data/qcsrc/server/w_rocketlauncher.qc

   1 .float rl_release;
   2 .float rl_detonate_later;
   3
   4 void W_Rocket_Unregister()
   5 {
   6         if(self.owner && self.owner.lastrocket == self)
   7         {
   8                 self.owner.lastrocket = world;
   9                 // self.owner.rl_release = 1;
  10         }
  11 }
  12
  13 void W_Rocket_Explode (void)
  14 {
  15         W_Rocket_Unregister();
  16
  17         if(other.takedamage == DAMAGE_AIM)
  18                 if(other.classname == "player")
  19                         if(IsDifferentTeam(self.owner, other))
  20                                 if(IsFlying(other))
  21                                         announce(self.owner, "announcer/male/airshot.wav");
  22
  23         self.event_damage = SUB_Null;
  24         self.takedamage = DAMAGE_NO;
  25         RadiusDamage (self, self.owner, cvar("g_balance_rocketlauncher_damage"), cvar("g_balance_rocketlauncher_edgedamage"), cvar("g_balance_rocketlauncher_radius"), world, cvar("g_balance_rocketlauncher_force"), self.projectiledeathtype, other);
  26
  27         if (self.owner.weapon == WEP_ROCKET_LAUNCHER)
  28         {
  29                 if(self.owner.ammo_rockets < cvar("g_balance_rocketlauncher_ammo"))
  30                 {
  31                         self.owner.cnt = WEP_ROCKET_LAUNCHER;
  32                         ATTACK_FINISHED(self.owner) = time;
  33                         self.owner.switchweapon = w_getbestweapon(self.owner);
  34                 }
  35                 if(g_laserguided_missile)
  36                         ATTACK_FINISHED(self.owner) = time + cvar("g_balance_rocketlauncher_refire") * W_WeaponRateFactor();
  37         }
  38         remove (self);
  39 }
  40
  41 entity FindLaserTarget(entity e, float dist_variance, float dot_variance)
  42 {
  43         entity head, selected;
  44         vector dir;
  45         float dist, maxdist,// bestdist,
  46                 dot,// bestdot,
  47                 points, bestpoints;
  48         //bestdist = 9999;
  49         //bestdot = -2;
  50         bestpoints = 0;
  51         maxdist = 800;
  52         selected = world;
  53
  54         makevectors(e.angles);
  55
  56         head = find(world, classname, "laser_target");
  57         while(head)
  58         {
  59                 points = 0;
  60                 dir = normalize(head.origin - self.origin);
  61                 dot = dir * v_forward;
  62                 dist = vlen(head.origin - self.origin);
  63                 if(dist > maxdist)
  64                         dist = maxdist;
  65
  66                 // gain points for being in front
  67                 points = points + ((dot+1)*0.5) * 500
  68                         * (1 + crandom()*dot_variance);
  69                 // gain points for being close away
  70                 points = points + (1 - dist/maxdist) * 1000
  71                         * (1 + crandom()*dot_variance);
  72
  73                 traceline(e.origin, head.origin, TRUE, self);
  74                 if(trace_fraction < 1)
  75                 {
  76                         points = 0;
  77                 }
  78
  79                 if(points > bestpoints)//random() > 0.5)//
  80                 {
  81                         bestpoints = points;
  82                         selected = head;
  83                 }
  84
  85                 head = find(head, classname, "laser_target");
  86         }
  87
  88         //bprint(selected.owner.netname);
  89         //bprint("\n");
  90         return selected;
  91 }
  92
  93 void W_Rocket_RemoteExplode()
  94 {
  95         if(self.owner.deadflag == DEAD_NO)
  96         if(self.owner.lastrocket)
  97         {
  98                 if((self.spawnshieldtime >= 0)
  99                         ? (time >= self.spawnshieldtime) // timer
 100                         : (vlen(NearestPointOnBox(self.owner, self.origin) - self.origin) > cvar("g_balance_rocketlauncher_radius")) // safety device
 101                 )
 102                 {
 103                         other = world;
 104                         self.projectiledeathtype |= HITTYPE_BOUNCE;
 105                         W_Rocket_Explode ();
 106                 }
 107                 else
 108                 {
 109                 }
 110         }
 111 }
 112
 113 vector rocket_steerto(vector thisdir, vector goaldir, float maxturn_cos)
 114 {
 115         if(thisdir * goaldir > maxturn_cos)
 116                 return goaldir;
 117         float f, m2;
 118         vector v;
 119         // solve:
 120         //   g = normalize(thisdir + goaldir * X)
 121         //   thisdir * g = maxturn
 122         //
 123         //   gg = thisdir + goaldir * X
 124         //   (thisdir * gg)^2 = maxturn^2 * (gg * gg)
 125         //
 126         //   (1 + (thisdir * goaldir) * X)^2 = maxturn^2 * (1 + X*X + 2 * X * thisdir * goaldir)
 127         f = thisdir * goaldir;
 128         //   (1 + f * X)^2 = maxturn^2 * (1 + X*X + 2 * X * f)
 129         //   0 = (m^2 - f^2) * x^2 + (2 * f * (m^2 - 1)) * x + (m^2 - 1)
 130         m2 = maxturn_cos * maxturn_cos;
 131         v = solve_quadratic(m2 - f * f, 2 * f * (m2 - 1), m2 - 1);
 132         return normalize(thisdir + goaldir * v_y); // the larger solution!
 133 }
 134
 135 void W_Rocket_Think (void)
 136 {
 137         entity e;
 138         vector desireddir, olddir, newdir, desiredorigin, goal;
 139 #if 0
 140         float cosminang, cosmaxang, cosang;
 141 #endif
 142         float turnrate, velspeed, f;
 143         self.nextthink = time;
 144         if (time > self.cnt)
 145         {
 146                 other = world;
 147                 self.projectiledeathtype |= HITTYPE_BOUNCE;
 148                 W_Rocket_Explode ();
 149                 return;
 150         }
 151
 152         if(g_laserguided_missile)
 153         {
 154                 // accelerate
 155                 makevectors(self.angles_x * '-1 0 0' + self.angles_y * '0 1 0');
 156                 velspeed = cvar("g_balance_rocketlauncher_laserguided_speed") * g_weaponspeedfactor - (self.velocity * v_forward);
 157                 if (velspeed > 0)
 158                         self.velocity = self.velocity + v_forward * min(cvar("g_balance_rocketlauncher_laserguided_speedaccel") * frametime, velspeed);
 159         }
 160         else
 161         {
 162                 // accelerate
 163                 makevectors(self.angles_x * '-1 0 0' + self.angles_y * '0 1 0');
 164                 velspeed = cvar("g_balance_rocketlauncher_speed") * g_weaponspeedfactor - (self.velocity * v_forward);
 165                 if (velspeed > 0)
 166                         self.velocity = self.velocity + v_forward * min(cvar("g_balance_rocketlauncher_speedaccel") * g_weaponspeedfactor * frametime, velspeed);
 167         }
 168
 169         // laser guided, or remote detonation
 170         if (self.owner.weapon == WEP_ROCKET_LAUNCHER)
 171         {
 172                 if(g_laserguided_missile)
 173                 {
 174                         if(self.rl_detonate_later)
 175                                 W_Rocket_RemoteExplode();
 176
 177                         if(cvar("g_balance_rocketlauncher_laserguided_allow_steal"))
 178                         {
 179                                 if(self.owner.laser_on)
 180                                 {
 181                                         if(self.attack_finished_single < time)
 182                                         {
 183                                                 self.attack_finished_single = time + 0.2 + random()*0.3;
 184                                                 self.enemy = FindLaserTarget(self, 0.7, 0.7);
 185                                         }
 186
 187                                         if(!self.enemy)
 188                                                 self.enemy = self.owner.weaponentity.lasertarget;
 189                                 }
 190                                 else self.enemy = world;
 191                         }
 192                         else // don't allow stealing: always target my owner's laser (if it exists)
 193                                 self.enemy = self.owner.weaponentity.lasertarget;
 194
 195                         if(self.enemy != world)
 196                         {
 197                                 //bprint("Targeting ", self.enemy.owner.netname, "'s laser\n");
 198                                 velspeed = vlen(self.velocity);
 199                                 e = self.enemy;//self.owner.weaponentity.lasertarget;
 200                                 turnrate = cvar("g_balance_rocketlauncher_laserguided_turnrate");//0.65;                                                // how fast to turn
 201                                 desireddir = normalize(e.origin - self.origin);         // get direction from my position to the laser target
 202                                 olddir = normalize(self.velocity);                                      // get my current direction
 203                                 newdir = normalize(olddir + desireddir * turnrate);     // take the average of the 2 directions; not the best method but simple & easy
 204                                 self.velocity = newdir * velspeed;                                      // make me fly in the new direction at my flight speed
 205                                 self.angles = vectoangles(self.velocity);                       // turn model in the new flight direction
 206
 207                                 ATTACK_FINISHED(self.owner) = time + 0.2 * W_WeaponRateFactor();
 208                         }
 209                 }
 210                 else
 211                 {
 212                         if(self == self.owner.lastrocket)
 213                         if not(self.owner.rl_release)
 214                         if not(self.BUTTON_ATCK2)
 215                         if(cvar("g_balance_rocketlauncher_guiderate"))
 216                         if(time > self.pushltime)
 217                         if(self.owner.deadflag == DEAD_NO)
 218                         {
 219                                 f = cvar("g_balance_rocketlauncher_guideratedelay");
 220                                 if(f)
 221                                         f = bound(0, (time - self.pushltime) / f, 1);
 222                                 else
 223                                         f = 1;
 224
 225                                 velspeed = vlen(self.velocity);
 226
 227                                 makevectors(self.owner.v_angle);
 228                                 desireddir = v_forward;
 229                                 desiredorigin = self.owner.origin + self.owner.view_ofs;
 230                                 olddir = normalize(self.velocity);
 231
 232 #if 0
 233                                 // disabled this code because it doesn't do what I want it to do :P
 234                                 cosminang = cos(cvar("g_balance_rocketlauncher_guidefadeangle") * DEG2RAD);
 235                                 cosmaxang = cos(cvar("g_balance_rocketlauncher_guidemaxangle") * DEG2RAD);
 236                                 cosang = desireddir * normalize(self.origin - desiredorigin);
 237                                 if(cosminang == cosmaxang)
 238                                         f *= (cosang >= cosminang);
 239                                 else
 240                                         f *= bound(0, (cosang - cosmaxang) / (cosminang - cosmaxang), 1);
 241 #endif
 242
 243                                 // now it gets tricky... we want to move like some curve to approximate the target direction
 244                                 // but we are limiting the rate at which we can turn!
 245                                 goal = desiredorigin + ((self.origin - desiredorigin) * desireddir + cvar("g_balance_rocketlauncher_guidegoal")) * desireddir;
 246                                 newdir = rocket_steerto(olddir, normalize(goal - self.origin), cos(cvar("g_balance_rocketlauncher_guiderate") * f * frametime * DEG2RAD));
 247
 248                                 self.velocity = newdir * velspeed;
 249                                 self.angles = vectoangles(self.velocity);
 250
 251                                 if(!self.count)
 252                                 {
 253                                         pointparticles(particleeffectnum("rocket_guide"), self.origin, self.velocity, 1);
 254                                         // TODO add a better sound here
 255                                         sound (self.owner, CHAN_WEAPON2, "weapons/rocket_mode.wav", VOL_BASE, ATTN_NORM);
 256                                         self.count = 1;
 257                                 }
 258                         }
 259
 260                         if(self.rl_detonate_later)
 261                                 W_Rocket_RemoteExplode();
 262                 }
 263         }
 264
 265         if(self.csqcprojectile_clientanimate == 0)
 266                 UpdateCSQCProjectile(self);
 267 }
 268
 269 void W_Rocket_Touch (void)
 270 {
 271         W_Rocket_Unregister();
 272
 273         PROJECTILE_TOUCH;
 274         W_Rocket_Explode ();
 275 }
 276
 277 void W_Rocket_Damage (entity inflictor, entity attacker, float damage, float deathtype, vector hitloc, vector force)
 278 {
 279         if (self.health <= 0)
 280                 return;
 281         self.health = self.health - damage;
 282         self.angles = vectoangles(self.velocity);
 283         if (self.health <= 0)
 284                 W_PrepareExplosionByDamage(attacker, W_Rocket_Explode);
 285 }
 286
 287 void W_Rocket_Attack (void)
 288 {
 289         local entity missile;
 290         local entity flash;
 291
 292         if not(self.items & IT_UNLIMITED_WEAPON_AMMO)
 293                 self.ammo_rockets = self.ammo_rockets - cvar("g_balance_rocketlauncher_ammo");
 294
 295         W_SetupShot_ProjectileSize (self, '-3 -3 -3', '3 3 3', FALSE, 5, "weapons/rocket_fire.wav", cvar("g_balance_rocketlauncher_damage"));
 296         pointparticles(particleeffectnum("rocketlauncher_muzzleflash"), w_shotorg, w_shotdir * 1000, 1);
 297
 298         missile = spawn ();
 299         missile.owner = self;
 300         self.lastrocket = missile;
 301         if(cvar("g_balance_rocketlauncher_detonatedelay") >= 0)
 302                 missile.spawnshieldtime = time + cvar("g_balance_rocketlauncher_detonatedelay");
 303         else
 304                 missile.spawnshieldtime = -1;
 305         missile.pushltime = time + cvar("g_balance_rocketlauncher_guidedelay");
 306         missile.classname = "rocket";
 307         missile.bot_dodge = TRUE;
 308         missile.bot_dodgerating = cvar("g_balance_rocketlauncher_primary_damage") * 2; // * 2 because it can be detonated inflight which makes it even more dangerous
 309
 310         missile.takedamage = DAMAGE_YES;
 311         missile.damageforcescale = cvar("g_balance_rocketlauncher_damageforcescale");
 312         missile.health = cvar("g_balance_rocketlauncher_health");
 313         missile.event_damage = W_Rocket_Damage;
 314
 315         missile.movetype = MOVETYPE_FLY;
 316         PROJECTILE_MAKETRIGGER(missile);
 317         missile.projectiledeathtype = WEP_ROCKET_LAUNCHER;
 318         setsize (missile, '-3 -3 -3', '3 3 3'); // give it some size so it can be shot
 319
 320         setorigin (missile, w_shotorg - v_forward * 3); // move it back so it hits the wall at the right point
 321         if(g_laserguided_missile && self.laser_on)
 322                 W_SetupProjectileVelocity(missile, cvar("g_balance_rocketlauncher_laserguided_speedstart"), 0);
 323         else
 324                 W_SetupProjectileVelocity(missile, cvar("g_balance_rocketlauncher_speedstart"), 0);
 325         missile.angles = vectoangles (missile.velocity);
 326
 327         missile.touch = W_Rocket_Touch;
 328         missile.think = W_Rocket_Think;
 329         missile.nextthink = time;
 330         missile.cnt = time + cvar("g_balance_rocketlauncher_lifetime");
 331         missile.flags = FL_PROJECTILE;
 332
 333         CSQCProjectile(missile, cvar("g_balance_rocketlauncher_guiderate") == 0 && cvar("g_balance_rocketlauncher_speedaccel") == 0 && !g_laserguided_missile, PROJECTILE_ROCKET, FALSE); // because of fly sound
 334
 335         // muzzle flash for 1st person view
 336         flash = spawn ();
 337         setmodel (flash, "models/flash.md3"); // precision set below
 338         SUB_SetFade (flash, time, 0.1);
 339         flash.effects = EF_ADDITIVE | EF_FULLBRIGHT | EF_LOWPRECISION;
 340         W_AttachToShotorg(flash, '5 0 0');
 341
 342         // common properties
 343 }
 344
 345 void spawnfunc_weapon_rocketlauncher (void); // defined in t_items.qc
 346
 347 float w_rlauncher(float req)
 348 {
 349         entity rock;
 350         float rockfound;
 351         if (req == WR_AIM)
 352         {
 353                 // aim and decide to fire if appropriate
 354                 self.BUTTON_ATCK = bot_aim(cvar("g_balance_rocketlauncher_speed"), 0, cvar("g_balance_rocketlauncher_lifetime"), FALSE);
 355                 if(skill >= 2) // skill 0 and 1 bots won't detonate rockets!
 356                 {
 357                         // decide whether to detonate rockets
 358                         local entity missile, targetlist, targ;
 359                         local float edgedamage, coredamage, edgeradius, recipricoledgeradius, d;
 360                         local float selfdamage, teamdamage, enemydamage;
 361                         edgedamage = cvar("g_balance_rocketlauncher_edgedamage");
 362                         coredamage = cvar("g_balance_rocketlauncher_damage");
 363                         edgeradius = cvar("g_balance_rocketlauncher_radius");
 364                         recipricoledgeradius = 1 / edgeradius;
 365                         selfdamage = 0;
 366                         teamdamage = 0;
 367                         enemydamage = 0;
 368                         targetlist = findchainfloat(bot_attack, TRUE);
 369                         missile = find(world, classname, "rocket");
 370                         while (missile)
 371                         {
 372                                 if (missile.owner != self)
 373                                 {
 374                                         missile = find(missile, classname, "rocket");
 375                                         continue;
 376                                 }
 377                                 targ = targetlist;
 378                                 while (targ)
 379                                 {
 380                                         d = vlen(targ.origin + (targ.mins + targ.maxs) * 0.5 - missile.origin);
 381                                         d = bound(0, edgedamage + (coredamage - edgedamage) * sqrt(1 - d * recipricoledgeradius), 10000);
 382                                         // count potential damage according to type of target
 383                                         if (targ == self)
 384                                                 selfdamage = selfdamage + d;
 385                                         else if (targ.team == self.team && teams_matter)
 386                                                 teamdamage = teamdamage + d;
 387                                         else if (bot_shouldattack(targ))
 388                                                 enemydamage = enemydamage + d;
 389                                         targ = targ.chain;
 390                                 }
 391                                 missile = find(missile, classname, "rocket");
 392                         }
 393                         local float desirabledamage;
 394                         desirabledamage = enemydamage;
 395                         if (teamplay != 1 && time > self.invincible_finished && time > self.spawnshieldtime)
 396                                 desirabledamage = desirabledamage - selfdamage * cvar("g_balance_selfdamagepercent");
 397                         if (self.team && teamplay != 1)
 398                                 desirabledamage = desirabledamage - teamdamage;
 399
 400                         missile = find(world, classname, "rocket");
 401                         while (missile)
 402                         {
 403                                 if (missile.owner != self)
 404                                 {
 405                                         missile = find(missile, classname, "rocket");
 406                                         continue;
 407                                 }
 408                                 makevectors(missile.v_angle);
 409                                 targ = targetlist;
 410                                 if (skill > 9) // normal players only do this for the target they are tracking
 411                                 {
 412                                         targ = targetlist;
 413                                         while (targ)
 414                                         {
 415                                                 if (
 416                                                         (v_forward * normalize(missile.origin - targ.origin)< 0.1)
 417                                                         && desirabledamage > 0.1*coredamage
 418                                                 )self.BUTTON_ATCK2 = TRUE;
 419                                                 targ = targ.chain;
 420                                         }
 421                                 }else{
 422                                         local float distance; distance= bound(300,vlen(self.origin-self.enemy.origin),30000);
 423                                         //As the distance gets larger, a correct detonation gets near imposible
 424                                         //Bots are assumed to use the rocket spawnfunc_light to see if the rocket gets near a player
 425                                         if(v_forward * normalize(missile.origin - self.enemy.origin)< 0.1)
 426                                                 if(self.enemy.classname == "player")
 427                                                         if(desirabledamage >= 0.1*coredamage)
 428                                                                 if(random()/distance*300 > frametime*bound(0,(10-skill)*0.2,1))
 429                                                                         self.BUTTON_ATCK2 = TRUE;
 430                                 //      dprint(ftos(random()/distance*300),">");dprint(ftos(frametime*bound(0,(10-skill)*0.2,1)),"\n");
 431                                 }
 432
 433                                 missile = find(missile, classname, "rocket");
 434                         }
 435                         // if we would be doing at X percent of the core damage, detonate it
 436                         // but don't fire a new shot at the same time!
 437                         if (desirabledamage >= 0.75 * coredamage) //this should do group damage in rare fortunate events
 438                                 self.BUTTON_ATCK2 = TRUE;
 439                         if ((skill > 6.5) && (selfdamage > self.health))
 440                                 self.BUTTON_ATCK2 = FALSE;
 441                         //if(self.BUTTON_ATCK2 == TRUE)
 442                         //      dprint(ftos(desirabledamage),"\n");
 443                         if (self.BUTTON_ATCK2 == TRUE) self.BUTTON_ATCK = FALSE;
 444                 }
 445         }
 446         else if (req == WR_THINK)
 447         {
 448                 if(g_laserguided_missile)
 449                 {
 450                         if (self.BUTTON_ATCK && self.rl_release)
 451                         {
 452                                 rockfound = 0;
 453                                 for(rock = world; (rock = find(rock, classname, "rocket")); ) if(rock.owner == self)
 454                                 {
 455                                         if(!rock.rl_detonate_later)
 456                                         {
 457                                                 rock.rl_detonate_later = TRUE;
 458                                                 rockfound = 1;
 459                                         }
 460                                 }
 461                                 if(rockfound)
 462                                         sound (self, CHAN_WEAPON2, "weapons/rocket_det.wav", VOL_BASE, ATTN_NORM);
 463                                 else
 464                                 {
 465                                         if (weapon_prepareattack(0, cvar("g_balance_rocketlauncher_refire")))
 466                                         {
 467                                                 W_Rocket_Attack();
 468                                                 weapon_thinkf(WFRAME_FIRE1, cvar("g_balance_rocketlauncher_animtime"), w_ready);
 469                                         }
 470                                 }
 471                                 self.rl_release = 0;
 472                         }
 473                         if (!self.BUTTON_ATCK)
 474                                 self.rl_release = 1;
 475                         if (self.BUTTON_ATCK2)
 476                         if(self.exteriorweaponentity.attack_finished_single < time)
 477                         {
 478                                 self.exteriorweaponentity.attack_finished_single = time + 0.4;
 479                                 self.laser_on = !self.laser_on;
 480                                 // UGLY WORKAROUND: play this on CHAN_WEAPON2 so it can't cut off fire sounds
 481                                 sound (self, CHAN_WEAPON2, "weapons/rocket_mode.wav", VOL_BASE, ATTN_NORM);
 482                         }
 483                 }
 484                 else
 485                 {
 486                         if (self.BUTTON_ATCK)
 487                         {
 488                                 if(self.rl_release || cvar("g_balance_rocketlauncher_guidestop"))
 489                                 if(weapon_prepareattack(0, cvar("g_balance_rocketlauncher_refire")))
 490                                 {
 491                                         W_Rocket_Attack();
 492                                         weapon_thinkf(WFRAME_FIRE1, cvar("g_balance_rocketlauncher_animtime"), w_ready);
 493                                         self.rl_release = 0;
 494                                 }
 495                         }
 496                         else
 497                                 self.rl_release = 1;
 498
 499                         if (self.BUTTON_ATCK2)
 500                         {
 501                                 rockfound = 0;
 502                                 for(rock = world; (rock = find(rock, classname, "rocket")); ) if(rock.owner == self)
 503                                 {
 504                                         if(!rock.rl_detonate_later)
 505                                         {
 506                                                 rock.rl_detonate_later = TRUE;
 507                                                 rockfound = 1;
 508                                         }
 509                                 }
 510                                 if(rockfound)
 511                                         sound (self, CHAN_WEAPON2, "weapons/rocket_det.wav", VOL_BASE, ATTN_NORM);
 512                         }
 513                 }
 514         }
 515         else if (req == WR_PRECACHE)
 516         {
 517                 precache_model ("models/flash.md3");
 518                 precache_model ("models/weapons/g_rl.md3");
 519                 precache_model ("models/weapons/v_rl.md3");
 520                 precache_model ("models/weapons/h_rl.dpm");
 521                 precache_sound ("weapons/rocket_det.wav");
 522                 precache_sound ("weapons/rocket_fire.wav");
 523                 precache_sound ("weapons/rocket_mode.wav");
 524                 if (g_laserguided_missile)
 525                 {
 526                         precache_model ("models/laser_dot.mdl"); // rocket launcher
 527                 }
 528         }
 529         else if (req == WR_SETUP)
 530         {
 531                 weapon_setup(WEP_ROCKET_LAUNCHER);
 532                 self.rl_release = 1;
 533         }
 534         else if (req == WR_CHECKAMMO1)
 535         {
 536                 // don't switch while guiding a missile
 537                 if ((ATTACK_FINISHED(self) <= time || self.weapon != WEP_ROCKET_LAUNCHER)
 538                         && self.ammo_rockets < cvar("g_balance_rocketlauncher_ammo"))
 539                         return FALSE;
 540         }
 541         else if (req == WR_CHECKAMMO2)
 542                 return FALSE;
 543         else if (req == WR_SUICIDEMESSAGE)
 544                 w_deathtypestring = "exploded";
 545         else if (req == WR_KILLMESSAGE)
 546         {
 547                 if(w_deathtype & HITTYPE_BOUNCE) // (remote detonation)
 548                         w_deathtypestring = "got too close to #'s rocket";
 549                 else if(w_deathtype & HITTYPE_SPLASH)
 550                         w_deathtypestring = "almost dodged #'s rocket";
 551                 else
 552                         w_deathtypestring = "ate #'s rocket";
 553         }
 554         else if (req == WR_RESETPLAYER)
 555         {
 556                 self.rl_release = 0;
 557         }
 558         return TRUE;
 559 };