//===== Copyright © 1996-2005, Valve Corporation, All rights reserved. ======// // // Purpose: Defines the client-side representation of CBaseCombatCharacter. // // $NoKeywords: $ //===========================================================================// #ifndef C_BASECOMBATCHARACTER_H #define C_BASECOMBATCHARACTER_H #ifdef _WIN32 #pragma once #endif #include "shareddefs.h" #include "c_baseflex.h" #define BCC_DEFAULT_LOOK_TOWARDS_TOLERANCE 0.9f class C_BaseCombatWeapon; class C_WeaponCombatShield; class C_BaseCombatCharacter : public C_BaseFlex { DECLARE_CLASS( C_BaseCombatCharacter, C_BaseFlex ); public: DECLARE_CLIENTCLASS(); DECLARE_PREDICTABLE(); C_BaseCombatCharacter( void ); virtual ~C_BaseCombatCharacter( void ); virtual bool IsBaseCombatCharacter( void ) { return true; }; virtual C_BaseCombatCharacter *MyCombatCharacterPointer( void ) { return this; } // ----------------------- // Vision // ----------------------- enum FieldOfViewCheckType { USE_FOV, DISREGARD_FOV }; bool IsAbleToSee( const CBaseEntity *entity, FieldOfViewCheckType checkFOV ); // Visible starts with line of sight, and adds all the extra game checks like fog, smoke, camo... bool IsAbleToSee( C_BaseCombatCharacter *pBCC, FieldOfViewCheckType checkFOV ); // Visible starts with line of sight, and adds all the extra game checks like fog, smoke, camo... virtual bool IsLookingTowards( const CBaseEntity *target, float cosTolerance = BCC_DEFAULT_LOOK_TOWARDS_TOLERANCE ) const; // return true if our view direction is pointing at the given target, within the cosine of the angular tolerance. LINE OF SIGHT IS NOT CHECKED. virtual bool IsLookingTowards( const Vector &target, float cosTolerance = BCC_DEFAULT_LOOK_TOWARDS_TOLERANCE ) const; // return true if our view direction is pointing at the given target, within the cosine of the angular tolerance. LINE OF SIGHT IS NOT CHECKED. virtual bool IsInFieldOfView( CBaseEntity *entity ) const; // Calls IsLookingAt with the current field of view. virtual bool IsInFieldOfView( const Vector &pos ) const; enum LineOfSightCheckType { IGNORE_NOTHING, IGNORE_ACTORS }; virtual bool IsLineOfSightClear( CBaseEntity *entity, LineOfSightCheckType checkType = IGNORE_NOTHING ) const;// strictly LOS check with no other considerations virtual bool IsLineOfSightClear( const Vector &pos, LineOfSightCheckType checkType = IGNORE_NOTHING, CBaseEntity *entityToIgnore = NULL ) const; // ----------------------- // Ammo // ----------------------- void RemoveAmmo( int iCount, int iAmmoIndex ); void RemoveAmmo( int iCount, const char *szName ); void RemoveAllAmmo( ); int GetAmmoCount( int iAmmoIndex ) const; int GetAmmoCount( char *szName ) const; virtual C_BaseCombatWeapon* Weapon_OwnsThisType( const char *pszWeapon, int iSubType = 0 ) const; // True if already owns a weapon of this class virtual int Weapon_GetSlot( const char *pszWeapon, int iSubType = 0 ) const; // Returns -1 if they don't have one virtual bool Weapon_Switch( C_BaseCombatWeapon *pWeapon, int viewmodelindex = 0 ); virtual bool Weapon_CanSwitchTo(C_BaseCombatWeapon *pWeapon); // I can't use my current weapon anymore. Switch me to the next best weapon. bool SwitchToNextBestWeapon(C_BaseCombatWeapon *pCurrent); virtual C_BaseCombatWeapon *GetActiveWeapon( void ) const; int WeaponCount() const; virtual C_BaseCombatWeapon *GetWeapon( int i ) const; // This is a sort of hack back-door only used by physgun! void SetAmmoCount( int iCount, int iAmmoIndex ); float GetNextAttack() const { return m_flNextAttack; } void SetNextAttack( float flWait ) { m_flNextAttack = flWait; } virtual int BloodColor(); // Blood color (see BLOOD_COLOR_* macros in baseentity.h) void SetBloodColor( int nBloodColor ); virtual void DoMuzzleFlash(); public: // BEGIN PREDICTION DATA COMPACTION (these fields are together to allow for faster copying in prediction system) float m_flNextAttack; private: bool ComputeLOS( const Vector &vecEyePosition, const Vector &vecTarget ) const; private: CNetworkArray( int, m_iAmmo, MAX_AMMO_TYPES ); CHandle m_hMyWeapons[MAX_WEAPONS]; CHandle< C_BaseCombatWeapon > m_hActiveWeapon; // END PREDICTION DATA COMPACTION protected: int m_bloodColor; // color of blood particless private: private: C_BaseCombatCharacter( const C_BaseCombatCharacter & ); // not defined, not accessible //----------------------- }; inline C_BaseCombatCharacter *ToBaseCombatCharacter( C_BaseEntity *pEntity ) { return pEntity ? pEntity->MyCombatCharacterPointer() : NULL; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- inline int C_BaseCombatCharacter::WeaponCount() const { return MAX_WEAPONS; } EXTERN_RECV_TABLE(DT_BaseCombatCharacter); #endif // C_BASECOMBATCHARACTER_H