mirror of
https://github.com/alliedmodders/amxmodx.git
synced 2024-12-24 13:55:36 +03:00
293 lines
7.6 KiB
C++
Executable File
293 lines
7.6 KiB
C++
Executable File
#include "engine.h"
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bool incmd = false;
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int DispatchUseForward = 0;
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int SpawnForward = 0;
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int ChangelevelForward = 0;
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int PlaybackForward = 0;
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int DispatchKeyForward = 0;
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int pfnTouchForward = 0;
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int pfnThinkForward = 0;
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int PlayerPreThinkForward = 0;
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int PlayerPostThinkForward = 0;
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int ClientKillForward = 0;
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int CmdStartForward = 0;
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int StartFrameForward = 0;
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int VexdTouchForward = 0;
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int VexdServerForward = 0;
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CVector<Impulse *> Impulses;
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CVector<EntClass *> Thinks;
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CVector<Touch *> Touches;
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KeyValueData *g_pkvd;
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bool g_inKeyValue=false;
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int fstrcmp(const char *s1, const char *s2)
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{
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int i=0;
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int len1 = strlen(s1);
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int len2 = strlen(s2);
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if (len1 != len2)
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return 0;
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for (i=0; i<len1; i++)
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{
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if (s1[i] != s2[i])
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return 0;
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}
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return 1;
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}
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int Spawn(edict_t *pEntity) {
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if (SpawnForward != -1) {
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int retVal = 0;
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int id = ENTINDEX(pEntity);
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retVal = MF_ExecuteForward(SpawnForward, id);
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if (retVal)
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RETURN_META_VALUE(MRES_SUPERCEDE, 0);
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}
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RETURN_META_VALUE(MRES_IGNORED, 0);
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}
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void ChangeLevel(char* s1, char* s2)
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{
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if (ChangelevelForward != -1) {
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int retVal = 0;
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char *map = s1;
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retVal = MF_ExecuteForward(ChangelevelForward, map);
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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}
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RETURN_META(MRES_IGNORED);
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}
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void PlaybackEvent(int flags, const edict_t *pInvoker, unsigned short eventindex, float delay, float *origin, float *angles, float fparam1, float fparam2, int iparam1, int iparam2, int bparam1, int bparam2)
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{
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if (PlaybackForward != -1) {
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edict_t *e = (edict_t *)pInvoker;
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int retVal = 0;
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static cell cOrigin[3];
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static cell cAngles[3];
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Vector vOrigin = (Vector)origin;
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Vector vAngles = (Vector)angles;
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cOrigin[0] = amx_ftoc(vOrigin.x);
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cOrigin[1] = amx_ftoc(vOrigin.y);
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cOrigin[2] = amx_ftoc(vOrigin.z);
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cAngles[0] = amx_ftoc(vAngles.x);
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cAngles[1] = amx_ftoc(vAngles.y);
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cAngles[2] = amx_ftoc(vAngles.z);
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cell CellOrigin = MF_PrepareCellArray(cOrigin, 3);
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cell CellAngles = MF_PrepareCellArray(cAngles, 3);
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retVal = MF_ExecuteForward(PlaybackForward, flags, ENTINDEX(e), eventindex, amx_ftoc(delay), CellOrigin, CellAngles, amx_ftoc(fparam1), amx_ftoc(fparam2), iparam1, iparam2, bparam2);
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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}
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RETURN_META(MRES_IGNORED);
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}
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void KeyValue(edict_t *pEntity, KeyValueData *pkvd)
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{
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int retVal = 0;
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g_inKeyValue=true;
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g_pkvd=pkvd;
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int index = ENTINDEX(pEntity);
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if (DispatchKeyForward != -1) {
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retVal = MF_ExecuteForward(DispatchKeyForward, index);
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g_inKeyValue=false;
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if (retVal > 0)
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RETURN_META(MRES_SUPERCEDE);
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else
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RETURN_META(MRES_HANDLED);
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}
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g_inKeyValue=false;
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RETURN_META(MRES_HANDLED);
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}
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void StartFrame()
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{
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if (glinfo.bCheckLights) {
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if (!FStrEq((const char*)glinfo.szLastLights, "")) {
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(g_engfuncs.pfnLightStyle)(0, (char *)glinfo.szLastLights);
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glinfo.fNextLights = gpGlobals->time + 1;
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}
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}
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if (StartFrameForward != -1)
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MF_ExecuteForward(StartFrameForward);
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else if (VexdServerForward != -1)
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MF_ExecuteForward(VexdServerForward);
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RETURN_META(MRES_IGNORED);
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}
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void CmdStart(const edict_t *player, const struct usercmd_s *_cmd, unsigned int random_seed)
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{
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unsigned int i = 0;
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int retVal = 0;
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edict_t *pEntity = (edict_t *)player;
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struct usercmd_s *g_cmd = (struct usercmd_s *)_cmd;
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for (i=0; i<Impulses.size(); i++)
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{
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if (Impulses[i]->Check == g_cmd->impulse)
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{
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retVal = MF_ExecuteForward(Impulses[i]->Forward, ENTINDEX(pEntity));
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if (retVal)
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{
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g_cmd->impulse=0;
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RETURN_META(MRES_SUPERCEDE);
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}
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else
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RETURN_META(MRES_IGNORED);
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}
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}
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if (CmdStartForward != -1) {
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incmd = true;
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retVal = MF_ExecuteForward(CmdStartForward, ENTINDEX(pEntity), g_cmd->impulse);
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incmd = false;
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if (retVal) {
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g_cmd->impulse = 0;
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RETURN_META(MRES_SUPERCEDE);
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}
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}
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RETURN_META(MRES_IGNORED);
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}
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void ClientKill(edict_t *pEntity)
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{
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int retVal = 0;
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if (ClientKillForward != -1) {
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retVal = MF_ExecuteForward(ClientKillForward, ENTINDEX(pEntity));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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}
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RETURN_META(MRES_IGNORED);
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}
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void PlayerPreThink(edict_t *pEntity)
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{
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MF_ExecuteForward(PlayerPreThinkForward, ENTINDEX(pEntity));
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RETURN_META(MRES_IGNORED);
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}
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void PlayerPostThink_Post(edict_t *pEntity)
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{
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if(plinfo[ENTINDEX(pEntity)].pViewEnt) {
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edict_t *pCamEnt = plinfo[ENTINDEX(pEntity)].pViewEnt;
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MAKE_VECTORS(pEntity->v.v_angle + pEntity->v.punchangle);
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Vector vecSrc = pEntity->v.origin + pEntity->v.view_ofs;
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Vector vecAiming = gpGlobals->v_forward;
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TraceResult tr;
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switch(plinfo[ENTINDEX(pEntity)].iViewType) {
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case CAMERA_3RDPERSON:
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TRACE_LINE(vecSrc, vecSrc - (vecAiming * 128), ignore_monsters, ENT(pEntity), &tr);
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SET_VIEW(pEntity, pCamEnt);
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pCamEnt->v.origin = tr.vecEndPos;
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pCamEnt->v.angles = pEntity->v.v_angle;
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break;
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case CAMERA_UPLEFT:
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TRACE_LINE(vecSrc, vecSrc - ((vecAiming * 32) - ((gpGlobals->v_right * 15) + (gpGlobals->v_up * 15))), ignore_monsters, ENT(pEntity), &tr);
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SET_VIEW(pEntity, pCamEnt);
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pCamEnt->v.origin = tr.vecEndPos;
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pCamEnt->v.angles = pEntity->v.v_angle;
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break;
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case CAMERA_TOPDOWN:
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TRACE_LINE(vecSrc, vecSrc + Vector(0,0,2048), dont_ignore_monsters, ENT(pEntity), &tr);
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SET_VIEW(pEntity, pCamEnt);
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pCamEnt->v.origin = tr.vecEndPos;
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pCamEnt->v.origin.z -= 40;
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pCamEnt->v.angles = Vector(90,pEntity->v.v_angle.y,0);
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break;
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default:
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SET_VIEW(pEntity, pEntity);
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REMOVE_ENTITY(plinfo[ENTINDEX(pEntity)].pViewEnt);
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plinfo[ENTINDEX(pEntity)].iViewType = CAMERA_NONE;
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plinfo[ENTINDEX(pEntity)].pViewEnt = NULL;
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break;
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}
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}
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if (PlayerPostThinkForward != -1)
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{
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if (MF_ExecuteForward(PlayerPostThinkForward, ENTINDEX(pEntity)))
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RETURN_META(MRES_SUPERCEDE);
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}
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RETURN_META(MRES_IGNORED);
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}
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void pfnTouch(edict_t *pToucher, edict_t *pTouched)
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{
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unsigned int i = 0;
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int retVal = 0;
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const char *ptrClass = STRING(pToucher->v.classname);
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const char *ptdClass = STRING(pTouched->v.classname);
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for (i=0; i<Touches.size(); i++)
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{
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if (Touches[i]->Toucher == 0)
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{
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if (Touches[i]->Touched == 0)
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{
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retVal = MF_ExecuteForward(Touches[i]->Forward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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else
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RETURN_META(MRES_IGNORED);
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} else if (fstrcmp(Touches[i]->Touched, ptdClass)) {
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retVal = MF_ExecuteForward(Touches[i]->Forward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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else
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RETURN_META(MRES_IGNORED);
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}
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} else if (fstrcmp(Touches[i]->Toucher, ptrClass)) {
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if (Touches[i]->Touched == 0)
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{
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retVal = MF_ExecuteForward(Touches[i]->Forward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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else
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RETURN_META(MRES_IGNORED);
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} else if (fstrcmp(Touches[i]->Touched, ptdClass)) {
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retVal = MF_ExecuteForward(Touches[i]->Forward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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else
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RETURN_META(MRES_IGNORED);
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}
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}
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}
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/* Execute pfnTouch forwards */
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if (pfnTouchForward != -1) {
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retVal = MF_ExecuteForward(pfnTouchForward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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} else if (VexdTouchForward != -1) {
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retVal = MF_ExecuteForward(VexdTouchForward, ENTINDEX(pToucher), ENTINDEX(pTouched));
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if (retVal)
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RETURN_META(MRES_SUPERCEDE);
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}
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RETURN_META(MRES_IGNORED);
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}
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void Think(edict_t *pent)
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{
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unsigned int i = 0;
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const char *cls = STRING(pent->v.classname);
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for (i=0; i<Thinks.size(); i++)
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{
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if (fstrcmp(cls, Thinks[i]->Class))
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{
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MF_ExecuteForward(Thinks[i]->Forward, ENTINDEX(pent));
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RETURN_META(MRES_IGNORED);
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}
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}
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MF_ExecuteForward(pfnThinkForward, ENTINDEX(pent));
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RETURN_META(MRES_IGNORED);
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}
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