amxmodx/modules/fakemeta/forwardmacros.h

964 lines
33 KiB
C

// 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
//
// Fakemeta Module
//
#ifndef FORWARDMACROS_H
#define FORWARDMACROS_H
#define SIMPLE_CONSTSTRING_HOOK_VOID(call) \
const char* call () \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i))); \
RETURN_META_VALUE(mswi(lastFmRes), mlStringResult); \
} \
const char* call##_post () \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i))); \
RETURN_META_VALUE(MRES_IGNORED, mlStringResult); \
}
#define SIMPLE_CONSTSTRING_HOOK_INT(call) \
const char* call (int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)v)); \
RETURN_META_VALUE(mswi(lastFmRes), mlStringResult); \
} \
const char* call##_post (int v) \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)v)); \
RETURN_META_VALUE(MRES_IGNORED, mlStringResult); \
}
#define SIMPLE_CONSTSTRING_HOOK_CONSTEDICT(call) \
const char* call (const edict_t *e) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e))); \
RETURN_META_VALUE(mswi(lastFmRes), mlStringResult); \
} \
const char* call##_post (const edict_t *e) \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e))); \
RETURN_META_VALUE(MRES_IGNORED, mlStringResult); \
}
#define SIMPLE_CONSTSTRING_HOOK_CONSTEDICT_CONSTSTRING(call) \
const char* call (const edict_t *e, const char *c) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),c)); \
RETURN_META_VALUE(mswi(lastFmRes), mlStringResult); \
} \
const char* call##_post (const edict_t *e, const char *c) \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),c)); \
RETURN_META_VALUE(MRES_IGNORED, mlStringResult); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT_INT_INT_INT_INT(call) \
void call (const edict_t *e, int v, int vb, int vc, int vd) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),(cell)v,(cell)vb,(cell)vc,(cell)vd)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *e, int v, int vb, int vc, int vd) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),(cell)v,(cell)vb,(cell)vc,(cell)vd)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_INT_STRING_STRING_STRING(call) \
void call (int v,char *c, char *cb, char *cc) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)v,c,cb,cc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v, char *c, char *cb, char *cc) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)v,c,cb,cc)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_INT_STRING_CONSTSTRING_CONSTSTRING(call) \
void call (int v,char *c, const char *cb, const char *cc) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)v,c,cb,cc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v, char *c, const char *cb, const char *cc) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)v,c,cb,cc)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_STRING_STRING_STRING(call) \
void call (char *c, char *cb, char *cc) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),c,cb,cc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (char *c, char *cb, char *cc) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),c,cb,cc)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_STRING_CONSTSTRING_CONSTSTRING(call) \
void call (char *c, const char *cb, const char *cc) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),c,cb,cc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (char *c, const char *cb, const char *cc) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),c,cb,cc)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_STRING_HOOK_STRING_STRING(call) \
char* call (char *c, char *cb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),c,cb)); \
RETURN_META_VALUE(mswi(lastFmRes), (char*)mlStringResult); \
} \
char* call##_post (char *c, char *cb) \
{ \
origStringRet = META_RESULT_ORIG_RET(char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),c,cb)); \
RETURN_META_VALUE(MRES_IGNORED, (char*)mlStringResult); \
}
#define SIMPLE_STRING_HOOK_STRING_CONSTSTRING(call) \
char* call (char *c, const char *cb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),c,cb)); \
RETURN_META_VALUE(mswi(lastFmRes), (char*)mlStringResult); \
} \
char* call##_post (char *c, const char *cb) \
{ \
origStringRet = META_RESULT_ORIG_RET(char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),c,cb)); \
RETURN_META_VALUE(MRES_IGNORED, (char*)mlStringResult); \
}
#define SIMPLE_CONSTSTRING_HOOK_EDICT(call) \
const char* call (edict_t *e) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX(e))); \
RETURN_META_VALUE(mswi(lastFmRes), mlStringResult); \
} \
const char* call##_post (edict_t *e) \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX(e))); \
RETURN_META_VALUE(MRES_IGNORED, mlStringResult); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT_CONSTSTRING_CONSTSTRING(call) \
void call (const edict_t *e, const char *c, const char *cb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),c,cb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *e, const char *c, const char *cb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX((edict_t*)e),c,cb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_INT_HOOK_STRING(call) \
int call (char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (char *s) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_INT_HOOK_CONSTSTRING(call) \
int call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (const char *s) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_EDICT_HOOK_CONSTSTRING(call) \
edict_t* call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes), TypeConversion.id_to_edict((int)mlCellResult)); \
} \
edict_t* call##_post (const char *s) \
{ \
origCellRet = ENTINDEX(META_RESULT_ORIG_RET(edict_t *)); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED, TypeConversion.id_to_edict((int)mlCellResult)); \
}
#define SIMPLE_CHAR_HOOK_STRING(call) \
char call (char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes), (char)mlCellResult); \
} \
char call##_post (char *s) \
{ \
origCellRet = META_RESULT_ORIG_RET(char); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED, (char)mlCellResult); \
}
#define SIMPLE_CHAR_HOOK_CONSTSTRING(call) \
char call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes), (char)mlCellResult); \
} \
char call##_post (const char *s) \
{ \
origCellRet = META_RESULT_ORIG_RET(char); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED, (char)mlCellResult); \
}
#define SIMPLE_VOID_HOOK_CONSTSTRING(call) \
void call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const char *s) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_STRING_STRING(call) \
void call (char *s, char *sb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s, sb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (char *s, char *sb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s, sb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_INT_CONSTSTRING(call) \
void call (int v, const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, s)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v,const char *s) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, s)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTSTRING_FLOAT(call) \
void call (const char *s, float f) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s, f)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const char *s, float f) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s, f)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_INT_HOOK_CONSTSTRING_INT(call) \
int call (const char *s, int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s, (cell)v)); \
RETURN_META_VALUE(mswi(lastFmRes),(int)mlCellResult); \
} \
int call##_post (const char *s, int v) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s, (cell)v)); \
RETURN_META_VALUE(MRES_IGNORED,(int)mlCellResult); \
}
#define SIMPLE_VOID_HOOK_CONSTSTRING_CONSTSTRING(call) \
void call (const char *s,const char *sb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s, sb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const char *s, const char *sb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s, sb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_USHORT_HOOK_INT_CONSTSTRING(call) \
unsigned short call (int v, const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, s)); \
RETURN_META_VALUE(mswi(lastFmRes),(unsigned short)mlCellResult); \
} \
unsigned short call##_post (int v,const char *s) \
{ \
origCellRet = META_RESULT_ORIG_RET(unsigned short); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)v, s)); \
RETURN_META_VALUE(MRES_IGNORED,(unsigned short)mlCellResult); \
}
#define SIMPLE_VOID_HOOK_INT_STRING(call) \
void call (int v, char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, s)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v,char *s) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, s)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_INT(call) \
void call (int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_FLOAT(call) \
void call (float v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), v)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (float v) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), v)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT(call) \
void call (const edict_t *ent) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(ent))); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *ent) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(ent))); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT_FLOAT(call) \
void call (const edict_t *ent, float blah) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), blah)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *ent, float blah) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), blah)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT_FLOAT_FLOAT(call) \
void call (const edict_t *ent, float blah, float blahb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), blah, blahb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *ent, float blah, float blahb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), blah, blahb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_EDICT(call) \
void call (edict_t *ent) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(ent))); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *ent) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(ent))); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_EDICT_HOOK_VOID(call) \
edict_t* call () \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i))); \
RETURN_META_VALUE(mswi(lastFmRes),TypeConversion.id_to_edict((int)mlCellResult)); \
} \
edict_t* call##_post () \
{ \
origCellRet = ENTINDEX(META_RESULT_ORIG_RET(edict_t *)); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i))); \
RETURN_META_VALUE(MRES_IGNORED,TypeConversion.id_to_edict((int)mlCellResult)); \
}
#define SIMPLE_EDICT_HOOK_INT(call) \
edict_t* call (int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)v)); \
RETURN_META_VALUE(mswi(lastFmRes),TypeConversion.id_to_edict((int)mlCellResult)); \
} \
edict_t* call##_post (int v) \
{ \
origCellRet = ENTINDEX(META_RESULT_ORIG_RET(edict_t *)); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)v)); \
RETURN_META_VALUE(MRES_IGNORED,TypeConversion.id_to_edict((int)mlCellResult)); \
}
#define SIMPLE_EDICT_HOOK_EDICT(call) \
edict_t* call (edict_t *e) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i),(cell)ENTINDEX(e))); \
RETURN_META_VALUE(mswi(lastFmRes),TypeConversion.id_to_edict((int)mlCellResult)); \
} \
edict_t* call##_post (edict_t *e) \
{ \
origCellRet = ENTINDEX(META_RESULT_ORIG_RET(edict_t *)); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i),(cell)ENTINDEX(e))); \
RETURN_META_VALUE(MRES_IGNORED,TypeConversion.id_to_edict((int)mlCellResult)); \
}
#define SIMPLE_EDICT_HOOK_EDICT_CONSTVECT_FLOAT(call) \
edict_t* call (edict_t *ed, const float *vec, float fla) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(ed), p_vec, fla)); \
RETURN_META_VALUE(mswi(lastFmRes), TypeConversion.id_to_edict((int)mlCellResult)); \
} \
edict_t* call##_post (edict_t *ed, const float *vec, float fla) \
{ \
PREPARE_VECTOR(vec); \
origCellRet = ENTINDEX(META_RESULT_ORIG_RET(edict_t *)); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(ed), p_vec, fla)); \
RETURN_META_VALUE(MRES_IGNORED, TypeConversion.id_to_edict((int)mlCellResult)); \
}
#define SIMPLE_VOID_HOOK_EDICT_EDICT(call) \
void call (edict_t *ent,edict_t *entb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(ent), (cell)ENTINDEX(entb))); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *ent,edict_t *entb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(ent), (cell)ENTINDEX(entb))); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTEDICT_CONSTEDICT(call) \
void call (const edict_t *ent,const edict_t *entb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), (cell)ENTINDEX((edict_t*)entb))); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const edict_t *ent,const edict_t *entb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX((edict_t*)ent), (cell)ENTINDEX((edict_t*)entb))); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_VOID(call) \
void call (void) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i))); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (void) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i))); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_INT_HOOK_EDICT(call) \
int call (edict_t *pent) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(pent))); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (edict_t *pent) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(pent))); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_UINT_HOOK_EDICT(call) \
unsigned int call (edict_t *pent) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(pent))); \
RETURN_META_VALUE(mswi(lastFmRes), (unsigned int)mlCellResult); \
} \
unsigned int call##_post (edict_t *pent) \
{ \
origCellRet = META_RESULT_ORIG_RET(unsigned int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(pent))); \
RETURN_META_VALUE(MRES_IGNORED, (unsigned int)mlCellResult); \
}
#define SIMPLE_INT_HOOK_CONSTEDICT(call) \
int call (const edict_t *pent) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX((edict_t*)pent))); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (const edict_t *pent) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX((edict_t*)pent))); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_INT_HOOK_INT(call) \
int call (int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (int v) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_VOID_HOOK_INT_INT(call) \
void call (int v, int vb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, (cell)vb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v, int vb) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)vb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_BOOL_HOOK_INT_INT(call) \
qboolean call (int v, int vb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, (cell)vb)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult > 0 ? 1 : 0); \
} \
qboolean call##_post (int v, int vb) \
{ \
origCellRet = META_RESULT_ORIG_RET(qboolean); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)vb)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult > 0 ? 1 : 0); \
}
#define SIMPLE_BOOL_HOOK_INT_INT_BOOL(call) \
qboolean call (int v, int vb, qboolean bah) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell) v, (cell)vb, (cell)(bah > 0 ? 1 : 0))); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult > 0 ? 1 : 0); \
} \
qboolean call##_post (int v, int vb, qboolean bah) \
{ \
origCellRet = META_RESULT_ORIG_RET(qboolean); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)vb, (cell)(bah > 0 ? 1 : 0))); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult > 0 ? 1 : 0); \
}
#define SIMPLE_INT_HOOK_VOID(call) \
int call () \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i))); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post () \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i))); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_FLOAT_HOOK_VOID(call) \
float call () \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i))); \
RETURN_META_VALUE(mswi(lastFmRes), (float)mFloatResult); \
} \
float call##_post () \
{ \
origFloatRet = META_RESULT_ORIG_RET(float); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i))); \
RETURN_META_VALUE(MRES_IGNORED, (float)mFloatResult); \
}
#define SIMPLE_INT_HOOK_CONSTVECT(call) \
int call (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), p_vec)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), p_vec)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_VOID_HOOK_EDICT_CONSTVECT(call) \
void call (edict_t *e, const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), p_vec)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *e, const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), p_vec)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_EDICT_FLOAT_VECT(call) \
void call (edict_t *e, float f, float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), f, p_vec)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *e, float f, float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), f, p_vec)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTVECT(call) \
void call (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), p_vec)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), p_vec)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTVECT_VECT_VECT_VECT(call) \
void call (const float *vec, float *vecb, float *vecc, float *vecd) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
PREPARE_VECTOR(vecc); \
PREPARE_VECTOR(vecd); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), p_vec, p_vecb, p_vecc, p_vecd)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const float *vec, float *vecb, float *vecc, float *vecd) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
PREPARE_VECTOR(vecc); \
PREPARE_VECTOR(vecd); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), p_vec, p_vecb, p_vecc, p_vecd)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_EDICT_CONSTVECT_CONSTVECT(call) \
void call (edict_t *e, const float *vec, const float *vecb) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), p_vec, p_vecb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *e, const float *vec, const float *vecb) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), p_vec, p_vecb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_FLOAT_HOOK_CONSTVECT(call) \
float call (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), p_vec)); \
RETURN_META_VALUE(mswi(lastFmRes),mlFloatResult); \
} \
float call##_post (const float *vec) \
{ \
PREPARE_VECTOR(vec); \
origFloatRet = META_RESULT_ORIG_RET(float); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), p_vec)); \
RETURN_META_VALUE(MRES_IGNORED,mlFloatResult); \
}
#define SIMPLE_FLOAT_HOOK_CONSTSTRING(call) \
float call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes),mlFloatResult); \
} \
float call##_post (const char *s) \
{ \
origFloatRet = META_RESULT_ORIG_RET(float); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED,mlFloatResult); \
}
#define SIMPLE_CONSTSTRING_HOOK_CONSTSTRING(call) \
const char* call (const char *s) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), s)); \
RETURN_META_VALUE(mswi(lastFmRes),mlStringResult); \
} \
const char* call##_post (const char *s) \
{ \
origStringRet = META_RESULT_ORIG_RET(const char *); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), s)); \
RETURN_META_VALUE(MRES_IGNORED,mlStringResult); \
}
#define SIMPLE_VOID_HOOK_INT_INT_CONSTVECT_EDICT(call) \
void call (int v, int vb, const float *vec, edict_t *e) \
{ \
if (vec) { \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, (cell)vb, p_vec, (cell)ENTINDEX(e))); \
} else { \
const float b[3]={0.0,0.0,0.0}; \
PREPARE_VECTOR(b); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, (cell)vb, p_b, (cell)ENTINDEX(e))); \
} \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v, int vb, const float *vec, edict_t *e) \
{ \
if (vec) { \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)vb, p_vec, (cell)ENTINDEX(e))); \
} else { \
const float b[3]={0.0,0.0,0.0}; \
PREPARE_VECTOR(b); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)vb, p_b, (cell)ENTINDEX(e))); \
} \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_BOOL_HOOK_EDICT_CONSTSTRING_CONSTSTRING_STRING128(call) \
qboolean call (edict_t *e, const char *sza, const char *szb, char blah[128]) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), sza, szb, blah)); \
RETURN_META_VALUE(mswi(lastFmRes),(int)mlCellResult > 0 ? 0 : 1); \
} \
qboolean call##_post (edict_t *e, const char *sza, const char *szb, char blah[128]) \
{ \
origCellRet = META_RESULT_ORIG_RET(qboolean); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), sza, szb, blah)); \
RETURN_META_VALUE(MRES_IGNORED,(int)mlCellResult > 0 ? 0 : 1); \
}
#define SIMPLE_VOID_HOOK_EDICT_INT_CONSTSTRING_FLOAT_FLOAT_INT_INT(call) \
void call (edict_t *e, int v, const char *sz, float f, float fb, int vb, int vc) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), (cell)v, sz, f, fb, (cell)vb, (cell)vc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *e, int v, const char *sz, float f, float fb, int vb, int vc) \
{ \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), (cell)v, sz, f, fb, (cell)vb, (cell)vc)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_EDICT_VECT_CONSTSTRING_FLOAT_FLOAT_INT_INT(call) \
void call (edict_t *e, float *vec, const char *sz, float f, float fb, int vb, int vc) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(e), p_vec, sz, f, fb, (cell)vb, (cell)vc)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (edict_t *e, float *vec, const char *sz, float f, float fb, int vb, int vc) \
{ \
PREPARE_VECTOR(vec); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(e), p_vec, sz, f, fb, (cell)vb, (cell)vc)); \
RETURN_META(MRES_IGNORED); \
}
//int flags, const edict_t *pInvoker, unsigned short eventindex, float delay, float *origin, float *angles, float fparam1, float fparam2, int iparam1, int iparam2, int bparam1, int bparam2 );
#define HOOK_PLAYBACK_EVENT(call) \
void call (int v, const edict_t *e, unsigned short eb, float f, float *vec, float *vecb, float fb, float fc, int vb, int vc, int vd, int ve) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)v, (cell)ENTINDEX((edict_t*)e), (cell)eb, f, p_vec, p_vecb, fb, fc, (cell)vb, (cell)vc, (cell)vd, (cell)ve)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (int v, const edict_t *e, unsigned short eb, float f, float *vec, float *vecb, float fb, float fc, int vb, int vc, int vd, int ve) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)v, (cell)ENTINDEX((edict_t*)e),(cell)eb, f, p_vec, p_vecb, fb, fc, (cell)vb, (cell)vc, (cell)vd, (cell)ve)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_VOID_HOOK_CONSTVECT_CONSTVECT_FLOAT_FLOAT(call) \
void call (const float *vec,const float *vecb, float fla, float flb) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), p_vec, p_vecb, fla, flb)); \
RETURN_META(mswi(lastFmRes)); \
} \
void call##_post (const float *vec,const float *vecb, float fla, float flb) \
{ \
PREPARE_VECTOR(vec); \
PREPARE_VECTOR(vecb); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), p_vec, p_vecb, fla, flb)); \
RETURN_META(MRES_IGNORED); \
}
#define SIMPLE_INT_HOOK_EDICT_EDICT(call) \
int call (edict_t *pent,edict_t *pentb) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(pent), (cell)ENTINDEX(pentb))); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (edict_t *pent,edict_t *pentb) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(pent), (cell)ENTINDEX(pentb))); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
}
#define SIMPLE_INT_HOOK_EDICT_FLOAT_FLOAT_INT(call) \
int call (edict_t *pent, float f, float fb, int v) \
{ \
FM_ENG_HANDLE(FM_##call, (Engine[FM_##call].at(i), (cell)ENTINDEX(pent), f, fb, (cell)v)); \
RETURN_META_VALUE(mswi(lastFmRes), (int)mlCellResult); \
} \
int call##_post (edict_t *pent, float f, float fb, int v) \
{ \
origCellRet = META_RESULT_ORIG_RET(int); \
FM_ENG_HANDLE_POST(FM_##call, (EnginePost[FM_##call].at(i), (cell)ENTINDEX(pent), f, fb, (cell)v)); \
RETURN_META_VALUE(MRES_IGNORED, (int)mlCellResult); \
} \
#define ENGHOOK(pfnCall) \
if (post) \
{ \
EngineAddrsPost[FM_##pfnCall] = &engtable->pfn##pfnCall; \
if (engtable->pfn##pfnCall == NULL) \
engtable->pfn##pfnCall = pfnCall##_post; \
} \
else \
{ \
EngineAddrs[FM_##pfnCall] = &engtable->pfn##pfnCall; \
if (engtable->pfn##pfnCall == NULL) \
engtable->pfn##pfnCall = pfnCall; \
}
#define DLLHOOK(pfnCall) \
if (post) \
{ \
EngineAddrsPost[FM_##pfnCall] = &dlltable->pfn##pfnCall; \
if (dlltable->pfn##pfnCall == NULL) \
dlltable->pfn##pfnCall = pfnCall##_post; \
} \
else \
{ \
EngineAddrs[FM_##pfnCall] = &dlltable->pfn##pfnCall; \
if (dlltable->pfn##pfnCall == NULL) \
dlltable->pfn##pfnCall = pfnCall; \
}
#define NEWDLLHOOK(pfnCall) \
if (post) \
{ \
if (newdlltable->pfn##pfnCall == NULL) \
newdlltable->pfn##pfnCall = pfnCall##_post; \
} \
else \
{ \
if (newdlltable->pfn##pfnCall == NULL) \
newdlltable->pfn##pfnCall = pfnCall; \
}
#define PREPARE_VECTOR(vector_name) \
cell vector_name##_cell[3] = {amx_ftoc(vector_name[0]), amx_ftoc(vector_name[1]), amx_ftoc(vector_name[2])}; \
cell p_##vector_name = MF_PrepareCellArray(vector_name##_cell, 3) \
#define PREPARE_FLOAT(float_name) \
cell c_##float_name = amx_ftoc(float_name);
#define BYREF_FLOAT(float_name) \
float_name = amx_ctof(c_##float_name);
#define FM_ENG_HANDLE(pfnCall, pfnArgs) \
register unsigned int i = 0; \
clfm(); \
int fmres = FMRES_IGNORED; \
for (i=0; i<Engine[pfnCall].length(); i++) \
{ \
fmres = MF_ExecuteForward pfnArgs; \
if (fmres >= lastFmRes) { \
if (retType == FMV_STRING) \
mlStringResult = mStringResult; \
else if (retType == FMV_CELL) \
mlCellResult = mCellResult; \
else if (retType == FMV_FLOAT) \
mlFloatResult = mFloatResult; \
lastFmRes = fmres; \
} \
}
#define FM_ENG_HANDLE_POST(pfnCall, pfnArgs) \
register unsigned int i = 0; \
clfm(); \
int fmres = FMRES_IGNORED; \
for (i=0; i<EnginePost[pfnCall].length(); i++) \
{ \
fmres = MF_ExecuteForward pfnArgs; \
if (fmres >= lastFmRes) { \
if (retType == FMV_STRING) \
mlStringResult = mStringResult; \
else if (retType == FMV_CELL) \
mlCellResult = mCellResult; \
else if (retType == FMV_FLOAT) \
mlFloatResult = mFloatResult; \
lastFmRes = fmres; \
} \
} \
origCellRet = 0; \
origFloatRet = 0.0; \
origStringRet = "";
#endif // FORWARDMACROS_H