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SUBSYSTEM: Stars.exe FILE: FlightDeck.h AUTHOR: John DiCamillo OVERVIEW ======== Everything needed to launch and recover space craft See Also: Hangar */ #ifndef FlightDeck_h #define FlightDeck_h #include "Types.h" #include "Geometry.h" #include "System.h" #include "SimObject.h" #include "Text.h" // +----------------------------------------------------------------------+ class Hoop; class Light; class Ship; class ShipDesign; class FlightDeck; class FlightDeckSlot; class InboundSlot; // +======================================================================+ class InboundSlot : public SimObserver { public: static const char* TYPENAME() { return "InboundSlot"; } InboundSlot() : ship(0), deck(0), squadron(0), slot(0), cleared(0), final(0), approach(0) { } InboundSlot(Ship* s, FlightDeck* d, int squad, int index); int operator < (const InboundSlot& that) const; int operator <= (const InboundSlot& that) const; int operator == (const InboundSlot& that) const; // SimObserver: virtual bool Update(SimObject* obj); virtual const char* GetObserverName() const; Ship* GetShip() { return ship; } FlightDeck* GetDeck() { return deck; } int Squadron() { return squadron; } int Index() { return slot; } int Cleared() { return cleared; } int Final() { return final; } int Approach() { return approach; } Point Offset() { return offset; } double Distance(); void SetApproach(int a) { approach = a; } void SetOffset(const Point& p) { offset = p; } void SetFinal(int f) { final = f; } void Clear(bool clear=true); private: Ship* ship; FlightDeck* deck; int squadron; int slot; int cleared; int final; int approach; Point offset; }; // +----------------------------------------------------------------------+ class FlightDeck : public System, public SimObserver { public: static const char* TYPENAME() { return "FlightDeck"; } FlightDeck(); FlightDeck(const FlightDeck& rhs); virtual ~FlightDeck(); enum FLIGHT_DECK_MODE { FLIGHT_DECK_LAUNCH, FLIGHT_DECK_RECOVERY }; enum FLIGHT_SLOT_STATE { CLEAR, READY, QUEUED, LOCKED, LAUNCH, DOCKING }; enum CONSTANTS { NUM_APPROACH_PTS = 8 }; static void Initialize(); static void Close(); virtual void ExecFrame(double seconds); void SetCarrier(Ship* s) { ship = carrier = s; } void SetIndex(int n) { index = n; } virtual int SpaceLeft(int type) const; virtual bool Spot(Ship* s, int& index); virtual bool Clear(int index); virtual bool Launch(int index); virtual bool LaunchShip(Ship* s); virtual bool Recover(Ship* s); virtual bool Dock(Ship* s); virtual int Inbound(InboundSlot*& s); virtual void GrantClearance(); virtual void AddSlot(const Point& loc, DWORD filter=0xf); virtual bool IsLaunchDeck() const { return subtype == FLIGHT_DECK_LAUNCH; } virtual void SetLaunchDeck() { subtype = FLIGHT_DECK_LAUNCH; } virtual bool IsRecoveryDeck() const { return subtype == FLIGHT_DECK_RECOVERY; } virtual void SetRecoveryDeck() { subtype = FLIGHT_DECK_RECOVERY; } Point BoundingBox() const { return box; } Point ApproachPoint(int i) const { return approach_point[i]; } Point RunwayPoint(int i) const { return runway_point[i]; } Point StartPoint() const { return start_point; } Point EndPoint() const { return end_point; } Point CamLoc() const { return cam_loc; } double Azimuth() const { return azimuth; } virtual void SetBoundingBox(Point dimensions) { box = dimensions; } virtual void SetApproachPoint(int i, Point loc); virtual void SetRunwayPoint(int i, Point loc); virtual void SetStartPoint(Point loc); virtual void SetEndPoint(Point loc); virtual void SetCamLoc(Point loc); virtual void SetCycleTime(double time); virtual void SetAzimuth(double az) { azimuth = az; } virtual void SetLight(double l); virtual void Orient(const Physical* rep); // SimObserver: virtual bool Update(SimObject* obj); virtual const char* GetObserverName() const; // accessors: int NumSlots() const { return num_slots; } double TimeRemaining(int index) const; int State(int index) const; int Sequence(int index) const; const Ship* GetCarrier() const { return carrier; } int GetIndex() const { return index; } Ship* GetShip(int index) const; int NumHoops() const { return num_hoops; } Hoop* GetHoops() const { return hoops; } Light* GetLight() { return light; } List& GetRecoveryQueue() { return recovery_queue; } void PrintQueue(); bool OverThreshold(Ship* s) const; bool ContainsPoint(const Point& p) const; protected: Ship* carrier; int index; int num_slots; FlightDeckSlot* slots; Point box; Point start_rel; Point end_rel; Point cam_rel; Point approach_rel[NUM_APPROACH_PTS]; Point runway_rel[2]; Point start_point; Point end_point; Point cam_loc; Point approach_point[NUM_APPROACH_PTS]; Point runway_point[2]; double azimuth; double cycle_time; int num_approach_pts; int num_catsounds; int num_hoops; Hoop* hoops; Light* light; List recovery_queue; }; // +----------------------------------------------------------------------+ #endif FlightDeck_h