// vim: set ts=4 sw=4 tw=99 noet: // // 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 // // Natural Selection Module // #ifndef UTILFUNCTIONS_H #define UTILFUNCTIONS_H #include "NEW_Util.h" // include my experimental INDEXENT / ENTINDEX replacements #define GET_PLAYER_E(x) (&g_player[ENTINDEX_NEW(x)]) #define GET_PLAYER_I(x) (&g_player[x]) /** * Like GET_PLAYER_I, but this handles the invalid player index * as well as setting the CPlayer pointer. * NOTE: This declares CPlayer *player for you */ #define CreatePlayerPointer(AMX__, INDEX__) \ if (INDEX__ < 1 || INDEX__ > gpGlobals->maxClients) \ { \ return 0; \ } \ CPlayer *player = &g_player[INDEX__] /** * Declares an edict (Entity) and verify it's not a player */ #define CreateNonPlayerEdict(AMX__, INDEX__) \ if (INDEX__ <= gpGlobals->maxClients || INDEX__ > gpGlobals->maxEntities) \ { \ return 0; \ } \ edict_t *Entity=INDEXENT_NEW(INDEX__) /** * Declares an edict (Entity) does not care if it is a player */ #define CreateEdict(AMX__, INDEX__, INVALIDRET__) \ if (INDEX__ < 1 || INDEX__ > gpGlobals->maxEntities) \ { \ return INVALIDRET__; \ } \ edict_t *Entity=INDEXENT_NEW(INDEX__) /** * There is no need to use the AMXx provided calls as * they do an api call to recast, seems like overkill */ //#define amx_ftoc2(x) *((cell *)&x) //#define amx_ctof2(x) *((REAL *)&x) #define amx_ftoc3(x) *((cell *)x) #define amx_ctof3(x) *((REAL *)x) inline cell amx_ftoc2(REAL x) { return *((cell *)&x); }; inline REAL amx_ctof2(cell x) { return *((REAL *)&x); }; inline BOOL isValidEntity(int x) { if (x < 0) return FALSE; if (x >= 0 || x <= gpGlobals->maxClients) return TRUE; if (x > gpGlobals->maxEntities) return FALSE; if (FNullEnt(x)) return FALSE; return TRUE; } #define CHECK_ENTITY(x) if (x != 0 && (FNullEnt(INDEXENT_NEW(x)) || x < 0 || x > gpGlobals->maxEntities)) return 0; #define CHECK_PARAMS(x) if (*params/sizeof(cell) < x) return 0; // Stuff in utils.cpp edict_t *UTIL_FindEntityByString(edict_t *Start, const char *Keyword, const char *Value); int UTIL_FindBuildingHive(void); BOOL UTIL_CheckForPublic(const char *publicname); BOOL UTIL_CheckForNative(const char *NativeName); char *UTIL_ToLowerCase(const char *str); class CPlayer; CPlayer *UTIL_PlayerByCID(int CID); // Converts something such as RESOURCES into OFFSET_WIN_RESOURCES or OFFSET_LIN_RESOURCES #if defined(__linux__) || defined(__APPLE__) #define MAKE_OFFSET(Offset) OFFSET_LIN_##Offset #define MAKE_MEMBER_OFFSET(Offs) (Offs - OFFSET_LIN_MEMBERFUNCSTART) #else #define MAKE_OFFSET(Offset) OFFSET_WIN_##Offset #define MAKE_MEMBER_OFFSET(Offs) (Offs - OFFSET_WIN_MEMBERFUNCSTART) #endif // __linux__ template inline Output get_private_p(edict_t *pEntity, int offset) { return (Output)(*(void**)((char*)(pEntity->pvPrivateData)+offset)); }; /** * Converts the private data pointer into an edict by * looking up the entvar pointer (first entry in cbaseentity) * and then getting pContainingEntity from that */ inline edict_t *private_to_edict(void *PrivateData) { if (PrivateData==NULL) { return NULL; } return (*((entvars_t **)((char *)PrivateData + MAKE_OFFSET(ENTVAR))))->pContainingEntity; }; inline int clamp(int value, int min, int max) { if (value < min) { return min; } if (value > max) { return max; } return value; } inline REAL clamp(REAL value, REAL min, REAL max) { if (value < min) { return min; } if (value > max) { return max; } return value; } inline int clamp(int value, int min) { if (value < min) { return min; } return value; } inline REAL clamp(REAL value, REAL min) { if (value < min) { return min; } return value; } inline int get_private(edict_t *pEntity, int offset) { return *(int*)((char*)(pEntity->pvPrivateData)+offset); } inline REAL get_private_f(edict_t *pEntity, int offset) { return *(REAL*)((char*)(pEntity->pvPrivateData)+offset); } inline void set_private(edict_t *pEntity, int offset, int value) { *(int*)((char*)(pEntity->pvPrivateData)+offset) = value; } inline int inc_private(edict_t *pEntity, int offset, int value) { return *(int*)((char*)(pEntity->pvPrivateData)+offset) = *(int*)((char*)(pEntity->pvPrivateData)+offset) + value; } inline int inc_private(edict_t *pEntity, int offset, int value, int min) { return *(int*)((char*)(pEntity->pvPrivateData)+offset) = clamp(*(int*)((char*)(pEntity->pvPrivateData)+offset) + value, min); } inline int inc_private(edict_t *pEntity, int offset, int value, int min, int max) { return *(int*)((char*)(pEntity->pvPrivateData)+offset) = clamp(*(int*)((char*)(pEntity->pvPrivateData)+offset) + value, min, max); } inline void set_private_f(edict_t *pEntity, int offset, REAL value) { *(REAL*)((char*)(pEntity->pvPrivateData)+offset) = value; } inline REAL inc_private_f(edict_t *pEntity, int offset, REAL value) { return *(REAL*)((char*)(pEntity->pvPrivateData)+offset) = *(REAL*)((char*)(pEntity->pvPrivateData)+offset) + value; } inline REAL inc_private_f(edict_t *pEntity, int offset, REAL value, REAL min) { return *(REAL*)((char*)(pEntity->pvPrivateData)+offset) = clamp(*(REAL*)((char*)(pEntity->pvPrivateData)+offset) + value, min); } inline REAL inc_private_f(edict_t *pEntity, int offset, REAL value, REAL min, REAL max) { return *(REAL*)((char*)(pEntity->pvPrivateData)+offset) = clamp(*(REAL*)((char*)(pEntity->pvPrivateData)+offset) + value, min, max); } inline unsigned char get_private_b(edict_t *pEntity, int offset) { return *(((unsigned char*)pEntity->pvPrivateData)+offset); }; inline unsigned char set_private_b(edict_t *pEntity, int offset, unsigned char value) { return *(((unsigned char*)pEntity->pvPrivateData)+offset)=value; }; #endif // UTILFUNCTIONS_H