#ifndef __DSENT_MODEL_ELECTRICAL_TIMING_NODE_H__ #define __DSENT_MODEL_ELECTRICAL_TIMING_NODE_H__ #include "util/CommonType.h" namespace DSENT { class ElectricalModel; class ElectricalTimingNode { public: // The starting visited number flag of all timing nodes static const int TIMING_NODE_INIT_VISITED_NUM; public: ElectricalTimingNode(const String& instance_name_, ElectricalModel* model_); virtual ~ElectricalTimingNode(); public: // Calculate the delay this node contributes virtual double calculateDelay() const = 0; // Calculate the transition at this node virtual double calculateTransition() const = 0; // get maximum of upstream drive resistance virtual double getMaxUpstreamRes() const; // get total amount of downstream load capacitance virtual double getTotalDownstreamCap() const; // Return instance name const String& getInstanceName() const; // get upstream timing nodes vector* getUpstreamNodes() const; // get downstream timing nodes vector* getDownstreamNodes() const; // Connect a downstream timing node void addDownstreamNode(ElectricalTimingNode* node_); // Return the node's parent model ElectricalModel* getModel(); const ElectricalModel* getModel() const; // Set/get false path marker void setFalsePath(bool false_path_); bool getFalsePath() const; virtual bool isDriver() const; virtual bool isNet() const; virtual bool isLoad() const; //----------------------------------------------------------------- // Functions for delay optimization //----------------------------------------------------------------- // Return true if the instance has minimum driving strength virtual bool hasMinDrivingStrength() const; // Return true if the instance has maximum driving strength virtual bool hasMaxDrivingStrength() const; // Increase driving strength index by 1 virtual void increaseDrivingStrength(); // Decrease driving strength index by 1 virtual void decreaseDrivingStrength(); //----------------------------------------------------------------- //----------------------------------------------------------------- // Node variables for critical path delay calculations //----------------------------------------------------------------- // Critical path marker void setCritPath(int crit_path_); int getCritPath() const; // Visited parity marker void setVisitedNum(int visited_parity_); int getVisitedNum() const; // Delay left in this path void setDelayLeft(double delay_left_); double getDelayLeft() const; //----------------------------------------------------------------- private: // Disable copy constructor ElectricalTimingNode(const ElectricalTimingNode& node_); private: // Name of this instance String m_instance_name_; // A pointer to the model that contains this node ElectricalModel* m_model_; // Upstream electrical nets vector* m_upstream_nodes_; // Downstream electrical nets vector* m_downstream_nodes_; // False path marker bool m_false_path_; // Critical path index (to next downstream node) int m_crit_path_; // Odd / even path visited (so that you don't have to clear it) int m_visited_num_; // The amount of delay left to the end of the timing path double m_delay_left_; }; } // namespace DSENT #endif // __DSENT_MODEL_ELECTRICAL_TIMING_NODE_H__