amxmodx/dlls/fakemeta/engfunc.cpp
Scott Ehlert ed19c53552 More bugs?
1) New hookable GameDLL func: CreateBaseline
2) New hookable Engine func: CreateInstancedBaseline
3) New GameDLL func that can be called via dllfunc: CreateBaseline
4) New GameDLL func that can be called via engfunc: CreateInstancedBaseline
2006-05-05 08:04:19 +00:00

1052 lines
32 KiB
C++
Executable File

#include "fakemeta_amxx.h"
TraceResult g_tr;
//by mahnsawce from his NS module
static cell AMX_NATIVE_CALL engfunc(AMX *amx, cell *params)
{
// Variables I will need throughout all the different calls.
int type = params[1];
// LOG_CONSOLE(PLID,"Called: %i %i",type,*params/sizeof(cell));
int len;
char *temp;
char *temp2;
char *temp3;
cell *cRet;
vec3_t Vec1;
vec3_t Vec2;
vec3_t Vec3;
vec3_t Vec4;
int iparam1;
int iparam2;
int iparam3;
int iparam4;
int iparam5;
int iparam6;
float fparam1;
float fparam2;
float fparam3;
// float fTemp[3];
int index;
unsigned char *pset;
edict_t *pRet=NULL;
// Now start calling.. :/
switch (type)
{
// pfnPrecacheModel
case EngFunc_PrecacheModel: // int ) (char* s);
temp = MF_GetAmxString(amx,params[2],0,&len);
if (temp[0]==0)
return 0;
return (*g_engfuncs.pfnPrecacheModel)((char*)STRING(ALLOC_STRING(temp)));
// pfnPrecacheSound
case EngFunc_PrecacheSound: // int ) (char* s);
temp = MF_GetAmxString(amx,params[2],0,&len);
if (temp[0]==0)
return 0;
return (*g_engfuncs.pfnPrecacheSound)((char*)STRING(ALLOC_STRING(temp)));
// pfnSetModel
case EngFunc_SetModel: // void ) (edict_t *e, const char *m);
temp = MF_GetAmxString(amx,params[3],0,&len);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnSetModel)(INDEXENT2(index),(char*)STRING(ALLOC_STRING(temp)));
return 1;
// pfnModelIndex
case EngFunc_ModelIndex:
temp = MF_GetAmxString(amx,params[2],0,&len);
return (*g_engfuncs.pfnModelIndex)(temp);
// pfnModelFrames
case EngFunc_ModelFrames: // int ) (int modelIndex);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
return (*g_engfuncs.pfnModelFrames)(index);
// pfnSetSize
case EngFunc_SetSize: // void ) (edict_t *e, const float *rgflMin, const float *rgflMax);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
(*g_engfuncs.pfnSetSize)(INDEXENT2(index),Vec1,Vec2);
return 1;
// pfnChangeLevel (is this needed?)
case EngFunc_ChangeLevel: // void ) (char* s1, char* s2);
temp = MF_GetAmxString(amx,params[2],0,&len);
temp2 = MF_GetAmxString(amx,params[3],1,&len);
(*g_engfuncs.pfnChangeLevel)(temp,temp2);
return 1;
// pfnVecToYaw
case EngFunc_VecToYaw: // float) (const float *rgflVector);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1= (*g_engfuncs.pfnVecToYaw)(Vec1);
cRet[0] = amx_ftoc(fparam1);
return 1;
// pfnVecToAngles
case EngFunc_VecToAngles: // void ) (const float *rgflVectorIn, float *rgflVectorOut);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
(*g_engfuncs.pfnVecToAngles)(Vec1,Vec2);
cRet = MF_GetAmxAddr(amx,params[3]);
cRet[0]=amx_ftoc(Vec2[0]);
cRet[1]=amx_ftoc(Vec2[1]);
cRet[2]=amx_ftoc(Vec2[2]);
return 1;
// pfnMoveToOrigin
case EngFunc_MoveToOrigin: // void ) (edict_t *ent, const float *pflGoal, float dist, int iMoveType);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam1=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[5]);
iparam1=cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnMoveToOrigin)(INDEXENT2(index),Vec1,fparam1,iparam1);
return 1;
// pfnChangeYaw
case EngFunc_ChangeYaw: // void ) (edict_t* ent);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnChangeYaw)(INDEXENT2(index));
return 1;
// pfnChangePitch
case EngFunc_ChangePitch: // void ) (edict_t* ent);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnChangePitch)(INDEXENT2(index));
return 1;
// pfnFindEntityByString
case EngFunc_FindEntityByString: // edict) (edict_t *pEdictStartSearchAfter, const char *pszField, const char *pszValue);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
temp = MF_GetAmxString(amx,params[3],0,&len);
temp2 = MF_GetAmxString(amx,params[4],1,&len);
pRet = (*g_engfuncs.pfnFindEntityByString)(index == -1 ? NULL : INDEXENT2(index),temp,temp2);
if (pRet)
return ENTINDEX(pRet);
return -1;
// pfnGetEntityIllum
case EngFunc_GetEntityIllum: // int ) (edict_t* pEnt);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
return (*g_engfuncs.pfnGetEntityIllum)(INDEXENT2(index));
// pfnFindEntityInSphere
case EngFunc_FindEntityInSphere: // edict) (edict_t *pEdictStartSearchAfter, const float *org, float rad);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam1 = amx_ctof(cRet[0]);
pRet = (*g_engfuncs.pfnFindEntityInSphere)(index == -1 ? NULL : INDEXENT2(index),Vec1,fparam1);
if (pRet)
return ENTINDEX(pRet);
return -1;
// pfnFindClientsInPVS
case EngFunc_FindClientInPVS: // edict) (edict_t *pEdict);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
pRet=(*g_engfuncs.pfnFindClientInPVS)(INDEXENT2(index));
return ENTINDEX(pRet);
// pfnEntitiesInPVS
case EngFunc_EntitiesInPVS: // edict) (edict_t *pplayer);
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
pRet=(*g_engfuncs.pfnEntitiesInPVS)(INDEXENT2(index));
return ENTINDEX(pRet);
// pfnMakeVectors
case EngFunc_MakeVectors: // void ) (const float *rgflVector);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
(*g_engfuncs.pfnMakeVectors)(Vec1);
return 1;
// pfnAngleVectors
case EngFunc_AngleVectors: // void ) (const float *rgflVector, float *forward, float *right, float *up);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
(*g_engfuncs.pfnAngleVectors)(Vec1,Vec2,Vec3,Vec4);
cRet = MF_GetAmxAddr(amx,params[3]);
cRet[0] = amx_ftoc(Vec2[0]);
cRet[1] = amx_ftoc(Vec2[1]);
cRet[2] = amx_ftoc(Vec2[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
cRet[0] = amx_ftoc(Vec3[0]);
cRet[1] = amx_ftoc(Vec3[1]);
cRet[2] = amx_ftoc(Vec3[2]);
cRet = MF_GetAmxAddr(amx,params[5]);
cRet[0] = amx_ftoc(Vec4[0]);
cRet[1] = amx_ftoc(Vec4[1]);
cRet[2] = amx_ftoc(Vec4[2]);
return 1;
// pfnCreateEntity
case EngFunc_CreateEntity: // edict) (void);
pRet = (*g_engfuncs.pfnCreateEntity)();
if (pRet)
return ENTINDEX(pRet);
return 0;
// pfnRemoveEntity
case EngFunc_RemoveEntity: // void ) (edict_t* e);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
if (index == 0)
return 0;
(*g_engfuncs.pfnRemoveEntity)(INDEXENT2(index));
return 1;
// pfnCreateNamedEntity
case EngFunc_CreateNamedEntity: // edict) (int className);
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
pRet = (*g_engfuncs.pfnCreateNamedEntity)(iparam1);
if (pRet)
return ENTINDEX(pRet);
return 0;
// pfnMakeStatic
case EngFunc_MakeStatic: // void ) (edict_t *ent);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnMakeStatic)(INDEXENT2(index));
return 1;
// pfnEntIsOnFloor
case EngFunc_EntIsOnFloor: // int ) (edict_t *e);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
return (*g_engfuncs.pfnEntIsOnFloor)(INDEXENT2(index));
// pfnDropToFloor
case EngFunc_DropToFloor: // int ) (edict_t* e);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
return (*g_engfuncs.pfnDropToFloor)(INDEXENT2(index));
// pfnWalkMove
case EngFunc_WalkMove: // int ) (edict_t *ent, float yaw, float dist, int iMode);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam2 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[5]);
iparam1 = cRet[0];
return (*g_engfuncs.pfnWalkMove)(INDEXENT2(index),fparam1,fparam2,iparam1);
// pfnSetOrigin
case EngFunc_SetOrigin: // void ) (edict_t *e, const float *rgflOrigin);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
(*g_engfuncs.pfnSetOrigin)(INDEXENT2(index),Vec1);
return 1;
// pfnEmitSound
case EngFunc_EmitSound: // void ) (edict_t *entity, int channel, const char *sample, /*int*/float volume, float attenuation, int fFlags, int pitch);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1=cRet[0];
temp = MF_GetAmxString(amx,params[4],0,&len);
cRet = MF_GetAmxAddr(amx,params[5]);
fparam1=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
fparam2=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[7]);
iparam2=cRet[0];
cRet = MF_GetAmxAddr(amx,params[8]);
iparam3=cRet[0];
(*g_engfuncs.pfnEmitSound)(INDEXENT2(index),iparam1,temp,fparam1,fparam2,iparam2,iparam3);
return 1;
// pfnEmitAmbientSound
case EngFunc_EmitAmbientSound: // void ) (edict_t *entity, float *pos, const char *samp, float vol, float attenuation, int fFlags, int pitch);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
temp = MF_GetAmxString(amx,params[4],0,&len);
cRet = MF_GetAmxAddr(amx,params[5]);
fparam1=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
fparam2=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[7]);
iparam1=cRet[0];
cRet = MF_GetAmxAddr(amx,params[8]);
iparam2=cRet[0];
(*g_engfuncs.pfnEmitAmbientSound)(INDEXENT2(index),Vec1,temp,fparam1,fparam2,iparam1,iparam2);
return 1;
// pfnTraceLine
case EngFunc_TraceLine: // void ) (const float *v1, const float *v2, int fNoMonsters, edict_t *pentToSkip, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
iparam1=cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
index=cRet[0];
TraceResult *tr;
if ((params[0] / sizeof(cell)) == 6)
{
cell *ptr = MF_GetAmxAddr(amx, params[6]);
if (*ptr == 0)
tr = &g_tr_2;
else
tr = reinterpret_cast<TraceResult *>(*ptr);
} else {
tr = &g_tr;
}
(*g_engfuncs.pfnTraceLine)(Vec1,Vec2,iparam1,index != -1 ? INDEXENT2(index) : NULL, tr);
return 1;
// pfnTraceToss
case EngFunc_TraceToss: // void ) (edict_t* pent, edict_t* pentToIgnore, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1 = cRet[0];
CHECK_ENTITY(index);
if ((params[0] / sizeof(cell)) == 4)
{
cell *ptr = MF_GetAmxAddr(amx, params[4]);
if (*ptr == 0)
tr = &g_tr_2;
else
tr = reinterpret_cast<TraceResult *>(*ptr);
} else {
tr = &g_tr;
}
(*g_engfuncs.pfnTraceToss)(INDEXENT2(index),iparam1 == -1 ? NULL : INDEXENT2(iparam1),tr);
return 1;
// pfnTraceMonsterHull
case EngFunc_TraceMonsterHull: // int ) (edict_t *pEdict, const float *v1, const float *v2, int fNoMonsters, edict_t *pentToSkip, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[5]);
iparam1=cRet[0];
cRet = MF_GetAmxAddr(amx,params[6]);
iparam2=cRet[0];
if ((params[0] / sizeof(cell)) == 7)
{
cell *ptr = MF_GetAmxAddr(amx, params[7]);
if (*ptr == 0)
tr = &g_tr_2;
else
tr = reinterpret_cast<TraceResult *>(*ptr);
} else {
tr = &g_tr;
}
(*g_engfuncs.pfnTraceMonsterHull)(INDEXENT2(index),Vec1,Vec2,iparam1,iparam2 == 0 ? NULL : INDEXENT2(iparam2),tr);
return 1;
// pfnTraceHull
case EngFunc_TraceHull: // void ) (const float *v1, const float *v2, int fNoMonsters, int hullNumber, edict_t *pentToSkip, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[6]);
iparam3 = cRet[0];
if ((params[0] / sizeof(cell)) == 7)
{
cell *ptr = MF_GetAmxAddr(amx, params[7]);
if (*ptr == 0)
tr = &g_tr_2;
else
tr = reinterpret_cast<TraceResult *>(*ptr);
} else {
tr = &g_tr;
}
(*g_engfuncs.pfnTraceHull)(Vec1,Vec2,iparam1,iparam2,iparam3 == 0 ? 0 : INDEXENT2(iparam3),tr);
return 1;
// pfnTraceModel
case EngFunc_TraceModel: // void ) (const float *v1, const float *v2, int hullNumber, edict_t *pent, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
iparam2 = cRet[0];
if ((params[0] / sizeof(cell)) == 6)
{
cell *ptr = MF_GetAmxAddr(amx, params[6]);
if (*ptr == 0)
tr = &g_tr_2;
else
tr = reinterpret_cast<TraceResult *>(*ptr);
} else {
tr = &g_tr;
}
(*g_engfuncs.pfnTraceModel)(Vec1,Vec2,iparam1,iparam2 == 0 ? NULL : INDEXENT2(iparam2),tr);
return 1;
// pfnTraceTexture
case EngFunc_TraceTexture: // const char *) (edict_t *pTextureEntity, const float *v1, const float *v2 );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
temp = (char*)(*g_engfuncs.pfnTraceTexture)(INDEXENT2(index),Vec1,Vec2);
cRet = MF_GetAmxAddr(amx,params[6]);
MF_SetAmxString(amx, params[5], temp, cRet[0]);
return 1;
// pfnTraceSphere
case EngFunc_TraceSphere: // void ) (const float *v1, const float *v2, int fNoMonsters, float radius, edict_t *pentToSkip, TraceResult *ptr);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
fparam1 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
index = cRet[0];
(*g_engfuncs.pfnTraceSphere)(Vec1,Vec2,iparam1,fparam1,index == 0 ? NULL : INDEXENT2(index),&g_tr);
return 1;
// pfnGetAimVector
case EngFunc_GetAimVector: // void ) (edict_t* ent, float speed, float *rgflReturn);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnGetAimVector)(INDEXENT2(index),fparam1,Vec1);
cRet = MF_GetAmxAddr(amx,params[4]);
cRet[0] = amx_ftoc(Vec1[0]);
cRet[1] = amx_ftoc(Vec1[1]);
cRet[2] = amx_ftoc(Vec1[2]);
return 1;
// pfnParticleEffect
case EngFunc_ParticleEffect: // void ) (const float *org, const float *dir, float color, float count);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam1=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[5]);
fparam2=amx_ctof(cRet[0]);
(*g_engfuncs.pfnParticleEffect)(Vec1,Vec2,fparam1,fparam2);
return 1;
// pfnLightStyle
case EngFunc_LightStyle: // void ) (int style, char* val);
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1=cRet[0];
temp = MF_GetAmxString(amx,params[3],0,&len);
(*g_engfuncs.pfnLightStyle)(iparam1,temp);
return 1;
// pfnDecalIndex
case EngFunc_DecalIndex: // int ) (const char *name);
temp = MF_GetAmxString(amx,params[2],0,&len);
return (*g_engfuncs.pfnDecalIndex)(temp);
// pfnPointContents
case EngFunc_PointContents: // int ) (const float *rgflVector);
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
return (*g_engfuncs.pfnPointContents)(Vec1);
// pfnFreeEntPrivateData
case EngFunc_FreeEntPrivateData: // void ) (edict_t *pEdict);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
(*g_engfuncs.pfnFreeEntPrivateData)(INDEXENT2(index));
return 1;
// pfnSzFromIndex
case EngFunc_SzFromIndex: // const char * ) (int iString);
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
temp = (char*)(*g_engfuncs.pfnSzFromIndex)(iparam1);
cRet = MF_GetAmxAddr(amx,params[4]);
MF_SetAmxString(amx, params[3], temp, cRet[0]);
return 1;
// pfnAllocString
case EngFunc_AllocString: // int ) (const char *szValue);
temp = MF_GetAmxString(amx,params[2],0,&len);
return (*g_engfuncs.pfnAllocString)((const char *)temp);
// pfnRegUserMsg
case EngFunc_RegUserMsg: // int ) (const char *pszName, int iSize);
temp = MF_GetAmxString(amx,params[2],0,&len);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1 = cRet[0];
return (*g_engfuncs.pfnRegUserMsg)(temp,iparam1);
// pfnAnimationAutomove
case EngFunc_AnimationAutomove: // void ) (const edict_t* pEdict, float flTime);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnAnimationAutomove)(INDEXENT2(index),fparam1);
return 1;
// pfnGetBonePosition
case EngFunc_GetBonePosition: // void ) (const edict_t* pEdict, int iBone, float *rgflOrigin, float *rgflAngles );
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1=cRet[0];
(*g_engfuncs.pfnGetBonePosition)(INDEXENT2(index),iparam1,Vec1,Vec2);
cRet = MF_GetAmxAddr(amx,params[4]);
cRet[0]=amx_ftoc(Vec1[0]);
cRet[1]=amx_ftoc(Vec1[1]);
cRet[2]=amx_ftoc(Vec1[2]);
cRet = MF_GetAmxAddr(amx,params[5]);
cRet[0]=amx_ftoc(Vec2[0]);
cRet[1]=amx_ftoc(Vec2[1]);
cRet[2]=amx_ftoc(Vec2[2]);
return 1;
// pfnGetAttachment
case EngFunc_GetAttachment: // void ) (const edict_t *pEdict, int iAttachment, float *rgflOrigin, float *rgflAngles );
cRet = MF_GetAmxAddr(amx,params[2]);
index=cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1=cRet[0];
(*g_engfuncs.pfnGetAttachment)(INDEXENT2(index),iparam1,Vec1,Vec2);
cRet = MF_GetAmxAddr(amx,params[4]);
cRet[0]=amx_ftoc(Vec1[0]);
cRet[1]=amx_ftoc(Vec1[1]);
cRet[2]=amx_ftoc(Vec1[2]);
cRet = MF_GetAmxAddr(amx,params[5]);
cRet[0]=amx_ftoc(Vec2[0]);
cRet[1]=amx_ftoc(Vec2[1]);
cRet[2]=amx_ftoc(Vec2[2]);
return 1;
// pfnSetView
case EngFunc_SetView: // void ) (const edict_t *pClient, const edict_t *pViewent );
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam2 = cRet[0];
CHECK_ENTITY(iparam1);
CHECK_ENTITY(iparam2);
(*g_engfuncs.pfnSetView)(INDEXENT2(iparam1),INDEXENT2(iparam2));
return 1;
// pfnTime
case EngFunc_Time: // float) ( void );
fparam1 = (*g_engfuncs.pfnTime)();
return amx_ftoc(fparam1);
// pfnCrosshairAngle
case EngFunc_CrosshairAngle: // void ) (const edict_t *pClient, float pitch, float yaw);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam2 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnCrosshairAngle)(INDEXENT2(index),fparam1,fparam2);
return 1;
// pfnFadeClientVolume
case EngFunc_FadeClientVolume: // void ) (const edict_t *pEdict, int fadePercent, int fadeOutSeconds, int holdTime, int fadeInSeconds);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[4]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
iparam3 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[6]);
iparam4 = cRet[0];
(*g_engfuncs.pfnFadeClientVolume)(INDEXENT2(index),iparam1,iparam2,iparam3,iparam4);
return 1;
// pfnSetClientMaxSpeed
case EngFunc_SetClientMaxspeed: // void ) (const edict_t *pEdict, float fNewMaxspeed);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
fparam1 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnSetClientMaxspeed)(INDEXENT2(index),fparam1);
return 1;
// pfnCreateFakeClient
case EngFunc_CreateFakeClient: // edict) (const char *netname); // returns NULL if fake client can't be created
temp = MF_GetAmxString(amx,params[2],0,&len);
pRet = (*g_engfuncs.pfnCreateFakeClient)(STRING(ALLOC_STRING(temp)));
if (pRet == 0)
return 0;
return ENTINDEX(pRet);
// pfnRunPlayerMove
case EngFunc_RunPlayerMove: // void ) (edict_t *fakeclient, const float *viewangles, float forwardmove, float sidemove, float upmove, unsigned short buttons, byte impulse, byte msec );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[4]);
fparam1=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[5]);
fparam2=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
fparam3=amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[7]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[8]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[9]);
iparam3 = cRet[0];
(*g_engfuncs.pfnRunPlayerMove)(INDEXENT2(index),Vec1,fparam1,fparam2,fparam3,iparam1,iparam2,iparam3);
return 1;
// pfnNumberOfEntities
case EngFunc_NumberOfEntities: // int ) (void);
return (*g_engfuncs.pfnNumberOfEntities)();
// pfnStaticDecal
case EngFunc_StaticDecal: // void ) ( const float *origin, int decalIndex, int entityIndex, int modelIndex );
cRet = MF_GetAmxAddr(amx,params[2]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[4]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
iparam3 = cRet[0];
(*g_engfuncs.pfnStaticDecal)(Vec1,iparam1,iparam2,iparam3);
return 1;
// pfnPrecacheGeneric
case EngFunc_PrecacheGeneric: // int ) (char* s);
temp = MF_GetAmxString(amx,params[2],0,&len);
return (*g_engfuncs.pfnPrecacheGeneric)((char*)STRING(ALLOC_STRING(temp)));
// pfnBuildSoundMsg
case EngFunc_BuildSoundMsg: // void ) (edict_t *entity, int channel, const char *sample, /*int*/float volume, float attenuation, int fFlags, int pitch, int msg_dest, int msg_type, const float *pOrigin, edict_t *ed);
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[3]);
iparam1 = cRet[0];
temp = MF_GetAmxString(amx,params[4],0,&len);
cRet = MF_GetAmxAddr(amx,params[5]);
fparam1 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
fparam2 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[7]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[8]);
iparam3 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[9]);
iparam4 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[10]);
iparam5 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[11]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet=MF_GetAmxAddr(amx,params[12]);
iparam6=cRet[0];
/* don't check, it might not be included
CHECK_ENTITY(iparam5);
*/
(*g_engfuncs.pfnBuildSoundMsg)(INDEXENT2(index),iparam1,temp,fparam1,fparam2,iparam2,iparam3,iparam4,iparam5,Vec1,iparam6 == 0 ? NULL : INDEXENT2(iparam6));
return 1;
// pfnGetPhysicsKeyValue
case EngFunc_GetPhysicsKeyValue: // const char* ) ( const edict_t *pClient, const char *key );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
temp = MF_GetAmxString(amx,params[3],0,&len);
temp2 = (char*)(*g_engfuncs.pfnGetPhysicsKeyValue)(INDEXENT2(index),(const char *)temp);
cRet = MF_GetAmxAddr(amx,params[5]);
MF_SetAmxString(amx,params[4],temp2,cRet[0]);
return 1;
// pfnSetPhysicsKeyValue
case EngFunc_SetPhysicsKeyValue: // void ) ( const edict_t *pClient, const char *key, const char *value );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
temp = MF_GetAmxString(amx,params[3],0,&len);
temp2 = MF_GetAmxString(amx,params[4],1,&len);
(*g_engfuncs.pfnSetPhysicsKeyValue)(INDEXENT2(index),STRING(ALLOC_STRING(temp)),STRING(ALLOC_STRING(temp2)));
return 1;
// pfnGetPhysicsInfoString
case EngFunc_GetPhysicsInfoString: // const char* ) ( const edict_t *pClient );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
temp = (char*)(*g_engfuncs.pfnGetPhysicsInfoString)(INDEXENT2(index));
cRet = MF_GetAmxAddr(amx,params[4]);
MF_SetAmxString(amx,params[3],temp,cRet[0]);
return 1;
// pfnPrecacheEvent
case EngFunc_PrecacheEvent: // unsigned short ) ( int type, const char*psz );
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
temp = MF_GetAmxString(amx,params[3],0,&len);
return (*g_engfuncs.pfnPrecacheEvent)(iparam1,(char*)STRING(ALLOC_STRING(temp)));
// pfnPlaybackEvent (grr)
case EngFunc_PlaybackEvent: // void )
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx,params[4]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
fparam1 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[6]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[7]);
Vec2[0]=amx_ctof(cRet[0]);
Vec2[1]=amx_ctof(cRet[1]);
Vec2[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[8]);
fparam2 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[9]);
fparam3 = amx_ctof(cRet[0]);
cRet = MF_GetAmxAddr(amx,params[10]);
iparam3 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[11]);
iparam4 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[12]);
iparam5 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[13]);
iparam6 = cRet[0];
(*g_engfuncs.pfnPlaybackEvent)(iparam1,INDEXENT2(index),iparam2,fparam1,Vec1,Vec2,fparam2,fparam3,iparam3,iparam4,iparam5,iparam6);
return 1;
//pfnCheckVisibility
case EngFunc_CheckVisibility: // int ) ( const edict_t *entity, unsigned char *pset );
cRet = MF_GetAmxAddr(amx, params[2]);
index = cRet[0];
CHECK_ENTITY(index);
cRet = MF_GetAmxAddr(amx, params[3]);
pset = (unsigned char *)cRet[0];
return (*g_engfuncs.pfnCheckVisibility)(INDEXENT2(index), pset);
// pfnGetCurrentPlayer
case EngFunc_GetCurrentPlayer: // int ) ( void );
return (*g_engfuncs.pfnGetCurrentPlayer)();
// pfnCanSkipPlayer
case EngFunc_CanSkipPlayer: // int ) ( const edict_t *player );
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
CHECK_ENTITY(index);
return (*g_engfuncs.pfnCanSkipPlayer)(INDEXENT2(index));
// pfnSetGroupMask
case EngFunc_SetGroupMask: // void ) ( int mask, int op );
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam2 = cRet[0];
(*g_engfuncs.pfnSetGroupMask)(iparam1,iparam2);
return 1;
// pfnGetClientListening
case EngFunc_GetClientListening: // bool (int iReceiver, int iSender)
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam2 = cRet[0];
return (*g_engfuncs.pfnVoice_GetClientListening)(iparam1,iparam2);
// pfnSetClientListening
case EngFunc_SetClientListening: // bool (int iReceiver, int iSender, bool Listen)
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[4]);
iparam3 = cRet[0];
return (*g_engfuncs.pfnVoice_SetClientListening)(iparam1,iparam2,iparam3);
// pfnMessageBegin (AMX doesn't support MSG_ONE_UNRELIABLE, so I should add this incase anyone needs it.)
case EngFunc_MessageBegin: // void (int msg_dest, int msg_type, const float *pOrigin, edict_t *ed)
cRet = MF_GetAmxAddr(amx,params[2]);
iparam1 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[3]);
iparam2 = cRet[0];
cRet = MF_GetAmxAddr(amx,params[4]);
Vec1[0]=amx_ctof(cRet[0]);
Vec1[1]=amx_ctof(cRet[1]);
Vec1[2]=amx_ctof(cRet[2]);
cRet = MF_GetAmxAddr(amx,params[5]);
index = cRet[0];
(*g_engfuncs.pfnMessageBegin)(iparam1,iparam2,Vec1,index == 0 ? NULL : INDEXENT2(index));
return 1;
// pfnWriteCoord
case EngFunc_WriteCoord: // void (float)
cRet = MF_GetAmxAddr(amx,params[2]);
fparam1 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnWriteCoord)(fparam1);
return 1;
// pfnWriteAngle
case EngFunc_WriteAngle: // void (float)
cRet = MF_GetAmxAddr(amx,params[2]);
fparam1 = amx_ctof(cRet[0]);
(*g_engfuncs.pfnWriteAngle)(fparam1);
return 1;
case EngFunc_InfoKeyValue: // char* ) (char *infobuffer, char *key);
// Modify the syntax a bit.
// index, key
cRet = MF_GetAmxAddr(amx,params[2]);
index = cRet[0];
cRet = MF_GetAmxAddr(amx,params[5]);
iparam1 = cRet[0];
CHECK_ENTITY(index);
temp2 = MF_GetAmxString(amx,params[3],0,&len);
temp = (*g_engfuncs.pfnInfoKeyValue)((*g_engfuncs.pfnGetInfoKeyBuffer)(INDEXENT2(index)),temp2);
MF_SetAmxString(amx,params[4],temp,iparam1);
return 1;
case EngFunc_SetKeyValue: // void ) (char *infobuffer, char *key, char *value);
temp3 = MF_GetAmxString(amx, params[2], 0, &len);
temp = MF_GetAmxString(amx, params[3], 1, &len);
temp2 = MF_GetAmxString(amx, params[4], 2, &len);
(*g_engfuncs.pfnSetKeyValue)(temp3, temp, temp2);
return 1;
case EngFunc_SetClientKeyValue: // void ) (int clientIndex, char *infobuffer, char *key, char *value);
cRet = MF_GetAmxAddr(amx, params[2]);
index = cRet[0];
CHECK_ENTITY(index);
temp = MF_GetAmxString(amx, params[3], 0, &len);
temp2 = MF_GetAmxString(amx, params[4], 1, &len);
(*g_engfuncs.pfnSetClientKeyValue)(index,(*g_engfuncs.pfnGetInfoKeyBuffer)(INDEXENT2(index)),temp,temp2);
return 1;
case EngFunc_CreateInstancedBaseline: // int ) (int classname, struct entity_state_s *baseline);
cRet = MF_GetAmxAddr(amx, params[2]);
iparam1 = cRet[0];
entity_state_t *es;
cRet = MF_GetAmxAddr(amx, params[3]);
if (*cRet == 0)
es = &g_es_glb;
else
es = reinterpret_cast<entity_state_t *>(*cRet);
return (*g_engfuncs.pfnCreateInstancedBaseline)(iparam1, es);
default:
MF_LogError(amx, AMX_ERR_NATIVE, "Unknown engfunc type %d", type);
return 0;
}
}
AMX_NATIVE_INFO engfunc_natives[] = {
{"engfunc", engfunc},
{NULL, NULL},
};