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# include "precompiled.h"
void CBaseMonster : : GibMonster ( )
{
TraceResult tr ;
bool gibbed = false ;
EMIT_SOUND ( ENT ( pev ) , CHAN_WEAPON , " common/bodysplat.wav " , VOL_NORM , ATTN_NORM ) ;
// only humans throw skulls UNDONE - eventually monsters will have their own sets of gibs
if ( HasHumanGibs ( ) )
{
// Only the player will ever get here
if ( CVAR_GET_FLOAT ( " violence_hgibs " ) ! = 0 )
{
CGib : : SpawnHeadGib ( pev ) ;
// throw some human gibs.
CGib : : SpawnRandomGibs ( pev , 4 , 1 ) ;
}
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gibbed = true ;
}
else if ( HasAlienGibs ( ) )
{
// Should never get here, but someone might call it directly
if ( CVAR_GET_FLOAT ( " violence_agibs " ) ! = 0 )
{
// Throw alien gibs
CGib : : SpawnRandomGibs ( pev , 4 , 0 ) ;
}
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gibbed = true ;
}
if ( ! IsPlayer ( ) )
{
if ( gibbed )
{
// don't remove players!
SetThink ( & CBaseMonster : : SUB_Remove ) ;
pev - > nextthink = gpGlobals - > time ;
}
else
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{
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FadeMonster ( ) ;
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}
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}
}
BOOL CBaseMonster : : HasHumanGibs ( )
{
int myClass = Classify ( ) ;
if ( myClass = = CLASS_HUMAN_MILITARY
| | myClass = = CLASS_PLAYER_ALLY
| | myClass = = CLASS_HUMAN_PASSIVE
| | myClass = = CLASS_PLAYER )
return TRUE ;
return FALSE ;
}
BOOL CBaseMonster : : HasAlienGibs ( )
{
int myClass = Classify ( ) ;
if ( myClass = = CLASS_ALIEN_MILITARY
| | myClass = = CLASS_ALIEN_MONSTER
| | myClass = = CLASS_ALIEN_PASSIVE
| | myClass = = CLASS_INSECT
| | myClass = = CLASS_ALIEN_PREDATOR
| | myClass = = CLASS_ALIEN_PREY )
return TRUE ;
return FALSE ;
}
void CBaseMonster : : FadeMonster ( )
{
StopAnimation ( ) ;
pev - > velocity = g_vecZero ;
pev - > movetype = MOVETYPE_NONE ;
pev - > avelocity = g_vecZero ;
pev - > animtime = gpGlobals - > time ;
pev - > effects | = EF_NOINTERP ;
SUB_StartFadeOut ( ) ;
}
// Determines the best type of death anim to play.
Activity CBaseMonster : : GetDeathActivity ( )
{
Activity deathActivity ;
BOOL fTriedDirection ;
float flDot ;
TraceResult tr ;
Vector vecSrc ;
if ( pev - > deadflag ! = DEAD_NO )
{
// don't run this while dying.
return m_IdealActivity ;
}
vecSrc = Center ( ) ;
fTriedDirection = FALSE ;
// in case we can't find any special deaths to do.
deathActivity = ACT_DIESIMPLE ;
UTIL_MakeVectors ( pev - > angles ) ;
flDot = DotProduct ( gpGlobals - > v_forward , g_vecAttackDir * - 1 ) ;
switch ( m_LastHitGroup )
{
case HITGROUP_HEAD :
// try to pick a region-specific death.
deathActivity = ACT_DIE_HEADSHOT ;
break ;
case HITGROUP_STOMACH :
deathActivity = ACT_DIE_GUTSHOT ;
break ;
case HITGROUP_GENERIC :
// try to pick a death based on attack direction
fTriedDirection = TRUE ;
if ( flDot > 0.3 )
{
deathActivity = ACT_DIEFORWARD ;
}
else if ( flDot < = - 0.3 )
{
deathActivity = ACT_DIEBACKWARD ;
}
break ;
default :
// try to pick a death based on attack direction
fTriedDirection = TRUE ;
if ( flDot > 0.3 )
{
deathActivity = ACT_DIEFORWARD ;
}
else if ( flDot < = - 0.3 )
{
deathActivity = ACT_DIEBACKWARD ;
}
break ;
}
// can we perform the prescribed death?
if ( LookupActivity ( deathActivity ) = = ACT_INVALID )
{
// no! did we fail to perform a directional death?
if ( fTriedDirection )
{
// if yes, we're out of options. Go simple.
deathActivity = ACT_DIESIMPLE ;
}
else
{
// cannot perform the ideal region-specific death, so try a direction.
if ( flDot > 0.3 )
{
deathActivity = ACT_DIEFORWARD ;
}
else if ( flDot < = - 0.3 )
{
deathActivity = ACT_DIEBACKWARD ;
}
}
}
if ( LookupActivity ( deathActivity ) = = ACT_INVALID )
{
// if we're still invalid, simple is our only option.
deathActivity = ACT_DIESIMPLE ;
}
if ( deathActivity = = ACT_DIEFORWARD )
{
// make sure there's room to fall forward
UTIL_TraceHull ( vecSrc , vecSrc + gpGlobals - > v_forward * 64 , dont_ignore_monsters , head_hull , edict ( ) , & tr ) ;
if ( tr . flFraction ! = 1.0f )
{
deathActivity = ACT_DIESIMPLE ;
}
}
if ( deathActivity = = ACT_DIEBACKWARD )
{
// make sure there's room to fall backward
UTIL_TraceHull ( vecSrc , vecSrc - gpGlobals - > v_forward * 64 , dont_ignore_monsters , head_hull , edict ( ) , & tr ) ;
if ( tr . flFraction ! = 1.0f )
{
deathActivity = ACT_DIESIMPLE ;
}
}
return deathActivity ;
}
// Determines the best type of flinch anim to play.
NOXREF Activity CBaseMonster : : GetSmallFlinchActivity ( )
{
Activity flinchActivity ;
BOOL fTriedDirection ;
float flDot ;
fTriedDirection = FALSE ;
UTIL_MakeVectors ( pev - > angles ) ;
flDot = DotProduct ( gpGlobals - > v_forward , g_vecAttackDir * - 1 ) ; // TODO: noxref
switch ( m_LastHitGroup )
{
case HITGROUP_HEAD :
// pick a region-specific flinch
flinchActivity = ACT_FLINCH_HEAD ;
break ;
case HITGROUP_STOMACH :
flinchActivity = ACT_FLINCH_STOMACH ;
break ;
case HITGROUP_LEFTARM :
flinchActivity = ACT_FLINCH_LEFTARM ;
break ;
case HITGROUP_RIGHTARM :
flinchActivity = ACT_FLINCH_RIGHTARM ;
break ;
case HITGROUP_LEFTLEG :
flinchActivity = ACT_FLINCH_LEFTLEG ;
break ;
case HITGROUP_RIGHTLEG :
flinchActivity = ACT_FLINCH_RIGHTLEG ;
break ;
case HITGROUP_GENERIC :
default :
// just get a generic flinch.
flinchActivity = ACT_SMALL_FLINCH ;
break ;
}
// do we have a sequence for the ideal activity?
if ( LookupActivity ( flinchActivity ) = = ACT_INVALID )
{
flinchActivity = ACT_SMALL_FLINCH ;
}
return flinchActivity ;
}
void CBaseMonster : : BecomeDead ( )
{
// don't let autoaim aim at corpses.
pev - > takedamage = DAMAGE_YES ;
// give the corpse half of the monster's original maximum health.
pev - > health = pev - > max_health / 2 ;
// max_health now becomes a counter for how many blood decals the corpse can place.
pev - > max_health = 5 ;
// make the corpse fly away from the attack vector
pev - > movetype = MOVETYPE_TOSS ;
}
BOOL CBaseMonster : : ShouldGibMonster ( int iGib )
{
if ( ( iGib = = GIB_NORMAL & & pev - > health < GIB_HEALTH_VALUE ) | | ( iGib = = GIB_ALWAYS ) )
{
return TRUE ;
}
return FALSE ;
}
void CBaseMonster : : CallGibMonster ( )
{
BOOL fade = FALSE ;
if ( HasHumanGibs ( ) )
{
if ( CVAR_GET_FLOAT ( " violence_hgibs " ) = = 0 )
fade = TRUE ;
}
else if ( HasAlienGibs ( ) )
{
if ( CVAR_GET_FLOAT ( " violence_agibs " ) = = 0 )
fade = TRUE ;
}
// do something with the body. while monster blows up
pev - > solid = SOLID_NOT ;
pev - > takedamage = DAMAGE_NO ;
if ( fade )
{
FadeMonster ( ) ;
}
else
{
// make the model invisible.
pev - > effects = EF_NODRAW ;
GibMonster ( ) ;
}
pev - > deadflag = DEAD_DEAD ;
FCheckAITrigger ( ) ;
// don't let the status bar glitch for players.with <0 health.
if ( pev - > health < - 99.0f )
{
pev - > health = 0 ;
}
if ( ShouldFadeOnDeath ( ) & & ! fade )
UTIL_Remove ( this ) ;
}
void CBaseMonster : : Killed ( entvars_t * pevAttacker , int iGib )
{
if ( HasMemory ( bits_MEMORY_KILLED ) )
{
if ( ShouldGibMonster ( iGib ) )
{
CallGibMonster ( ) ;
}
return ;
}
Remember ( bits_MEMORY_KILLED ) ;
// clear the deceased's sound channels.(may have been firing or reloading when killed)
EMIT_SOUND ( ENT ( pev ) , CHAN_WEAPON , " common/null.wav " , VOL_NORM , ATTN_NORM ) ;
m_IdealMonsterState = MONSTERSTATE_DEAD ;
// Make sure this condition is fired too (TakeDamage breaks out before this happens on death)
SetConditions ( bits_COND_LIGHT_DAMAGE ) ;
// tell owner ( if any ) that we're dead.This is mostly for MonsterMaker functionality.
CBaseEntity * pOwner = CBaseEntity : : Instance ( pev - > owner ) ;
if ( pOwner )
{
pOwner - > DeathNotice ( pev ) ;
}
if ( ShouldGibMonster ( iGib ) )
{
CallGibMonster ( ) ;
return ;
}
else if ( pev - > flags & FL_MONSTER )
{
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SetTouch ( nullptr ) ;
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BecomeDead ( ) ;
}
// don't let the status bar glitch for players.with <0 health.
if ( pev - > health < - 99 )
{
pev - > health = 0 ;
}
//pev->enemy = ENT(pevAttacker); // why? (sjb)
m_IdealMonsterState = MONSTERSTATE_DEAD ;
}
BOOL CBaseMonster : : TakeHealth ( float flHealth , int bitsDamageType )
{
if ( pev - > takedamage = = DAMAGE_NO )
return FALSE ;
// clear out any damage types we healed.
// UNDONE: generic health should not heal any
// UNDONE: time-based damage
m_bitsDamageType & = ~ ( bitsDamageType & ~ DMG_TIMEBASED ) ;
return CBaseEntity : : TakeHealth ( flHealth , bitsDamageType ) ;
}
// The damage is coming from inflictor, but get mad at attacker
// This should be the only function that ever reduces health.
// bitsDamageType indicates the type of damage sustained, ie: DMG_SHOCK
//
// Time-based damage: only occurs while the monster is within the trigger_hurt.
// When a monster is poisoned via an arrow etc it takes all the poison damage at once.
BOOL CBaseMonster : : TakeDamage ( entvars_t * pevInflictor , entvars_t * pevAttacker , float flDamage , int bitsDamageType )
{
if ( pev - > takedamage = = DAMAGE_NO )
return FALSE ;
if ( ! IsAlive ( ) )
{
return DeadTakeDamage ( pevInflictor , pevAttacker , flDamage , bitsDamageType ) ;
}
if ( pev - > deadflag = = DEAD_NO )
{
// no pain sound during death animation.
PainSound ( ) ;
}
// LATER: make armor consideration here!
float flTake = flDamage ;
// set damage type sustained
m_bitsDamageType | = bitsDamageType ;
// grab the vector of the incoming attack. ( pretend that the inflictor is a little lower than it really is, so the body will tend to fly upward a bit).
Vector vecDir ( 0 , 0 , 0 ) ;
if ( ! FNullEnt ( pevInflictor ) )
{
CBaseEntity * pInflictor = CBaseEntity : : Instance ( pevInflictor ) ;
if ( pInflictor )
{
# ifndef PLAY_GAMEDLL
vecDir = ( pInflictor - > Center ( ) - Vector ( 0 , 0 , 10 ) - Center ( ) ) . Normalize ( ) ;
# else
// TODO: fix test demo
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vecDir = NormalizeSubtract < real_t , float , real_t , real_t > ( Center ( ) , pInflictor - > Center ( ) - Vector ( 0 , 0 , 10 ) ) ;
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# endif
vecDir = g_vecAttackDir = vecDir . Normalize ( ) ;
}
}
// add to the damage total for clients, which will be sent as a single
// message at the end of the frame
// TODO: remove after combining shotgun blasts?
if ( IsPlayer ( ) )
{
if ( pevInflictor )
{
pev - > dmg_inflictor = ENT ( pevInflictor ) ;
}
pev - > dmg_take + = flTake ;
}
pev - > health - = flTake ;
if ( m_MonsterState = = MONSTERSTATE_SCRIPT )
{
SetConditions ( bits_COND_LIGHT_DAMAGE ) ;
return FALSE ;
}
if ( pev - > health < = 0.0f )
{
if ( bitsDamageType & DMG_ALWAYSGIB )
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KilledInflicted ( pevInflictor , pevAttacker , GIB_ALWAYS ) ;
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else if ( bitsDamageType & DMG_NEVERGIB )
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KilledInflicted ( pevInflictor , pevAttacker , GIB_NEVER ) ;
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else
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KilledInflicted ( pevInflictor , pevAttacker , GIB_NORMAL ) ;
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return FALSE ;
}
if ( ( pev - > flags & FL_MONSTER ) & & ! FNullEnt ( pevAttacker ) )
{
if ( pevAttacker - > flags & ( FL_MONSTER | FL_CLIENT ) )
{
if ( pevInflictor )
{
if ( ! m_hEnemy | | pevInflictor = = m_hEnemy - > pev | | ! HasConditions ( bits_COND_SEE_ENEMY ) )
m_vecEnemyLKP = pevInflictor - > origin ;
}
else
{
m_vecEnemyLKP = pev - > origin + ( g_vecAttackDir * 64 ) ;
}
MakeIdealYaw ( m_vecEnemyLKP ) ;
if ( flDamage > 20.0f )
{
SetConditions ( bits_COND_LIGHT_DAMAGE ) ;
}
if ( flDamage > = 20.0f )
{
SetConditions ( bits_COND_HEAVY_DAMAGE ) ;
}
}
}
return TRUE ;
}
// Takedamage function called when a monster's corpse is damaged.
BOOL CBaseMonster : : DeadTakeDamage ( entvars_t * pevInflictor , entvars_t * pevAttacker , float flDamage , int bitsDamageType )
{
// grab the vector of the incoming attack. ( pretend that the inflictor is a little lower than it really is, so the body will tend to fly upward a bit).
Vector vecDir ( 0 , 0 , 0 ) ;
if ( ! FNullEnt ( pevInflictor ) )
{
CBaseEntity * pInflictor = CBaseEntity : : Instance ( pevInflictor ) ;
if ( pInflictor )
{
vecDir = ( pInflictor - > Center ( ) - Vector ( 0 , 0 , 10 ) - Center ( ) ) . Normalize ( ) ;
vecDir = g_vecAttackDir = vecDir . Normalize ( ) ;
}
}
// turn this back on when the bounding box issues are resolved.
#if 0
pev - > flags & = ~ FL_ONGROUND ;
pev - > origin . z + = 1 ;
// let the damage scoot the corpse around a bit.
if ( ! FNullEnt ( pevInflictor ) & & ( pevAttacker - > solid ! = SOLID_TRIGGER ) )
{
pev - > velocity = pev - > velocity + vecDir * - DamageForce ( flDamage ) ;
}
# endif
// kill the corpse if enough damage was done to destroy the corpse and the damage is of a type that is allowed to destroy the corpse.
if ( bitsDamageType & DMG_GIB_CORPSE )
{
if ( pev - > health < = flDamage )
{
pev - > health = - 50 ;
Killed ( pevAttacker , GIB_ALWAYS ) ;
return FALSE ;
}
// Accumulate corpse gibbing damage, so you can gib with multiple hits
pev - > health - = flDamage * 0.1 ;
}
return TRUE ;
}
float CBaseMonster : : DamageForce ( float damage )
{
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real_t force = damage * ( ( 32 * 32 * 72.0 ) / ( pev - > size . x * pev - > size . y * pev - > size . z ) ) * 5 ;
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if ( force > 1000.0 )
{
force = 1000.0 ;
}
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return force ;
}
void CBaseMonster : : RadiusDamage ( entvars_t * pevInflictor , entvars_t * pevAttacker , float flDamage , int iClassIgnore , int bitsDamageType )
{
if ( flDamage > 80 )
: : RadiusDamage ( pev - > origin , pevInflictor , pevAttacker , flDamage , flDamage * 3.5 , iClassIgnore , bitsDamageType ) ;
else
: : RadiusDamage2 ( pev - > origin , pevInflictor , pevAttacker , flDamage , flDamage * ( RANDOM_FLOAT ( 0.5 , 1.5 ) + 3 ) , iClassIgnore , bitsDamageType ) ;
}
NOXREF void CBaseMonster : : RadiusDamage ( Vector vecSrc , entvars_t * pevInflictor , entvars_t * pevAttacker , float flDamage , int iClassIgnore , int bitsDamageType )
{
if ( flDamage > 80 )
: : RadiusDamage ( vecSrc , pevInflictor , pevAttacker , flDamage , flDamage * 3.5 , iClassIgnore , bitsDamageType ) ;
else
: : RadiusDamage2 ( vecSrc , pevInflictor , pevAttacker , flDamage , flDamage * ( RANDOM_FLOAT ( 0.5 , 1.5 ) + 3 ) , iClassIgnore , bitsDamageType ) ;
}
// Expects a length to trace, amount of damage to do, and damage type.
// Returns a pointer to the damaged entity in case the monster wishes to do
// other stuff to the victim (punchangle, etc)
//
// Used for many contact-range melee attacks. Bites, claws, etc.
NOXREF CBaseEntity * CBaseMonster : : CheckTraceHullAttack ( float flDist , int iDamage , int iDmgType )
{
TraceResult tr ;
if ( IsPlayer ( ) )
UTIL_MakeVectors ( pev - > angles ) ;
else
UTIL_MakeAimVectors ( pev - > angles ) ;
Vector vecStart = pev - > origin ;
vecStart . z + = pev - > size . z * 0.5 ;
Vector vecEnd = vecStart + ( gpGlobals - > v_forward * flDist ) ;
UTIL_TraceHull ( vecStart , vecEnd , dont_ignore_monsters , head_hull , ENT ( pev ) , & tr ) ;
if ( tr . pHit )
{
CBaseEntity * pEntity = CBaseEntity : : Instance ( tr . pHit ) ;
if ( iDamage > 0 )
{
pEntity - > TakeDamage ( pev , pev , iDamage , iDmgType ) ;
}
return pEntity ;
}
return nullptr ;
}
// Returns true is the passed ent is in the caller's forward view cone.
// The dot product is performed in 2d, making the view cone infinitely tall.
BOOL CBaseMonster : : FInViewCone ( CBaseEntity * pEntity )
{
Vector2D vec2LOS ;
float flDot ;
UTIL_MakeVectors ( pev - > angles ) ;
vec2LOS = ( pEntity - > pev - > origin - pev - > origin ) . Make2D ( ) ;
vec2LOS = vec2LOS . Normalize ( ) ;
flDot = DotProduct ( vec2LOS , gpGlobals - > v_forward . Make2D ( ) ) ;
if ( flDot > m_flFieldOfView )
{
return TRUE ;
}
else
{
return FALSE ;
}
}
// Returns true is the passed vector is in the caller's forward view cone.
// The dot product is performed in 2d, making the view cone infinitely tall.
BOOL CBaseMonster : : FInViewCone ( const Vector * pOrigin )
{
Vector2D vec2LOS ;
float flDot ;
UTIL_MakeVectors ( pev - > angles ) ;
vec2LOS = ( * pOrigin - pev - > origin ) . Make2D ( ) ;
vec2LOS = vec2LOS . Normalize ( ) ;
flDot = DotProduct ( vec2LOS , gpGlobals - > v_forward . Make2D ( ) ) ;
if ( flDot > m_flFieldOfView )
{
return TRUE ;
}
else
{
return FALSE ;
}
}
void CBaseMonster : : TraceAttack ( entvars_t * pevAttacker , float flDamage , Vector vecDir , TraceResult * ptr , int bitsDamageType )
{
Vector vecOrigin = ptr - > vecEndPos - vecDir * 4 ;
if ( pev - > takedamage ! = DAMAGE_NO )
{
m_LastHitGroup = ptr - > iHitgroup ;
switch ( ptr - > iHitgroup )
{
case HITGROUP_GENERIC :
break ;
case HITGROUP_HEAD :
flDamage * = 3 ;
break ;
case HITGROUP_CHEST :
case HITGROUP_STOMACH :
flDamage * = 1.5 ;
break ;
case HITGROUP_LEFTARM :
case HITGROUP_RIGHTARM :
flDamage * = 1.0 ;
break ;
case HITGROUP_LEFTLEG :
case HITGROUP_RIGHTLEG :
flDamage * = 0.75 ;
break ;
case HITGROUP_SHIELD :
flDamage = 0 ;
break ;
default :
break ;
}
AddMultiDamage ( pevAttacker , this , flDamage , bitsDamageType ) ;
int blood = BloodColor ( ) ;
if ( blood ! = DONT_BLEED )
{
// a little surface blood.
SpawnBlood ( vecOrigin , blood , flDamage ) ;
}
}
}
float CBaseMonster : : ChangeYaw ( int speed )
{
return 0.0f ;
}
void CBaseMonster : : MakeIdealYaw ( Vector vecTarget )
{
;
}
NOXREF void CBaseMonster : : CorpseFallThink ( )
{
if ( pev - > flags & FL_ONGROUND )
{
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SetThink ( nullptr ) ;
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SetSequenceBox ( ) ;
// link into world.
UTIL_SetOrigin ( pev , pev - > origin ) ;
}
else
{
pev - > nextthink = gpGlobals - > time + 0.1f ;
}
}
void CBaseMonster : : MonsterInitDead ( )
{
InitBoneControllers ( ) ;
pev - > solid = SOLID_BBOX ;
pev - > movetype = MOVETYPE_TOSS ;
pev - > frame = 0 ;
ResetSequenceInfo ( ) ;
pev - > framerate = 0 ;
pev - > max_health = pev - > health ;
pev - > deadflag = DEAD_DEAD ;
UTIL_SetSize ( pev , g_vecZero , g_vecZero ) ;
UTIL_SetOrigin ( pev , pev - > origin ) ;
BecomeDead ( ) ;
SetThink ( & CBaseEntity : : SUB_Remove ) ;
pev - > nextthink = gpGlobals - > time + 0.5f ;
}
BOOL CBaseMonster : : ShouldFadeOnDeath ( )
{
#if 0
// if flagged to fade out or I have an owner (I came from a monster spawner)
if ( ( pev - > spawnflags & SF_MONSTER_FADECORPSE ) | | ! FNullEnt ( pev - > owner ) )
return TRUE ;
# endif
return FALSE ;
}
BOOL CBaseMonster : : FCheckAITrigger ( )
{
return FALSE ;
}
void CBaseMonster : : KeyValue ( KeyValueData * pkvd )
{
CBaseToggle : : KeyValue ( pkvd ) ;
}
int CBaseMonster : : IRelationship ( CBaseEntity * pTarget )
{
static int const iEnemy [ 14 ] [ 14 ] =
{
// NONE MACH PLYR HPASS HMIL AMIL APASS AMONST APREY APRED INSECT PLRALY PBWPN ABWPN
{ R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO } , // NONE
{ R_NO , R_NO , R_DL , R_DL , R_NO , R_DL , R_DL , R_DL , R_DL , R_DL , R_NO , R_DL , R_DL , R_DL } , // MACHINE
{ R_NO , R_DL , R_NO , R_NO , R_DL , R_DL , R_DL , R_DL , R_DL , R_DL , R_NO , R_NO , R_DL , R_DL } , // PLAYER
{ R_NO , R_NO , R_AL , R_AL , R_HT , R_FR , R_NO , R_HT , R_DL , R_FR , R_NO , R_AL , R_NO , R_NO } , // HUMANPASSIVE
{ R_NO , R_NO , R_HT , R_DL , R_NO , R_HT , R_DL , R_DL , R_DL , R_DL , R_NO , R_HT , R_NO , R_NO } , // HUMANMILITAR
{ R_NO , R_DL , R_HT , R_DL , R_HT , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_DL , R_NO , R_NO } , // ALIENMILITAR
{ R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO } , // ALIENPASSIVE
{ R_NO , R_DL , R_DL , R_DL , R_DL , R_NO , R_NO , R_NO , R_NO , R_NO , R_NO , R_DL , R_NO , R_NO } , // ALIENMONSTER
{ R_NO , R_NO , R_DL , R_DL , R_DL , R_NO , R_NO , R_NO , R_NO , R_FR , R_NO , R_DL , R_NO , R_NO } , // ALIENPREY
{ R_NO , R_NO , R_DL , R_DL , R_DL , R_NO , R_NO , R_NO , R_HT , R_DL , R_NO , R_DL , R_NO , R_NO } , // ALIENPREDATO
{ R_FR , R_FR , R_FR , R_FR , R_FR , R_NO , R_FR , R_FR , R_FR , R_FR , R_NO , R_FR , R_NO , R_NO } , // INSECT
{ R_NO , R_DL , R_AL , R_AL , R_DL , R_DL , R_DL , R_DL , R_DL , R_DL , R_NO , R_NO , R_NO , R_NO } , // PLAYERALLY
{ R_NO , R_NO , R_DL , R_DL , R_DL , R_DL , R_DL , R_DL , R_DL , R_DL , R_NO , R_DL , R_NO , R_DL } , // PBIOWEAPON
{ R_NO , R_NO , R_DL , R_DL , R_DL , R_AL , R_NO , R_DL , R_DL , R_NO , R_NO , R_DL , R_DL , R_NO } , // ABIOWEAPON
} ;
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return iEnemy [ Classify ( ) ] [ pTarget - > Classify ( ) ] ;
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}
// Base class monster function to find enemies or food by sight.
// iDistance is distance (in units) that the monster can see.
//
// Sets the sight bits of the m_afConditions mask to indicate
// which types of entities were sighted.
// Function also sets the Looker's m_pLink
// to the head of a link list that contains all visible ents.
// (linked via each ent's m_pLink field)
void CBaseMonster : : Look ( int iDistance )
{
int iSighted = 0 ;
// DON'T let visibility information from last frame sit around!
ClearConditions ( bits_COND_SEE_HATE | bits_COND_SEE_DISLIKE | bits_COND_SEE_ENEMY | bits_COND_SEE_FEAR | bits_COND_SEE_NEMESIS | bits_COND_SEE_CLIENT ) ;
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m_pLink = nullptr ;
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// the current visible entity that we're dealing with
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CBaseEntity * pSightEnt = nullptr ;
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CBaseEntity * pList [ 100 ] ;
Vector delta ( iDistance , iDistance , iDistance ) ;
// Find only monsters/clients in box, NOT limited to PVS
int count = UTIL_EntitiesInBox ( pList , ARRAYSIZE ( pList ) , pev - > origin - delta , pev - > origin + delta , ( FL_CLIENT | FL_MONSTER ) ) ;
for ( int i = 0 ; i < count ; i + + )
{
pSightEnt = pList [ i ] ;
if ( pSightEnt ! = this & & pSightEnt - > pev - > health > 0 )
{
// the looker will want to consider this entity
// don't check anything else about an entity that can't be seen, or an entity that you don't care about.
if ( IRelationship ( pSightEnt ) ! = R_NO & & FInViewCone ( pSightEnt ) & & ! ( pSightEnt - > pev - > flags & FL_NOTARGET ) & & FVisible ( pSightEnt ) )
{
if ( pSightEnt - > IsPlayer ( ) )
{
// if we see a client, remember that (mostly for scripted AI)
iSighted | = bits_COND_SEE_CLIENT ;
}
pSightEnt - > m_pLink = m_pLink ;
m_pLink = pSightEnt ;
if ( pSightEnt = = m_hEnemy )
{
// we know this ent is visible, so if it also happens to be our enemy, store that now.
iSighted | = bits_COND_SEE_ENEMY ;
}
// don't add the Enemy's relationship to the conditions. We only want to worry about conditions when
// we see monsters other than the Enemy.
switch ( IRelationship ( pSightEnt ) )
{
case R_NM :
iSighted | = bits_COND_SEE_NEMESIS ;
break ;
case R_HT :
iSighted | = bits_COND_SEE_HATE ;
break ;
case R_DL :
iSighted | = bits_COND_SEE_DISLIKE ;
break ;
case R_FR :
iSighted | = bits_COND_SEE_FEAR ;
break ;
case R_AL :
break ;
default :
ALERT ( at_aiconsole , " %s can't assess %s \n " , STRING ( pev - > classname ) , STRING ( pSightEnt - > pev - > classname ) ) ;
break ;
}
}
}
}
SetConditions ( iSighted ) ;
}
// This functions searches the link list whose head is the caller's m_pLink field,
// and returns a pointer to the enemy entity in that list that is nearest the caller.
//
// UNDONE: currently, this only returns the closest enemy.
// we'll want to consider distance, relationship, attack types, back turned, etc.
CBaseEntity * CBaseMonster : : BestVisibleEnemy ( )
{
CBaseEntity * pReturn ;
CBaseEntity * pNextEnt ;
int iNearest ;
int iDist ;
int iBestRelationship ;
// so first visible entity will become the closest.
iNearest = 8192 ;
pNextEnt = m_pLink ;
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pReturn = nullptr ;
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iBestRelationship = R_NO ;
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while ( pNextEnt )
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{
if ( pNextEnt - > IsAlive ( ) )
{
if ( IRelationship ( pNextEnt ) > iBestRelationship )
{
// this entity is disliked MORE than the entity that we
// currently think is the best visible enemy. No need to do
// a distance check, just get mad at this one for now.
iBestRelationship = IRelationship ( pNextEnt ) ;
iNearest = ( pNextEnt - > pev - > origin - pev - > origin ) . Length ( ) ;
pReturn = pNextEnt ;
}
else if ( IRelationship ( pNextEnt ) = = iBestRelationship )
{
// this entity is disliked just as much as the entity that
// we currently think is the best visible enemy, so we only
// get mad at it if it is closer.
iDist = ( pNextEnt - > pev - > origin - pev - > origin ) . Length ( ) ;
if ( iDist < = iNearest )
{
iNearest = iDist ;
iBestRelationship = IRelationship ( pNextEnt ) ;
pReturn = pNextEnt ;
}
}
}
pNextEnt = pNextEnt - > m_pLink ;
}
return pReturn ;
}
NOXREF void CBaseMonster : : MakeDamageBloodDecal ( int cCount , float flNoise , TraceResult * ptr , Vector & vecDir )
{
// make blood decal on the wall!
TraceResult Bloodtr ;
Vector vecTraceDir ;
int i ;
if ( ! IsAlive ( ) )
{
// dealing with a dead monster.
if ( pev - > max_health < = 0 )
{
// no blood decal for a monster that has already decalled its limit.
return ;
}
else
{
pev - > max_health - - ;
}
}
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for ( i = 0 ; i < cCount ; i + + )
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{
vecTraceDir = vecDir ;
vecTraceDir . x + = RANDOM_FLOAT ( - flNoise , flNoise ) ;
vecTraceDir . y + = RANDOM_FLOAT ( - flNoise , flNoise ) ;
vecTraceDir . z + = RANDOM_FLOAT ( - flNoise , flNoise ) ;
UTIL_TraceLine ( ptr - > vecEndPos , ptr - > vecEndPos + vecTraceDir * 172 , ignore_monsters , ENT ( pev ) , & Bloodtr ) ;
if ( Bloodtr . flFraction ! = 1.0f )
{
UTIL_BloodDecalTrace ( & Bloodtr , BloodColor ( ) ) ;
}
}
}
void CBaseMonster : : BloodSplat ( const Vector & vecSrc , const Vector & vecDir , int HitLocation , int iVelocity )
{
if ( HitLocation ! = HITGROUP_HEAD )
return ;
# ifdef REGAMEDLL_FIXES
UTIL_BloodStream ( vecSrc , vecDir , BLOOD_COLOR_DARKRED , iVelocity + RANDOM_LONG ( 0 , 100 ) ) ;
# else
MESSAGE_BEGIN ( MSG_PVS , SVC_TEMPENTITY , vecSrc ) ;
WRITE_BYTE ( TE_BLOODSTREAM ) ;
WRITE_COORD ( vecSrc . x ) ;
WRITE_COORD ( vecSrc . y ) ;
WRITE_COORD ( vecSrc . z ) ;
WRITE_COORD ( vecDir . x ) ;
WRITE_COORD ( vecDir . y ) ;
WRITE_COORD ( vecDir . z ) ;
WRITE_BYTE ( BLOOD_COLOR_DARKRED ) ;
WRITE_BYTE ( iVelocity + RANDOM_LONG ( 0 , 100 ) ) ;
MESSAGE_END ( ) ;
# endif
}