#include "actor.h" #include "info.h" #include "m_random.h" #include "p_local.h" #include "s_sound.h" static FRandom pr_batspawn ("BatSpawn"); static FRandom pr_batmove ("BatMove"); void A_BatSpawnInit (AActor *); void A_BatSpawn (AActor *); void A_BatMove (AActor *); // Bat Spawner -------------------------------------------------------------- class ABatSpawner : public AActor { DECLARE_ACTOR (ABatSpawner, AActor) public: void Activate (AActor *activator); void Deactivate (AActor *activator); }; FState ABatSpawner::States[] = { #define S_SPAWNBATS1 0 S_NORMAL (TNT1, 'A', 2, NULL , &States[S_SPAWNBATS1+1]), S_NORMAL (TNT1, 'A', 2, A_BatSpawnInit , &States[S_SPAWNBATS1+2]), S_NORMAL (TNT1, 'A', 2, A_BatSpawn , &States[S_SPAWNBATS1+2]), #define S_SPAWNBATS_OFF (S_SPAWNBATS1+3) S_NORMAL (TNT1, 'A', -1, NULL , NULL) }; IMPLEMENT_ACTOR (ABatSpawner, Hexen, 10225, 0) PROP_Flags (MF_NOSECTOR|MF_NOBLOCKMAP|MF_NOGRAVITY) PROP_RenderStyle (STYLE_None) PROP_SpawnState (S_SPAWNBATS1) END_DEFAULTS void ABatSpawner::Activate (AActor *activator) { SetState (&States[S_SPAWNBATS1]); } void ABatSpawner::Deactivate (AActor *activator) { SetState (&States[S_SPAWNBATS_OFF]); } // Bat ---------------------------------------------------------------------- class ABat : public AActor { DECLARE_ACTOR (ABat, AActor) }; FState ABat::States[] = { #define S_BAT1 0 S_NORMAL (ABAT, 'A', 2, A_BatMove , &States[S_BAT1+1]), S_NORMAL (ABAT, 'B', 2, A_BatMove , &States[S_BAT1+2]), S_NORMAL (ABAT, 'C', 2, A_BatMove , &States[S_BAT1]), #define S_BAT_DEATH (S_BAT1+3) S_NORMAL (ABAT, 'A', 2, NULL , NULL), }; IMPLEMENT_ACTOR (ABat, Hexen, -1, 0) PROP_SpeedFixed (5) PROP_RadiusFixed (3) PROP_HeightFixed (3) PROP_Flags (MF_NOBLOCKMAP|MF_NOGRAVITY|MF_MISSILE) PROP_Flags2 (MF2_NOTELEPORT|MF2_PASSMOBJ) PROP_SpawnState (S_BAT1) PROP_DeathState (S_BAT_DEATH) END_DEFAULTS //=========================================================================== // Bat Spawner Variables // special1 frequency counter // special2 // args[0] frequency of spawn (1=fastest, 10=slowest) // args[1] spread angle (0..255) // args[2] // args[3] duration of bats (in octics) // args[4] turn amount per move (in degrees) // // Bat Variables // special2 lifetime counter // args[4] turn amount per move (in degrees) //=========================================================================== void A_BatSpawnInit (AActor *actor) { actor->special1 = 0; // Frequency count } void A_BatSpawn (AActor *actor) { AActor *mo; int delta; angle_t angle; // Countdown until next spawn if (actor->special1-- > 0) return; actor->special1 = actor->args[0]; // Reset frequency count delta = actor->args[1]; if (delta==0) delta=1; angle = actor->angle + (((pr_batspawn()%delta)-(delta>>1))<<24); mo = P_SpawnMissileAngle (actor, RUNTIME_CLASS(ABat), angle, 0); if (mo) { mo->args[0] = pr_batspawn()&63; // floatbob index mo->args[4] = actor->args[4]; // turn degrees mo->special2 = actor->args[3]<<3; // Set lifetime mo->target = actor; } } void A_BatMove (AActor *actor) { angle_t newangle; if (actor->special2 < 0) { actor->SetState (actor->DeathState); } actor->special2 -= 2; // Called every 2 tics if (pr_batmove()<128) { newangle = actor->angle + ANGLE_1*actor->args[4]; } else { newangle = actor->angle - ANGLE_1*actor->args[4]; } // Adjust momentum vector to new direction newangle >>= ANGLETOFINESHIFT; actor->momx = FixedMul (actor->Speed, finecosine[newangle]); actor->momy = FixedMul (actor->Speed, finesine[newangle]); if (pr_batmove()<15) { S_Sound (actor, CHAN_VOICE, "BatScream", 1, ATTN_IDLE); } // Handle Z movement actor->z = actor->target->z + 2*FloatBobOffsets[actor->args[0]]; actor->args[0] = (actor->args[0]+3)&63; }