amxmodx/dlls/hamsandwich/hook_callbacks.cpp
Steve Dudenhoeffer 4504875df9 Fixed Makefile
Fixed a few forwards not having FP_DONE at the end (doh!)
2007-05-16 15:24:14 +00:00

983 lines
22 KiB
C++

/* Ham Sandwich
* Copyright 2007
* By the AMX Mod X Development Team
*
* Ham Sandwich is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at
* your option) any later version.
*
* Ham Sandwich is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Ham Sandwich; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* In addition, as a special exception, the author gives permission to
* link the code of Ham Sandwich with the Half-Life Game Engine ("HL
* Engine") and Modified Game Libraries ("MODs") developed by Valve,
* L.L.C ("Valve"). You must obey the GNU General Public License in all
* respects for all of the code used other than the HL Engine and MODs
* from Valve. If you modify this file, you may extend this exception
* to your version of the file, but you are not obligated to do so. If
* you do not wish to do so, delete this exception statement from your
* version.
*/
#include <stdio.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <extdll.h>
#include "sdk/amxxmodule.h"
#include "CVector.h"
#include "CString.h"
#include "sh_stack.h"
#include "hook.h"
#include "forward.h"
#include "ham_const.h"
#include "ham_utils.h"
#include "DataHandler.h"
extern bool gDoForwards;
// Return value pushes
#define PUSH_VOID() ReturnStack.push(new Data(RET_VOID, NULL)); OrigReturnStack.push(new Data(RET_VOID, NULL));
#define PUSH_INT() ReturnStack.push(new Data(RET_INTEGER, (void *)&ret)); OrigReturnStack.push(new Data(RET_INTEGER, (void *)&origret));
#define PUSH_FLOAT() ReturnStack.push(new Data(RET_FLOAT, (void *)&ret)); OrigReturnStack.push(new Data(RET_FLOAT, (void *)&origret));
#define PUSH_VECTOR() ReturnStack.push(new Data(RET_VECTOR, (void *)&ret)); OrigReturnStack.push(new Data(RET_VECTOR, (void *)&origret));
#define PUSH_CBASE() ReturnStack.push(new Data(RET_CBASE, (void *)&ret)); OrigReturnStack.push(new Data(RET_CBASE, (void *)&origret));
#define PUSH_STRING() ReturnStack.push(new Data(RET_STRING, (void *)&ret)); OrigReturnStack.push(new Data(RET_STRING, (void *)&origret));
// Pop off return values
#define POP() delete ReturnStack.front(); ReturnStack.pop(); delete OrigReturnStack.front(); OrigReturnStack.pop();
// Parameter value pushes
#define MAKE_VECTOR() \
int iThis=PrivateToIndex(pthis); \
CVector<Data *> *__vec=new CVector<Data *>; \
ParamStack.push(__vec); \
P_CBASE(pthis, iThis)
#define P_INT(___PARAM) __vec->push_back(new Data(RET_INTEGER, (void *) & (___PARAM)));
#define P_FLOAT(___PARAM) __vec->push_back(new Data(RET_FLOAT, (void *) & (___PARAM)));
#define P_VECTOR(___PARAM) __vec->push_back(new Data(RET_VECTOR, (void *) & (___PARAM)));
#define P_STR(___PARAM) __vec->push_back(new Data(RET_STRING, (void *) & (___PARAM)));
#define P_CBASE(__PARAM, __INDEX) __vec->push_back(new Data(RET_CBASE, (void *) & (__PARAM), reinterpret_cast<int *>(& (__INDEX))));
#define P_ENTVAR(__PARAM, __INDEX) __vec->push_back(new Data(RET_ENTVAR, (void *) & (__PARAM), reinterpret_cast<int *>(& (__INDEX))));
#define P_TRACE(__PARAM) __vec->push_back(new Data(RET_TRACE, (void *) (__PARAM)));
#define P_PTRVECTOR(__PARAM) __vec->push_back(new Data(RET_VECTOR, (void *) (__PARAM)));
#define P_PTRFLOAT(__PARAM) __vec->push_back(new Data(RET_FLOAT, (void *) (__PARAM)));
#define P_ITEMINFO(__PARAM) __vec->push_back(new Data(RET_ITEMINFO, (void *) & (__PARAM)));
#define KILL_VECTOR() \
CVector<Data *>::iterator end=__vec->end(); \
for (CVector<Data *>::iterator i=__vec->begin(); i!=end; ++i) \
{ \
delete (*i); \
} \
delete __vec; \
ParamStack.pop();
#define PRE_START() \
bool DoForwards=gDoForwards; \
gDoForwards=true; \
int result=HAM_UNSET; \
ReturnStatus.push(&result); \
int thisresult=HAM_UNSET; \
if (DoForwards) \
{ \
CVector<Forward*>::iterator end=hook->pre.end(); \
for (CVector<Forward*>::iterator i=hook->pre.begin(); i!=end; i++) \
{ \
if ((*i)->state == FSTATE_OK) \
{ \
thisresult=MF_ExecuteForward((*i)->id,iThis
#define PRE_END() \
); \
} \
if (thisresult > result) \
{ \
result=thisresult; \
} \
} \
} \
if (result < HAM_SUPERCEDE) \
{
#define POST_START() \
} \
if (DoForwards) \
{ \
CVector<Forward*>::iterator end=hook->post.end(); \
for (CVector<Forward*>::iterator i=hook->post.begin(); i!=end; i++) \
{ \
if ((*i)->state == FSTATE_OK) \
{ \
MF_ExecuteForward((*i)->id,iThis
#define POST_END() \
); \
} \
} \
} \
ReturnStatus.pop();
#define CHECK_RETURN() \
if (thisresult < HAM_OVERRIDE) \
{ \
return origret; \
}
#define CHECK_RETURN_STR() \
if (thisresult < HAM_OVERRIDE) \
{ \
return origret.c_str(); \
}
#define CHECK_RETURN_VEC() \
if (thisresult < HAM_OVERRIDE) \
{ \
memcpy(out, &origret, sizeof(Vector)); \
return; \
}
void Hook_Void_Void(Hook *hook, void *pthis)
{
PUSH_VOID()
MAKE_VECTOR()
PRE_START()
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*,int)>(hook->func)(pthis,0);
#elif defined __linux__
reinterpret_cast<void (*)(void*)>(hook->func)(pthis);
#endif
POST_START()
POST_END()
KILL_VECTOR()
POP()
}
int Hook_Int_Void(Hook *hook, void *pthis)
{
int ret=0;
int origret=0;
PUSH_INT()
MAKE_VECTOR()
PRE_START()
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*,int)>(hook->func)(pthis,0);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*)>(hook->func)(pthis);
#endif
POST_START()
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Entvar(Hook *hook, void *pthis, entvars_t *entvar)
{
PUSH_VOID()
int iOther=EntvarToIndex(entvar);
MAKE_VECTOR()
P_ENTVAR(entvar, iOther)
PRE_START()
, iOther
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, entvars_t *)>(hook->func)(pthis, 0, entvar);
#elif defined __linux__
reinterpret_cast<void (*)(void*, entvars_t *)>(hook->func)(pthis, entvar);
#endif
POST_START()
, iOther
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_Cbase(Hook *hook, void *pthis, void *other)
{
PUSH_VOID()
int iOther=PrivateToIndex(other);
MAKE_VECTOR()
P_CBASE(other, iOther)
PRE_START()
, iOther
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, void *)>(hook->func)(pthis, 0, other);
#elif defined __linux__
reinterpret_cast<void (*)(void*, void *)>(hook->func)(pthis, other);
#endif
POST_START()
, iOther
POST_END()
KILL_VECTOR()
POP()
}
int Hook_Int_Float_Int(Hook *hook, void *pthis, float f1, int i1)
{
int ret=0;
int origret=0;
PUSH_INT()
MAKE_VECTOR()
P_FLOAT(f1)
P_INT(i1)
PRE_START()
, f1, i1
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, float, int)>(hook->func)(pthis, 0, f1, i1);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, float, int)>(hook->func)(pthis, f1, i1);
#endif
POST_START()
, f1, i1
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Entvar_Int(Hook *hook, void *pthis, entvars_t *ev1, int i1)
{
PUSH_VOID()
int iOther=EntvarToIndex(ev1);
MAKE_VECTOR()
P_ENTVAR(ev1, iOther)
P_INT(i1)
PRE_START()
, iOther, i1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, entvars_t *, int)>(hook->func)(pthis, 0, ev1, i1);
#elif defined __linux__
reinterpret_cast<void (*)(void*, entvars_t *, int)>(hook->func)(pthis, ev1, i1);
#endif
POST_START()
, iOther, i1
POST_END()
KILL_VECTOR()
POP()
}
int Hook_Int_Cbase(Hook *hook, void *pthis, void *cb1)
{
int ret=0;
int origret=0;
PUSH_INT()
int iOther=PrivateToIndex(cb1);
MAKE_VECTOR()
P_CBASE(cb1, iOther)
PRE_START()
, iOther
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, void *)>(hook->func)(pthis, 0, cb1);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, void *)>(hook->func)(pthis, cb1);
#endif
POST_START()
, iOther
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Int_Int(Hook *hook, void *pthis, int i1, int i2)
{
PUSH_VOID()
MAKE_VECTOR()
P_INT(i1)
P_INT(i2)
PRE_START()
,i1, i2
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, int, int)>(hook->func)(pthis, 0, i1, i2);
#elif defined __linux__
reinterpret_cast<void (*)(void*, int, int)>(hook->func)(pthis, i1, i2);
#endif
POST_START()
,i1, i2
POST_END()
KILL_VECTOR()
POP()
}
int Hook_Int_Int_Str_Int(Hook *hook, void *pthis, int i1, const char *sz1, int i2)
{
int ret=0;
int origret=0;
PUSH_INT()
String a=sz1;
MAKE_VECTOR()
P_INT(i1)
P_STR(a)
P_INT(i2)
PRE_START()
,i1, a.c_str(), i2
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, int, const char *, int)>(hook->func)(pthis, 0, i1, a.c_str(), i2);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, int, const char *, int)>(hook->func)(pthis, i1, a.c_str(), i2);
#endif
POST_START()
,i1, a.c_str(), i2
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
int Hook_Int_Int(Hook *hook, void *pthis, int i1)
{
int ret=0;
int origret=0;
PUSH_INT()
MAKE_VECTOR()
P_INT(i1)
PRE_START()
,i1
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, int)>(hook->func)(pthis, 0, i1);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, int)>(hook->func)(pthis, i1);
#endif
POST_START()
,i1
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
int Hook_Int_Entvar(Hook *hook, void *pthis, entvars_t *ev1)
{
int ret=0;
int origret=0;
PUSH_INT()
int iOther=EntvarToIndex(ev1);
MAKE_VECTOR()
P_ENTVAR(ev1, iOther)
PRE_START()
,iOther
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, entvars_t *)>(hook->func)(pthis, 0, ev1);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, entvars_t *)>(hook->func)(pthis, ev1);
#endif
POST_START()
, iOther
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
int Hook_Int_Entvar_Entvar_Float_Int(Hook *hook, void *pthis, entvars_t *inflictor, entvars_t *attacker, float damage, int damagebits)
{
int ret=0;
int origret=0;
PUSH_INT()
int iInflictor=EntvarToIndex(inflictor);
int iAttacker=EntvarToIndex(attacker);
MAKE_VECTOR()
P_ENTVAR(inflictor, iInflictor)
P_ENTVAR(attacker, iAttacker)
P_FLOAT(damage)
P_INT(damagebits)
PRE_START()
,iInflictor, iAttacker, damage, damagebits
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, entvars_t *, entvars_t *, float, int)>(hook->func)(pthis, 0, inflictor, attacker, damage, damagebits);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, entvars_t *, entvars_t *, float, int)>(hook->func)(pthis, inflictor, attacker, damage, damagebits);
#endif
POST_START()
,iInflictor, iAttacker, damage, damagebits
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
int Hook_Int_Entvar_Entvar_Float_Float_Int(Hook *hook, void *pthis, entvars_t *inflictor, entvars_t *attacker, float damage, float unknown, int damagebits)
{
int ret=0;
int origret=0;
PUSH_INT()
int iInflictor=EntvarToIndex(inflictor);
int iAttacker=EntvarToIndex(attacker);
MAKE_VECTOR()
P_ENTVAR(inflictor, iInflictor)
P_ENTVAR(attacker, iAttacker)
P_FLOAT(damage)
P_FLOAT(unknown)
P_INT(damagebits)
PRE_START()
,iInflictor, iAttacker, damage, unknown, damagebits
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, entvars_t *, entvars_t *, float, float, int)>(hook->func)(pthis, 0, inflictor, attacker, damage, unknown, damagebits);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, entvars_t *, entvars_t *, float, float, int)>(hook->func)(pthis, inflictor, attacker, damage, unknown, damagebits);
#endif
POST_START()
,iInflictor, iAttacker, damage, unknown, damagebits
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Int(Hook *hook, void *pthis, int i1)
{
PUSH_VOID()
MAKE_VECTOR()
P_INT(i1)
PRE_START()
, i1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, int)>(hook->func)(pthis, 0, i1);
#elif defined __linux__
reinterpret_cast<void (*)(void*, int)>(hook->func)(pthis, i1);
#endif
POST_START()
,i1
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_Cbase_Cbase_Int_Float(Hook *hook, void *pthis, void *cb1, void *cb2, int i1, float f1)
{
PUSH_VOID()
int iCaller=PrivateToIndex(cb1);
int iActivator=PrivateToIndex(cb2);
MAKE_VECTOR()
P_CBASE(cb1, iCaller)
P_CBASE(cb2, iActivator)
P_INT(i1)
P_FLOAT(f1)
PRE_START()
,iCaller, iActivator, i1, f1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, void *, void *, int, float)>(hook->func)(pthis, 0, cb1, cb2, i1, f1);
#elif defined __linux__
reinterpret_cast<void (*)(void*, void *, void *, int, float)>(hook->func)(pthis, cb1, cb2, i1, f1);
#endif
POST_START()
,iCaller, iActivator, i1, f1
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_Entvar_Float_Vector_Trace_Int(Hook *hook, void *pthis, entvars_t *ev1, float f1, Vector v1, TraceResult *tr1, int i1)
{
PUSH_VOID()
int iev1=EntvarToIndex(ev1);
MAKE_VECTOR()
P_ENTVAR(ev1, iev1)
P_FLOAT(f1)
P_VECTOR(v1)
P_TRACE(tr1)
P_INT(i1)
PRE_START()
,iev1, f1, MF_PrepareCellArrayA(reinterpret_cast<cell *>(&v1), 3, false), tr1, i1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, entvars_t *, float, Vector, TraceResult *, int)>(hook->func)(pthis, 0, ev1, f1, v1, tr1, i1);
#elif defined __linux__
reinterpret_cast<void (*)(void*, entvars_t *, float, Vector, TraceResult *, int)>(hook->func)(pthis, ev1, f1, v1, tr1, i1);
#endif
POST_START()
, iev1, f1, MF_PrepareCellArrayA(reinterpret_cast<cell *>(&v1), 3, false), tr1, i1
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_Float_Vector_Trace_Int(Hook *hook, void *pthis, float f1, Vector v1, TraceResult *tr1, int i1)
{
PUSH_VOID()
MAKE_VECTOR()
P_FLOAT(f1)
P_VECTOR(v1)
P_TRACE(tr1)
P_INT(i1)
PRE_START()
, f1, MF_PrepareCellArrayA(reinterpret_cast<cell *>(&v1), 3, false), tr1, i1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, float, Vector, TraceResult *, int)>(hook->func)(pthis, 0, f1, v1, tr1, i1);
#elif defined __linux__
reinterpret_cast<void (*)(void*, float, Vector, TraceResult *, int)>(hook->func)(pthis, f1, v1, tr1, i1);
#endif
POST_START()
, f1, MF_PrepareCellArrayA(reinterpret_cast<cell *>(&v1), 3, false), tr1, i1
POST_END()
KILL_VECTOR()
POP()
}
const char *Hook_Str_Void(Hook *hook, void *pthis)
{
String ret;
String origret;
MAKE_VECTOR()
PUSH_STRING()
PRE_START()
PRE_END()
#if defined _WIN32
origret.assign(reinterpret_cast<const char *(__fastcall*)(void*, int)>(hook->func)(pthis, 0));
#elif defined __linux__
origret.assign(reinterpret_cast<const char *(*)(void*)>(hook->func)(pthis));
#endif
POST_START()
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN_STR();
return ret.c_str();
}
void *Hook_Cbase_Void(Hook *hook, void *pthis)
{
void *ret=NULL;
void *origret=NULL;
PUSH_CBASE()
MAKE_VECTOR()
PRE_START()
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<void *(__fastcall*)(void*, int)>(hook->func)(pthis, 0);
#elif defined __linux__
origret=reinterpret_cast<void *(*)(void*)>(hook->func)(pthis);
#endif
POST_START()
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
#ifdef _WIN32
void Hook_Vector_Void(Hook *hook, void *pthis, Vector *out)
#elif defined __linux__
void Hook_Vector_Void(Hook *hook, Vector *out, void *pthis)
#endif
{
Vector ret;
Vector origret;
PUSH_VECTOR()
MAKE_VECTOR()
memset(&ret, 0x0, sizeof(Vector));
memset(&origret, 0x0, sizeof(Vector));
PRE_START()
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, Vector *)>(hook->func)(pthis, 0, &origret);
#elif defined __linux__
origret=reinterpret_cast<Vector (*)(void *)>(hook->func)(pthis);
#endif
POST_START()
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN_VEC()
memcpy(out, &ret, sizeof(Vector));
}
#ifdef _WIN32
void Hook_Vector_pVector(Hook *hook, void *pthis, Vector *out, Vector *v1)
#elif defined __linux__
void Hook_Vector_pVector(Hook *hook, Vector *out, void *pthis, Vector *v1)
#endif
{
Vector ret;
Vector origret;
PUSH_VECTOR()
MAKE_VECTOR()
P_PTRVECTOR(v1)
memset(&ret, 0x0, sizeof(Vector));
memset(&origret, 0x0, sizeof(Vector));
PRE_START()
, MF_PrepareCellArrayA(reinterpret_cast<cell *>(v1), 3, false)
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, Vector *, Vector *)>(hook->func)(pthis, 0, &origret, v1);
#elif defined __linux__
origret=reinterpret_cast<Vector (*)(void*, Vector *)>(hook->func)(pthis, v1);
#endif
POST_START()
, MF_PrepareCellArrayA(reinterpret_cast<cell *>(v1), 3, false)
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN_VEC()
memcpy(out, &ret, sizeof(Vector));
}
int Hook_Int_pVector(Hook *hook, void *pthis, Vector *v1)
{
int ret=0;
int origret=0;
PUSH_INT()
MAKE_VECTOR()
P_PTRVECTOR(v1)
PRE_START()
, MF_PrepareCellArrayA(reinterpret_cast<cell *>(v1), 3, false)
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void*, int, Vector *)>(hook->func)(pthis, 0, v1);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void*, Vector *)>(hook->func)(pthis, v1);
#endif
POST_START()
, MF_PrepareCellArrayA(reinterpret_cast<cell *>(v1), 3, false)
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Entvar_Float_Float(Hook *hook, void *pthis, entvars_t *ev1, float f1, float f2)
{
PUSH_VOID()
cell cev1=EntvarToIndex(ev1);
MAKE_VECTOR()
P_ENTVAR(ev1, cev1)
P_FLOAT(f1)
P_FLOAT(f2)
PRE_START()
, cev1, f1, f2
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void *, int, entvars_t *, float, float)>(hook->func)(pthis, 0, ev1, f1, f2);
#elif defined __linux__
reinterpret_cast<void (*)(void *, entvars_t *, float, float)>(hook->func)(pthis, ev1, f1, f2);
#endif
POST_START()
, cev1, f1, f2
POST_END()
KILL_VECTOR()
POP()
}
int Hook_Int_pFloat_pFloat(Hook *hook, void *pthis, float *f1, float *f2)
{
int ret=0;
int origret=0;
PUSH_INT()
MAKE_VECTOR()
P_PTRFLOAT(f1)
P_PTRFLOAT(f2)
PRE_START()
, f1 != NULL ? *f1 : 0, f2 != NULL ? *f2 : 0
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<int (__fastcall*)(void *, int, float *, float *)>(hook->func)(pthis, 0, f1, f2);
#elif defined __linux__
origret=reinterpret_cast<int (*)(void *, float *, float *)>(hook->func)(pthis, f1, f2);
#endif
POST_START()
, f1 != NULL ? *f1 : 0, f2 != NULL ? *f2 : 0
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}
void Hook_Void_Entvar_Float(Hook *hook, void *pthis, entvars_t *ev1, float f1)
{
PUSH_VOID()
cell cev1=EntvarToIndex(ev1);
MAKE_VECTOR()
P_ENTVAR(ev1, cev1)
P_FLOAT(f1)
PRE_START()
, cev1, f1
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void *, int, entvars_t *, float)>(hook->func)(pthis, 0, ev1, f1);
#elif defined __linux__
reinterpret_cast<void (*)(void *, entvars_t *, float)>(hook->func)(pthis, ev1, f1);
#endif
POST_START()
, cev1, f1
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_Int_Int_Int(Hook *hook, void *pthis, int i1, int i2, int i3)
{
PUSH_VOID()
MAKE_VECTOR()
P_INT(i1)
P_INT(i2)
P_INT(i3)
PRE_START()
,i1, i2, i3
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, int, int, int)>(hook->func)(pthis, 0, i1, i2, i3);
#elif defined __linux__
reinterpret_cast<void (*)(void*, int, int, int)>(hook->func)(pthis, i1, i2, i3);
#endif
POST_START()
,i1, i2, i3
POST_END()
KILL_VECTOR()
POP()
}
void Hook_Void_ItemInfo(Hook *hook, void *pthis, void *iteminfo)
{
PUSH_VOID()
MAKE_VECTOR()
P_ITEMINFO(iteminfo)
PRE_START()
,iteminfo
PRE_END()
#if defined _WIN32
reinterpret_cast<void (__fastcall*)(void*, int, void *)>(hook->func)(pthis, 0, iteminfo);
#elif defined __linux__
reinterpret_cast<void (*)(void*, void *)>(hook->func)(pthis, iteminfo);
#endif
POST_START()
,iteminfo
POST_END()
KILL_VECTOR()
POP()
}
float Hook_Float_Void(Hook *hook, void *pthis)
{
float ret=0.0;
float origret=0.0;
PUSH_FLOAT()
MAKE_VECTOR()
PRE_START()
PRE_END()
#if defined _WIN32
origret=reinterpret_cast<float (__fastcall*)(void*, int)>(hook->func)(pthis, 0);
#elif defined __linux__
origret=reinterpret_cast<float (*)(void*)>(hook->func)(pthis);
#endif
fflush(stdout);
POST_START()
POST_END()
KILL_VECTOR()
POP()
CHECK_RETURN()
return ret;
}