thirtyflightsofloving/zaero/z_acannon.c
2020-07-29 06:05:09 -04:00

919 lines
No EOL
22 KiB
C

#include "g_local.h"
void angleToward(edict_t *self, vec3_t point, float speed);
// spawnflags
#define AC_SF_START_OFF 1
#define AC_SF_BERSERK 2
#define AC_SF_BERSERK_TOGGLE 4
// variables
#define AC_RANGE 2048
#define AC_TIMEOUT 2.0
#define AC_EXPLODE_DMG 150
#define AC_EXPLODE_RADIUS 384
#define AC_TURN_SPEED 6.0
#define AC_TURN_DELAY 1.0
// states
#define AC_S_IDLE 0
#define AC_S_ACTIVATING 1
#define AC_S_ACTIVE 2
#define AC_S_DEACTIVATING 3
// models
char* models[] = { NULL,
"models/objects/acannon/chain/tris.md2",
"models/objects/acannon/rocket/tris.md2",
"models/objects/acannon/laser/tris.md2",
"models/objects/acannon/laser/tris.md2" };
char* floorModels[] = { NULL,
"",
"models/objects/acannon/rocket2/tris.md2",
"models/objects/acannon/laser2/tris.md2",
"models/objects/acannon/laser2/tris.md2" };
// pitch extents
const int acPitchExtents[2][2] = { {0,60}, // max, min
{-60,0}
};
// frames filler/chain/rocket/laser
const int acIdleStart[] = { 0, 0, 0, 0, 0 };
const int acIdleEnd[] = { 0, 0, 0, 0, 0 };
const int acActStart[] = { 0, 1, 1, 1, 1 };
const int acActEnd[] = { 0, 9, 9, 9, 9 };
const int acActiveStart[] = { 0, 10, 10, 10, 10 };
const int acActiveEnd[] = { 0, 10, 10, 10, 10 };
typedef struct ac_anim_frame_s
{
qboolean last;
qboolean fire;
int frame;
} ac_anim_frame_t;
typedef struct ac_anim_s
{
int firstNonPause;
ac_anim_frame_t frames[32];
} ac_anim_t;
ac_anim_t acFiringFrames[5] =
{
// dummy
{
0,
{ true, false, -1 }
},
// chaingun
{
6,
{
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
// start of firing sequence
{ false, true, 11 },
{ false, false, 12 },
{ false, true, 13 },
{ false, false, 14 },
{ false, true, 15 },
{ false, false, 16 },
{ false, true, 17 },
{ false, false, 18 },
{ false, true, 19 },
{ false, false, 20 },
{ false, true, 21 },
{ true, false, 2 },
}
},
// rockets
{
6,
{
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
// start of firing sequence
{ false, true, 11 },
{ false, false, 11 },
{ false, false, 12 },
{ false, false, 12 },
{ false, false, 13 },
{ false, false, 13 },
{ false, false, 14 },
{ false, false, 14 },
{ false, false, 15 },
{ false, false, 15 },
{ false, false, 16 },
{ true, false, 16 },
}
},
// laser
{
6,
{
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
// start of firing sequence
{ false, true, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ true, false, 11 },
}
},
// slow laser
{
6,
{
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
// start of firing sequence
{ false, true, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ false, false, 11 },
{ true, false, 11 },
}
}
};
vec3_t fireOffset[5] = { {0,0,0},
{24,-4,0},
{0,-4,0},
{24,-5,0},
{24,-5,0} };
const int acDeactStart[] = { 0, 23, 23, 23, 23 };
const int acDeactEnd[] = { 0, 31, 31, 31, 31 };
const qboolean turretIdle[] = { false, false, true, true }; // collapse when idle?
// turret animations
const int turretIdleStart = 0;
const int turretIdleEnd = 0;
const int turretActStart = 1;
const int turretActEnd = 9;
const int turretActiveStart = 10;
const int turretActiveEnd = 10;
const int turretDeactStart = 23;
const int turretDeactEnd = 31;
// bullet params
#define AC_BULLET_DMG 4.0
#define AC_BULLET_KICK 2.0
// rocket params
#define AC_ROCKET_DMG 100
#define AC_ROCKET_SPEED 650
#define AC_ROCKET_RADIUS_DMG 120
#define AC_ROCKET_DMG_RADIUS 120
// blaster params
#define AC_BLASTER_DMG 20
#define AC_BLASTER_SPEED 1000
void monster_autocannon_fire(edict_t *self)
{
vec3_t forward, right, start;
// fire straight ahead
AngleVectors (self->s.angles, forward, right, NULL);
if (self->onFloor)
VectorNegate(right, right);
VectorMA(self->s.origin, 24, forward, start);
G_ProjectSource (self->s.origin, fireOffset[self->style], forward, right, start);
if (EMPNukeCheck(self, start))
{
gi.sound (self, CHAN_AUTO, gi.soundindex("items/empnuke/emp_missfire.wav"), 1, ATTN_NORM, 0);
return;
}
// what to fire?
switch (self->style)
{
case 1:
default:
fire_bullet(self, start, forward, AC_BULLET_DMG, AC_BULLET_KICK, DEFAULT_BULLET_HSPREAD, DEFAULT_BULLET_VSPREAD, MOD_AUTOCANNON);
gi.WriteByte (svc_muzzleflash);
gi.WriteShort (self - g_edicts);
gi.WriteByte (MZ_CHAINGUN2);
gi.multicast (self->s.origin, MULTICAST_PVS);
break;
case 2:
fire_rocket(self, start, forward, AC_ROCKET_DMG, AC_ROCKET_SPEED, AC_ROCKET_RADIUS_DMG, AC_ROCKET_DMG_RADIUS);
gi.WriteByte (svc_muzzleflash);
gi.WriteShort (self - g_edicts);
gi.WriteByte (MZ_ROCKET);
gi.multicast (self->s.origin, MULTICAST_PVS);
break;
case 3:
case 4:
fire_blaster (self, start, forward, AC_BLASTER_DMG, AC_BLASTER_SPEED, EF_HYPERBLASTER, true, BLASTER_ORANGE);
gi.WriteByte (svc_muzzleflash);
gi.WriteShort (self - g_edicts);
gi.WriteByte (MZ_HYPERBLASTER);
gi.multicast (self->s.origin, MULTICAST_PVS);
break;
}
}
qboolean angleBetween(float *ang, float *min, float *max)
{
// directly between?
if (*ang > *min && *ang < *max)
return true;
// make positive
while (*min < 0)
*min += 360.0;
while (*ang < *min)
*ang += 360.0;
while (*max < *min)
*max += 360.0;
if (*ang > *min && *ang < *max)
return true;
else
return false;
}
float mod180(float val)
{
while (val > 180)
val -= 360.0;
while (val < -180)
val += 360.0;
return val;
}
qboolean canShoot(edict_t *self, edict_t *e)
{
vec3_t delta;
vec3_t dangles;
VectorSubtract(e->s.origin, self->s.origin, delta);
vectoangles(delta, dangles);
dangles[PITCH] = mod180(dangles[PITCH]);
if ((!self->onFloor && dangles[PITCH] < 0) ||
(self->onFloor && dangles[PITCH] > 0)) // facing up or down
return false;
if (self->monsterinfo.linkcount > 0)
{
float ideal_yaw = self->monsterinfo.attack_state;
float max_yaw = anglemod(ideal_yaw + self->monsterinfo.linkcount);
float min_yaw = anglemod(ideal_yaw - self->monsterinfo.linkcount);
if (!angleBetween(&dangles[YAW], &min_yaw, &max_yaw))
return false;
}
return true;
}
qboolean autocannonInfront (edict_t *self, edict_t *other)
{
vec3_t vec;
vec3_t angle;
float dot;
float min = -30.0;
float max = 30.0;
// what's the yaw distance between the 2?
VectorSubtract (other->s.origin, self->s.origin, vec);
vectoangles(vec, angle);
dot = angle[YAW] - self->s.angles[YAW];
if (angleBetween(&dot, &min, &max))
return true;
return false;
}
void monster_autocannon_findenemy(edict_t *self)
{
edict_t *e = NULL;
// can we still use our enemy?
if (self->enemy)
{
if (!canShoot(self, self->enemy))
{
self->oldenemy = NULL;
self->enemy = NULL;
}
else if (!visible(self, self->enemy))
{
self->oldenemy = self->enemy;
self->enemy = NULL;
}
else if (self->enemy->flags & FL_NOTARGET)
{
self->oldenemy = NULL;
self->enemy = NULL;
}
else if (self->enemy->health <= 0)
{
self->oldenemy = NULL;
self->enemy = NULL;
}
}
while (self->enemy == NULL)
{
e = findradius(e, self->s.origin, AC_RANGE);
if (e == NULL)
{
if (self->oldenemy == NULL)
return;
if (level.time > self->timeout)
{
self->oldenemy = NULL;
return;
}
self->enemy = self->oldenemy;
break;
}
if (self->spawnflags & AC_SF_BERSERK)
{
// attack clients and monsters
if (!e->client && !(e->svflags & SVF_MONSTER))
continue;
}
else
{
// only attack clients
if (!e->client)
continue;
}
// don't target dead stuff
if (e->health <= 0)
continue;
// don't target notarget stuff
if (e->flags & FL_NOTARGET)
continue;
// don't target other autocannons
if (Q_stricmp(e->classname, "monster_autocannon") == 0)
continue;
// don't target self
if (e == self)
continue;
// can it be seen?
if (!visible(self, e))
continue;
if (!autocannonInfront(self, e))
continue;
if (canShoot(self, e))
self->enemy = e;
}
}
void monster_autocannon_turn(edict_t *self)
{
vec3_t old_angles;
VectorCopy(self->s.angles, old_angles);
if (!self->enemy)
{
if (self->monsterinfo.linkcount > 0)
{
int ideal_yaw = self->monsterinfo.attack_state;
int max_yaw = anglemod(ideal_yaw + self->monsterinfo.linkcount);
int min_yaw = anglemod(ideal_yaw - self->monsterinfo.linkcount);
while (max_yaw < min_yaw)
max_yaw += 360.0;
self->s.angles[YAW] += (self->monsterinfo.lefty ? -AC_TURN_SPEED : AC_TURN_SPEED);
// back and forth
if (self->s.angles[YAW] > max_yaw)
{
self->monsterinfo.lefty = 1;
self->s.angles[YAW] = max_yaw;
}
else if (self->s.angles[YAW] < min_yaw)
{
self->monsterinfo.lefty = 0;
self->s.angles[YAW] = min_yaw;
}
}
else
{
self->s.angles[YAW] = anglemod(self->s.angles[YAW] + AC_TURN_SPEED);
}
// angle pitch towards 5 to 10...
if (!self->onFloor)
{
if (self->s.angles[PITCH] > 10)
self->s.angles[PITCH] -= 4;
else if (self->s.angles[PITCH] < 5)
self->s.angles[PITCH] += 4;
}
else
{
if (self->s.angles[PITCH] < -10)
self->s.angles[PITCH] += 4;
else if (self->s.angles[PITCH] > -5)
self->s.angles[PITCH] -= 4;
}
}
else
{
// look toward enemy mid point
if (visible(self, self->enemy))
{
vec3_t offset, dest;
VectorCopy(self->enemy->mins, offset);
VectorAdd(offset, self->enemy->maxs, offset);
VectorScale(offset, 0.65, offset);
VectorAdd(self->enemy->s.origin, offset, dest);
angleToward(self, dest, AC_TURN_SPEED);
VectorCopy(dest, self->monsterinfo.last_sighting);
self->timeout = level.time + AC_TIMEOUT;
// restrict our range of movement if need be
if (self->monsterinfo.linkcount > 0)
{
float amax = anglemod(self->monsterinfo.attack_state + self->monsterinfo.linkcount);
float amin = anglemod(self->monsterinfo.attack_state - self->monsterinfo.linkcount);
self->s.angles[YAW] = anglemod(self->s.angles[YAW]);
if (!angleBetween(&self->s.angles[YAW], &amin, &amax))
{
// which is closer?
if (self->s.angles[YAW] - amax < amin - self->s.angles[YAW])
self->s.angles[YAW] = amin;
else
self->s.angles[YAW] = amax;
}
}
}
else // not visible now, so head toward last known spot
angleToward(self, self->monsterinfo.last_sighting, AC_TURN_SPEED);
}
// get our angles between 180 and -180
while (self->s.angles[PITCH] > 180)
self->s.angles[PITCH] -= 360.0;
while (self->s.angles[PITCH] < -180)
self->s.angles[PITCH] += 360;
// outside of the pitch extents?
if (self->s.angles[PITCH] > acPitchExtents[self->onFloor][1])
self->s.angles[PITCH] = acPitchExtents[self->onFloor][1];
else if (self->s.angles[PITCH] < acPitchExtents[self->onFloor][0])
self->s.angles[PITCH] = acPitchExtents[self->onFloor][0];
// make sure the turret's angles match the gun's
self->chain->s.angles[YAW] = self->s.angles[YAW];
self->chain->s.angles[PITCH] = 0;
// setup the sound
if (VectorCompare(self->s.angles, old_angles))
self->chain->s.sound = 0;
else
self->chain->s.sound = gi.soundindex("objects/acannon/ac_idle.wav");
}
void monster_autocannon_think(edict_t *self)
{
ac_anim_frame_t frame;
ac_anim_t anim;
int lefty = 0;
edict_t *old_enemy;
self->nextthink = level.time + FRAMETIME;
// get an enemy
old_enemy = self->enemy;
monster_autocannon_findenemy(self);
if (self->enemy != NULL && old_enemy != self->enemy)
gi.sound(self, CHAN_VOICE, gi.soundindex("objects/acannon/ac_act.wav"), 1, ATTN_NORM, 0);
// turn whereever
lefty = self->monsterinfo.lefty;
if (level.time > self->delay)
{
monster_autocannon_turn(self);
if (self->monsterinfo.lefty != lefty)
self->delay = level.time + AC_TURN_DELAY;
}
anim = acFiringFrames[self->style];
frame = anim.frames[self->seq];
// ok, we don't have an enemy
if (self->enemy == NULL)
{
if (self->seq == 0)
{
// get into idle animation
self->s.frame++;
if (self->s.frame > acActiveEnd[self->style] ||
self->s.frame < acActiveStart[self->style])
self->s.frame = acActiveStart[self->style];
return; // done, we want to wait here
}
// set the frame
self->s.frame = frame.frame;
// fire
if (frame.fire)
monster_autocannon_fire(self);
// if we're not done with the firing sequence, we need to finish it off
if (frame.last) // end of the loop or firing frame?
self->seq = 0;
else
self->seq++;
return;
}
// we have an enemy but he's not infront, go to the beginning of the firing sequence
if (!autocannonInfront(self, self->enemy))
{
self->s.frame = frame.frame;
if (self->seq == anim.firstNonPause)
return; // done, we want to wait here
if (frame.last) // end of the loop or firing frame?
self->seq = anim.firstNonPause;
else
self->seq++;
return;
}
// we have an enemy, AND he's visible
// let's kick his ass
self->s.frame = frame.frame;
if (frame.fire)
monster_autocannon_fire(self);
if (frame.last) // end of the loop?
self->seq = anim.firstNonPause;
else
self->seq++;
}
void monster_autocannon_explode (edict_t *ent)
{
vec3_t origin;
T_RadiusDamage(ent, ent, AC_EXPLODE_DMG, ent->enemy, AC_EXPLODE_RADIUS, MOD_TRIPBOMB);
VectorMA (ent->s.origin, -0.02, ent->velocity, origin);
gi.WriteByte (svc_temp_entity);
if (ent->waterlevel)
{
if (ent->groundentity)
gi.WriteByte (TE_GRENADE_EXPLOSION_WATER);
else
gi.WriteByte (TE_ROCKET_EXPLOSION_WATER);
}
else
{
if (ent->groundentity)
gi.WriteByte (TE_GRENADE_EXPLOSION);
else
gi.WriteByte (TE_ROCKET_EXPLOSION);
}
gi.WritePosition (origin);
gi.multicast (ent->s.origin, MULTICAST_PHS);
// set the pain skin
ent->chain->chain->s.skinnum = 1; // pain
ent->chain->chain->rideWith[0] = NULL;
ent->chain->chain->rideWith[1] = NULL;
G_FreeEdict(ent->chain);
G_FreeEdict(ent);
}
void monster_autocannon_die (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point)
{
// explode
self->takedamage = DAMAGE_NO;
self->think = monster_autocannon_explode;
self->nextthink = level.time + FRAMETIME;
}
void monster_autocannon_pain (edict_t *self, edict_t *other, float kick, int damage)
{
// keep the enemy
if (other->client || other->svflags & SVF_MONSTER)
self->enemy = other;
}
void monster_autocannon_activate(edict_t *self)
{
self->active = AC_S_ACTIVATING;
self->nextthink = level.time + FRAMETIME;
// go thru the activation frames
if (self->s.frame >= acActStart[self->style] &&
self->s.frame < acActEnd[self->style])
{
if (self->s.frame == acActStart[self->style])
{
//gi.sound(self, CHAN_VOICE, gi.soundindex("objects/acannon/ac_out.wav"), 1, ATTN_NORM, 0);
}
// continue
self->s.frame++;
self->chain->s.frame++;
}
else if (self->s.frame == acActEnd[self->style])
{
self->s.frame = acActiveStart[self->style];
self->chain->s.frame = turretActiveStart;
self->think = monster_autocannon_think;
self->active = AC_S_ACTIVE;
}
else
{
self->s.frame = acActStart[self->style];
self->chain->s.frame = turretActStart;
}
}
void monster_autocannon_deactivate(edict_t *self)
{
self->active = AC_S_DEACTIVATING;
self->nextthink = level.time + FRAMETIME;
// go thru the deactivation frames
if (self->s.angles[PITCH] != 0)
{
if (self->s.angles[PITCH] > 0)
{
self->s.angles[PITCH] -= 5;
if (self->s.angles[PITCH] < 0)
self->s.angles[PITCH] = 0;
}
else
{
self->s.angles[PITCH] += 5;
if (self->s.angles[PITCH] > 0)
self->s.angles[PITCH] = 0;
}
}
else if (self->s.frame >= acDeactStart[self->style] &&
self->s.frame < acDeactEnd[self->style])
{
self->chain->s.sound = 0;
if (self->s.frame == acDeactStart[self->style])
{
//gi.sound(self, CHAN_VOICE, gi.soundindex("objects/acannon/ac_away.wav"), 1, ATTN_NORM, 0);
}
// continue
self->s.frame++;
self->chain->s.frame++;
}
else if (self->s.frame == acDeactEnd[self->style])
{
self->s.frame = acIdleStart[self->style];
self->chain->s.frame = turretIdleStart;
self->think = NULL;
self->nextthink = 0;
self->chain->s.sound = 0;
self->active = AC_S_IDLE;
}
else
{
self->s.frame = acDeactStart[self->style];
self->chain->s.frame = turretDeactStart;
}
}
void monster_autocannon_act(edict_t *self)
{
if (self->active == AC_S_IDLE)
{
if (acActStart[self->style] != -1)
self->think = monster_autocannon_activate;
else
{
self->s.frame = acActiveStart[self->style];
self->chain->s.frame = turretActiveStart;
self->think = monster_autocannon_think;
self->active = AC_S_ACTIVE;
}
self->nextthink = level.time + FRAMETIME;
}
else if (self->active == AC_S_ACTIVE)
{
if (acDeactStart[self->style] != -1)
{
self->nextthink = level.time + FRAMETIME;
self->think = monster_autocannon_deactivate;
}
else
{
if (turretIdle[self->style])
self->chain->s.frame = turretIdleStart;
else
self->chain->s.frame = turretActiveStart;
self->s.frame = acActiveStart[self->style];
self->think = NULL;
self->active = AC_S_IDLE;
self->nextthink = 0;
}
}
}
void monster_autocannon_use(edict_t *self, edict_t *other, edict_t *activator)
{
// on/off or berserk toggle?
if (self->spawnflags & AC_SF_BERSERK_TOGGLE)
{
if (self->spawnflags & AC_SF_BERSERK)
self->spawnflags &= ~AC_SF_BERSERK;
else
self->spawnflags |= AC_SF_BERSERK;
}
else
monster_autocannon_act(self);
}
void monster_autocannon_usestub(edict_t *self)
{
// stub
monster_autocannon_act(self);
}
void SP_monster_autocannon(edict_t *self)
{
edict_t *base, *turret;
vec3_t offset;
if (deathmatch->value)
{
G_FreeEdict(self);
return;
}
if (self->style > 4 || self->style < 1)
self->style = 1;
// if we're on hard or nightmare, use fast lasers
if (skill->value >= 2 && self->style == 4)
self->style = 3;
// precache some sounds and models
gi.soundindex("objects/acannon/ac_idle.wav");
gi.soundindex("objects/acannon/ac_act.wav");
//gi.soundindex("objects/acannon/ac_out.wav");
//gi.soundindex("objects/acannon/ac_away.wav");
gi.modelindex("models/objects/rocket/tris.md2");
gi.modelindex("models/objects/laser/tris.md2");
// create the base
base = G_Spawn();
base->classname = "autocannon base";
base->solid = SOLID_BBOX;
VectorCopy(self->s.origin, base->s.origin);
if (!self->onFloor)
base->movetype = MOVETYPE_NONE;
else
base->movetype = MOVETYPE_RIDE; // make the base MOVETYPE_RIDE so that it can ride on trains
if (!self->onFloor)
base->s.modelindex = gi.modelindex("models/objects/acannon/base/tris.md2");
else
base->s.modelindex = gi.modelindex("models/objects/acannon/base2/tris.md2");
gi.linkentity(base);
// create the turret
turret = G_Spawn();
turret->classname = "autocannon turret";
turret->solid = SOLID_BBOX;
turret->movetype = MOVETYPE_NONE;
turret->chain = base;
VectorCopy(self->s.origin, turret->s.origin);
if (!self->onFloor)
turret->s.modelindex = gi.modelindex("models/objects/acannon/turret/tris.md2");
else
turret->s.modelindex = gi.modelindex("models/objects/acannon/turret2/tris.md2");
if (turretIdle[self->style])
turret->s.frame = turretIdleStart;
else
turret->s.frame = turretActiveStart;
turret->s.angles[YAW] = self->s.angles[YAW];
turret->s.angles[PITCH] = 0;
gi.linkentity(turret);
// fill in the details about ourself
self->solid = SOLID_BBOX;
self->movetype = MOVETYPE_NONE;
if (!self->onFloor)
VectorSet(offset, 0, 0, -20); // offset down a bit
else
VectorSet(offset, 0, 0, 20); // offset up a bit
VectorAdd(self->s.origin, offset, self->s.origin);
// set the bounding box
if (!self->onFloor)
{
VectorSet(self->mins, -12, -12, -28);
VectorSet(self->maxs, 12, 12, 16);
}
else
{
VectorSet(self->mins, -12, -12, -16);
VectorSet(self->maxs, 12, 12, 28);
}
self->chain = turret;
if (!self->onFloor)
self->s.modelindex = gi.modelindex(models[self->style]);
else
self->s.modelindex = gi.modelindex(floorModels[self->style]);
self->s.frame = acIdleStart[self->style];
self->active = AC_S_IDLE;
self->monsterinfo.lefty = 0;
self->monsterinfo.attack_state = self->s.angles[YAW]; // used for centre of back-and-forth "search"
self->seq = 0;
if (st.lip)
self->monsterinfo.linkcount = (st.lip > 0 ? st.lip : 0);
//self->svflags = SVF_MONSTER;
// default health
if (!self->health)
self->health = 100;
// enable/disable? ... berserk/not
if (self->targetname)
self->use = monster_autocannon_use;
if (self->spawnflags & AC_SF_BERSERK_TOGGLE || !(self->spawnflags & AC_SF_START_OFF))
{
self->think = monster_autocannon_usestub;
self->nextthink = level.time + FRAMETIME;
}
self->takedamage = DAMAGE_AIM;
self->die = monster_autocannon_die;
self->pain = monster_autocannon_pain;
// last but not least, setup the "rideWith" information
base->rideWith[0] = turret;
VectorSubtract(turret->s.origin, base->s.origin, base->rideWithOffset[0]);
base->rideWith[1] = self;
VectorSubtract(self->s.origin, base->s.origin, base->rideWithOffset[1]);
gi.linkentity(self);
}
void SP_monster_autocannon_floor(edict_t *self)
{
if (self->style == 1)
{
gi.error("monster_autocannon_floor does not permit bullet style");
G_FreeEdict(self);
return;
}
if (self->style < 1 || self->style > 4)
self->style = 2;
self->onFloor = 1; // signify floor mounted
// call the other one
SP_monster_autocannon(self);
}