Merge branch 'master' into Mario/turrets
authorMario <zacjardine@y7mail.com>
Tue, 2 Dec 2014 02:21:16 +0000 (13:21 +1100)
committerMario <zacjardine@y7mail.com>
Tue, 2 Dec 2014 02:21:16 +0000 (13:21 +1100)
Conflicts:
qcsrc/server/progs.src
qcsrc/server/tturrets/units/unit_plasma.qc

14 files changed:
1  2 
qcsrc/client/Main.qc
qcsrc/client/progs.src
qcsrc/common/deathtypes.qh
qcsrc/common/notifications.qh
qcsrc/common/turrets/sv_turrets.qc
qcsrc/common/turrets/unit/plasma.qc
qcsrc/common/turrets/unit/plasma_dual.qc
qcsrc/server/autocvars.qh
qcsrc/server/g_damage.qc
qcsrc/server/g_world.qc
qcsrc/server/miscfunctions.qc
qcsrc/server/mutators/gamemode_assault.qc
qcsrc/server/progs.src
qcsrc/server/t_teleporters.qc

Simple merge
Simple merge
Simple merge
Simple merge
index 21ebc96,0000000..e979c48
mode 100644,000000..100644
--- /dev/null
@@@ -1,1396 -1,0 +1,1396 @@@
-       else if(e_target.freezetag_frozen > 0)
 +// =========================
 +//  SVQC Turret Properties
 +// =========================
 +
 +
 +// Generic aiming
 +vector turret_aim_generic()
 +{
 +
 +      vector pre_pos, prep;
 +      float distance, impact_time = 0, i, mintime;
 +
 +      turret_tag_fire_update();
 +
 +      if(self.aim_flags & TFL_AIM_SIMPLE)
 +              return real_origin(self.enemy);
 +
 +      mintime = max(self.attack_finished_single - time,0) + sys_frametime;
 +
 +      // Baseline
 +      pre_pos = real_origin(self.enemy);
 +
 +      // Lead?
 +      if (self.aim_flags & TFL_AIM_LEAD)
 +      {
 +              if (self.aim_flags & TFL_AIM_SHOTTIMECOMPENSATE)           // Need to conpensate for shot traveltime
 +              {
 +                      prep = pre_pos;
 +                      
 +                      distance = vlen(prep - self.tur_shotorg);
 +                      impact_time = distance / self.shot_speed;
 +
 +                      prep = pre_pos + (self.enemy.velocity * (impact_time + mintime));
 +
 +                      if(self.aim_flags & TFL_AIM_ZPREDICT)
 +                      if(!(self.enemy.flags & FL_ONGROUND))
 +                      if(self.enemy.movetype == MOVETYPE_WALK || self.enemy.movetype == MOVETYPE_TOSS || self.enemy.movetype == MOVETYPE_BOUNCE)
 +                      {
 +                              float vz;
 +                              prep_z = pre_pos_z;
 +                              vz = self.enemy.velocity_z;
 +                              for(i = 0; i < impact_time; i += sys_frametime)
 +                              {
 +                                      vz = vz - (autocvar_sv_gravity * sys_frametime);
 +                                      prep_z = prep_z + vz * sys_frametime;
 +                              }
 +                      }
 +                      pre_pos = prep;
 +              }
 +              else
 +                      pre_pos = pre_pos + self.enemy.velocity * mintime;
 +      }
 +
 +      if(self.aim_flags & TFL_AIM_SPLASH)
 +      {
 +              //tracebox(pre_pos + '0 0 32',self.enemy.mins,self.enemy.maxs,pre_pos -'0 0 64',MOVE_WORLDONLY,self.enemy);
 +              traceline(pre_pos + '0 0 32',pre_pos -'0 0 64',MOVE_WORLDONLY,self.enemy);
 +              if(trace_fraction != 1.0)
 +                      pre_pos = trace_endpos;
 +      }
 +
 +      return pre_pos;
 +}
 +
 +float turret_targetscore_support(entity _turret,entity _target)
 +{
 +      float score;            // Total score
 +      float s_score = 0, d_score;
 +
 +      if (_turret.enemy == _target) s_score = 1;
 +
 +      d_score = min(_turret.target_range_optimal,tvt_dist) / max(_turret.target_range_optimal,tvt_dist);
 +
 +      score = (d_score * _turret.target_select_rangebias) +
 +                      (s_score * _turret.target_select_samebias);
 +
 +      return score;
 +}
 +
 +/*
 +* Generic bias aware score system.
 +*/
 +float turret_targetscore_generic(entity _turret, entity _target)
 +{
 +      float d_dist;      // Defendmode Distance
 +      float score;            // Total score
 +      float d_score;    // Distance score
 +      float a_score;    // Angular score
 +      float m_score = 0;  // missile score
 +      float p_score = 0;  // player score
 +      float ikr;                // ideal kill range
 +
 +      if (_turret.tur_defend)
 +      {
 +              d_dist = vlen(real_origin(_target) - _turret.tur_defend.origin);
 +              ikr = vlen(_turret.origin - _turret.tur_defend.origin);
 +              d_score = 1 - d_dist / _turret.target_range;
 +      }
 +      else
 +      {
 +              // Make a normlized value base on the targets distance from our optimal killzone
 +              ikr = _turret.target_range_optimal;
 +              d_score = min(ikr, tvt_dist) / max(ikr, tvt_dist);
 +      }
 +
 +      a_score = 1 - tvt_thadf / _turret.aim_maxrotate;
 +
 +      if ((_turret.target_select_missilebias > 0) && (_target.flags & FL_PROJECTILE))
 +              m_score = 1;
 +
 +      if ((_turret.target_select_playerbias > 0) && IS_CLIENT(_target))
 +              p_score = 1;
 +
 +      d_score = max(d_score, 0);
 +      a_score = max(a_score, 0);
 +      m_score = max(m_score, 0);
 +      p_score = max(p_score, 0);
 +
 +      score = (d_score * _turret.target_select_rangebias) +
 +                      (a_score * _turret.target_select_anglebias) +
 +                      (m_score * _turret.target_select_missilebias) +
 +                      (p_score * _turret.target_select_playerbias);
 +
 +      if(_turret.target_range < vlen(_turret.tur_shotorg - real_origin(_target)))
 +      {
 +              //dprint("Wtf?\n");
 +              score *= 0.001;
 +      }
 +
 +#ifdef TURRET_DEBUG
 +      string sd,sa,sm,sp,ss;
 +      string sdt,sat,smt,spt;
 +
 +      sd = ftos(d_score);
 +      d_score *= _turret.target_select_rangebias;
 +      sdt = ftos(d_score);
 +
 +      //sv = ftos(v_score);
 +      //v_score *= _turret.target_select_samebias;
 +      //svt = ftos(v_score);
 +
 +      sa = ftos(a_score);
 +      a_score *= _turret.target_select_anglebias;
 +      sat = ftos(a_score);
 +
 +      sm = ftos(m_score);
 +      m_score *= _turret.target_select_missilebias;
 +      smt = ftos(m_score);
 +
 +      sp = ftos(p_score);
 +      p_score *= _turret.target_select_playerbias;
 +      spt = ftos(p_score);
 +
 +
 +      ss = ftos(score);
 +      bprint("^3Target scores^7 \[  ",_turret.netname, "  \] ^3for^7 \[  ", _target.netname,"  \]\n");
 +      bprint("^5Range:\[  ",sd,  "  \]^2+bias:\[  ",sdt,"  \]\n");
 +      bprint("^5Angle:\[  ",sa,  "  \]^2+bias:\[  ",sat,"  \]\n");
 +      bprint("^5Missile:\[  ",sm,"  \]^2+bias:\[  ",smt,"  \]\n");
 +      bprint("^5Player:\[  ",sp, "  \]^2+bias:\[  ",spt,"  \]\n");
 +      bprint("^3Total (w/bias):\[^1",ss,"\]\n");
 +
 +#endif
 +
 +      return score;
 +}
 +
 +// Generic damage handling
 +void() turret_respawn;
 +void turret_hide()
 +{
 +      self.effects   |= EF_NODRAW;
 +      self.nextthink = time + self.respawntime - 0.2;
 +      self.think       = turret_respawn;
 +}
 +
 +void turret_die()
 +{
 +      self.deadflag             = DEAD_DEAD;
 +      self.tur_head.deadflag = self.deadflag;
 +
 +// Unsolidify and hide real parts
 +      self.solid                       = SOLID_NOT;
 +      self.tur_head.solid      = self.solid;
 +
 +      self.event_damage                 = func_null;
 +      self.takedamage                  = DAMAGE_NO;
 +
 +      self.health                      = 0;
 +
 +// Go boom
 +      //RadiusDamage (self,self, min(self.ammo,50),min(self.ammo,50) * 0.25,250,world,min(self.ammo,50)*5,DEATH_TURRET,world);
 +
 +      if(self.damage_flags & TFL_DMG_DEATH_NORESPAWN)
 +      {
 +              TUR_ACTION(self.turretid, TR_DEATH);
 +
 +              remove(self.tur_head);
 +              remove(self);
 +      }
 +      else
 +      {
 +              // Setup respawn
 +              self.SendFlags    |= TNSF_STATUS;
 +              self.nextthink   = time + 0.2;
 +              self.think               = turret_hide;
 +
 +              TUR_ACTION(self.turretid, TR_DEATH);
 +      }
 +}
 +
 +void turret_damage (entity inflictor, entity attacker, float damage, float deathtype, vector hitloc, vector vforce)
 +{
 +      // Enougth allready!
 +      if(self.deadflag == DEAD_DEAD)
 +              return;
 +
 +      // Inactive turrets take no damage. (hm..)
 +      if(!self.active)
 +              return;
 +
 +      if (teamplay)
 +      if (self.team == attacker.team)
 +      {
 +              // This does not happen anymore. Re-enable if you fix that.
 +              if(IS_REAL_CLIENT(attacker))
 +                      sprint(attacker, "\{1}Turret tells you: I'm on your team!\n");
 +
 +              if(autocvar_g_friendlyfire)
 +                      damage = damage * autocvar_g_friendlyfire;
 +              else
 +                      return;
 +      }
 +
 +      self.health -= damage;
 +
 +      // thorw head slightly off aim when hit?
 +      if (self.damage_flags & TFL_DMG_HEADSHAKE)
 +      {
 +              self.tur_head.angles_x = self.tur_head.angles_x + (-0.5 + random()) * damage;
 +              self.tur_head.angles_y = self.tur_head.angles_y + (-0.5 + random()) * damage;
 +
 +              self.SendFlags  |= TNSF_ANG;
 +      }
 +
 +      if (self.turret_flags & TUR_FLAG_MOVE)
 +              self.velocity = self.velocity + vforce;
 +
 +      if (self.health <= 0)
 +      {
 +              self.event_damage                 = func_null;
 +              self.tur_head.event_damage = func_null;
 +              self.takedamage                  = DAMAGE_NO;
 +              self.nextthink = time;
 +              self.think = turret_die;
 +      }
 +
 +      self.SendFlags  |= TNSF_STATUS;
 +}
 +
 +void() turret_think;
 +void turret_respawn()
 +{
 +      // Make sure all parts belong to the same team since
 +      // this function doubles as "teamchange" function.
 +      self.tur_head.team      = self.team;
 +      self.effects                       &= ~EF_NODRAW;
 +      self.deadflag                           = DEAD_NO;
 +      self.effects                            = EF_LOWPRECISION;
 +      self.solid                                      = SOLID_BBOX;
 +      self.takedamage                         = DAMAGE_AIM;
 +      self.event_damage                       = turret_damage;
 +      self.avelocity                          = '0 0 0';
 +      self.tur_head.avelocity         = self.avelocity;
 +      self.tur_head.angles            = self.idle_aim;
 +      self.health                                     = self.max_health;
 +      self.enemy                                      = world;
 +      self.volly_counter                      = self.shot_volly;
 +      self.ammo                                       = self.ammo_max;
 +
 +      self.nextthink = time + self.ticrate;
 +      self.think       = turret_think;
 +
 +      self.SendFlags = TNSF_FULL_UPDATE;
 +      
 +      TUR_ACTION(self.turretid, TR_SETUP);
 +}
 +
 +
 +// Main functions
 +#define cvar_base "g_turrets_unit_"
 +.float clientframe;
 +void turrets_setframe(float _frame, float client_only)
 +{
 +      if((client_only ? self.clientframe : self.frame ) != _frame)
 +      {
 +              self.SendFlags |= TNSF_ANIM;
 +              self.anim_start_time = time;
 +      }
 +
 +       if(client_only)
 +              self.clientframe = _frame;
 +      else
 +              self.frame = _frame;
 +
 +}
 +
 +float turret_send(entity to, float sf)
 +{
 +
 +      WriteByte(MSG_ENTITY, ENT_CLIENT_TURRET);
 +      WriteByte(MSG_ENTITY, sf);
 +      if(sf & TNSF_SETUP)
 +      {
 +              WriteByte(MSG_ENTITY, self.turretid);
 +
 +              WriteCoord(MSG_ENTITY, self.origin_x);
 +              WriteCoord(MSG_ENTITY, self.origin_y);
 +              WriteCoord(MSG_ENTITY, self.origin_z);
 +
 +              WriteAngle(MSG_ENTITY, self.angles_x);
 +              WriteAngle(MSG_ENTITY, self.angles_y);
 +      }
 +
 +      if(sf & TNSF_ANG)
 +      {
 +              WriteShort(MSG_ENTITY, rint(self.tur_head.angles_x));
 +              WriteShort(MSG_ENTITY, rint(self.tur_head.angles_y));
 +      }
 +
 +      if(sf & TNSF_AVEL)
 +      {
 +              WriteShort(MSG_ENTITY, rint(self.tur_head.avelocity_x));
 +              WriteShort(MSG_ENTITY, rint(self.tur_head.avelocity_y));
 +      }
 +
 +      if(sf & TNSF_MOVE)
 +      {
 +              WriteShort(MSG_ENTITY, rint(self.origin_x));
 +              WriteShort(MSG_ENTITY, rint(self.origin_y));
 +              WriteShort(MSG_ENTITY, rint(self.origin_z));
 +
 +              WriteShort(MSG_ENTITY, rint(self.velocity_x));
 +              WriteShort(MSG_ENTITY, rint(self.velocity_y));
 +              WriteShort(MSG_ENTITY, rint(self.velocity_z));
 +
 +              WriteShort(MSG_ENTITY, rint(self.angles_y));
 +      }
 +
 +      if(sf & TNSF_ANIM)
 +      {
 +              WriteCoord(MSG_ENTITY, self.anim_start_time);
 +              WriteByte(MSG_ENTITY, self.frame);
 +      }
 +
 +      if(sf & TNSF_STATUS)
 +      {
 +              WriteByte(MSG_ENTITY, self.team);
 +
 +              if(self.health <= 0)
 +                      WriteByte(MSG_ENTITY, 0);
 +              else
 +                      WriteByte(MSG_ENTITY, ceil((self.health / self.max_health) * 255));
 +      }
 +
 +      return TRUE;
 +}
 +
 +void load_unit_settings(entity ent, string unitname, float is_reload)
 +{
 +      string sbase;
 +
 +      if (ent == world)
 +              return;
 +
 +      if(!ent.turret_scale_damage)    ent.turret_scale_damage = 1;
 +      if(!ent.turret_scale_range)             ent.turret_scale_range  = 1;
 +      if(!ent.turret_scale_refire)    ent.turret_scale_refire = 1;
 +      if(!ent.turret_scale_ammo)              ent.turret_scale_ammo   = 1;
 +      if(!ent.turret_scale_aim)               ent.turret_scale_aim     = 1;
 +      if(!ent.turret_scale_health)    ent.turret_scale_health = 1;
 +      if(!ent.turret_scale_respawn)   ent.turret_scale_respawn = 1;
 +
 +      sbase = strcat(cvar_base,unitname);
 +      if (is_reload)
 +      {
 +              ent.enemy = world;
 +              ent.tur_head.avelocity = '0 0 0';
 +
 +              ent.tur_head.angles = '0 0 0';
 +      }
 +
 +      ent.health       = cvar(strcat(sbase,"_health")) * ent.turret_scale_health;
 +      ent.respawntime = cvar(strcat(sbase,"_respawntime")) * ent.turret_scale_respawn;
 +
 +      ent.shot_dmg             = cvar(strcat(sbase,"_shot_dmg")) * ent.turret_scale_damage;
 +      ent.shot_refire   = cvar(strcat(sbase,"_shot_refire")) * ent.turret_scale_refire;
 +      ent.shot_radius   = cvar(strcat(sbase,"_shot_radius")) * ent.turret_scale_damage;
 +      ent.shot_speed          = cvar(strcat(sbase,"_shot_speed"));
 +      ent.shot_spread   = cvar(strcat(sbase,"_shot_spread"));
 +      ent.shot_force          = cvar(strcat(sbase,"_shot_force")) * ent.turret_scale_damage;
 +      ent.shot_volly          = cvar(strcat(sbase,"_shot_volly"));
 +      ent.shot_volly_refire = cvar(strcat(sbase,"_shot_volly_refire")) * ent.turret_scale_refire;
 +
 +      ent.target_range                 = cvar(strcat(sbase,"_target_range")) * ent.turret_scale_range;
 +      ent.target_range_min     = cvar(strcat(sbase,"_target_range_min")) * ent.turret_scale_range;
 +      ent.target_range_optimal = cvar(strcat(sbase,"_target_range_optimal")) * ent.turret_scale_range;
 +      //ent.target_range_fire = cvar(strcat(sbase,"_target_range_fire")) * ent.turret_scale_range;
 +
 +      ent.target_select_rangebias = cvar(strcat(sbase,"_target_select_rangebias"));
 +      ent.target_select_samebias  = cvar(strcat(sbase,"_target_select_samebias"));
 +      ent.target_select_anglebias = cvar(strcat(sbase,"_target_select_anglebias"));
 +      ent.target_select_playerbias = cvar(strcat(sbase,"_target_select_playerbias"));
 +      //ent.target_select_fov = cvar(cvar_gets(sbase,"_target_select_fov"));
 +
 +      ent.ammo_max     = cvar(strcat(sbase,"_ammo_max")) * ent.turret_scale_ammo;
 +      ent.ammo_recharge = cvar(strcat(sbase,"_ammo_recharge")) * ent.turret_scale_ammo;
 +
 +      ent.aim_firetolerance_dist = cvar(strcat(sbase,"_aim_firetolerance_dist"));
 +      ent.aim_speed   = cvar(strcat(sbase,"_aim_speed")) * ent.turret_scale_aim;
 +      ent.aim_maxrotate  = cvar(strcat(sbase,"_aim_maxrot"));
 +      ent.aim_maxpitch = cvar(strcat(sbase,"_aim_maxpitch"));
 +
 +      ent.track_type          = cvar(strcat(sbase,"_track_type"));
 +      ent.track_accel_pitch = cvar(strcat(sbase,"_track_accel_pitch"));
 +      ent.track_accel_rotate  = cvar(strcat(sbase,"_track_accel_rot"));
 +      ent.track_blendrate  = cvar(strcat(sbase,"_track_blendrate"));
 +
 +      if(is_reload)
 +              TUR_ACTION(self.turretid, TR_SETUP);
 +}
 +
 +void turret_projectile_explode()
 +{
 +
 +      self.takedamage = DAMAGE_NO;
 +      self.event_damage = func_null;
 +#ifdef TURRET_DEBUG
 +      float d;
 +      d = RadiusDamage (self, self.owner, self.owner.shot_dmg, 0, self.owner.shot_radius, self, self.owner.shot_force, self.totalfrags, world);
 +      self.owner.tur_debug_dmg_t_h = self.owner.tur_debug_dmg_t_h + d;
 +      self.owner.tur_debug_dmg_t_f = self.owner.tur_debug_dmg_t_f + self.owner.shot_dmg;
 +#else
 +      RadiusDamage (self, self.realowner, self.owner.shot_dmg, 0, self.owner.shot_radius, self, self.owner.shot_force, self.totalfrags, world);
 +#endif
 +      remove(self);
 +}
 +
 +void turret_projectile_touch()
 +{
 +      PROJECTILE_TOUCH;
 +      turret_projectile_explode();
 +}
 +
 +void turret_projectile_damage(entity inflictor, entity attacker, float damage, float deathtype, vector hitloc, vector vforce)
 +{
 +      self.velocity  += vforce;
 +      self.health     -= damage;
 +      //self.realowner = attacker; // Dont change realowner, it does not make much sense for turrets
 +      if(self.health <= 0)
 +              W_PrepareExplosionByDamage(self.owner, turret_projectile_explode);
 +}
 +
 +entity turret_projectile(string _snd, float _size, float _health, float _death, float _proj_type, float _cull, float _cli_anim)
 +{
 +      entity proj;
 +
 +      sound (self, CH_WEAPON_A, _snd, VOL_BASE, ATTEN_NORM);
 +      proj                             = spawn ();
 +      setorigin(proj, self.tur_shotorg);
 +      setsize(proj, '-0.5 -0.5 -0.5' * _size, '0.5 0.5 0.5' * _size);
 +      proj.owner                = self;
 +      proj.realowner    = self;
 +      proj.bot_dodge    = TRUE;
 +      proj.bot_dodgerating = self.shot_dmg;
 +      proj.think                = turret_projectile_explode;
 +      proj.touch                = turret_projectile_touch;
 +      proj.nextthink    = time + 9;
 +      proj.movetype           = MOVETYPE_FLYMISSILE;
 +      proj.velocity           = normalize(self.tur_shotdir_updated + randomvec() * self.shot_spread) * self.shot_speed;
 +      proj.flags                = FL_PROJECTILE;
 +      proj.enemy                = self.enemy;
 +      proj.totalfrags  = _death;
 +      PROJECTILE_MAKETRIGGER(proj);
 +      if(_health)
 +      {
 +              proj.health              = _health;
 +              proj.takedamage  = DAMAGE_YES;
 +              proj.event_damage  = turret_projectile_damage;
 +      }
 +      else
 +              proj.flags |= FL_NOTARGET;
 +
 +      CSQCProjectile(proj, _cli_anim, _proj_type, _cull);
 +
 +      return proj;
 +}
 +
 +/**
 +** updates enemy distances, predicted impact point/time
 +** and updated aim<->predict impact distance.
 +**/
 +void turret_do_updates(entity t_turret)
 +{
 +      vector enemy_pos;
 +      entity oldself;
 +
 +      oldself = self;
 +      self = t_turret;
 +
 +      enemy_pos = real_origin(self.enemy);
 +
 +      turret_tag_fire_update();
 +
 +      self.tur_shotdir_updated = v_forward;
 +      self.tur_dist_enemy = vlen(self.tur_shotorg - enemy_pos);
 +      self.tur_dist_aimpos = vlen(self.tur_shotorg - self.tur_aimpos);
 +
 +      /*if((self.firecheck_flags & TFL_FIRECHECK_VERIFIED) && (self.enemy))
 +      {
 +              oldpos = self.enemy.origin;
 +              setorigin(self.enemy, self.tur_aimpos);
 +              tracebox(self.tur_shotorg, '-1 -1 -1', '1 1 1', self.tur_shotorg + (self.tur_shotdir_updated * self.tur_dist_aimpos), MOVE_NORMAL,self);
 +              setorigin(self.enemy, oldpos);
 +
 +              if(trace_ent == self.enemy)
 +                      self.tur_dist_impact_to_aimpos = 0;
 +              else
 +                      self.tur_dist_impact_to_aimpos = vlen(trace_endpos - self.tur_aimpos);
 +      }
 +      else*/
 +              tracebox(self.tur_shotorg, '-1 -1 -1','1 1 1', self.tur_shotorg + (self.tur_shotdir_updated * self.tur_dist_aimpos), MOVE_NORMAL,self);
 +
 +      self.tur_dist_impact_to_aimpos = vlen(trace_endpos - self.tur_aimpos) - (vlen(self.enemy.maxs - self.enemy.mins) * 0.5);
 +      self.tur_impactent                       = trace_ent;
 +      self.tur_impacttime                     = vlen(self.tur_shotorg - trace_endpos) / self.shot_speed;
 +
 +      self = oldself;
 +}
 +
 +/**
 +** Handles head rotation according to
 +** the units .track_type and .track_flags
 +**/
 +.float turret_framecounter;
 +void turret_track()
 +{
 +      vector target_angle; // This is where we want to aim
 +      vector move_angle;   // This is where we can aim
 +      float f_tmp;
 +      vector v1, v2;
 +      v1 = self.tur_head.angles;
 +      v2 = self.tur_head.avelocity;
 +
 +      if (self.track_flags == TFL_TRACK_NO)
 +              return;
 +
 +      if(!self.active)
 +              target_angle = self.idle_aim - ('1 0 0' * self.aim_maxpitch);
 +      else if (self.enemy == world)
 +      {
 +              if(time > self.lip)
 +                      target_angle = self.idle_aim + self.angles;
 +              else
 +                      target_angle = vectoangles(normalize(self.tur_aimpos - self.tur_shotorg));
 +      }
 +      else
 +      {
 +              target_angle = vectoangles(normalize(self.tur_aimpos - self.tur_shotorg));
 +      }
 +
 +      self.tur_head.angles_x = anglemods(self.tur_head.angles_x);
 +      self.tur_head.angles_y = anglemods(self.tur_head.angles_y);
 +
 +      // Find the diffrence between where we currently aim and where we want to aim
 +      //move_angle = target_angle - (self.angles + self.tur_head.angles);
 +      //move_angle = shortangle_vxy(move_angle,(self.angles + self.tur_head.angles));
 +
 +      move_angle = AnglesTransform_ToAngles(AnglesTransform_LeftDivide(AnglesTransform_FromAngles(self.angles), AnglesTransform_FromAngles(target_angle))) - self.tur_head.angles;
 +      move_angle = shortangle_vxy(move_angle, self.tur_head.angles);
 +
 +      switch(self.track_type)
 +      {
 +              case TFL_TRACKTYPE_STEPMOTOR:
 +                      f_tmp = self.aim_speed * self.ticrate; // dgr/sec -> dgr/tic
 +                      if (self.track_flags & TFL_TRACK_PITCH)
 +                      {
 +                              self.tur_head.angles_x += bound(-f_tmp,move_angle_x, f_tmp);
 +                              if(self.tur_head.angles_x > self.aim_maxpitch)
 +                                      self.tur_head.angles_x = self.aim_maxpitch;
 +
 +                              if(self.tur_head.angles_x  < -self.aim_maxpitch)
 +                                      self.tur_head.angles_x = self.aim_maxpitch;
 +                      }
 +
 +                      if (self.track_flags & TFL_TRACK_ROTATE)
 +                      {
 +                              self.tur_head.angles_y += bound(-f_tmp, move_angle_y, f_tmp);
 +                              if(self.tur_head.angles_y > self.aim_maxrotate)
 +                                      self.tur_head.angles_y = self.aim_maxrotate;
 +
 +                              if(self.tur_head.angles_y  < -self.aim_maxrotate)
 +                                      self.tur_head.angles_y = self.aim_maxrotate;
 +                      }
 +
 +                      // CSQC
 +                      self.SendFlags  |= TNSF_ANG;
 +
 +                      return;
 +
 +              case TFL_TRACKTYPE_FLUIDINERTIA:
 +                      f_tmp = self.aim_speed * self.ticrate; // dgr/sec -> dgr/tic
 +                      move_angle_x = bound(-self.aim_speed, move_angle_x * self.track_accel_pitch * f_tmp, self.aim_speed);
 +                      move_angle_y = bound(-self.aim_speed, move_angle_y * self.track_accel_rotate * f_tmp, self.aim_speed);
 +                      move_angle = (self.tur_head.avelocity * self.track_blendrate) + (move_angle * (1 - self.track_blendrate));
 +                      break;
 +
 +              case TFL_TRACKTYPE_FLUIDPRECISE:
 +
 +                      move_angle_y = bound(-self.aim_speed, move_angle_y, self.aim_speed);
 +                      move_angle_x = bound(-self.aim_speed, move_angle_x, self.aim_speed);
 +
 +                      break;
 +      }
 +
 +      //  pitch
 +      if (self.track_flags & TFL_TRACK_PITCH)
 +      {
 +              self.tur_head.avelocity_x = move_angle_x;
 +              if((self.tur_head.angles_x + self.tur_head.avelocity_x * self.ticrate) > self.aim_maxpitch)
 +              {
 +                      self.tur_head.avelocity_x = 0;
 +                      self.tur_head.angles_x = self.aim_maxpitch;
 +
 +                      self.SendFlags  |= TNSF_ANG;
 +              }
 +
 +              if((self.tur_head.angles_x + self.tur_head.avelocity_x * self.ticrate) < -self.aim_maxpitch)
 +              {
 +                      self.tur_head.avelocity_x = 0;
 +                      self.tur_head.angles_x = -self.aim_maxpitch;
 +
 +                      self.SendFlags  |= TNSF_ANG;
 +              }
 +      }
 +
 +      //  rot
 +      if (self.track_flags & TFL_TRACK_ROTATE)
 +      {
 +              self.tur_head.avelocity_y = move_angle_y;
 +
 +              if((self.tur_head.angles_y + self.tur_head.avelocity_y * self.ticrate) > self.aim_maxrotate)
 +              {
 +                      self.tur_head.avelocity_y = 0;
 +                      self.tur_head.angles_y = self.aim_maxrotate;
 +
 +                      self.SendFlags  |= TNSF_ANG;
 +              }
 +
 +              if((self.tur_head.angles_y + self.tur_head.avelocity_y * self.ticrate) < -self.aim_maxrotate)
 +              {
 +                      self.tur_head.avelocity_y = 0;
 +                      self.tur_head.angles_y = -self.aim_maxrotate;
 +
 +                      self.SendFlags  |= TNSF_ANG;
 +              }
 +      }
 +
 +      self.SendFlags  |= TNSF_AVEL;
 +
 +      // Force a angle update every 10'th frame
 +      self.turret_framecounter += 1;
 +      if(self.turret_framecounter >= 10)
 +      {
 +              self.SendFlags |= TNSF_ANG;
 +              self.turret_framecounter = 0;
 +      }
 +}
 +
 +/*
 + + TFL_TARGETSELECT_NO
 + + TFL_TARGETSELECT_LOS
 + + TFL_TARGETSELECT_PLAYERS
 + + TFL_TARGETSELECT_MISSILES
 + - TFL_TARGETSELECT_TRIGGERTARGET
 + + TFL_TARGETSELECT_ANGLELIMITS
 + + TFL_TARGETSELECT_RANGELIMITS
 + + TFL_TARGETSELECT_TEAMCHECK
 + - TFL_TARGETSELECT_NOBUILTIN
 + + TFL_TARGETSELECT_OWNTEAM
 +*/
 +
 +/**
 +** Evaluate a entity for target valitity based on validate_flags
 +** NOTE: the caller must check takedamage before calling this, to inline this check.
 +**/
 +float turret_validate_target(entity e_turret, entity e_target, float validate_flags)
 +{
 +      vector v_tmp;
 +
 +      //if(!validate_flags & TFL_TARGETSELECT_NOBUILTIN)
 +      //      return -0.5;
 +
 +      if(e_target.owner == e_turret)
 +              return -0.5;
 +
 +      if(!checkpvs(e_target.origin, e_turret))
 +              return -1;
 +
 +      if(!e_target)
 +              return -2;
 +
 +      if(g_onslaught)
 +              if (substring(e_target.classname, 0, 10) == "onslaught_") // don't attack onslaught targets, that's the player's job!
 +                      return - 3;
 +
 +      if (validate_flags & TFL_TARGETSELECT_NO)
 +              return -4;
 +
 +      // If only this was used more..
 +      if (e_target.flags & FL_NOTARGET)
 +              return -5;
 +
 +      // Cant touch this
 +      if(e_target.vehicle_flags & VHF_ISVEHICLE)
 +      {
 +              if (e_target.vehicle_health <= 0)
 +                      return -6;
 +      }
 +      else if (e_target.health <= 0)
 +              return -6;
++      else if(e_target.frozen > 0)
 +              return -6;
 +
 +      // player
 +      if (IS_CLIENT(e_target))
 +      {
 +              if(!(validate_flags & TFL_TARGETSELECT_PLAYERS))
 +                      return -7;
 +
 +              if (e_target.deadflag != DEAD_NO)
 +                      return -8;
 +      }
 +
 +      // enemy turrets
 +      if(validate_flags & TFL_TARGETSELECT_NOTURRETS)
 +      if(e_target.owner.tur_head == e_target)
 +      if(e_target.team != e_turret.team) // Dont break support units.
 +              return -9;
 +
 +      // Missile
 +      if (e_target.flags & FL_PROJECTILE)
 +      if(!(validate_flags & TFL_TARGETSELECT_MISSILES))
 +              return -10;
 +
 +      if (validate_flags & TFL_TARGETSELECT_MISSILESONLY)
 +      if(!(e_target.flags & FL_PROJECTILE))
 +              return -10.5;
 +
 +      // Team check
 +      if (validate_flags & TFL_TARGETSELECT_TEAMCHECK)
 +      {
 +              if (validate_flags & TFL_TARGETSELECT_OWNTEAM)
 +              {
 +                      if (e_target.team != e_turret.team)
 +                              return -11;
 +
 +                      if (e_turret.team != e_target.owner.team)
 +                              return -12;
 +              }
 +              else
 +              {
 +                      if (e_target.team == e_turret.team)
 +                              return -13;
 +
 +                      if (e_turret.team == e_target.owner.team)
 +                              return -14;
 +              }
 +      }
 +
 +      // Range limits?
 +      tvt_dist = vlen(e_turret.origin - real_origin(e_target));
 +      if (validate_flags & TFL_TARGETSELECT_RANGELIMITS)
 +      {
 +              if (tvt_dist < e_turret.target_range_min)
 +                      return -15;
 +
 +              if (tvt_dist > e_turret.target_range)
 +                      return -16;
 +      }
 +
 +      // Can we even aim this thing?
 +      tvt_thadv = angleofs3(e_turret.tur_head.origin, e_turret.angles + e_turret.tur_head.angles, e_target);
 +      tvt_tadv = shortangle_vxy(angleofs(e_turret, e_target), e_turret.angles);
 +      tvt_thadf = vlen(tvt_thadv);
 +      tvt_tadf = vlen(tvt_tadv);
 +
 +      /*
 +      if(validate_flags & TFL_TARGETSELECT_FOV)
 +      {
 +              if(e_turret.target_select_fov < tvt_thadf)
 +                      return -21;
 +      }
 +      */
 +
 +      if (validate_flags & TFL_TARGETSELECT_ANGLELIMITS)
 +      {
 +              if (fabs(tvt_tadv_x) > e_turret.aim_maxpitch)
 +                      return -17;
 +
 +              if (fabs(tvt_tadv_y) > e_turret.aim_maxrotate)
 +                      return -18;
 +      }
 +
 +      // Line of sight?
 +      if (validate_flags & TFL_TARGETSELECT_LOS)
 +      {
 +              v_tmp = real_origin(e_target) + ((e_target.mins + e_target.maxs) * 0.5);
 +
 +              traceline(e_turret.origin + '0 0 16', v_tmp, 0, e_turret);
 +
 +              if (e_turret.aim_firetolerance_dist < vlen(v_tmp - trace_endpos))
 +                      return -19;
 +      }
 +
 +      if (e_target.classname == "grapplinghook")
 +              return -20;
 +
 +      /*
 +      if (e_target.classname == "func_button")
 +              return -21;
 +      */
 +
 +#ifdef TURRET_DEBUG_TARGETSELECT
 +      dprint("Target:",e_target.netname," is a valid target for ",e_turret.netname,"\n");
 +#endif
 +
 +      return 1;
 +}
 +
 +entity turret_select_target()
 +{
 +      entity e;               // target looper entity
 +      float  score;   // target looper entity score
 +      entity e_enemy;  // currently best scoreing target
 +      float  m_score;  // currently best scoreing target's score
 +
 +      m_score = 0;
 +      if(self.enemy && self.enemy.takedamage && turret_validate_target(self,self.enemy,self.target_validate_flags) > 0)
 +      {
 +              e_enemy = self.enemy;
 +              m_score = self.turret_score_target(self,e_enemy) * self.target_select_samebias;
 +      }
 +      else
 +              e_enemy = self.enemy = world;
 +
 +      e = findradius(self.origin, self.target_range);
 +
 +      // Nothing to aim at?
 +      if (!e)
 +              return world;
 +
 +      while (e)
 +      {
 +              if(e.takedamage)
 +              {
 +                      float f = turret_validate_target(self, e, self.target_select_flags);
 +                      //dprint("F is: ", ftos(f), "\n");
 +                      if ( f > 0)
 +                      {
 +                              score = self.turret_score_target(self,e);
 +                              if ((score > m_score) && (score > 0))
 +                              {
 +                                      e_enemy = e;
 +                                      m_score = score;
 +                              }
 +                      }
 +              }
 +              e = e.chain;
 +      }
 +
 +      return e_enemy;
 +}
 +
 +
 +/*
 + + = implemented
 + - = not implemented
 +
 + + TFL_FIRECHECK_NO
 + + TFL_FIRECHECK_WORLD
 + + TFL_FIRECHECK_DEAD
 + + TFL_FIRECHECK_DISTANCES
 + - TFL_FIRECHECK_LOS
 + + TFL_FIRECHECK_AIMDIST
 + + TFL_FIRECHECK_REALDIST
 + - TFL_FIRECHECK_ANGLEDIST
 + - TFL_FIRECHECK_TEAMCECK
 + + TFL_FIRECHECK_AFF
 + + TFL_FIRECHECK_AMMO_OWN
 + + TFL_FIRECHECK_AMMO_OTHER
 + + TFL_FIRECHECK_REFIRE
 +*/
 +
 +/**
 +** Preforms pre-fire checks based on the uints firecheck_flags
 +**/
 +float turret_firecheck()
 +{
 +      // This one just dont care =)
 +      if (self.firecheck_flags & TFL_FIRECHECK_NO)
 +              return 1;
 +
 +      if (self.enemy == world)
 +              return 0;
 +
 +      // Ready?
 +      if (self.firecheck_flags & TFL_FIRECHECK_REFIRE)
 +              if (self.attack_finished_single > time) return 0;
 +
 +      // Special case: volly fire turret that has to fire a full volly if a shot was fired.
 +      if (self.shoot_flags & TFL_SHOOT_VOLLYALWAYS)
 +              if (self.volly_counter != self.shot_volly)
 +                      if(self.ammo >= self.shot_dmg)
 +                              return 1;
 +
 +      // Lack of zombies makes shooting dead things unnecessary :P
 +      if (self.firecheck_flags & TFL_FIRECHECK_DEAD)
 +              if (self.enemy.deadflag != DEAD_NO)
 +                      return 0;
 +
 +      // Own ammo?
 +      if (self.firecheck_flags & TFL_FIRECHECK_AMMO_OWN)
 +              if (self.ammo < self.shot_dmg)
 +                      return 0;
 +
 +      // Other's ammo? (support-supply units)
 +      if (self.firecheck_flags & TFL_FIRECHECK_AMMO_OTHER)
 +              if (self.enemy.ammo >= self.enemy.ammo_max)
 +                      return 0;
 +
 +      // Target of opertunity?
 +      if(turret_validate_target(self, self.tur_impactent, self.target_validate_flags) > 0)
 +      {
 +              self.enemy = self.tur_impactent;
 +              return 1;
 +      }
 +
 +      if (self.firecheck_flags & TFL_FIRECHECK_DISTANCES)
 +      {
 +              // To close?
 +              if (self.tur_dist_aimpos < self.target_range_min)
 +                      if(turret_validate_target(self, self.tur_impactent, self.target_validate_flags) > 0)
 +                              return 1; // Target of opertunity?
 +                      else
 +                              return 0;
 +      }
 +
 +      // Try to avoid FF?
 +      if (self.firecheck_flags & TFL_FIRECHECK_AFF)
 +              if (self.tur_impactent.team == self.team)
 +                      return 0;
 +
 +      // aim<->predicted impact
 +      if (self.firecheck_flags & TFL_FIRECHECK_AIMDIST)
 +              if (self.tur_dist_impact_to_aimpos > self.aim_firetolerance_dist)
 +                      return 0;
 +
 +      // Volly status
 +      if (self.shot_volly > 1)
 +              if (self.volly_counter == self.shot_volly)
 +                      if (self.ammo < (self.shot_dmg * self.shot_volly))
 +                              return 0;
 +
 +      /*if(self.firecheck_flags & TFL_FIRECHECK_VERIFIED)
 +              if(self.tur_impactent != self.enemy)
 +                      return 0;*/
 +
 +      return 1;
 +}
 +
 +void turret_fire()
 +{
 +      if (autocvar_g_turrets_nofire != 0)
 +              return;
 +              
 +      TUR_ACTION(self.turretid, TR_ATTACK);
 +
 +      self.attack_finished_single = time + self.shot_refire;
 +      self.ammo -= self.shot_dmg;
 +      self.volly_counter = self.volly_counter - 1;
 +
 +      if (self.volly_counter <= 0)
 +      {
 +              self.volly_counter = self.shot_volly;
 +
 +              if (self.shoot_flags & TFL_SHOOT_CLEARTARGET)
 +                      self.enemy = world;
 +
 +              if (self.shot_volly > 1)
 +                      self.attack_finished_single = time + self.shot_volly_refire;
 +      }
 +
 +#ifdef TURRET_DEBUG
 +      if (self.enemy) paint_target3(self.tur_aimpos, 64, self.tur_debug_rvec, self.tur_impacttime + 0.25);
 +#endif
 +}
 +
 +void turret_think()
 +{
 +      entity e;
 +
 +      self.nextthink = time + self.ticrate;
 +
 +      // ONS uses somewhat backwards linking.
 +      if (teamplay)
 +      {
 +              if (g_onslaught)
 +                      if (self.target)
 +                      {
 +                              e = find(world, targetname,self.target);
 +                              if (e != world)
 +                                      self.team = e.team;
 +                      }
 +
 +              if (self.team != self.tur_head.team)
 +                      turret_respawn();
 +      }
 +
 +#ifdef TURRET_DEBUG
 +      if (self.tur_debug_tmr1 < time)
 +      {
 +              if (self.enemy) paint_target (self.enemy,128,self.tur_debug_rvec,0.9);
 +              paint_target(self,256,self.tur_debug_rvec,0.9);
 +              self.tur_debug_tmr1 = time + 1;
 +      }
 +#endif
 +
 +      // Handle ammo
 +      if (!(self.spawnflags & TSF_NO_AMMO_REGEN))
 +      if (self.ammo < self.ammo_max)
 +              self.ammo = min(self.ammo + self.ammo_recharge, self.ammo_max);
 +
 +      // Inactive turrets needs to run the think loop,
 +      // So they can handle animation and wake up if need be.
 +      if(!self.active)
 +      {
 +              turret_track();
 +              return;
 +      }
 +
 +      // This is typicaly used for zaping every target in range
 +      // turret_fusionreactor uses this to recharge friendlys.
 +      if (self.shoot_flags & TFL_SHOOT_HITALLVALID)
 +      {
 +              // Do a self.turret_fire for every valid target.
 +              e = findradius(self.origin,self.target_range);
 +              while (e)
 +              {
 +                      if(e.takedamage)
 +                      {
 +                              if (turret_validate_target(self,e,self.target_validate_flags))
 +                              {
 +                                      self.enemy = e;
 +
 +                                      turret_do_updates(self);
 +
 +                                      if (self.turret_firecheckfunc())
 +                                              turret_fire();
 +                              }
 +                      }
 +
 +                      e = e.chain;
 +              }
 +              self.enemy = world;
 +      }
 +      else if(self.shoot_flags & TFL_SHOOT_CUSTOM)
 +      {
 +              // This one is doing something.. oddball. assume its handles what needs to be handled.
 +
 +              // Predict?
 +              if(!(self.aim_flags & TFL_AIM_NO))
 +                      self.tur_aimpos = turret_aim_generic();
 +
 +              // Turn & pitch?
 +              if(!(self.track_flags & TFL_TRACK_NO))
 +                      turret_track();
 +
 +              turret_do_updates(self);
 +
 +              // Fire?
 +              if (self.turret_firecheckfunc())
 +                      turret_fire();
 +      }
 +      else
 +      {
 +              // Special case for volly always. if it fired once it must compleate the volly.
 +              if(self.shoot_flags & TFL_SHOOT_VOLLYALWAYS)
 +                      if(self.volly_counter != self.shot_volly)
 +                      {
 +                              // Predict or whatnot
 +                              if(!(self.aim_flags & TFL_AIM_NO))
 +                                      self.tur_aimpos = turret_aim_generic();
 +
 +                              // Turn & pitch
 +                              if(!(self.track_flags & TFL_TRACK_NO))
 +                                      turret_track();
 +
 +                              turret_do_updates(self);
 +
 +                              // Fire!
 +                              if (self.turret_firecheckfunc() != 0)
 +                                      turret_fire();
 +                                      
 +                              TUR_ACTION(self.turretid, TR_THINK);
 +
 +                              return;
 +                      }
 +
 +              // Check if we have a vailid enemy, and try to find one if we dont.
 +
 +              // g_turrets_targetscan_maxdelay forces a target re-scan at least this often
 +              float do_target_scan = 0;
 +              if((self.target_select_time + autocvar_g_turrets_targetscan_maxdelay) < time)
 +                      do_target_scan = 1;
 +
 +              // Old target (if any) invalid?
 +              if(self.target_validate_time < time)
 +              if (turret_validate_target(self, self.enemy, self.target_validate_flags) <= 0)
 +              {
 +                      self.enemy = world;
 +                      self.target_validate_time = time + 0.5;
 +                      do_target_scan = 1;
 +              }
 +
 +              // But never more often then g_turrets_targetscan_mindelay!
 +              if (self.target_select_time + autocvar_g_turrets_targetscan_mindelay > time)
 +                      do_target_scan = 0;
 +
 +              if(do_target_scan)
 +              {
 +                      self.enemy = turret_select_target();
 +                      self.target_select_time = time;
 +              }
 +
 +              // No target, just go to idle, do any custom stuff and bail.
 +              if (self.enemy == world)
 +              {
 +                      // Turn & pitch
 +                      if(!(self.track_flags & TFL_TRACK_NO))
 +                              turret_track();
 +                              
 +                      TUR_ACTION(self.turretid, TR_THINK);
 +
 +                      // And bail.
 +                      return;
 +              }
 +              else
 +                      self.lip = time + autocvar_g_turrets_aimidle_delay; // Keep track of the last time we had a target.
 +
 +              // Predict?
 +              if(!(self.aim_flags & TFL_AIM_NO))
 +                      self.tur_aimpos = turret_aim_generic();
 +
 +              // Turn & pitch?
 +              if(!(self.track_flags & TFL_TRACK_NO))
 +                      turret_track();
 +
 +              turret_do_updates(self);
 +
 +              // Fire?
 +              if (self.turret_firecheckfunc())
 +                      turret_fire();
 +      }
 +
 +      TUR_ACTION(self.turretid, TR_THINK);
 +}
 +
 +/*
 +      When .used a turret switch team to activator.team.
 +      If activator is world, the turret go inactive.
 +*/
 +void turret_use()
 +{
 +      dprint("Turret ",self.netname, " used by ", activator.classname, "\n");
 +
 +      self.team = activator.team;
 +
 +      if(self.team == 0)
 +              self.active = ACTIVE_NOT;
 +      else
 +              self.active = ACTIVE_ACTIVE;
 +
 +}
 +
 +void turret_link()
 +{
 +      Net_LinkEntity(self, TRUE, 0, turret_send);
 +      self.think       = turret_think;
 +      self.nextthink = time;
 +      self.tur_head.effects = EF_NODRAW;
 +}
 +
 +void turrets_manager_think()
 +{
 +      self.nextthink = time + 1;
 +
 +      entity e;
 +      if (autocvar_g_turrets_reloadcvars == 1)
 +      {
 +              e = nextent(world);
 +              while (e)
 +              {
 +                      if (e.turret_flags & TUR_FLAG_ISTURRET)
 +                      {
 +                              load_unit_settings(e,e.cvar_basename,1);
 +                              TUR_ACTION(self.turretid, TR_THINK);
 +                      }
 +
 +                      e = nextent(e);
 +              }
 +              cvar_set("g_turrets_reloadcvars","0");
 +      }
 +}
 +
 +float turret_initialize(float tur_id)
 +{
 +      if(!autocvar_g_turrets)
 +              return FALSE;
 +
 +      entity e;
 +      entity tur = get_turretinfo(tur_id);
 +      if(tur.turretid == 0)
 +              return FALSE; // invalid turret
 +
 +      e = find(world, classname, "turret_manager");
 +      if(!e)
 +      {
 +              e = spawn();
 +              e.classname = "turret_manager";
 +              e.think = turrets_manager_think;
 +              e.nextthink = time + 2;
 +      }
 +
 +      if(!(self.spawnflags & TSF_SUSPENDED))
 +              builtin_droptofloor();
 +
 +      self.cvar_basename = tur.cvar_basename;
 +      load_unit_settings(self, self.cvar_basename, 0);
 +      
 +      if(!self.team || !teamplay)             { self.team = MAX_SHOT_DISTANCE; }
 +      if(!self.ticrate)                               { self.ticrate = ((self.turret_flags & TUR_FLAG_SUPPORT) ? 0.2 : 0.1); }
 +      if(!self.health)                                { self.health = 1000; }
 +      if(!self.shot_refire)                   { self.shot_refire = 1; }
 +      if(!self.tur_shotorg)                   { self.tur_shotorg = '50 0 50'; }
 +      if(!self.turret_flags)                  { self.turret_flags = TUR_FLAG_SPLASH | TUR_FLAG_MEDPROJ | TUR_FLAG_PLAYER; }
 +      if(!self.damage_flags)                  { self.damage_flags = TFL_DMG_YES | TFL_DMG_RETALIATE | TFL_DMG_AIMSHAKE; }
 +      if(!self.aim_flags)                             { self.aim_flags = TFL_AIM_LEAD | TFL_AIM_SHOTTIMECOMPENSATE; }
 +      if(!self.track_type)                    { self.track_type = TFL_TRACKTYPE_STEPMOTOR; }
 +      if(!self.track_flags)                   { self.track_flags = TFL_TRACK_PITCH | TFL_TRACK_ROTATE; }
 +      if(!self.ammo_flags)                    { self.ammo_flags = TFL_AMMO_ENERGY | TFL_AMMO_RECHARGE; }
 +      if(!self.target_select_flags)   { self.target_select_flags = TFL_TARGETSELECT_LOS | TFL_TARGETSELECT_TEAMCHECK | TFL_TARGETSELECT_RANGELIMITS | TFL_TARGETSELECT_ANGLELIMITS; }
 +      if(!self.firecheck_flags)               { self.firecheck_flags = TFL_FIRECHECK_DEAD | TFL_FIRECHECK_DISTANCES | TFL_FIRECHECK_LOS
 +                                                                                                                 | TFL_FIRECHECK_AIMDIST | TFL_FIRECHECK_TEAMCHECK | TFL_FIRECHECK_AMMO_OWN | TFL_FIRECHECK_REFIRE; }
 +                                                                                                                 
 +      if(self.track_type != TFL_TRACKTYPE_STEPMOTOR)
 +      {
 +              // Fluid / Ineria mode. Looks mutch nicer.
 +              // Can reduce aim preformance alot, needs a bit diffrent aimspeed
 +              
 +              self.aim_speed = bound(0.1, ((!self.aim_speed) ? 180 : self.aim_speed), 1000);
 +              
 +              if(!self.track_accel_pitch)             { self.track_accel_pitch = 0.5; }
 +              if(!self.track_accel_rotate)    { self.track_accel_rotate = 0.5; }
 +              if(!self.track_blendrate)               { self.track_blendrate = 0.35; }
 +      }
 +      
 +      self.respawntime                                = max(-1, ((!self.respawntime) ? 60 : self.respawntime));
 +      self.shot_refire                                = bound(0.01, ((!self.shot_refire) ? 1 : self.shot_refire), 9999);
 +      self.shot_dmg                                   = max(1, ((!self.shot_dmg) ? self.shot_refire * 50 : self.shot_dmg));
 +      self.shot_radius                                = max(1, ((!self.shot_radius) ? self.shot_dmg * 0.5 : self.shot_radius));
 +      self.shot_speed                                 = max(1, ((!self.shot_speed) ? 2500 : self.shot_speed));
 +      self.shot_spread                                = bound(0.0001, ((!self.shot_spread) ? 0.0125 : self.shot_spread), 500);
 +      self.shot_force                                 = bound(0.001, ((!self.shot_force) ? self.shot_dmg * 0.5 + self.shot_radius * 0.5 : self.shot_force), 5000);
 +      self.shot_volly                                 = bound(1, ((!self.shot_volly) ? 1 : self.shot_volly), floor(self.ammo_max / self.shot_dmg));
 +      self.shot_volly_refire                  = bound(self.shot_refire, ((!self.shot_volly_refire) ? self.shot_refire * self.shot_volly : self.shot_volly_refire), 60);
 +      self.target_range                               = bound(0, ((!self.target_range) ? self.shot_speed * 0.5 : self.target_range), MAX_SHOT_DISTANCE);
 +      self.target_range_min                   = bound(0, ((!self.target_range_min) ? self.shot_radius * 2 : self.target_range_min), MAX_SHOT_DISTANCE);
 +      self.target_range_optimal               = bound(0, ((!self.target_range_optimal) ? self.target_range * 0.5 : self.target_range_optimal), MAX_SHOT_DISTANCE);
 +      self.aim_maxrotate                              = bound(0, ((!self.aim_maxrotate) ? 90 : self.aim_maxrotate), 360);
 +      self.aim_maxpitch                               = bound(0, ((!self.aim_maxpitch) ? 20 : self.aim_maxpitch), 90);
 +      self.aim_speed                                  = bound(0.1, ((!self.aim_speed) ? 36 : self.aim_speed), 1000);
 +      self.aim_firetolerance_dist     = bound(0.1, ((!self.aim_firetolerance_dist) ? 5 + (self.shot_radius * 2) : self.aim_firetolerance_dist), MAX_SHOT_DISTANCE);
 +      self.target_select_rangebias    = bound(-10, ((!self.target_select_rangebias) ? 1 : self.target_select_rangebias), 10);
 +      self.target_select_samebias     = bound(-10, ((!self.target_select_samebias) ? 1 : self.target_select_samebias), 10);
 +      self.target_select_anglebias    = bound(-10, ((!self.target_select_anglebias) ? 1 : self.target_select_anglebias), 10);
 +      self.target_select_missilebias  = bound(-10, ((!self.target_select_missilebias) ? 1 : self.target_select_missilebias), 10);
 +      self.target_select_playerbias   = bound(-10, ((!self.target_select_playerbias) ? 1 : self.target_select_playerbias), 10);
 +      self.ammo_max                                   = max(self.shot_dmg, ((!self.ammo_max) ? self.shot_dmg * 10 : self.ammo_max));
 +      self.ammo_recharge                              = max(0, ((!self.ammo_recharge) ? self.shot_dmg * 0.5 : self.ammo_recharge));
 +      
 +      self.turret_flags = TUR_FLAG_ISTURRET | (tur.spawnflags);
 +      
 +      if(self.turret_flags & TUR_FLAG_SPLASH)
 +              self.aim_flags |= TFL_AIM_SPLASH;
 +              
 +      if(self.turret_flags & TUR_FLAG_MISSILE)
 +              self.target_select_flags |= TFL_TARGETSELECT_MISSILES;
 +
 +      if(self.turret_flags & TUR_FLAG_PLAYER)
 +              self.target_select_flags |= TFL_TARGETSELECT_PLAYERS;
 +              
 +      if(self.spawnflags & TSL_NO_RESPAWN)
 +              self.damage_flags |= TFL_DMG_DEATH_NORESPAWN;
 +              
 +      if (self.turret_flags & TUR_FLAG_SUPPORT)
 +              self.turret_score_target = turret_targetscore_support;
 +      else
 +              self.turret_score_target = turret_targetscore_generic;
 +              
 +      ++turret_count;
 +              
 +      setmodel(self, tur.model);
 +      setsize(self, tur.mins, tur.maxs);
 +      
 +      self.turretid                           = tur_id;
 +      self.classname                          = "turret_main";
 +      self.active                                     = ACTIVE_ACTIVE;
 +      self.effects                            = EF_NODRAW;
 +      self.netname                            = TUR_NAME(tur_id);
 +      self.ticrate                            = bound(sys_frametime, self.ticrate, 60);
 +      self.max_health                         = self.health;
 +      self.target_validate_flags      = self.target_select_flags;
 +      self.ammo                                       = self.ammo_max;
 +      self.ammo_recharge                 *= self.ticrate;
 +      self.solid                                      = SOLID_BBOX;
 +      self.takedamage                         = DAMAGE_AIM;
 +      self.movetype                           = MOVETYPE_NOCLIP;
 +      self.view_ofs                           = '0 0 0';
 +      self.turret_firecheckfunc       = turret_firecheck;
 +      self.event_damage                       = turret_damage;
 +      self.use                                        = turret_use;
 +      self.bot_attack                         = TRUE;
 +      self.nextthink                          = time + 1;
 +      self.nextthink                     += turret_count * sys_frametime;
 +      
 +      self.tur_head = spawn();
 +      setmodel(self.tur_head, tur.head_model);
 +      setsize(self.tur_head, '0 0 0', '0 0 0');
 +      setorigin(self.tur_head, '0 0 0');
 +      setattachment(self.tur_head, self, "tag_head");
 +      
 +      self.tur_head.netname           = self.tur_head.classname = "turret_head";
 +      self.tur_head.team                      = self.team;
 +      self.tur_head.owner                     = self;
 +      self.tur_head.takedamage        = DAMAGE_NO;
 +      self.tur_head.solid                     = SOLID_NOT;
 +      self.tur_head.movetype          = self.movetype;
 +      
 +      if(!self.tur_defend)
 +      if(self.target != "")
 +      {
 +              self.tur_defend = find(world, targetname, self.target);
 +              if (self.tur_defend == world)
 +              {
 +                      self.target = "";
 +                      dprint("Turret has invalid defendpoint!\n");
 +              }
 +      }
 +      
 +      if (self.tur_defend)
 +              self.idle_aim = self.tur_head.angles + angleofs(self.tur_head, self.tur_defend);
 +      else
 +              self.idle_aim = '0 0 0';
 +              
 +#ifdef TURRET_DEBUG
 +      self.tur_debug_start = self.nextthink;
 +      while (vlen(self.tur_debug_rvec) < 2)
 +              self.tur_debug_rvec = randomvec() * 4;
 +
 +      self.tur_debug_rvec_x = fabs(self.tur_debug_rvec_x);
 +      self.tur_debug_rvec_y = fabs(self.tur_debug_rvec_y);
 +      self.tur_debug_rvec_z = fabs(self.tur_debug_rvec_z);
 +#endif
 +
 +      turret_link();
 +      turret_respawn();
 +      turret_tag_fire_update();
 +      
 +      TUR_ACTION(tur_id, TR_SETUP);
 +      
 +      if(MUTATOR_CALLHOOK(TurretSpawn))
 +              return FALSE;
 +
 +      return TRUE;
 +}
index 0cd18fa,0000000..6ffd635
mode 100644,000000..100644
--- /dev/null
@@@ -1,113 -1,0 +1,113 @@@
-                       if(g_minstagib)
 +#ifdef REGISTER_TURRET
 +REGISTER_TURRET(
 +/* TUR_##id   */ PLASMA,
 +/* function   */ t_plasma,
 +/* spawnflags */ TUR_FLAG_SPLASH | TUR_FLAG_MEDPROJ | TUR_FLAG_PLAYER,
 +/* mins,maxs  */ '-32 -32 0', '32 32 64',
 +/* model        */ "base.md3",
 +/* head_model */ "plasma.md3",
 +/* netname      */ "plasma",
 +/* fullname   */ _("Plasma Cannon")
 +);
 +#else
 +#ifdef SVQC
 +void spawnfunc_turret_plasma() { if(!turret_initialize(TUR_PLASMA)) remove(self); }
 +
 +float t_plasma(float req)
 +{
 +      switch(req)
 +      {
 +              case TR_ATTACK:
 +              {
-                               s = strcat("TE_TEI_G3", Static_Team_ColorName_Upper(self.team));
++                      if(g_instagib)
 +                      {
 +                              float flying;
 +                              flying = IsFlying(self); // do this BEFORE to make the trace values from FireRailgunBullet last
 +
 +                              FireRailgunBullet (self.tur_shotorg, self.tur_shotorg + self.tur_shotdir_updated * MAX_SHOT_DISTANCE, 10000000000,
 +                                                                 800, 0, 0, 0, 0, DEATH_TURRET_PLASMA);
 +
 +                              pointparticles(particleeffectnum("nex_muzzleflash"), self.tur_shotorg, self.tur_shotdir_updated * 1000, 1);
 +
 +                              // teamcolor / hit beam effect
 +                              vector v;
 +                              string s;
 +                              v = WarpZone_UnTransformOrigin(WarpZone_trace_transform, trace_endpos);
++                              s = strcat("TE_TEI_G3", ((self.team) ? Static_Team_ColorName_Upper(self.team) : ""));
 +                              
 +                              WarpZone_TrailParticles(world, particleeffectnum(s), self.tur_shotorg, v);
 +                              
 +                              if (self.tur_head.frame == 0)
 +                                      self.tur_head.frame = 1;
 +                      }
 +                      else
 +                      {
 +                              entity missile = turret_projectile("weapons/hagar_fire.wav", 1, 0, DEATH_TURRET_PLASMA, PROJECTILE_ELECTRO_BEAM, TRUE, TRUE);
 +                              missile.missile_flags = MIF_SPLASH;
 +
 +                              pointparticles(particleeffectnum("laser_muzzleflash"), self.tur_shotorg, self.tur_shotdir_updated * 1000, 1);
 +                              if (self.tur_head.frame == 0)
 +                                      self.tur_head.frame = 1;
 +                      }
 +
 +                      return TRUE;
 +              }
 +              case TR_THINK:
 +              {
 +                      if (self.tur_head.frame != 0)
 +                              self.tur_head.frame = self.tur_head.frame + 1;
 +
 +                      if (self.tur_head.frame > 5)
 +                              self.tur_head.frame = 0;
 +
 +                      return TRUE;
 +              }
 +              case TR_DEATH:
 +              {
 +                      return TRUE;
 +              }
 +              case TR_SETUP:
 +              {
 +                      self.ammo_flags = TFL_AMMO_ENERGY | TFL_AMMO_RECHARGE | TFL_AMMO_RECIEVE;
 +                      self.damage_flags |= TFL_DMG_HEADSHAKE;
 +                      self.firecheck_flags |= TFL_FIRECHECK_AFF;
 +                      self.aim_flags = TFL_AIM_LEAD | TFL_AIM_SHOTTIMECOMPENSATE | TFL_AIM_SPLASH;
 +                      
 +                      turret_do_updates(self);
 +
 +                      return TRUE;
 +              }
 +              case TR_PRECACHE:
 +              {
 +                      precache_model ("models/turrets/base.md3");
 +                      precache_model ("models/turrets/plasma.md3");
 +                      return TRUE;
 +              }
 +      }
 +
 +      return TRUE;
 +}
 +
 +#endif // SVQC
 +#ifdef CSQC
 +float t_plasma(float req)
 +{
 +      switch(req)
 +      {
 +              case TR_SETUP:
 +              {
 +                      return TRUE;
 +              }
 +              case TR_PRECACHE:
 +              {
 +                      precache_model ("models/turrets/base.md3");
 +                      precache_model ("models/turrets/plasma.md3");
 +                      return TRUE;
 +              }
 +      }
 +
 +      return TRUE;
 +}
 +
 +#endif // CSQC
 +#endif // REGISTER_TURRET
index e1e2f1a,0000000..e2432dd
mode 100644,000000..100644
--- /dev/null
@@@ -1,111 -1,0 +1,111 @@@
-                       if(g_minstagib)
 +#ifdef REGISTER_TURRET
 +REGISTER_TURRET(
 +/* TUR_##id   */ PLASMA_DUAL,
 +/* function   */ t_plasma_dual,
 +/* spawnflags */ TUR_FLAG_SPLASH | TUR_FLAG_MEDPROJ | TUR_FLAG_PLAYER,
 +/* mins,maxs  */ '-32 -32 0', '32 32 64',
 +/* model        */ "base.md3",
 +/* head_model */ "plasmad.md3",
 +/* netname      */ "plasma_dual",
 +/* fullname   */ _("Dual Plasma Cannon")
 +);
 +#else
 +#ifdef SVQC
 +void spawnfunc_turret_plasma_dual() { if(!turret_initialize(TUR_PLASMA_DUAL)) remove(self); }
 +
 +float t_plasma_dual(float req)
 +{
 +      switch(req)
 +      {
 +              case TR_ATTACK:
 +              {
-                               s = strcat("TE_TEI_G3", Static_Team_ColorName_Upper(self.team));
++                      if(g_instagib)
 +                      {
 +                              float flying;
 +                              flying = IsFlying(self); // do this BEFORE to make the trace values from FireRailgunBullet last
 +
 +                              FireRailgunBullet (self.tur_shotorg, self.tur_shotorg + self.tur_shotdir_updated * MAX_SHOT_DISTANCE, 10000000000,
 +                                                                 800, 0, 0, 0, 0, DEATH_TURRET_PLASMA);
 +
 +
 +                              pointparticles(particleeffectnum("nex_muzzleflash"), self.tur_shotorg, self.tur_shotdir_updated * 1000, 1);
 +
 +                              // teamcolor / hit beam effect
 +                              vector v;
 +                              string s;
 +                              v = WarpZone_UnTransformOrigin(WarpZone_trace_transform, trace_endpos);
++                              s = strcat("TE_TEI_G3", ((self.team) ? Static_Team_ColorName_Upper(self.team) : ""));
 +                              
 +                              WarpZone_TrailParticles(world, particleeffectnum(s), self.tur_shotorg, v);
 +                                      
 +                              self.tur_head.frame += 1;
 +                      }
 +                      else
 +                      {
 +                              entity missile = turret_projectile("weapons/hagar_fire.wav", 1, 0, DEATH_TURRET_PLASMA, PROJECTILE_ELECTRO_BEAM, TRUE, TRUE);
 +                              missile.missile_flags = MIF_SPLASH;
 +                              pointparticles(particleeffectnum("laser_muzzleflash"), self.tur_shotorg, self.tur_shotdir_updated * 1000, 1);
 +                              self.tur_head.frame += 1;
 +                      }
 +
 +                      return TRUE;
 +              }
 +              case TR_THINK:
 +              {
 +                      if ((self.tur_head.frame != 0) && (self.tur_head.frame != 3))
 +                              self.tur_head.frame = self.tur_head.frame + 1;
 +
 +                      if (self.tur_head.frame > 6)
 +                              self.tur_head.frame = 0;
 +
 +                      return TRUE;
 +              }
 +              case TR_DEATH:
 +              {
 +                      return TRUE;
 +              }
 +              case TR_SETUP:
 +              {
 +                      self.ammo_flags = TFL_AMMO_ENERGY | TFL_AMMO_RECHARGE | TFL_AMMO_RECIEVE;
 +                      self.damage_flags |= TFL_DMG_HEADSHAKE;
 +                      self.firecheck_flags |= TFL_FIRECHECK_AFF;
 +                      self.aim_flags = TFL_AIM_LEAD | TFL_AIM_SHOTTIMECOMPENSATE | TFL_AIM_SPLASH;
 +                      
 +                      turret_do_updates(self);
 +
 +                      return TRUE;
 +              }
 +              case TR_PRECACHE:
 +              {
 +                      precache_model ("models/turrets/base.md3");
 +                      precache_model ("models/turrets/plasmad.md3");
 +                      return TRUE;
 +              }
 +      }
 +
 +      return TRUE;
 +}
 +
 +#endif // SVQC
 +#ifdef CSQC
 +float t_plasma_dual(float req)
 +{
 +      switch(req)
 +      {
 +              case TR_SETUP:
 +              {
 +                      return TRUE;
 +              }
 +              case TR_PRECACHE:
 +              {
 +                      precache_model ("models/turrets/base.md3");
 +                      precache_model ("models/turrets/plasmad.md3");
 +                      return TRUE;
 +              }
 +      }
 +
 +      return TRUE;
 +}
 +
 +#endif // CSQC
 +#endif // REGISTER_TURRET
Simple merge
Simple merge
Simple merge
@@@ -1303,7 -1268,13 +1268,8 @@@ void precache(
  {
      // gamemode related things
      precache_model ("models/misc/chatbubble.spr");
+       precache_model("models/ice/ice.md3");
  
 -#ifdef TTURRETS_ENABLED
 -    if (autocvar_g_turrets)
 -        turrets_precash();
 -#endif
 -
      // Precache all player models if desired
      if (autocvar_sv_precacheplayermodels)
      {
@@@ -37,26 -40,10 +40,14 @@@ defs.qh            // Should rename this, it has 
  ../common/notifications.qh // must be after autocvars
  ../common/deathtypes.qh // must be after notifications
  
- mutators/base.qh
- mutators/mutators.qh
- mutators/gamemode_assault.qh
- mutators/gamemode_ca.qh
- mutators/gamemode_ctf.qh
- mutators/gamemode_domination.qh
- mutators/gamemode_keyhunt.qh // TODO fix this
- mutators/gamemode_keepaway.qh
- mutators/gamemode_nexball.qh 
- mutators/gamemode_lms.qh
- mutators/gamemode_invasion.qh
- mutators/mutator_dodging.qh
- mutators/mutator_nades.qh
 +../common/turrets/config.qh
 +../common/turrets/turrets.qh
 +../common/turrets/sv_turrets.qh
 +../common/turrets/util.qc
 +
+ mutators/mutators_include.qh
  
 -//// tZork Turrets ////
 -tturrets/include/turrets_early.qh
 +//// tZork Vehicles ////
  vehicles/vehicles_def.qh
  
  campaign.qh
Simple merge