/*** * * Copyright (c) 1996-2001, Valve LLC. All rights reserved. * * This product contains software technology licensed from Id * Software, Inc. ("Id Technology"). Id Technology (c) 1996 Id Software, Inc. * All Rights Reserved. * * This source code contains proprietary and confidential information of * Valve LLC and its suppliers. Access to this code is restricted to * persons who have executed a written SDK license with Valve. Any access, * use or distribution of this code by or to any unlicensed person is illegal. * ****/ #if !defined( OEM_BUILD ) && !defined( HLDEMO_BUILD ) //========================================================= // icthyosaur - evin, satan fish monster //========================================================= #include "extdll.h" #include "util.h" #include "cbase.h" #include "monsters.h" #include "schedule.h" #include "flyingmonster.h" #include "nodes.h" #include "soundent.h" #include "animation.h" #include "effects.h" #include "weapons.h" #define SEARCH_RETRY 16 #define ICHTHYOSAUR_SPEED 150 extern CGraph WorldGraph; #define EYE_MAD 0 #define EYE_BASE 1 #define EYE_CLOSED 2 #define EYE_BACK 3 #define EYE_LOOK 4 //========================================================= // Monster's Anim Events Go Here //========================================================= // UNDONE: Save/restore here class CIchthyosaur : public CFlyingMonster { public: void Spawn( void ); void Precache( void ); void SetYawSpeed( void ); int Classify( void ); void HandleAnimEvent( MonsterEvent_t *pEvent ); CUSTOM_SCHEDULES; int Save( CSave &save ); int Restore( CRestore &restore ); static TYPEDESCRIPTION m_SaveData[]; Schedule_t *GetSchedule( void ); Schedule_t *GetScheduleOfType ( int Type ); void Killed( entvars_t *pevAttacker, int iGib ); void BecomeDead( void ); void EXPORT CombatUse( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value ); void EXPORT BiteTouch( CBaseEntity *pOther ); void StartTask( Task_t *pTask ); void RunTask( Task_t *pTask ); BOOL CheckMeleeAttack1 ( float flDot, float flDist ); BOOL CheckRangeAttack1 ( float flDot, float flDist ); float ChangeYaw( int yawSpeed ); Activity GetStoppedActivity( void ); void Move( float flInterval ); void MoveExecute( CBaseEntity *pTargetEnt, const Vector &vecDir, float flInterval ); void MonsterThink( void ); void Stop( void ); void Swim( void ); Vector DoProbe(const Vector &Probe); float VectorToPitch( const Vector &vec); float FlPitchDiff( void ); float ChangePitch( int pitchSpeed ); Vector m_SaveVelocity; float m_idealDist; float m_flBlink; float m_flEnemyTouched; BOOL m_bOnAttack; float m_flMaxSpeed; float m_flMinSpeed; float m_flMaxDist; CBeam *m_pBeam; float m_flNextAlert; float m_flLastPitchTime; // Last frame time pitch was changed float m_flLastZYawTime; // Last frame time Z was changed when yaw was changed static const char *pIdleSounds[]; static const char *pAlertSounds[]; static const char *pAttackSounds[]; static const char *pBiteSounds[]; static const char *pDieSounds[]; static const char *pPainSounds[]; void IdleSound( void ); void AlertSound( void ); void AttackSound( void ); void BiteSound( void ); void DeathSound( void ); void PainSound( void ); }; LINK_ENTITY_TO_CLASS( monster_ichthyosaur, CIchthyosaur ); TYPEDESCRIPTION CIchthyosaur::m_SaveData[] = { DEFINE_FIELD( CIchthyosaur, m_SaveVelocity, FIELD_VECTOR ), DEFINE_FIELD( CIchthyosaur, m_idealDist, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_flBlink, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_flEnemyTouched, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_bOnAttack, FIELD_BOOLEAN ), DEFINE_FIELD( CIchthyosaur, m_flMaxSpeed, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_flMinSpeed, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_flMaxDist, FIELD_FLOAT ), DEFINE_FIELD( CIchthyosaur, m_flNextAlert, FIELD_TIME ), }; IMPLEMENT_SAVERESTORE( CIchthyosaur, CFlyingMonster ); const char *CIchthyosaur::pIdleSounds[] = { "ichy/ichy_idle1.wav", "ichy/ichy_idle2.wav", "ichy/ichy_idle3.wav", "ichy/ichy_idle4.wav", }; const char *CIchthyosaur::pAlertSounds[] = { "ichy/ichy_alert2.wav", "ichy/ichy_alert3.wav", }; const char *CIchthyosaur::pAttackSounds[] = { "ichy/ichy_attack1.wav", "ichy/ichy_attack2.wav", }; const char *CIchthyosaur::pBiteSounds[] = { "ichy/ichy_bite1.wav", "ichy/ichy_bite2.wav", }; const char *CIchthyosaur::pPainSounds[] = { "ichy/ichy_pain2.wav", "ichy/ichy_pain3.wav", "ichy/ichy_pain5.wav", }; const char *CIchthyosaur::pDieSounds[] = { "ichy/ichy_die2.wav", "ichy/ichy_die4.wav", }; #define EMIT_ICKY_SOUND( chan, array ) \ EMIT_SOUND_DYN ( ENT(pev), chan , array [ RANDOM_LONG(0,ARRAYSIZE( array )-1) ], 1.0, 0.6, 0, RANDOM_LONG(95,105) ); void CIchthyosaur :: IdleSound( void ) { EMIT_ICKY_SOUND( CHAN_VOICE, pIdleSounds ); } void CIchthyosaur :: AlertSound( void ) { EMIT_ICKY_SOUND( CHAN_VOICE, pAlertSounds ); } void CIchthyosaur :: AttackSound( void ) { EMIT_ICKY_SOUND( CHAN_VOICE, pAttackSounds ); } void CIchthyosaur :: BiteSound( void ) { EMIT_ICKY_SOUND( CHAN_WEAPON, pBiteSounds ); } void CIchthyosaur :: DeathSound( void ) { EMIT_ICKY_SOUND( CHAN_VOICE, pDieSounds ); } void CIchthyosaur :: PainSound( void ) { EMIT_ICKY_SOUND( CHAN_VOICE, pPainSounds ); } //========================================================= // monster-specific tasks and states //========================================================= enum { TASK_ICHTHYOSAUR_CIRCLE_ENEMY = LAST_COMMON_TASK + 1, TASK_ICHTHYOSAUR_SWIM, TASK_ICHTHYOSAUR_FLOAT, }; //========================================================= // AI Schedules Specific to this monster //========================================================= static Task_t tlSwimAround[] = { { TASK_SET_ACTIVITY, (float)ACT_WALK }, { TASK_ICHTHYOSAUR_SWIM, 0.0 }, }; static Schedule_t slSwimAround[] = { { tlSwimAround, ARRAYSIZE(tlSwimAround), bits_COND_LIGHT_DAMAGE | bits_COND_HEAVY_DAMAGE | bits_COND_SEE_ENEMY | bits_COND_NEW_ENEMY | bits_COND_HEAR_SOUND, bits_SOUND_PLAYER | bits_SOUND_COMBAT, "SwimAround" }, }; static Task_t tlSwimAgitated[] = { { TASK_STOP_MOVING, (float) 0 }, { TASK_SET_ACTIVITY, (float)ACT_RUN }, { TASK_WAIT, (float)2.0 }, }; static Schedule_t slSwimAgitated[] = { { tlSwimAgitated, ARRAYSIZE(tlSwimAgitated), 0, 0, "SwimAgitated" }, }; static Task_t tlCircleEnemy[] = { { TASK_SET_ACTIVITY, (float)ACT_WALK }, { TASK_ICHTHYOSAUR_CIRCLE_ENEMY, 0.0 }, }; static Schedule_t slCircleEnemy[] = { { tlCircleEnemy, ARRAYSIZE(tlCircleEnemy), bits_COND_NEW_ENEMY | bits_COND_LIGHT_DAMAGE | bits_COND_HEAVY_DAMAGE | bits_COND_CAN_MELEE_ATTACK1 | bits_COND_CAN_RANGE_ATTACK1, 0, "CircleEnemy" }, }; Task_t tlTwitchDie[] = { { TASK_STOP_MOVING, 0 }, { TASK_SOUND_DIE, (float)0 }, { TASK_DIE, (float)0 }, { TASK_ICHTHYOSAUR_FLOAT, (float)0 }, }; Schedule_t slTwitchDie[] = { { tlTwitchDie, ARRAYSIZE( tlTwitchDie ), 0, 0, "Die" }, }; DEFINE_CUSTOM_SCHEDULES(CIchthyosaur) { slSwimAround, slSwimAgitated, slCircleEnemy, slTwitchDie, }; IMPLEMENT_CUSTOM_SCHEDULES(CIchthyosaur, CFlyingMonster); //========================================================= // Classify - indicates this monster's place in the // relationship table. //========================================================= int CIchthyosaur :: Classify ( void ) { return CLASS_ALIEN_MONSTER; } //========================================================= // CheckMeleeAttack1 //========================================================= BOOL CIchthyosaur :: CheckMeleeAttack1 ( float flDot, float flDist ) { if ( flDot >= 0.7 && m_flEnemyTouched > gpGlobals->time - 0.2 ) { return TRUE; } return FALSE; } void CIchthyosaur::BiteTouch( CBaseEntity *pOther ) { // bite if we hit who we want to eat if ( pOther == m_hEnemy ) { m_flEnemyTouched = gpGlobals->time; m_bOnAttack = TRUE; } } void CIchthyosaur::CombatUse( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value ) { if ( !ShouldToggle( useType, m_bOnAttack ) ) return; if (m_bOnAttack) { m_bOnAttack = 0; } else { m_bOnAttack = 1; } } //========================================================= // CheckRangeAttack1 - swim in for a chomp // //========================================================= BOOL CIchthyosaur :: CheckRangeAttack1 ( float flDot, float flDist ) { if ( flDot > -0.7 && (m_bOnAttack || ( flDist <= 192 && m_idealDist <= 192))) { return TRUE; } return FALSE; } //========================================================= // SetYawSpeed - allows each sequence to have a different // turn rate associated with it. //========================================================= void CIchthyosaur :: SetYawSpeed ( void ) { pev->yaw_speed = 100; } //========================================================= // Killed - overrides CFlyingMonster. // void CIchthyosaur :: Killed( entvars_t *pevAttacker, int iGib ) { CBaseMonster::Killed( pevAttacker, iGib ); pev->velocity = Vector( 0, 0, 0 ); } void CIchthyosaur::BecomeDead( void ) { pev->takedamage = DAMAGE_YES;// don't let autoaim aim at corpses. // give the corpse half of the monster's original maximum health. pev->health = pev->max_health / 2; pev->max_health = 5; // max_health now becomes a counter for how many blood decals the corpse can place. } #define ICHTHYOSAUR_AE_SHAKE_RIGHT 1 #define ICHTHYOSAUR_AE_SHAKE_LEFT 2 //========================================================= // HandleAnimEvent - catches the monster-specific messages // that occur when tagged animation frames are played. //========================================================= void CIchthyosaur :: HandleAnimEvent( MonsterEvent_t *pEvent ) { int bDidAttack = FALSE; switch( pEvent->event ) { case ICHTHYOSAUR_AE_SHAKE_RIGHT: case ICHTHYOSAUR_AE_SHAKE_LEFT: { if (m_hEnemy != NULL && FVisible( m_hEnemy )) { CBaseEntity *pHurt = m_hEnemy; if (m_flEnemyTouched < gpGlobals->time - 0.2 && (m_hEnemy->BodyTarget( pev->origin ) - pev->origin).Length() > (32+16+32)) break; Vector vecShootDir = ShootAtEnemy( pev->origin ); UTIL_MakeAimVectors ( pev->angles ); if (DotProduct( vecShootDir, gpGlobals->v_forward ) > 0.707) { m_bOnAttack = TRUE; pHurt->pev->punchangle.z = -18; pHurt->pev->punchangle.x = 5; pHurt->pev->velocity = pHurt->pev->velocity - gpGlobals->v_right * 300; if (pHurt->IsPlayer()) { pHurt->pev->angles.x += RANDOM_FLOAT( -35, 35 ); pHurt->pev->angles.y += RANDOM_FLOAT( -90, 90 ); pHurt->pev->angles.z = 0; pHurt->pev->fixangle = TRUE; } pHurt->TakeDamage( pev, pev, gSkillData.ichthyosaurDmgShake, DMG_SLASH ); } } BiteSound(); bDidAttack = TRUE; } break; default: CFlyingMonster::HandleAnimEvent( pEvent ); break; } if (bDidAttack) { Vector vecSrc = pev->origin + gpGlobals->v_forward * 32; UTIL_Bubbles( vecSrc - Vector( 8, 8, 8 ), vecSrc + Vector( 8, 8, 8 ), 16 ); } } //========================================================= // Spawn //========================================================= void CIchthyosaur :: Spawn() { Precache( ); SET_MODEL(ENT(pev), "models/icky.mdl"); UTIL_SetSize( pev, Vector( -32, -32, -32 ), Vector( 32, 32, 32 ) ); pev->solid = SOLID_BBOX; pev->movetype = MOVETYPE_FLY; m_bloodColor = BLOOD_COLOR_GREEN; pev->health = gSkillData.ichthyosaurHealth; pev->view_ofs = Vector ( 0, 0, 16 ); m_flFieldOfView = VIEW_FIELD_WIDE; m_MonsterState = MONSTERSTATE_NONE; SetBits(pev->flags, FL_SWIM); SetFlyingSpeed( ICHTHYOSAUR_SPEED ); SetFlyingMomentum( 2.5 ); // Set momentum constant m_afCapability = bits_CAP_RANGE_ATTACK1 | bits_CAP_SWIM; MonsterInit(); SetTouch( &CIchthyosaur::BiteTouch ); SetUse( &CIchthyosaur::CombatUse ); m_idealDist = 384; m_flMinSpeed = 80; m_flMaxSpeed = 300; m_flMaxDist = 384; Vector Forward; UTIL_MakeVectorsPrivate(pev->angles, Forward, 0, 0); pev->velocity = m_flightSpeed * Forward.Normalize(); m_SaveVelocity = pev->velocity; } //========================================================= // Precache - precaches all resources this monster needs //========================================================= void CIchthyosaur :: Precache() { PRECACHE_MODEL("models/icky.mdl"); PRECACHE_SOUND_ARRAY( pIdleSounds ); PRECACHE_SOUND_ARRAY( pAlertSounds ); PRECACHE_SOUND_ARRAY( pAttackSounds ); PRECACHE_SOUND_ARRAY( pBiteSounds ); PRECACHE_SOUND_ARRAY( pDieSounds ); PRECACHE_SOUND_ARRAY( pPainSounds ); } //========================================================= // GetSchedule //========================================================= Schedule_t* CIchthyosaur::GetSchedule() { // ALERT( at_console, "GetSchedule( )\n" ); switch(m_MonsterState) { case MONSTERSTATE_IDLE: m_flightSpeed = 80; return GetScheduleOfType( SCHED_IDLE_WALK ); case MONSTERSTATE_ALERT: m_flightSpeed = 150; return GetScheduleOfType( SCHED_IDLE_WALK ); case MONSTERSTATE_COMBAT: m_flMaxSpeed = 400; // eat them if ( HasConditions( bits_COND_CAN_MELEE_ATTACK1 ) ) { return GetScheduleOfType( SCHED_MELEE_ATTACK1 ); } // chase them down and eat them if ( HasConditions( bits_COND_CAN_RANGE_ATTACK1 ) ) { return GetScheduleOfType( SCHED_CHASE_ENEMY ); } if ( HasConditions( bits_COND_HEAVY_DAMAGE ) ) { m_bOnAttack = TRUE; } if ( pev->health < pev->max_health - 20 ) { m_bOnAttack = TRUE; } return GetScheduleOfType( SCHED_STANDOFF ); } return CFlyingMonster :: GetSchedule(); } //========================================================= //========================================================= Schedule_t* CIchthyosaur :: GetScheduleOfType ( int Type ) { // ALERT( at_console, "GetScheduleOfType( %d ) %d\n", Type, m_bOnAttack ); switch ( Type ) { case SCHED_IDLE_WALK: return slSwimAround; case SCHED_STANDOFF: return slCircleEnemy; case SCHED_FAIL: return slSwimAgitated; case SCHED_DIE: return slTwitchDie; case SCHED_CHASE_ENEMY: AttackSound( ); } return CBaseMonster :: GetScheduleOfType( Type ); } //========================================================= // Start task - selects the correct activity and performs // any necessary calculations to start the next task on the // schedule. //========================================================= void CIchthyosaur::StartTask(Task_t *pTask) { switch (pTask->iTask) { case TASK_ICHTHYOSAUR_CIRCLE_ENEMY: break; case TASK_ICHTHYOSAUR_SWIM: break; case TASK_SMALL_FLINCH: if (m_idealDist > 128) { m_flMaxDist = 512; m_idealDist = 512; } else { m_bOnAttack = TRUE; } CFlyingMonster::StartTask(pTask); break; case TASK_ICHTHYOSAUR_FLOAT: pev->skin = EYE_BASE; SetSequenceByName( "bellyup" ); break; default: CFlyingMonster::StartTask(pTask); break; } } void CIchthyosaur :: RunTask ( Task_t *pTask ) { switch ( pTask->iTask ) { case TASK_ICHTHYOSAUR_CIRCLE_ENEMY: if (m_hEnemy == NULL) { TaskComplete( ); } else if (FVisible( m_hEnemy )) { Vector vecFrom = m_hEnemy->EyePosition( ); Vector vecDelta = (pev->origin - vecFrom).Normalize( ); Vector vecSwim = CrossProduct( vecDelta, Vector( 0, 0, 1 ) ).Normalize( ); if (DotProduct( vecSwim, m_SaveVelocity ) < 0) vecSwim = vecSwim * -1.0; Vector vecPos = vecFrom + vecDelta * m_idealDist + vecSwim * 32; // ALERT( at_console, "vecPos %.0f %.0f %.0f\n", vecPos.x, vecPos.y, vecPos.z ); TraceResult tr; UTIL_TraceHull( vecFrom, vecPos, ignore_monsters, large_hull, m_hEnemy->edict(), &tr ); if (tr.flFraction > 0.5) vecPos = tr.vecEndPos; m_SaveVelocity = m_SaveVelocity * 0.8 + 0.2 * (vecPos - pev->origin).Normalize() * m_flightSpeed; // ALERT( at_console, "m_SaveVelocity %.2f %.2f %.2f\n", m_SaveVelocity.x, m_SaveVelocity.y, m_SaveVelocity.z ); if (HasConditions( bits_COND_ENEMY_FACING_ME ) && m_hEnemy->FVisible( this )) { m_flNextAlert -= 0.1; if (m_idealDist < m_flMaxDist) { m_idealDist += 4; } if (m_flightSpeed > m_flMinSpeed) { m_flightSpeed -= 2; } else if (m_flightSpeed < m_flMinSpeed) { m_flightSpeed += 2; } if (m_flMinSpeed < m_flMaxSpeed) { m_flMinSpeed += 0.5; } } else { m_flNextAlert += 0.1; if (m_idealDist > 128) { m_idealDist -= 4; } if (m_flightSpeed < m_flMaxSpeed) { m_flightSpeed += 4; } } // ALERT( at_console, "%.0f\n", m_idealDist ); } else { m_flNextAlert = gpGlobals->time + 0.2; } if (m_flNextAlert < gpGlobals->time) { // ALERT( at_console, "AlertSound()\n"); AlertSound( ); m_flNextAlert = gpGlobals->time + RANDOM_FLOAT( 3, 5 ); } break; case TASK_ICHTHYOSAUR_SWIM: if (m_fSequenceFinished) { TaskComplete( ); } break; case TASK_DIE: if ( m_fSequenceFinished ) { pev->deadflag = DEAD_DEAD; TaskComplete( ); } break; case TASK_ICHTHYOSAUR_FLOAT: pev->angles.x = UTIL_ApproachAngle( 0, pev->angles.x, 20 ); pev->velocity = pev->velocity * 0.8; if (pev->waterlevel > 1 && pev->velocity.z < 64) { pev->velocity.z += 8; } else { pev->velocity.z -= 8; } // ALERT( at_console, "%f\n", pev->velocity.z ); break; default: CFlyingMonster :: RunTask ( pTask ); break; } } float CIchthyosaur::VectorToPitch( const Vector &vec ) { float pitch; if (vec.z == 0 && vec.x == 0) pitch = 0; else { pitch = (int) (atan2(vec.z, sqrt(vec.x*vec.x+vec.y*vec.y)) * 180 / M_PI); if (pitch < 0) pitch += 360; } return pitch; } //========================================================= void CIchthyosaur::Move(float flInterval) { CFlyingMonster::Move( flInterval ); } float CIchthyosaur::FlPitchDiff( void ) { float flPitchDiff; float flCurrentPitch; flCurrentPitch = UTIL_AngleMod( pev->angles.z ); if ( flCurrentPitch == pev->idealpitch ) { return 0; } flPitchDiff = pev->idealpitch - flCurrentPitch; if ( pev->idealpitch > flCurrentPitch ) { if (flPitchDiff >= 180) flPitchDiff = flPitchDiff - 360; } else { if (flPitchDiff <= -180) flPitchDiff = flPitchDiff + 360; } return flPitchDiff; } float CIchthyosaur :: ChangePitch( int pitchSpeed ) { if ( pev->movetype == MOVETYPE_FLY ) { float diff = FlPitchDiff(); float target = 0; if ( m_flLastPitchTime == 0.f ) { m_flLastPitchTime = gpGlobals->time - gpGlobals->frametime; } if ( m_IdealActivity != GetStoppedActivity() ) { if (diff < -20) target = 45; else if (diff > 20) target = -45; } float delta = gpGlobals->time - m_flLastPitchTime; m_flLastPitchTime = gpGlobals->time; // Clamp delta like the engine does with frametime if ( delta > 0.25f ) delta = 0.25f; float speed = 220.f * delta; pev->angles.x = UTIL_Approach(target, pev->angles.x, speed ); } return 0; } float CIchthyosaur::ChangeYaw( int yawSpeed ) { if ( pev->movetype == MOVETYPE_FLY ) { float diff = FlYawDiff(); float target = 0; if ( m_flLastZYawTime == 0.f ) { m_flLastZYawTime = gpGlobals->time - gpGlobals->frametime; } if ( m_IdealActivity != GetStoppedActivity() ) { if ( diff < -20 ) target = 20; else if ( diff > 20 ) target = -20; } float delta = gpGlobals->time - m_flLastZYawTime; m_flLastZYawTime = gpGlobals->time; // Clamp delta like the engine does with frametime if ( delta > 0.25f ) delta = 0.25f; float speed = 220.f * delta; pev->angles.z = UTIL_Approach( target, pev->angles.z, speed ); } return CFlyingMonster::ChangeYaw( yawSpeed ); } Activity CIchthyosaur:: GetStoppedActivity( void ) { if ( pev->movetype != MOVETYPE_FLY ) // UNDONE: Ground idle here, IDLE may be something else return ACT_IDLE; return ACT_WALK; } void CIchthyosaur::MoveExecute( CBaseEntity *pTargetEnt, const Vector &vecDir, float flInterval ) { m_SaveVelocity = vecDir * m_flightSpeed; } void CIchthyosaur::MonsterThink ( void ) { CFlyingMonster::MonsterThink( ); if (pev->deadflag == DEAD_NO) { if (m_MonsterState != MONSTERSTATE_SCRIPT) { Swim( ); // blink the eye if (m_flBlink < gpGlobals->time) { pev->skin = EYE_CLOSED; if (m_flBlink + 0.2 < gpGlobals->time) { m_flBlink = gpGlobals->time + RANDOM_FLOAT( 3, 4 ); if (m_bOnAttack) pev->skin = EYE_MAD; else pev->skin = EYE_BASE; } } } } } void CIchthyosaur :: Stop( void ) { if (!m_bOnAttack) m_flightSpeed = 80.0; } void CIchthyosaur::Swim( ) { int retValue = 0; Vector start = pev->origin; Vector Angles; Vector Forward, Right, Up; if (FBitSet( pev->flags, FL_ONGROUND)) { pev->angles.x = 0; pev->angles.y += RANDOM_FLOAT( -45, 45 ); ClearBits( pev->flags, FL_ONGROUND ); Angles = Vector( -pev->angles.x, pev->angles.y, pev->angles.z ); UTIL_MakeVectorsPrivate(Angles, Forward, Right, Up); pev->velocity = Forward * 200 + Up * 200; return; } if (m_bOnAttack && m_flightSpeed < m_flMaxSpeed) { m_flightSpeed += 40; } if (m_flightSpeed < 180) { if (m_IdealActivity == ACT_RUN) SetActivity( ACT_WALK ); if (m_IdealActivity == ACT_WALK) pev->framerate = m_flightSpeed / 150.0; // ALERT( at_console, "walk %.2f\n", pev->framerate ); } else { if (m_IdealActivity == ACT_WALK) SetActivity( ACT_RUN ); if (m_IdealActivity == ACT_RUN) pev->framerate = m_flightSpeed / 150.0; // ALERT( at_console, "run %.2f\n", pev->framerate ); } /* if (!m_pBeam) { m_pBeam = CBeam::BeamCreate( "sprites/laserbeam.spr", 80 ); m_pBeam->PointEntInit( pev->origin + m_SaveVelocity, entindex( ) ); m_pBeam->SetEndAttachment( 1 ); m_pBeam->SetColor( 255, 180, 96 ); m_pBeam->SetBrightness( 192 ); } */ #define PROBE_LENGTH 150 Angles = UTIL_VecToAngles( m_SaveVelocity ); Angles.x = -Angles.x; UTIL_MakeVectorsPrivate(Angles, Forward, Right, Up); Vector f, u, l, r, d; f = DoProbe(start + PROBE_LENGTH * Forward); r = DoProbe(start + PROBE_LENGTH/3 * Forward+Right); l = DoProbe(start + PROBE_LENGTH/3 * Forward-Right); u = DoProbe(start + PROBE_LENGTH/3 * Forward+Up); d = DoProbe(start + PROBE_LENGTH/3 * Forward-Up); Vector SteeringVector = f+r+l+u+d; m_SaveVelocity = (m_SaveVelocity + SteeringVector/2).Normalize(); Angles = Vector( -pev->angles.x, pev->angles.y, pev->angles.z ); UTIL_MakeVectorsPrivate(Angles, Forward, Right, Up); // ALERT( at_console, "%f : %f\n", Angles.x, Forward.z ); float flDot = DotProduct( Forward, m_SaveVelocity ); if (flDot > 0.5) pev->velocity = m_SaveVelocity = m_SaveVelocity * m_flightSpeed; else if (flDot > 0) pev->velocity = m_SaveVelocity = m_SaveVelocity * m_flightSpeed * (flDot + 0.5); else pev->velocity = m_SaveVelocity = m_SaveVelocity * 80; // ALERT( at_console, "%.0f %.0f\n", m_flightSpeed, pev->velocity.Length() ); // ALERT( at_console, "Steer %f %f %f\n", SteeringVector.x, SteeringVector.y, SteeringVector.z ); /* m_pBeam->SetStartPos( pev->origin + pev->velocity ); m_pBeam->RelinkBeam( ); */ // ALERT( at_console, "speed %f\n", m_flightSpeed ); Angles = UTIL_VecToAngles( m_SaveVelocity ); // Smooth Pitch // if (Angles.x > 180) Angles.x = Angles.x - 360; pev->angles.x = UTIL_Approach(Angles.x, pev->angles.x, 50 * 0.1 ); if (pev->angles.x < -80) pev->angles.x = -80; if (pev->angles.x > 80) pev->angles.x = 80; // Smooth Yaw and generate Roll // float turn = 360; // ALERT( at_console, "Y %.0f %.0f\n", Angles.y, pev->angles.y ); if (fabs(Angles.y - pev->angles.y) < fabs(turn)) { turn = Angles.y - pev->angles.y; } if (fabs(Angles.y - pev->angles.y + 360) < fabs(turn)) { turn = Angles.y - pev->angles.y + 360; } if (fabs(Angles.y - pev->angles.y - 360) < fabs(turn)) { turn = Angles.y - pev->angles.y - 360; } float speed = m_flightSpeed * 0.1; // ALERT( at_console, "speed %.0f %f\n", turn, speed ); if (fabs(turn) > speed) { if (turn < 0.0) { turn = -speed; } else { turn = speed; } } pev->angles.y += turn; pev->angles.z -= turn; pev->angles.y = fmod((pev->angles.y + 360.0), 360.0); static float yaw_adj; yaw_adj = yaw_adj * 0.8 + turn; // ALERT( at_console, "yaw %f : %f\n", turn, yaw_adj ); SetBoneController( 0, -yaw_adj / 4.0 ); // Roll Smoothing // turn = 360; if (fabs(Angles.z - pev->angles.z) < fabs(turn)) { turn = Angles.z - pev->angles.z; } if (fabs(Angles.z - pev->angles.z + 360) < fabs(turn)) { turn = Angles.z - pev->angles.z + 360; } if (fabs(Angles.z - pev->angles.z - 360) < fabs(turn)) { turn = Angles.z - pev->angles.z - 360; } speed = m_flightSpeed/2 * 0.1; if (fabs(turn) < speed) { pev->angles.z += turn; } else { if (turn < 0.0) { pev->angles.z -= speed; } else { pev->angles.z += speed; } } if (pev->angles.z < -20) pev->angles.z = -20; if (pev->angles.z > 20) pev->angles.z = 20; UTIL_MakeVectorsPrivate( Vector( -Angles.x, Angles.y, Angles.z ), Forward, Right, Up); // UTIL_MoveToOrigin ( ENT(pev), pev->origin + Forward * speed, speed, MOVE_STRAFE ); } Vector CIchthyosaur::DoProbe(const Vector &Probe) { Vector WallNormal = Vector(0,0,-1); // WATER normal is Straight Down for fish. float frac; BOOL bBumpedSomething = ProbeZ(pev->origin, Probe, &frac); TraceResult tr; TRACE_MONSTER_HULL(edict(), pev->origin, Probe, dont_ignore_monsters, edict(), &tr); if ( tr.fAllSolid || tr.flFraction < 0.99 ) { if (tr.flFraction < 0.0) tr.flFraction = 0.0; if (tr.flFraction > 1.0) tr.flFraction = 1.0; if (tr.flFraction < frac) { frac = tr.flFraction; bBumpedSomething = TRUE; WallNormal = tr.vecPlaneNormal; } } if (bBumpedSomething && (m_hEnemy == NULL || tr.pHit != m_hEnemy->edict())) { Vector ProbeDir = Probe - pev->origin; Vector NormalToProbeAndWallNormal = CrossProduct(ProbeDir, WallNormal); Vector SteeringVector = CrossProduct( NormalToProbeAndWallNormal, ProbeDir); float SteeringForce = m_flightSpeed * (1-frac) * (DotProduct(WallNormal.Normalize(), m_SaveVelocity.Normalize())); if (SteeringForce < 0.0) { SteeringForce = -SteeringForce; } SteeringVector = SteeringForce * SteeringVector.Normalize(); return SteeringVector; } return Vector(0, 0, 0); } #endif