/* Ham Sandwich * Copyright 2007-2014 * 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 "amxxmodule.h" #include "offsets.h" #include "ham_utils.h" #include "hooklist.h" #include "CVector.h" #include "forward.h" #include "hook.h" #include "CString.h" extern CVector hooks[HAM_LAST_ENTRY_DONT_USE_ME_LOL]; void FailPlugin(AMX *amx, int id, int err, const char *reason); extern bool gDoForwards; inline void *GetFunction(void *pthis, int id, bool &istramp) { istramp=false; void *func=GetVTableEntry(pthis, hooklist[id].vtid, Offsets.GetBase()); // Check to see if it's a trampoline CVector::iterator end=hooks[id].end(); for (CVector::iterator i=hooks[id].begin(); i!=end; ++i) { if (func==(*i)->tramp) { istramp=true; return func; } } return func; } inline void *_GetFunction(void *pthis, int id) { void **vtbl=GetVTable(pthis, Offsets.GetBase()); int **ivtbl=(int **)vtbl; void *func=ivtbl[hooklist[id].vtid]; // Iterate through the hooks for the id, see if the function is found CVector::iterator end=hooks[id].end(); for (CVector::iterator i=hooks[id].begin(); i!=end; ++i) { // If the function points to a trampoline, then return the original // function. if (func==(*i)->tramp) { return (*i)->func; } } // this is an original function return func; } #define SETUP(NUMARGS) \ if (((NUMARGS + 2) * sizeof(cell)) > (unsigned)params[0]) \ { \ MF_LogError(amx, AMX_ERR_NATIVE, "Bad arg count. Expected %d, got %d.", NUMARGS + 2, params[0] / sizeof(cell)); \ return 0; \ } \ int func=params[1]; \ int id=params[2]; \ CHECK_FUNCTION(func); \ CHECK_ENTITY(id); \ void *pv=IndexToPrivate(id); \ bool istramp; \ void *__func=GetFunction(pv, func, istramp); \ if (!istramp && !gDoForwards) \ { \ gDoForwards=true; \ } cell Call_Void_Void(AMX *amx, cell *params) { SETUP(0); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv); #endif return 1; } cell Call_Int_Void(AMX *amx, cell *params) { SETUP(0); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv); #endif } cell Call_Void_Entvar(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); entvars_t *ev1=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev1); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev1); #endif return 1; } cell Call_Void_Cbase(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *pv1=(INDEXENT_NEW(id3)->pvPrivateData); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, pv1); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, pv1); #endif return 1; } cell Call_Int_Float_Int(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int i4=*MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, f3, i4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, f3, i4); #endif } cell Call_Int_Float_Int_Int(AMX *amx, cell *params) { SETUP(3); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int i4=*MF_GetAmxAddr(amx, params[4]); int i5=*MF_GetAmxAddr(amx, params[5]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, f3, i4, i5); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, f3, i4, i5); #endif } cell Call_Void_Entvar_Int(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); int i4=*MF_GetAmxAddr(amx, params[4]); CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, i4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, i4); #endif return 1; } cell Call_Void_Entvar_Entvar_Int(AMX *amx, cell *params) { SETUP(3); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); int i5=*MF_GetAmxAddr(amx, params[5]); CHECK_ENTITY(id3); CHECK_ENTITY(id4); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, ev4, i5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, ev4, i5); #endif return 1; } cell Call_Int_Cbase(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *pv1=(INDEXENT_NEW(id3)->pvPrivateData); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, pv1); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, pv1); #endif } cell Call_Void_Int_Int(AMX *amx, cell *params) { SETUP(2); int i3=*MF_GetAmxAddr(amx, params[3]); int i4=*MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3, i4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3, i4); #endif return 1; } cell Call_Int_Int_Str_Int(AMX *amx, cell *params) { SETUP(3); int i3=*MF_GetAmxAddr(amx, params[3]); char *sz4=MF_GetAmxString(amx, params[4], 0, NULL); int i5=*MF_GetAmxAddr(amx, params[5]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, i3, sz4, i5); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, i3, sz4, i5); #endif } cell Call_Int_Int_Str_Int_Int(AMX *amx, cell *params) { SETUP(4); int i3 = *MF_GetAmxAddr(amx, params[3]); char *sz4 = MF_GetAmxString(amx, params[4], 0, NULL); int i5 = *MF_GetAmxAddr(amx, params[5]); int i6 = *MF_GetAmxAddr(amx, params[6]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, i3, sz4, i5, i6); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, i3, sz4, i5, i6); #endif } cell Call_Int_Int(AMX *amx, cell *params) { SETUP(1); int i3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, i3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, i3); #endif } cell Call_Int_Entvar(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, ev3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, ev3); #endif } cell Call_Int_Entvar_Entvar_Float_Int(AMX *amx, cell *params) { SETUP(4); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int i6=*MF_GetAmxAddr(amx, params[6]); CHECK_ENTITY(id3); CHECK_ENTITY(id4); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, ev3, ev4, f5, i6); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, ev3, ev4, f5, i6); #endif } cell Call_Int_Entvar_Entvar_Float_Float_Int(AMX *amx, cell *params) { SETUP(5); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); int i7=*MF_GetAmxAddr(amx, params[7]); CHECK_ENTITY(id3); CHECK_ENTITY(id4); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, ev3, ev4, f5, f6, i7); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, ev3, ev4, f5, f6, i7); #endif } cell Call_Void_Int(AMX *amx, cell *params) { SETUP(1); int i3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3); #endif return 1; } cell Call_Vector_Float_Cbase_Int(AMX *amx, cell *params) { SETUP(4); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int id4=*MF_GetAmxAddr(amx, params[4]); int i5=*MF_GetAmxAddr(amx, params[5]); CHECK_ENTITY(id4); void *p4=IndexToPrivate(id4); #if defined(_WIN32) Vector ret; reinterpret_cast(__func)(pv, 0, &ret, f3, p4, i5); #elif defined(__linux__) || defined(__APPLE__) Vector ret = reinterpret_cast(__func)(pv, f3, p4, i5); #endif float *out = (float *)MF_GetAmxAddr(amx, params[6]); out[0] = ret.x; out[1] = ret.y; out[2] = ret.z; return 1; } cell Call_Void_Cbase_Cbase_Int_Float(AMX *amx, cell *params) { SETUP(4); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); int i5=*MF_GetAmxAddr(amx, params[5]); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); CHECK_ENTITY(id3); CHECK_ENTITY(id4); void *p3=IndexToPrivate(id3); void *p4=IndexToPrivate(id4); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, p3, p4, i5, f6); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, p3, p4, i5, f6); #endif return 1; } cell Call_Void_Entvar_Float_Vector_Trace_Int(AMX *amx, cell *params) { SETUP(5); int id3=*MF_GetAmxAddr(amx, params[3]); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); Vector v5; TraceResult *tr6=reinterpret_cast(*MF_GetAmxAddr(amx, params[6])); int i7=*MF_GetAmxAddr(amx, params[7]); float *fl5=(float *)MF_GetAmxAddr(amx, params[5]); v5.x=fl5[0]; v5.y=fl5[1]; v5.z=fl5[2]; if (tr6==NULL) { MF_LogError(amx, AMX_ERR_NATIVE, "Null traceresult provided."); return 0; } CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, f4, v5, tr6, i7); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, f4, v5, tr6, i7); #endif return 1; } cell Call_Void_Float_Vector_Trace_Int(AMX *amx, cell *params) { SETUP(4); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); Vector v4; TraceResult *tr5=reinterpret_cast(*MF_GetAmxAddr(amx, params[5])); int i6=*MF_GetAmxAddr(amx, params[6]); float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; if (tr5==NULL) { MF_LogError(amx, AMX_ERR_NATIVE, "Null traceresult provided."); return 0; } #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3, v4, tr5, i6); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3, v4, tr5, i6); #endif return 1; } cell Call_Str_Void(AMX *amx, cell *params) { SETUP(2); #if defined(_WIN32) char *v=reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) char *v=reinterpret_cast(__func)(pv); #endif return MF_SetAmxString(amx, params[3], v == NULL ? "" : v, *MF_GetAmxAddr(amx, params[4])); } cell Call_Cbase_Void(AMX *amx, cell *params) { SETUP(0); #if defined(_WIN32) void *ret=reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) void *ret=reinterpret_cast(__func)(pv); #endif return PrivateToIndex(ret); } cell Call_Float_Int(AMX *amx, cell *params) { SETUP(2); int i3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) float ret=reinterpret_cast(__func)(pv, 0, i3); #elif defined(__linux__) || defined(__APPLE__) float ret=reinterpret_cast(__func)(pv, i3); #endif *MF_GetAmxAddr(amx, params[4])=amx_ftoc2(ret); return 1; } cell Call_Vector_Void(AMX *amx, cell *params) { SETUP(1); #if defined(_WIN32) Vector ret; reinterpret_cast(__func)(pv, 0,&ret); #elif defined(__linux__) || defined(__APPLE__) Vector ret=reinterpret_cast(__func)(pv); #endif float *out=(float *)MF_GetAmxAddr(amx, params[3]); out[0]=ret.x; out[1]=ret.y; out[2]=ret.z; return 1; } cell Call_Vector_pVector(AMX *amx, cell *params) { SETUP(2); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; #if defined(_WIN32) Vector ret; reinterpret_cast(__func)(pv, 0, &ret, &v3); #elif defined(__linux__) || defined(__APPLE__) Vector ret=reinterpret_cast(__func)(pv, &v3); #endif float *out=(float *)MF_GetAmxAddr(amx, params[4]); out[0]=ret.x; out[1]=ret.y; out[2]=ret.z; fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; return 1; } cell Call_Int_pVector(AMX *amx, cell *params) { SETUP(1); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; #if defined(_WIN32) int ret=reinterpret_cast(__func)(pv, 0, &v3); #elif defined(__linux__) || defined(__APPLE__) int ret=reinterpret_cast(__func)(pv, &v3); #endif fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; return ret; } cell Call_Void_Entvar_Float_Float(AMX *amx, cell *params) { SETUP(3); int id3=*MF_GetAmxAddr(amx, params[3]); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, f4, f5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, f4, f5); #endif return 1; } cell Call_Void_pFloat_pFloat(AMX *amx, cell *params) { SETUP(2); float f3; float f4; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, &f3, &f4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, &f3, &f4); #endif *MF_GetAmxAddr(amx, params[3]) = amx_ftoc2(f3); *MF_GetAmxAddr(amx, params[4]) = amx_ftoc2(f4); return 1; } cell Call_Void_Entvar_Float(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, ev3, f4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, ev3, f4); #endif } cell Call_Void_Int_Int_Int(AMX *amx, cell *params) { SETUP(3); int i3=*MF_GetAmxAddr(amx, params[3]); int i4=*MF_GetAmxAddr(amx, params[4]); int i5=*MF_GetAmxAddr(amx, params[5]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3, i4, i5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3, i4, i5); #endif return 1; } cell Call_Void_ItemInfo(AMX *amx, cell *params) { SETUP(1); void *ptr=reinterpret_cast(*MF_GetAmxAddr(amx, params[3])); if (ptr==0) { MF_LogError(amx, AMX_ERR_NATIVE, "Null ItemInfo handle!"); return 0; } #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ptr); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ptr); #endif return 1; } cell Call_Float_Void(AMX *amx, cell *params) { SETUP(1); #if defined(_WIN32) float ret=reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) float ret=reinterpret_cast(__func)(pv); #endif *MF_GetAmxAddr(amx, params[3])=amx_ftoc2(ret); return 1; } cell Call_Void_Float_Int(AMX* amx, cell* params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int i4 = *MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3, i4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3, i4); #endif return 1; } cell Call_Float_Float_Cbase(AMX* amx, cell* params) { SETUP(3); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int id4=*MF_GetAmxAddr(amx, params[4]); CHECK_ENTITY(id4); void *p4 = IndexToPrivate(id4); #if defined(_WIN32) float ret = reinterpret_cast(__func)(pv, 0, f3, p4); #elif defined(__linux__) || defined(__APPLE__) float ret = reinterpret_cast(__func)(pv, f3, p4); #endif *MF_GetAmxAddr(amx, params[5]) = amx_ftoc2(ret); return 1; } cell Call_Void_Float(AMX* amx, cell* params) { SETUP(1); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3); #endif return 1; } cell Call_Void_Float_Float_Float_Int(AMX* amx, cell* params) { SETUP(4); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int i6=*MF_GetAmxAddr(amx, params[6]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3, f4, f5, i6); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3, f4, f5, i6); #endif return 1; } cell Call_Vector_Float(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); #if defined(_WIN32) Vector ret; reinterpret_cast(__func)(pv, 0, &ret, f3); #elif defined(__linux__) || defined(__APPLE__) Vector ret = reinterpret_cast(__func)(pv, f3); #endif float *out=(float *)MF_GetAmxAddr(amx, params[4]); out[0]=ret.x; out[1]=ret.y; out[2]=ret.z; return 1; } cell Call_Void_Float_Cbase(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); int id4=*MF_GetAmxAddr(amx, params[4]); CHECK_ENTITY(id4); void *p4=IndexToPrivate(id4); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3, p4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3, p4); #endif return 1; } cell Call_Int_Float_Float(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, f3, f4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, f3, f4); #endif } cell Call_Int_Float(AMX *amx, cell *params) { SETUP(1); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, f3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, f3); #endif } cell Call_Int_Int_Int(AMX *amx, cell *params) { SETUP(2); int i3=*MF_GetAmxAddr(amx, params[3]); int i4=*MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, i3, i4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, i3, i4); #endif } cell Call_Void_Str_Float_Float_Float(AMX *amx, cell *params) { SETUP(4); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3, f4, f5, f6); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3, f4, f5, f6); #endif return 1; } cell Call_Void_Str_Float_Float_Float_Int_Cbase(AMX *amx, cell *params) { SETUP(6); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); int i7=*MF_GetAmxAddr(amx, params[7]); int id8=*MF_GetAmxAddr(amx, params[8]); CHECK_ENTITY(id8); void *p8=IndexToPrivate(id8); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3, f4, f5, f6, i7, p8); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3, f4, f5, f6, i7, p8); #endif return 1; } cell Call_Int_Vector_Vector_Float_Float(AMX *amx, cell *params) { SETUP(4); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, v3, v4, f5, f6); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, v3, v4, f5, f6); #endif } cell Call_Int_Short(AMX *amx, cell *params) { SETUP(1); short s3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, s3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, s3); #endif } cell Call_Void_Entvar_Entvar_Float_Int_Int(AMX *amx, cell *params) { SETUP(5); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int i6=*MF_GetAmxAddr(amx, params[6]); int i7=*MF_GetAmxAddr(amx, params[7]); CHECK_ENTITY(id3); CHECK_ENTITY(id4); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, ev4, f5, i6, i7); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, ev4, f5, i6, i7); #endif return 1; } cell Call_Void_Vector_Entvar_Entvar_Float_Int_Int(AMX *amx, cell *params) { SETUP(6); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; int id4=*MF_GetAmxAddr(amx, params[4]); int id5=*MF_GetAmxAddr(amx, params[5]); float f6=amx_ctof2(*MF_GetAmxAddr(amx, params[6])); int i7=*MF_GetAmxAddr(amx, params[7]); int i8=*MF_GetAmxAddr(amx, params[8]); CHECK_ENTITY(id4); CHECK_ENTITY(id5); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); entvars_t *ev5=&(INDEXENT_NEW(id5)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, v3, ev4, ev5, f6, i7, i8); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, v3, ev4, ev5, f6, i7, i8); #endif return 1; } cell Call_Float_Int_Float(AMX *amx, cell *params) { SETUP(3); int i3=*MF_GetAmxAddr(amx, params[3]); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); #if defined(_WIN32) float ret=reinterpret_cast(__func)(pv, 0, i3, f4); #elif defined(__linux__) || defined(__APPLE__) float ret=reinterpret_cast(__func)(pv, i3, f4); #endif *MF_GetAmxAddr(amx, params[5])=amx_ftoc2(ret); return 1; } cell Call_Int_Str(AMX *amx, cell *params) { SETUP(1); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, sz3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, sz3); #endif } cell Call_Void_Edict(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); edict_t *ed3=INDEXENT_NEW(id3); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ed3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ed3); #endif return 1; } cell Call_Void_Int_Str_Bool(AMX *amx, cell *params) { SETUP(4); char* sz4 = new char[48]; int i3=*MF_GetAmxAddr(amx, params[3]); bool b5=*MF_GetAmxAddr(amx, params[5]) ? true : false; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3, sz4, b5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3, sz4, b5); #endif MF_SetAmxString(amx, params[4], sz4 ? sz4 : "", *MF_GetAmxAddr(amx, params[6])); delete [] sz4; return 1; } cell Call_Void_Vector_Vector(AMX *amx, cell *params) { SETUP(2); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, v3, v4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, v3, v4); #endif return 1; } cell Call_Void_Str_Bool(AMX *amx, cell *params) { SETUP(2); const char *sz3=STRING(ALLOC_STRING(MF_GetAmxString(amx, params[3], 0, NULL))); bool b4=*MF_GetAmxAddr(amx, params[4]) ? true : false; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3, b4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3, b4); #endif return 1; } cell Call_Int_Str_Str_Int_Str_Int_Int(AMX* amx, cell* params) { SETUP(6); const char *sz3=STRING(ALLOC_STRING(MF_GetAmxString(amx, params[3], 0, NULL))); const char *sz4=STRING(ALLOC_STRING(MF_GetAmxString(amx, params[4], 1, NULL))); const char *sz6=STRING(ALLOC_STRING(MF_GetAmxString(amx, params[6], 2, NULL))); int i5=*MF_GetAmxAddr(amx, params[5]); int i7=*MF_GetAmxAddr(amx, params[7]); int i8=*MF_GetAmxAddr(amx, params[8]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, sz3, sz4, i5, sz6, i7, i8); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, sz3, sz4, i5, sz6, i7, i8); #endif } cell Call_Int_Int_Int_Float_Int(AMX* amx, cell* params) { SETUP(4); int i3=*MF_GetAmxAddr(amx, params[3]); int i4=*MF_GetAmxAddr(amx, params[4]); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int i6=*MF_GetAmxAddr(amx, params[6]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, i3, i4, f5, i6); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, i3, i4, f5, i6); #endif } cell Call_Void_Str_Int(AMX *amx, cell *params) { SETUP(2); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); int i4=*MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3, i4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3, i4); #endif return 1; } cell Call_Void_Cbase_Int(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *p8=IndexToPrivate(id3); int i4=*MF_GetAmxAddr(amx, params[4]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, p8, i4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, p8, i4); #endif return 1; } cell Call_Void_Str(AMX *amx, cell *params) { SETUP(1); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3); #endif return 1; } cell Call_Void_Vector(AMX *amx, cell *params) { SETUP(1); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, v3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, v3); #endif return 1; } cell Call_Int_Str_Vector_Str(AMX* amx, cell* params) { SETUP(3); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); char *sz5=MF_GetAmxString(amx, params[5], 1, NULL); Vector v4; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, sz3, v4, sz5); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, sz3, v4, sz5); #endif } cell Call_Int_Str_Str(AMX* amx, cell* params) { SETUP(2); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); char *sz4=MF_GetAmxString(amx, params[4], 1, NULL); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, sz3, sz4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, sz3, sz4); #endif } cell Call_Void_Float_Float(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, f3, f4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, f3, f4); #endif return 1; } cell Call_Void_Str_Str_Int(AMX *amx, cell *params) { SETUP(3); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); char *sz4=MF_GetAmxString(amx, params[4], 1, NULL); int i5=*MF_GetAmxAddr(amx, params[5]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, sz3, sz4, i5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, sz3, sz4, i5); #endif return 1; } cell Call_Int_pVector_pVector_Cbase_pFloat(AMX *amx, cell *params) { SETUP(4); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; int id5=*MF_GetAmxAddr(amx, params[5]); CHECK_ENTITY(id5); void *p5=IndexToPrivate(id5); float f6; #if defined(_WIN32) int ret=reinterpret_cast(__func)(pv, 0, &v3, &v4, p5, &f6); #elif defined(__linux__) || defined(__APPLE__) int ret=reinterpret_cast(__func)(pv, &v3, &v4, p5, &f6); #endif fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; *MF_GetAmxAddr(amx, params[6]) = amx_ftoc2(f6); return ret; } cell Call_Void_Cbase_pVector_Float(AMX *amx, cell *params) { SETUP(3); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *i3=IndexToPrivate(id3); Vector v4; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3, &v4, f5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3, &v4, f5); #endif fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; return 1; } cell Call_Int_pVector_pVector_Float_Cbase_pVector(AMX *amx, cell *params) { SETUP(5); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int id6=*MF_GetAmxAddr(amx, params[6]); CHECK_ENTITY(id6); void *p6=IndexToPrivate(id6); Vector v7; float *fl7=(float *)MF_GetAmxAddr(amx, params[7]); v7.x=fl7[0]; v7.y=fl7[1]; v7.z=fl7[2]; #if defined(_WIN32) int ret=reinterpret_cast(__func)(pv, 0, &v3, &v4, f5, p6, &v7); #elif defined(__linux__) || defined(__APPLE__) int ret=reinterpret_cast(__func)(pv, &v3, &v4, f5, p6, &v7); #endif fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; fl7[0]=v7.x; fl7[1]=v7.y; fl7[2]=v7.z; return ret; } cell Call_Int_Cbase_Bool(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *pv1=(INDEXENT_NEW(id3)->pvPrivateData); bool b4=*MF_GetAmxAddr(amx, params[4]) ? true : false; #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, pv1, b4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, pv1, b4); #endif } cell Call_Int_Vector_Vector(AMX *amx, cell *params) { SETUP(2); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, v3, v4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, v3, v4); #endif } cell Call_Int_Entvar_Float(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, ev3, f4); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, ev3, f4); #endif } cell Call_Float_Float(AMX *amx, cell *params) { SETUP(2); float f3=amx_ctof2(*MF_GetAmxAddr(amx, params[3])); #if defined(_WIN32) float ret=reinterpret_cast(__func)(pv, 0, f3); #elif defined(__linux__) || defined(__APPLE__) float ret=reinterpret_cast(__func)(pv, f3); #endif *MF_GetAmxAddr(amx, params[4])=amx_ftoc2(ret); return 1; } cell Call_Void_Entvar_Entvar_Float(AMX *amx, cell *params) { SETUP(3); int id3=*MF_GetAmxAddr(amx, params[3]); int id4=*MF_GetAmxAddr(amx, params[4]); float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); CHECK_ENTITY(id3); CHECK_ENTITY(id4); entvars_t *ev3=&(INDEXENT_NEW(id3)->v); entvars_t *ev4=&(INDEXENT_NEW(id4)->v); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, ev3, ev4, f5); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, ev3, ev4, f5); #endif return 1; } cell Call_Bool_Void(AMX *amx, cell *params) { SETUP(0); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv); #endif } cell Call_Int_pVector_pVector_Float_Cbase_pVector_pVector_Bool(AMX *amx, cell *params) { SETUP(7); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; float f5=amx_ctof2(*MF_GetAmxAddr(amx, params[5])); int id6=*MF_GetAmxAddr(amx, params[6]); CHECK_ENTITY(id6); void *p6=IndexToPrivate(id6); Vector v7; float *fl7=(float *)MF_GetAmxAddr(amx, params[7]); v7.x=fl7[0]; v7.y=fl7[1]; v7.z=fl7[2]; Vector v8; float *fl8=(float *)MF_GetAmxAddr(amx, params[8]); v8.x=fl8[0]; v8.y=fl8[1]; v8.z=fl8[2]; bool b9=*MF_GetAmxAddr(amx, params[9]) > 0; #if defined(_WIN32) int ret=reinterpret_cast(__func)(pv, 0, &v3, &v4, f5, p6, &v7, &v8, b9); #elif defined(__linux__) || defined(__APPLE__) int ret=reinterpret_cast(__func)(pv, &v3, &v4, f5, p6, &v7, &v8, b9); #endif fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; fl7[0]=v7.x; fl7[1]=v7.y; fl7[2]=v7.z; fl8[0]=v8.x; fl8[1]=v8.y; fl8[2]=v8.z; return ret; } cell Call_Int_Vector_Cbase(AMX *amx, cell *params) { SETUP(2); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; int id4=*MF_GetAmxAddr(amx, params[4]); CHECK_ENTITY(id4); void *p4=IndexToPrivate(id4); #if defined(_WIN32) int ret=reinterpret_cast(__func)(pv, 0, v3, p4); #elif defined(__linux__) || defined(__APPLE__) int ret=reinterpret_cast(__func)(pv, v3, p4); #endif fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; return ret; } cell Call_Int_Vector(AMX *amx, cell *params) { SETUP(1); Vector v3; Vector v4; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, v3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, v3); #endif } cell Call_Int_Cbase_pVector(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *pv1=(INDEXENT_NEW(id3)->pvPrivateData); Vector v4; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; #if defined(_WIN32) int ret = reinterpret_cast(__func)(pv, 0, pv1, &v4); #elif defined(__linux__) || defined(__APPLE__) int ret = reinterpret_cast(__func)(pv, pv1, &v4); #endif fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; return ret; } cell Call_Void_Bool(AMX *amx, cell *params) { SETUP(1); bool b3=*MF_GetAmxAddr(amx, params[3]) ? true : false; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, b3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, b3); #endif return 1; } cell Call_Bool_Cbase(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *pv1=(INDEXENT_NEW(id3)->pvPrivateData); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, pv1); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, pv1); #endif } cell Call_Bool_Int(AMX *amx, cell *params) { SETUP(1); int id3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) return reinterpret_cast(__func)(pv, 0, id3); #elif defined(__linux__) || defined(__APPLE__) return reinterpret_cast(__func)(pv, id3); #endif } cell Call_Void_Cbase_Float(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *p8=IndexToPrivate(id3); float f4=amx_ctof2(*MF_GetAmxAddr(amx, params[4])); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, p8, f4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, p8, f4); #endif return 1; } cell Call_Void_Cbase_Bool(AMX *amx, cell *params) { SETUP(2); int id3=*MF_GetAmxAddr(amx, params[3]); CHECK_ENTITY(id3); void *p8=IndexToPrivate(id3); bool b4=*MF_GetAmxAddr(amx, params[4]) ? true : false; #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, p8, b4); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, p8, b4); #endif return 1; } cell Call_Vector_Vector_Vector_Vector(AMX *amx, cell *params) { SETUP(4); Vector v3; float *fl3=(float *)MF_GetAmxAddr(amx, params[3]); v3.x=fl3[0]; v3.y=fl3[1]; v3.z=fl3[2]; Vector v4; float *fl4=(float *)MF_GetAmxAddr(amx, params[4]); v4.x=fl4[0]; v4.y=fl4[1]; v4.z=fl4[2]; Vector v5; float *fl5=(float *)MF_GetAmxAddr(amx, params[5]); v5.x=fl5[0]; v5.y=fl5[1]; v5.z=fl5[2]; #if defined(_WIN32) Vector ret; reinterpret_cast(__func)(pv, 0, &ret, v3, v4, v5); #elif defined(__linux__) || defined(__APPLE__) Vector ret=reinterpret_cast(__func)(pv, v3, v4, v5); #endif float *out=(float *)MF_GetAmxAddr(amx, params[6]); out[0]=ret.x; out[1]=ret.y; out[2]=ret.z; fl3[0]=v3.x; fl3[1]=v3.y; fl3[2]=v3.z; fl4[0]=v4.x; fl4[1]=v4.y; fl4[2]=v4.z; fl5[0]=v5.x; fl5[1]=v5.y; fl5[2]=v5.z; return 1; } cell Call_Str_Str(AMX *amx, cell *params) { SETUP(3); char *sz3=MF_GetAmxString(amx, params[3], 0, NULL); #if defined(_WIN32) char *v=reinterpret_cast(__func)(pv, 0, sz3); #elif defined(__linux__) || defined(__APPLE__) char *v=reinterpret_cast(__func)(pv, sz3); #endif return MF_SetAmxString(amx, params[4], v == NULL ? "" : v, *MF_GetAmxAddr(amx, params[5])); } cell Call_Void_Short(AMX *amx, cell *params) { SETUP(1); short i3=*MF_GetAmxAddr(amx, params[3]); #if defined(_WIN32) reinterpret_cast(__func)(pv, 0, i3); #elif defined(__linux__) || defined(__APPLE__) reinterpret_cast(__func)(pv, i3); #endif return 1; } cell Call_Deprecated(AMX *amx, cell *params) { MF_LogError(amx, AMX_ERR_NATIVE, "Ham function is deprecated."); return 0; }