485 lines
12 KiB
C++
485 lines
12 KiB
C++
// vim: set ts=4 sw=4 tw=99 noet:
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//
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// AMX Mod X, based on AMX Mod by Aleksander Naszko ("OLO").
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// Copyright (C) The AMX Mod X Development Team.
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//
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// This software is licensed under the GNU General Public License, version 3 or higher.
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// Additional exceptions apply. For full license details, see LICENSE.txt or visit:
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// https://alliedmods.net/amxmodx-license
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//
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// Fakemeta Module
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//
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#include "fakemeta_amxx.h"
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/** Optimizations for Fakemeta. In the end we'll do this for other things too.
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*/
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static int g_offset_table[pev_absolute_end] = {-1};
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#define DO_OFFSET(offs) g_offset_table[offs] = offsetof(entvars_t, offs)
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#define DO_OFFSET_R(named, real, offs) g_offset_table[named] = offsetof(entvars_t, real) + offs
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void initialze_offsets()
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{
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DO_OFFSET(fixangle);
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DO_OFFSET(modelindex);
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DO_OFFSET(viewmodel);
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DO_OFFSET(weaponmodel);
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DO_OFFSET(movetype);
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DO_OFFSET(solid);
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DO_OFFSET(skin);
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DO_OFFSET(body);
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DO_OFFSET(effects);
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DO_OFFSET(light_level);
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DO_OFFSET(sequence);
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DO_OFFSET(gaitsequence);
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DO_OFFSET(rendermode);
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DO_OFFSET(renderfx);
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DO_OFFSET(weapons);
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DO_OFFSET(deadflag);
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DO_OFFSET(button);
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DO_OFFSET(impulse);
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DO_OFFSET(spawnflags);
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DO_OFFSET(flags);
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DO_OFFSET(colormap);
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DO_OFFSET(team);
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DO_OFFSET(waterlevel);
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DO_OFFSET(watertype);
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DO_OFFSET(playerclass);
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DO_OFFSET(weaponanim);
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DO_OFFSET(pushmsec);
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DO_OFFSET(bInDuck);
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DO_OFFSET(flTimeStepSound);
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DO_OFFSET(flSwimTime);
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DO_OFFSET(flDuckTime);
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DO_OFFSET(iStepLeft);
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DO_OFFSET(gamestate);
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DO_OFFSET(oldbuttons);
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DO_OFFSET(groupinfo);
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DO_OFFSET(iuser1);
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DO_OFFSET(iuser2);
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DO_OFFSET(iuser3);
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DO_OFFSET(iuser4);
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DO_OFFSET(impacttime);
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DO_OFFSET(starttime);
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DO_OFFSET(idealpitch);
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DO_OFFSET(ideal_yaw);
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DO_OFFSET(pitch_speed);
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DO_OFFSET(yaw_speed);
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DO_OFFSET(ltime);
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DO_OFFSET(nextthink);
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DO_OFFSET(gravity);
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DO_OFFSET(friction);
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DO_OFFSET(frame);
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DO_OFFSET(animtime);
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DO_OFFSET(framerate);
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DO_OFFSET(scale);
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DO_OFFSET(renderamt);
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DO_OFFSET(health);
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DO_OFFSET(frags);
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DO_OFFSET(takedamage);
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DO_OFFSET(max_health);
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DO_OFFSET(teleport_time);
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DO_OFFSET(armortype);
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DO_OFFSET(armorvalue);
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DO_OFFSET(dmg_take);
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DO_OFFSET(dmg_save);
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DO_OFFSET(dmg);
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DO_OFFSET(dmgtime);
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DO_OFFSET(speed);
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DO_OFFSET(air_finished);
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DO_OFFSET(pain_finished);
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DO_OFFSET(radsuit_finished);
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DO_OFFSET(maxspeed);
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DO_OFFSET(fov);
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DO_OFFSET(flFallVelocity);
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DO_OFFSET(fuser1);
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DO_OFFSET(fuser2);
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DO_OFFSET(fuser3);
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DO_OFFSET(fuser4);
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DO_OFFSET(classname);
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DO_OFFSET(globalname);
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DO_OFFSET(model);
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DO_OFFSET(target);
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DO_OFFSET(targetname);
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DO_OFFSET(netname);
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DO_OFFSET(message);
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DO_OFFSET(noise);
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DO_OFFSET(noise1);
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DO_OFFSET(noise2);
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DO_OFFSET(noise3);
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DO_OFFSET(chain);
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DO_OFFSET(dmg_inflictor);
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DO_OFFSET(enemy);
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DO_OFFSET(aiment);
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DO_OFFSET(owner);
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DO_OFFSET(groundentity);
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DO_OFFSET(euser1);
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DO_OFFSET(euser2);
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DO_OFFSET(euser3);
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DO_OFFSET(euser4);
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DO_OFFSET(origin);
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DO_OFFSET(oldorigin);
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DO_OFFSET(velocity);
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DO_OFFSET(basevelocity);
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DO_OFFSET(clbasevelocity);
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DO_OFFSET(movedir);
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DO_OFFSET(angles);
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DO_OFFSET(avelocity);
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DO_OFFSET(v_angle);
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DO_OFFSET(endpos);
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DO_OFFSET(startpos);
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DO_OFFSET(absmin);
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DO_OFFSET(absmax);
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DO_OFFSET(mins);
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DO_OFFSET(maxs);
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DO_OFFSET(size);
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DO_OFFSET(rendercolor);
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DO_OFFSET(view_ofs);
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DO_OFFSET(vuser1);
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DO_OFFSET(vuser2);
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DO_OFFSET(vuser3);
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DO_OFFSET(vuser4);
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DO_OFFSET(punchangle);
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DO_OFFSET(controller);
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DO_OFFSET_R(controller_0, controller, 0);
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DO_OFFSET_R(controller_1, controller, 1);
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DO_OFFSET_R(controller_2, controller, 2);
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DO_OFFSET_R(controller_3, controller, 3);
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DO_OFFSET(blending);
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DO_OFFSET_R(blending_0, blending, 0);
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DO_OFFSET_R(blending_1, blending, 1);
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DO_OFFSET_R(pev_weaponmodel2, weaponmodel, 0);
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DO_OFFSET_R(pev_viewmodel2, viewmodel, 0);
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DO_OFFSET(pContainingEntity);
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}
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#define EDICT_OFFS(v,o) ((char *)v + o)
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// originally by mahnsawce
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static cell AMX_NATIVE_CALL amx_pev(AMX *amx,cell *params)
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{
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int index = params[1];
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CHECK_ENTITY(index);
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edict_t *pEdict = TypeConversion.id_to_edict(index);
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int iSwitch = params[2];
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//onto normal cases - sanity check
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if (iSwitch <= pev_string_start || iSwitch >= pev_absolute_end)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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int offs = g_offset_table[iSwitch];
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//sanity check #2
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if (offs == -1)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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enum
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{
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Ret_Int = (1<<0),
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Ret_Float = (1<<1),
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Ret_Vec = (1<<2),
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Ret_ByteArray = (1<<3),
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Ret_String = (1<<4),
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Ret_Edict = (1<<5),
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Ret_Bytes2 = (1<<6),
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Ret_Bytes4 = (1<<7)
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};
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union
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{
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int i;
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float f;
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byte b;
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string_t s;
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byte ba[4];
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} rets;
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Vector vr;
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int ValType = 0;
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entvars_t *v = &(pEdict->v);
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//get primitive data types
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if (iSwitch > pev_int_start && iSwitch < pev_int_end)
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{
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rets.i = *(int *)EDICT_OFFS(v, offs);
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ValType = Ret_Int;
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} else if (iSwitch > pev_float_start && iSwitch < pev_float_end) {
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rets.f = *(float *)EDICT_OFFS(v, offs);
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ValType = Ret_Float;
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} else if (iSwitch > pev_vecarray_start && iSwitch < pev_vecarray_end) {
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vr = *(vec3_t *)EDICT_OFFS(v, offs);
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ValType = Ret_Vec;
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} else if (iSwitch > pev_bytearray_start && iSwitch < pev_bytearray_end) {
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if (iSwitch == controller)
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{
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rets.ba[0] = v->controller[0];
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rets.ba[1] = v->controller[1];
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rets.ba[2] = v->controller[2];
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rets.ba[3] = v->controller[3];
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ValType = Ret_Bytes4;
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} else {
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rets.ba[0] = v->blending[0];
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rets.ba[1] = v->blending[1];
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ValType = Ret_Bytes2;
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}
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} else if (iSwitch > pev_byte_start && iSwitch < pev_byte_end) {
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rets.b = *(byte *)EDICT_OFFS(v, offs);
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ValType = Ret_Int;
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} else if ( (iSwitch > pev_string_start && iSwitch < pev_string_end)
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|| (iSwitch > pev_string2_begin && iSwitch < pev_string2_end) ) {
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rets.s = *(string_t *)EDICT_OFFS(v, offs);
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ValType = Ret_String;
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} else if ( (iSwitch > pev_edict_start && iSwitch < pev_edict_end)
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|| (iSwitch > pev_edict2_start && iSwitch < pev_absolute_end) ) {
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edict_t *e = *(edict_t **)EDICT_OFFS(v, offs);
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rets.i = ENTINDEX(e);
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ValType = Ret_Int;
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ValType |= Ret_Edict;
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}
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size_t count = params[0] / sizeof(cell) - 2;
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if (count == 0)
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{
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//return an int
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if (ValType & Ret_Int)
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{
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return rets.i;
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} else if (ValType == Ret_Float) {
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return (cell)rets.f;
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} else if (ValType == Ret_String) {
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return (cell)rets.s;
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} else {
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MF_LogError(amx, AMX_ERR_NATIVE, "Invalid return type");
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return 0;
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}
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} else if (count == 1) {
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//return a byref float - usually
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cell *addr = MF_GetAmxAddr(amx, params[3]);
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if (ValType == Ret_Float)
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{
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*addr = amx_ftoc(rets.f);
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} else if (ValType == Ret_Int) {
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REAL f = (REAL)rets.i;
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*addr = amx_ftoc(f);
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} else if (ValType == Ret_Vec) {
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addr[0] = amx_ftoc(vr.x);
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addr[1] = amx_ftoc(vr.y);
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addr[2] = amx_ftoc(vr.z);
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} else if (ValType == Ret_Bytes2) {
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addr[0] = rets.ba[0];
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addr[1] = rets.ba[1];
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} else if (ValType == Ret_Bytes4) {
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addr[0] = rets.ba[0];
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addr[1] = rets.ba[1];
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addr[2] = rets.ba[2];
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addr[3] = rets.ba[3];
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} else {
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MF_LogError(amx, AMX_ERR_NATIVE, "Invalid return type");
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return 0;
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}
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return 1;
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} else if (count == 2) {
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cell size = *(MF_GetAmxAddr(amx, params[4]));
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if (ValType == Ret_String)
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{
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const char *str = STRING(rets.s);
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if (!str)
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str = "";
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int num = MF_SetAmxString(amx, params[3], str, size);
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return num;
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} else if (ValType & Ret_Int) {
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char temp[32];
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ke::SafeSprintf(temp, sizeof(temp), "%d", rets.i);
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return MF_SetAmxString(amx, params[3], temp, size);
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} else if (ValType == Ret_Float) {
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char temp[32];
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ke::SafeSprintf(temp, sizeof(temp), "%f", rets.f);
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return MF_SetAmxString(amx, params[3], temp, size);
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} else if (ValType == Ret_Vec) {
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char temp[32];
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ke::SafeSprintf(temp, sizeof(temp), "%f %f %f", vr.x, vr.y, vr.z);
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return MF_SetAmxString(amx, params[3], temp, size);
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} else if (ValType == Ret_Bytes2) {
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char temp[32];
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ke::SafeSprintf(temp, sizeof(temp), "%d %d", rets.ba[0], rets.ba[1]);
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return MF_SetAmxString(amx, params[3], temp, size);
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} else if (ValType == Ret_Bytes4) {
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char temp[32];
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ke::SafeSprintf(temp, sizeof(temp), "%d %d %d %d", rets.ba[0], rets.ba[1], rets.ba[2], rets.ba[3]);
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return MF_SetAmxString(amx, params[3], temp, size);
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}
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MF_LogError(amx, AMX_ERR_NATIVE, "Invalid return type");
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} else if (count == 3) {
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cell size = *(MF_GetAmxAddr(amx, params[5]));
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if (ValType == Ret_String)
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{
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const char *str = STRING(rets.s);
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cell *addr = MF_GetAmxAddr(amx, params[3]);
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*addr = (cell)rets.s;
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if (!str)
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str = "";
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int num = MF_SetAmxString(amx, params[4], str, size);
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return num;
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}
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MF_LogError(amx, AMX_ERR_NATIVE, "Invalid return type");
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}
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//if we got here, something happened
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MF_LogError(amx, AMX_ERR_NATIVE, "Unknown pev index or return combination %d", iSwitch);
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return 0;
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}
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static cell AMX_NATIVE_CALL amx_set_pev(AMX *amx, cell *params)
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{
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// index, pevdata
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int index = params[1];
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CHECK_ENTITY(index);
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edict_t *pEdict = TypeConversion.id_to_edict(index);
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int iSwitch = params[2];
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//onto normal cases - sanity check
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if (iSwitch <= pev_string_start || iSwitch >= pev_absolute_end)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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int offs = g_offset_table[iSwitch];
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//sanity check #2
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if (offs == -1)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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cell *blah = MF_GetAmxAddr(amx,params[3]);
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entvars_t *v = &(pEdict->v);
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if (iSwitch > pev_int_start && iSwitch < pev_int_end)
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{
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*(int *)EDICT_OFFS(v, offs) = (int)*blah;
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} else if (iSwitch > pev_float_start && iSwitch < pev_float_end) {
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*(float *)EDICT_OFFS(v, offs) = (float)amx_ctof(blah[0]);
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} else if ( (iSwitch > pev_string_start && iSwitch < pev_string_end)
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|| (iSwitch > pev_string2_begin && iSwitch < pev_string2_end) ) {
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int len;
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char *string = MF_GetAmxString(amx, params[3], 0, &len);
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string_t value = ALLOC_STRING(string);
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*(string_t *)EDICT_OFFS(v, offs) = value;
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} else if ( (iSwitch > pev_edict_start && iSwitch < pev_edict_end)
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|| (iSwitch > pev_edict2_start && iSwitch < pev_absolute_end) ) {
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edict_t *e = TypeConversion.id_to_edict((int)*blah);
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*(edict_t **)EDICT_OFFS(v, offs) = e;
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} else if (iSwitch > pev_vecarray_start && iSwitch < pev_vecarray_end) {
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vec3_t vec;
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vec[0] = amx_ctof(blah[0]);
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vec[1] = amx_ctof(blah[1]);
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vec[2] = amx_ctof(blah[2]);
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*(vec3_t *)EDICT_OFFS(v, offs) = vec;
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} else if (iSwitch > pev_byte_start && iSwitch < pev_byte_end) {
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byte b = static_cast<byte>(blah[0]);
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*(byte *)EDICT_OFFS(v, offs) = b;
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} else if (iSwitch > pev_bytearray_start && iSwitch < pev_bytearray_end) {
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switch(iSwitch)
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{
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case controller:
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pEdict->v.controller[0]=blah[0];
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pEdict->v.controller[1]=blah[1];
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pEdict->v.controller[2]=blah[2];
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pEdict->v.controller[3]=blah[3];
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return 1;
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case blending:
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pEdict->v.blending[0]=blah[0];
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pEdict->v.blending[1]=blah[1];
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return 1;
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}
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}
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return 0;
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}
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static cell AMX_NATIVE_CALL amx_set_pev_string(AMX *amx, cell *params)
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{
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// index, pevdata
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int index = params[1];
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CHECK_ENTITY(index);
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edict_t *pEdict = TypeConversion.id_to_edict(index);
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int iSwitch = params[2];
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//onto normal cases - sanity check
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if (iSwitch <= pev_string_start || iSwitch >= pev_absolute_end)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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int offs = g_offset_table[iSwitch];
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//sanity check #2
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if (offs == -1)
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Undefined pev index: %d", iSwitch);
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return 0;
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}
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entvars_t *v = &(pEdict->v);
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if ( (iSwitch > pev_string_start && iSwitch < pev_string_end)
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|| (iSwitch > pev_string2_begin && iSwitch < pev_string2_end) )
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{
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*(string_t *)EDICT_OFFS(v, offs) = params[3];
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}
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else
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{
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MF_LogError(amx, AMX_ERR_NATIVE, "Non-string field passed to set_pev_string!");
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return 0;
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}
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return 0;
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}
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static cell AMX_NATIVE_CALL amx_pev_valid(AMX *amx, cell *params)
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{
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int idx = static_cast<int>(params[1]);
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edict_t *e = TypeConversion.id_to_edict(idx);
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if (FNullEnt(e))
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return 0;
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if (e->pvPrivateData)
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return 2;
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return 1;
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}
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static cell AMX_NATIVE_CALL amx_pev_serial(AMX* amx, cell* params)
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{
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int id = static_cast<int>(params[1]);
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CHECK_ENTITY(id);
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edict_t* ent = TypeConversion.id_to_edict(id);
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|
|
return ent->serialnumber;
|
|
}
|
|
AMX_NATIVE_INFO pev_natives[] = {
|
|
{ "pev", amx_pev },
|
|
{ "set_pev", amx_set_pev },
|
|
{ "set_pev_string", amx_set_pev_string },
|
|
{ "pev_valid", amx_pev_valid },
|
|
{ "pev_serial", amx_pev_serial },
|
|
{NULL, NULL},
|
|
};
|