void vehicles_setreturn();
-#define MAX_AXH 4
+/** AuxiliaryXhair*
+ Send addictional points of interest to be drawn, to vehicle owner
+**/
+float MAX_AXH = 4;
.entity AuxiliaryXhair[MAX_AXH];
float SendAuxiliaryXhair(entity to, float sf)
}
*/
+// End AuxiliaryXhair
void CSQCVehicleSetup(entity own, float vehicle_id)
{
WriteByte(MSG_ONE, vehicle_id);
}
+/** vehicles_locktarget
+
+ Generic target locking.
+
+ Figure out if what target is "locked" (if any), for missile tracking as such.
+
+ after calling, "if(self.lock_target != world && self.lock_strength == 1)" mean
+ you have a locked in target.
+
+ Exspects a crosshair_trace() or equivalent to be
+ dont before calling.
+
+**/
.entity lock_target;
.float lock_strength;
.float lock_time;
}
}
-
#define VEHICLE_UPDATE_PLAYER(fld,vhname) \
-self.owner.vehicle_##fld = self.vehicle_##fld / autocvar_g_vehicle_##vhname##_##fld
+self.owner.vehicle_##fld = (self.vehicle_##fld / autocvar_g_vehicle_##vhname##_##fld) * 100
#define vehicles_sweap_collision(orig,vel,dt,acm,mult) \
traceline(orig, orig + vel * dt, MOVE_NORMAL, self); \
if(trace_fraction != 1) \
acm += normalize(self.origin - trace_endpos) * (vlen(vel) * mult)
+// Hover movement support
float force_fromtag_power;
float force_fromtag_normpower;
vector force_fromtag_origin;
return v_forward * force_fromtag_power;
}
+// Experimental hovermode wich uses attraction/repulstion from surface insted of gravity/repulsion
+// Can possibly be use to move abt any surface (inclusing walls/celings)
vector vehicles_force_fromtag_maglev(string tag_name, float spring_length, float max_power)
{
v_forward = normalize(v_forward) * -1;
traceline(force_fromtag_origin, force_fromtag_origin - (v_forward * spring_length), MOVE_NORMAL, self);
+ // TODO - this may NOT be compatible with wall/celing movement, unhardcode 0.25 (engine count multiplier)
if(trace_fraction == 1.0)
{
force_fromtag_normpower = -0.25;
return v_forward * force_fromtag_power;
}
+// Generic vehile projectile system
void vehicles_projectile_damage(entity inflictor, entity attacker, float damage, float deathtype, vector hitloc, vector force)
{
self.health -= damage;
PROJECTILE_TOUCH;
self.event_damage = SUB_Null;
- sound (self, CHAN_PROJECTILE, self.target2, VOL_BASE, ATTN_NORM);
- pointparticles(particleeffectnum(self.target3), findbetterlocation (self.origin, 16), '0 0 0', 1);
RadiusDamage (self, self.realowner, self.shot_dmg, 0, self.shot_radius, self, self.shot_force, self.totalfrags, other);
remove (self);
}
-entity vehicles_projectile(string _impactfx, string _impactsnd, string _mzlfx, string _mzlsound,
+entity vehicles_projectile(string _mzlfx, string _mzlsound,
vector _org, vector _vel,
float _dmg, float _radi, float _force, float _size,
- float _deahtype, float _projtype, float _health)
+ float _deahtype, float _projtype, float _health,
+ float _cull, float _clianim)
{
entity proj;
proj.shot_radius = _radi;
proj.shot_force = _force;
proj.totalfrags = _deahtype;
- proj.target2 = _impactsnd;
- proj.target3 = _impactfx;
proj.solid = SOLID_BBOX;
proj.movetype = MOVETYPE_FLYMISSILE;
proj.flags = FL_PROJECTILE;
setsize (proj, '-1 -1 -1' * _size, '1 1 1' * _size);
- CSQCProjectile(proj, TRUE, _projtype, TRUE);
+ CSQCProjectile(proj, _clianim, _projtype, _cull);
return proj;
}
+// End generic vehile projectile system
+/** vehicles_spawn
+ Exetuted for all vehiles on (re)spawn.
+ Sets defaults for newly spawned units.
+**/
void vehicles_spawn()
{
dprint("Spawning vehicle: ", self.netname, "\n");
// De-own & reset
self.vehicle_hudmodel.viewmodelforclient = self;
-
+
self.owner = world;
self.touch = vehicles_touch;
self.event_damage = vehicles_damage;
self.bot_attack = TRUE;
self.flags = FL_NOTARGET;
self.avelocity = '0 0 0';
+ self.velocity = '0 0 0';
// Reset locking
self.lock_strength = 0;
else if(vehicles_crushable(other))
{
if(vlen(self.velocity) != 0)
- Damage(other, self, self.owner, autocvar_g_vehicles_crush_dmg, DEATH_SBCRUSH, '0 0 0', normalize(other.origin - self.origin) * autocvar_g_vehicles_crush_force);
+ Damage(other, self, self.owner, autocvar_g_vehicles_crush_dmg, DEATH_VHCRUSH, '0 0 0', normalize(other.origin - self.origin) * autocvar_g_vehicles_crush_force);
}
}
return;
self.owner = other;
self.switchweapon = other.switchweapon;
-
+
// .viewmodelforclient works better.
//self.vehicle_hudmodel.drawonlytoclient = self.owner;
- self.vehicle_hudmodel.viewmodelforclient = self.owner;
-
+ if not (self.SendEntity)
+ self.vehicle_hudmodel.viewmodelforclient = self.owner;
+
self.event_damage = vehicles_damage;
self.nextthink = 0;
self.owner.angles = self.angles;
self.owner.vehicle_reload1 = self.vehicle_reload1;
self.owner.vehicle_reload2 = self.vehicle_reload2;
- // Cnnt do this, hides attached objects too.
+ // Cant do this, hides attached objects too.
//self.exteriormodeltoclient = self.owner;
//self.tur_head.exteriormodeltoclient = self.owner;
self.team = self.owner.team;
self.flags -= FL_NOTARGET;
- msg_entity = other;
+#if 0
+ other.clientcamera = self.vehicle_viewport;
+#else
+ /*msg_entity = other;
WriteByte (MSG_ONE, SVC_SETVIEWPORT);
WriteEntity(MSG_ONE, self.vehicle_viewport);
WriteAngle(MSG_ONE, self.angles_x * -1); // tilt
WriteAngle(MSG_ONE, self.angles_y); // yaw
WriteAngle(MSG_ONE, 0); // roll
- }
+ }*/
+#endif
vehicles_clearrturn();
WriteByte (MSG_ONE, SVC_SETVIEWPORT);
WriteEntity( MSG_ONE, self.owner);
- WriteByte (MSG_ONE, SVC_SETVIEWANGLES); // 10 = SVC_SETVIEWANGLES
- WriteAngle(MSG_ONE, 0); // tilt
+ WriteByte (MSG_ONE, SVC_SETVIEWANGLES);
+ WriteAngle(MSG_ONE, 0); // pich
WriteAngle(MSG_ONE, self.angles_y); // yaw
WriteAngle(MSG_ONE, 0); // roll
self.regen_field = min(self.regen_field + regen * delta_time, field_max);
if(self.owner)
- self.owner.regen_field = self.regen_field / field_max;
+ self.owner.regen_field = (self.regen_field / field_max) * 100;
}
}
else
_colormap = 1024;
- _glowmod = '0 0 0';
- _colormod = '0 0 0';
+ _glowmod = '0 0 0';
+ _colormod = '0 0 0';
// Find all ents attacked to main model and setup effects, colormod etc.
e = findchainentity(tag_entity, self);
{
if(e != self.vehicle_shieldent)
{
- e.effects = _effects;
+ e.effects = _effects | EF_LOWPRECISION;
e.colormod = _colormod;
e.colormap = _colormap;
e.alpha = 1;
e = e.chain;
}
- self.vehicle_hudmodel.effects = self.effects = _effects;
+ self.vehicle_hudmodel.effects = self.effects = _effects | EF_LOWPRECISION;
self.vehicle_hudmodel.colormod = self.colormod = _colormod;
self.vehicle_hudmodel.colormap = self.colormap = _colormap;
+ self.vehicle_viewport.effects = (EF_ADDITIVE | EF_DOUBLESIDED | EF_FULLBRIGHT | EF_NODEPTHTEST | EF_NOGUNBOB | EF_NOSHADOW | EF_LOWPRECISION | EF_SELECTABLE | EF_TELEPORT_BIT);
- self.alpha = 1;
- self.avelocity = '0 0 0';
- self.velocity = '0 0 0';
-
+ self.alpha = 1;
+ self.avelocity = '0 0 0';
+ self.velocity = '0 0 0';
+ self.effects = _effects;
}
-//#define VEHICLES_CSQC
-#ifdef VEHICLES_CSQC
-#define VSF_ORG 2
-#define VSF_VEL 4
-#define VSF_ANG 8
-#define VSF_COLORMAP 16
-#define VSF_STAT1 32
-
-float SendVehicle(entity to, float sf)
-{
- WriteByte(MSG_ENTITY, ENT_CLIENT_VEHICLE_RACER);
-
- WriteByte(MSG_ENTITY, self.cnt);
-
- WriteCoord(MSG_ENTITY, self.origin_x);
- WriteCoord(MSG_ENTITY, self.origin_y);
- WriteCoord(MSG_ENTITY, self.origin_z);
-
- WriteCoord(MSG_ENTITY, self.velocity_x);
- WriteCoord(MSG_ENTITY, self.velocity_y);
- WriteCoord(MSG_ENTITY, self.velocity_z);
-
- WriteAngle(MSG_ENTITY, self.angles_x);
- WriteAngle(MSG_ENTITY, self.angles_y);
- WriteAngle(MSG_ENTITY, self.angles_z);
-
- return TRUE;
-}
-
-void NetLinkVehicle()
-{
- self.SendFlags = 0xFFFFFF;
- Net_LinkEntity(self, FALSE, 0, SendVehicle);
-}
-#endif
-
float vehicle_initialize(string net_name,
string bodymodel,
string topmodel,
string hudtag,
string viewtag,
float vhud,
- vector min_s,
- vector max_s,
- float nodrop,
+ vector min_s,
+ vector max_s,
+ float nodrop,
void() spawnproc,
float _respawntime,
float() physproc,
void() enterproc,
void(float extflag) exitfunc,
void() dieproc,
- void() thinkproc )
+ void() thinkproc,
+ float use_csqc)
{
addstat(STAT_HUD, AS_INT, hud);
- addstat(STAT_VEHICLESTAT_HEALTH, AS_FLOAT, vehicle_health);
- addstat(STAT_VEHICLESTAT_SHIELD, AS_FLOAT, vehicle_shield);
- addstat(STAT_VEHICLESTAT_ENERGY, AS_FLOAT, vehicle_energy);
+ addstat(STAT_VEHICLESTAT_HEALTH, AS_INT, vehicle_health);
+ addstat(STAT_VEHICLESTAT_SHIELD, AS_INT, vehicle_shield);
+ addstat(STAT_VEHICLESTAT_ENERGY, AS_INT, vehicle_energy);
addstat(STAT_VEHICLESTAT_AMMO1, AS_INT, vehicle_ammo1);
- addstat(STAT_VEHICLESTAT_RELOAD1, AS_FLOAT, vehicle_reload1);
+ addstat(STAT_VEHICLESTAT_RELOAD1, AS_INT, vehicle_reload1);
addstat(STAT_VEHICLESTAT_AMMO2, AS_INT, vehicle_ammo2);
- addstat(STAT_VEHICLESTAT_RELOAD2, AS_FLOAT, vehicle_reload2);
+ addstat(STAT_VEHICLESTAT_RELOAD2, AS_INT, vehicle_reload2);
if(bodymodel == "")
error("vehicles: missing bodymodel!");
tracebox(self.origin + '0 0 100', min_s, max_s, self.origin - '0 0 10000', MOVE_WORLDONLY, self);
setorigin(self, trace_endpos);
}
-
- //self.vehicle_hudmodel.effects = EF_NODEPTHTEST;
+
self.pos1 = self.origin;
self.pos2 = self.angles;
-
+#ifdef VEHICLES_CSQC
+ if(use_csqc)
+ net_link_vehile();
+#endif
return TRUE;
}