/* AMX Mod X * Engine Module * * by the AMX Mod X Development Team * thanks to Vexd * * This file is part of AMX Mod X. * * * This program 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. * * This program 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 this program; 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 this program 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. */ #define VERSION "0.15" #include using namespace std; plugin_info_t Plugin_info = { META_INTERFACE_VERSION, // ifvers "ENGINE", // name VERSION, // version __DATE__, // date "AMX Mod X Dev Team", // author "http://www.amxmodx.org", // url "ENGINE", // logtag PT_ANYTIME,// (when) loadable PT_ANYTIME,// (when) unloadable }; module_info_s module_info = { "ENGINE", // name "AMX Mod X Dev Team", // author VERSION, // version AMX_INTERFACE_VERSION, STATIC_MODULE, }; class AmxCallList { public: struct AmxCall { AMX *amx; int iFunctionIdx; AmxCall* next; AmxCall( AMX *a , int i, AmxCall* n ) : amx(a), iFunctionIdx(i), next(n) {} } *head; AmxCallList() { head = 0; } ~AmxCallList() { clear(); } void clear() { while ( head ) { AmxCall* a = head->next; delete head; head = a; } } void put( AMX *a , int i ) { head = new AmxCall( a, i , head ); } }; AmxCallList pfnTouch; AmxCallList serverFrame; AmxCallList preThink; AmxCallList postThink; AmxCallList clientKill; AmxCallList Msgs; meta_globals_t *gpMetaGlobals; gamedll_funcs_t *gpGamedllFuncs; mutil_funcs_t *gpMetaUtilFuncs; enginefuncs_t g_engfuncs; globalvars_t *gpGlobals; pfnamx_engine_g* g_engAmxFunc; pfnmodule_engine_g* g_engModuleFunc; extern AMX_NATIVE_INFO Engine_Natives[]; void (*function)(void*); void (*endfunction)(void*); #ifdef __linux__ int thread_fork(void *arg); #endif #define AMS_OFFSET 0.01 #define GETINFOKEYBUFFER (*g_engfuncs.pfnGetInfoKeyBuffer) #define SPEAK_NORMAL 0 #define SPEAK_MUTED 1 #define SPEAK_ALL 2 #define SPEAK_LISTENALL 4 #define CAMERA_NONE 0 #define CAMERA_3RDPERSON 1 #define CAMERA_UPLEFT 2 #define CAMERA_TOPDOWN 3 #define MAX_MESSAGES 255 #define BLOCK_NOT 0 #define BLOCK_ONCE 1 #define BLOCK_SET 2 //jghg enum globals { // Edict GL_trace_ent = 0, // Float GL_coop, GL_deathmatch, GL_force_retouch, GL_found_secrets, GL_frametime, GL_serverflags, GL_teamplay, GL_time, GL_trace_allsolid, GL_trace_fraction, GL_trace_inopen, GL_trace_inwater, GL_trace_plane_dist, GL_trace_startsolid, // Int GL_cdAudioTrack, GL_maxClients, GL_maxEntities, GL_msg_entity, GL_trace_flags, GL_trace_hitgroup, // String GL_pStringBase, GL_mapname, GL_startspot, // Vector GL_trace_endpos, GL_trace_plane_normal, GL_v_forward, GL_v_right, GL_v_up, GL_vecLandmarkOffset, // Void (not supported) GL_pSaveData }; enum { gamestate, oldbuttons, groupinfo, iuser1, iuser2, iuser3, iuser4, weaponanim, pushmsec, bInDuck, flTimeStepSound, flSwimTime, flDuckTime, iStepLeft, movetype, solid, skin, body, effects, light_level, sequence, gaitsequence, modelindex, playerclass, waterlevel, watertype, spawnflags, flags, colormap, team, fixangle, weapons, rendermode, renderfx, button, impulse, deadflag, }; enum { impacttime, starttime, idealpitch, pitch_speed, ideal_yaw, yaw_speed, ltime, nextthink, gravity, friction, frame, animtime, framerate, health, frags, takedamage, max_health, teleport_time, armortype, armorvalue, dmg_take, dmg_save, dmg, dmgtime, speed, air_finished, pain_finished, radsuit_finished, scale, renderamt, maxspeed, fov, flFallVelocity, fuser1, fuser2, fuser3, fuser4, }; enum { origin, oldorigin, velocity, basevelocity, clbasevelocity, movedir, angles, avelocity, punchangle, v_angle, endpos, startpos, absmin, absmax, mins, maxs, size, rendercolor, view_ofs, vuser1, vuser2, vuser3, vuser4, }; enum { chain, dmg_inflictor, enemy, aiment, owner, groundentity, pContainingEntity, euser1, euser2, euser3, euser4, }; enum { classname, globalname, model, target, targetname, netname, message, noise, noise1, noise2, noise3, viewmodel, weaponmodel, }; enum { controller1, controller2, controller3, controller4, blending1, blending2, }; struct PlayerInfo { bool bModeled; char szModel[32]; float fModelSet; int iSpeakFlags; edict_t *pViewEnt; int iViewType; int iRenderMode; float fRenderAmt; }; PlayerInfo PlInfo[33]; struct GlobalInfo { bool bLights; float fNextLights; char *szLastLights[128]; char *szRealLights[128]; int iMessageBlock[MAX_MESSAGES]; bool bBlocking; }; enum { arg_byte = 1, arg_char, arg_short, arg_long, arg_angle, arg_coord, arg_string, arg_entity, }; //by BAILOPAN class argStack { public: argStack(argStack *p=NULL) //initialize with link to previous { next = p; init(); } void init() { writebyte = 0; writechar = '\0'; writeshort = 0; writelong = (long)0; writeangle = 0.0; writecoord = 0.0; writeentity = 0; } argStack* arg() { argStack *p; p = new argStack(); //get the new pointer next = p; //link this to the next pointer return p; } argStack* link() //return link { return next; } void put(int arg_type, int i) { argtype = arg_type; switch (argtype) { case arg_byte: writebyte = i; break; case arg_char: writechar = i; break; case arg_entity: writeentity = i; break; case arg_short: writeshort = i; break; case arg_long: writelong = i; break; } } void put(int arg_type, float f) { argtype = arg_type; switch (argtype) { case arg_angle: writeangle = f; break; case arg_coord: writecoord = f; break; } } void put_string(int arg_type, const char *sz) { argtype = arg_type; switch (argtype) { case arg_string: writestring.append((char *)sz); break; } } void write_arg() { switch (argtype) { case arg_byte: WRITE_BYTE(writebyte); break; case arg_char: WRITE_CHAR(writechar); break; case arg_short: WRITE_SHORT(writeshort); break; case arg_long: WRITE_LONG(writelong); break; case arg_angle: WRITE_ANGLE(writeangle); break; case arg_coord: WRITE_COORD(writecoord); break; case arg_string: WRITE_STRING(writestring.c_str()); break; case arg_entity: WRITE_ENTITY(writeentity); break; } } int getarg_int(int arg_type) { switch (argtype) { case arg_byte: return writebyte; break; case arg_char: return writechar; break; case arg_short: return writeshort; break; case arg_long: return writelong; break; case arg_entity: return writeentity; break; } return 0; } float getarg_float(int arg_type) { switch (argtype) { case arg_angle: return writeangle; break; case arg_coord: return writecoord; break; } return 0.0; } int getarg_strlen(int arg_type) { switch (argtype) { case arg_string: return (writestring.length()); break; } return 0; } const char *getarg_string(int arg_type) { switch (argtype) { case arg_string: return writestring.c_str(); break; } return '\0'; } int get_argtype() { return argtype; } bool is_arg(int arg_type) { switch (argtype) { case arg_byte: { switch (arg_type) { case arg_byte: return true; break; case arg_char: return true; break; case arg_short: return true; break; case arg_long: return true; break; case arg_entity: return true; break; default: return false; break; } break; } case arg_char: { switch (arg_type) { case arg_byte: return true; break; case arg_char: return true; break; case arg_short: return true; break; case arg_long: return true; break; case arg_entity: return true; break; default: return false; break; } break; } case arg_short: { switch (arg_type) { case arg_byte: return true; break; case arg_char: return true; break; case arg_short: return true; break; case arg_long: return true; break; case arg_entity: return true; break; default: return false; break; } break; } case arg_long: { switch (arg_type) { case arg_byte: return true; break; case arg_char: return true; break; case arg_short: return true; break; case arg_long: return true; break; case arg_entity: return true; break; default: return false; break; } break; } case arg_entity: { switch (arg_type) { case arg_byte: return true; break; case arg_char: return true; break; case arg_short: return true; break; case arg_long: return true; break; case arg_entity: return true; break; default: return false; break; } break; } case arg_angle: { switch (arg_type) { case arg_angle: return true; break; case arg_coord: return true; break; default: return false; break; } break; } case arg_coord: { switch (arg_type) { case arg_angle: return true; break; case arg_coord: return true; break; default: return false; break; } break; } case arg_string: { switch (arg_type) { case arg_string: return true; break; default: return false; break; } break; } default: { return false; break; } } } private: int argtype; int writebyte; int writechar; int writeshort; int writelong; float writeangle; float writecoord; std::string writestring; int writeentity; argStack *next; }; class MessageInfo { public: MessageInfo(int msgdest, int msg_id, const float *Origin, edict_t* ed) { msgID = msg_id; msg_dest = msgdest; pOrigin = Origin; v = ed; CHeadArg = new argStack(); CTailArg = NULL; argcount = 0; } ~MessageInfo() { Destroy(); } void SendMsg() { //we are going to build a message =D yay! gather 'round and watch. argStack *p; MESSAGE_BEGIN(msg_dest, msgID, pOrigin, v); for (p=CHeadArg->link(); p!=NULL; p=p->link()) { p->write_arg(); } MESSAGE_END(); Destroy(); //clean up old arguments } void AddArg(int i, int j) { argStack *p; if (CTailArg == NULL) { p = CHeadArg->arg(); CTailArg = p; } else { p = CTailArg->arg(); CTailArg = p; } CTailArg->put(i,j); argcount++; } void AddArg(int i, float f) { argStack *p; if (CTailArg == NULL) { p = CHeadArg->arg(); CTailArg = p; } else { p = CTailArg->arg(); CTailArg = p; } CTailArg->put(i,f); argcount++; } void AddArgString(int i, const char *sz) { argStack *p; if (CTailArg == NULL) { p = CHeadArg->arg(); CTailArg = p; } else { p = CTailArg->arg(); CTailArg = p; } CTailArg->put_string(i,sz); argcount++; } void Destroy() { argStack *p; p = CHeadArg->link(); while (p) { argStack *n = p->link(); delete p; p = n; } argcount = 0; } bool Set(int n, int arg_type, int data) { argStack *p; int i=0; if (n>argcount) { return false; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { p->put(arg_type, data); return true; } } } return false; } bool Set(int n, int arg_type, float data) { argStack *p; int i=0; if (n>argcount) { return false; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { p->put(arg_type, data); return true; } } } return false; } bool Set(int n, int arg_type, char* data) { argStack *p; int i=0; if (n>argcount) { return false; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { p->put_string(arg_type, (const char*)data); return true; } } } return false; } int RetArg_Int(int n) { argStack *p; int i=0; if (n>argcount) { return -1; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { return p->getarg_int(arg_short); } } } return 0; } float RetArg_Float(int n) { argStack *p; int i=0; if (n>argcount) { return -1; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { return p->getarg_float(arg_coord); } } } return 0.0; } int RetArg_Strlen(int n) { argStack *p; int i=0; if (n>argcount) { return 0; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { return p->getarg_strlen(arg_string); } } } return 0; } const char* RetArg_String(int n) { argStack *p; int i=0; if (n>argcount) { return '\0'; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { return p->getarg_string(arg_string); } } } return '\0'; } int ArgType(int n) { argStack *p; int i=0; if (n>argcount) { return -1; } else { for (p=CHeadArg->link(); p!=NULL; p=p->link()) { i++; if (i==n) { return p->get_argtype(); } } } return 0; } int args() { return argcount; } private: int argcount; int msgID; int msg_dest; const float *pOrigin; edict_t *v; argStack *CHeadArg; argStack *CTailArg; };