// // AMX Mod X, based on AMX Mod by Aleksander Naszko ("OLO"). // Copyright (C) The AMX Mod X Development Team. // // This software is licensed under the GNU General Public License, version 3 or higher. // Additional exceptions apply. For full license details, see LICENSE.txt or visit: // https://alliedmods.net/amxmodx-license #ifndef _HL_CONVERSION_TYPE_H_ #define _HL_CONVERSION_TYPE_H_ #include // size_t #include // edict_t, etc. #include // FNullEnt, INDEXENT, etc. template static inline T& ref_pdata(void *pPrivateData, int offset, int element = 0) { return *reinterpret_cast((reinterpret_cast(pPrivateData) + offset + (element * sizeof(T)))); } template inline T get_pdata_direct(void *pPrivateData, int offset, int element = 0, int size = 0) { return reinterpret_cast(reinterpret_cast(pPrivateData) + offset + (element * size)); } template inline T get_pdata_direct(edict_t *pEntity, int offset, int element = 0, int size = 0) { return get_pdata_direct(pEntity->pvPrivateData, offset, element, size); } template inline T& get_pdata(void *pPrivateData, int offset, int element = 0) { return ref_pdata(pPrivateData, offset, element); } template inline T& get_pdata(edict_t *pEntity, int offset, int element = 0) { return get_pdata(pEntity->pvPrivateData, offset, element); } template inline void set_pdata(void *pPrivateData, int offset, T value, int element = 0) { ref_pdata(pPrivateData, offset, element) = value; } template inline void set_pdata(edict_t *pEntity, int offset, T value, int element = 0) { set_pdata(pEntity->pvPrivateData, offset, value, element); } extern globalvars_t *gpGlobals; class HLTypeConversion { public: HLTypeConversion() : m_FirstEdict(nullptr), m_PevOffset(0) {} public: void init() { if (!m_FirstEdict) { m_FirstEdict = INDEXENT(0); search_pev(); } } public: // Edict -> Index int edict_to_id(edict_t *pEdict) { if (!pEdict) { return -1; } return static_cast(pEdict - m_FirstEdict); } public: // Entvars -> Edict/Index edict_t* entvar_to_edict(entvars_t *pev) { if (!pev || !(pev->pContainingEntity)) { return nullptr; } return pev->pContainingEntity; } int entvars_to_id(entvars_t *pev) { return edict_to_id(entvar_to_edict(pev)); } public: // Index -> CBase*/Edict/Entvars void* id_to_cbase(int index) { auto pEdict = id_to_edict(index); return pEdict ? pEdict->pvPrivateData : nullptr; } edict_t* id_to_edict(int index) { if (index < 0 || index >= gpGlobals->maxEntities) { return nullptr; } if (!index) { return m_FirstEdict; } auto pEdict = static_cast(m_FirstEdict + index); if (pEdict && (pEdict->free || (index > gpGlobals->maxClients && !pEdict->pvPrivateData))) { return nullptr; } return pEdict; } entvars_t* id_to_entvars(int index) { auto pEdict = id_to_edict(index); return pEdict ? VARS(pEdict) : nullptr; } public: // CBase* -> Entvars/Index entvars_t* cbase_to_entvar(void *cbase) { if (!cbase) { return nullptr; } return get_pdata(cbase, m_PevOffset); } edict_t* cbase_to_edict(void *cbase) { return entvar_to_edict(cbase_to_entvar(cbase)); } int cbase_to_id(void *cbase) { return entvars_to_id(cbase_to_entvar(cbase)); } public: size_t get_pev() { return m_PevOffset; } private: void search_pev() { auto pev = VARS(m_FirstEdict); auto privateData = reinterpret_cast(m_FirstEdict->pvPrivateData); for (size_t i = 0; i < 0xFFF; ++i) { if (*reinterpret_cast(privateData + i) == pev) { m_PevOffset = i; return; } } m_PevOffset = 0; // This should not happen. } private: edict_t* m_FirstEdict; size_t m_PevOffset; }; class EHANDLE { private: edict_t* m_pent; int m_serialnumber; public: edict_t* Get(void) { if (m_pent) { if (m_pent->serialnumber == m_serialnumber) { return m_pent; } return nullptr; } return nullptr; }; edict_t* Set(edict_t *pent) { if (pent) { m_pent = pent; m_serialnumber = m_pent->serialnumber; } else { m_pent = nullptr; m_serialnumber = 0; } return pent; }; }; #endif // _HL_CONVERSION_TYPE_H_