returns the name of the operator.
*/
/*! \fn inline Name Operator::getSimulModel()
* \brief returns the SimulModel of the operator.
*/
/*! \fn inline unsigned Operator::getCallOrder()
* \brief returns the call order of the operator in the sizing procedure.
*/
/*! \fn inline bool Operator::hasNoConstraints()
* \brief returns true if operator has no Constraint.
*/
/*! \fn inline const std::map<Name, Constraint*>& Operator::getConstraints()
* \brief returns the map of operator's constraints.
*/
}