//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: Declares basic entity communications classes, for input/output of data // between entities // // $NoKeywords: $ //=============================================================================// #ifndef ENTITYOUTPUT_H #define ENTITYOUTPUT_H #ifdef _WIN32 #pragma once #endif #include "baseentity.h" #define EVENT_FIRE_ALWAYS -1 //----------------------------------------------------------------------------- // Purpose: A COutputEvent consists of an array of these CEventActions. // Each CEventAction holds the information to fire a single input in // a target entity, after a specific delay. //----------------------------------------------------------------------------- class CEventAction { public: CEventAction( const char *ActionData = NULL ); CEventAction( const CEventAction &p_EventAction ); string_t m_iTarget; // name of the entity(s) to cause the action in string_t m_iTargetInput; // the name of the action to fire string_t m_iParameter; // parameter to send, 0 if none float m_flDelay; // the number of seconds to wait before firing the action int m_nTimesToFire; // The number of times to fire this event, or EVENT_FIRE_ALWAYS. int m_iIDStamp; // unique identifier stamp static int s_iNextIDStamp; CEventAction *m_pNext; // allocates memory from engine.MPool/g_EntityListPool static void *operator new( size_t stAllocateBlock ); static void *operator new( size_t stAllocateBlock, int nBlockUse, const char *pFileName, int nLine ); static void operator delete( void *pMem ); static void operator delete( void *pMem , int nBlockUse, const char *pFileName, int nLine ) { operator delete(pMem); } DECLARE_SIMPLE_DATADESC(); }; //----------------------------------------------------------------------------- // Purpose: Stores a list of connections to other entities, for data/commands to be // communicated along. //----------------------------------------------------------------------------- class CBaseEntityOutput { public: ~CBaseEntityOutput(); void ParseEventAction( const char *EventData ); void AddEventAction( CEventAction *pEventAction ); void RemoveEventAction( CEventAction *pEventAction ); int Save( ISave &save ); int Restore( IRestore &restore, int elementCount ); int NumberOfElements( void ); float GetMaxDelay( void ); fieldtype_t ValueFieldType() { return m_Value.FieldType(); } void FireOutput( variant_t Value, CBaseEntity *pActivator, CBaseEntity *pCaller, float fDelay = 0 ); /// Delete every single action in the action list. void DeleteAllElements( void ) ; CEventAction *GetFirstAction() { return m_ActionList; } const CEventAction *GetActionForTarget( string_t iSearchTarget ) const; protected: variant_t m_Value; CEventAction *m_ActionList; DECLARE_SIMPLE_DATADESC(); CBaseEntityOutput() {} // this class cannot be created, only it's children private: CBaseEntityOutput( CBaseEntityOutput& ); // protect from accidental copying }; //----------------------------------------------------------------------------- // Purpose: wraps variant_t data handling in convenient, compiler type-checked template //----------------------------------------------------------------------------- template< class Type, fieldtype_t fieldType > class CEntityOutputTemplate : public CBaseEntityOutput { public: // // Sets an initial value without firing the output. // void Init( Type value ) { m_Value.Set( fieldType, &value ); } // // Sets a value and fires the output. // void Set( Type value, CBaseEntity *pActivator, CBaseEntity *pCaller ) { m_Value.Set( fieldType, &value ); FireOutput( m_Value, pActivator, pCaller ); } // // Returns the current value. // Type Get( void ) { return *((Type*)&m_Value); } }; // // Template specializations for type Vector, so we can implement Get, Set, and Init differently. // template<> class CEntityOutputTemplate< Vector, FIELD_VECTOR> : public CBaseEntityOutput { public: void Init( const Vector &value ) { m_Value.SetVector3D( value ); } void Set( const Vector &value, CBaseEntity *pActivator, CBaseEntity *pCaller ) { m_Value.SetVector3D( value ); FireOutput( m_Value, pActivator, pCaller ); } void Get( Vector &vec ) { m_Value.Vector3D(vec); } }; template<> class CEntityOutputTemplate< Vector, FIELD_POSITION_VECTOR> : public CBaseEntityOutput { public: void Init( const Vector &value ) { m_Value.SetPositionVector3D( value ); } void Set( const Vector &value, CBaseEntity *pActivator, CBaseEntity *pCaller ) { m_Value.SetPositionVector3D( value ); FireOutput( m_Value, pActivator, pCaller ); } void Get( Vector &vec ) { m_Value.Vector3D(vec); } }; //----------------------------------------------------------------------------- // Purpose: parameterless entity event //----------------------------------------------------------------------------- class COutputEvent : public CBaseEntityOutput { public: // void Firing, no parameter void FireOutput( CBaseEntity *pActivator, CBaseEntity *pCaller, float fDelay = 0 ); }; // useful typedefs for allowed output data types typedef CEntityOutputTemplate COutputVariant; typedef CEntityOutputTemplate COutputInt; typedef CEntityOutputTemplate COutputFloat; typedef CEntityOutputTemplate COutputString; typedef CEntityOutputTemplate COutputEHANDLE; typedef CEntityOutputTemplate COutputVector; typedef CEntityOutputTemplate COutputPositionVector; typedef CEntityOutputTemplate COutputColor32; #endif // ENTITYOUTPUT_H