void FoundryHelpers_DrawEntityHighlightEffect( C_BaseEntity *pEnt )
{
CCollisionProperty *pCollision = pEnt->CollisionProp();
// Transform the OBB corners into world space.
const Vector &vMins = pCollision->OBBMins();
const Vector &vMaxs = pCollision->OBBMaxs();
Vector vPoints[8] =
{
Vector( vMins.x, vMins.y, vMins.z ),
Vector( vMaxs.x, vMins.y, vMins.z ),
Vector( vMaxs.x, vMaxs.y, vMins.z ),
Vector( vMins.x, vMaxs.y, vMins.z ),
Vector( vMins.x, vMins.y, vMaxs.z ),
Vector( vMaxs.x, vMins.y, vMaxs.z ),
Vector( vMaxs.x, vMaxs.y, vMaxs.z ),
Vector( vMins.x, vMaxs.y, vMaxs.z )
};
for ( int i=0; i < 8; i++ )
{
Vector vTmp;
vPoints[i] = pCollision->CollisionToWorldSpace( vPoints[i], &vTmp );
}
// Draw lines connecting them up...
for ( int i=0; i < 4; i++ )
{
AddCoolLine( vPoints[i], vPoints[(i+1)%4], 0, false );
AddCoolLine( vPoints[i+4], vPoints[(i+1)%4 + 4], 4, true );
AddCoolLine( vPoints[i], vPoints[i+4], i*2+4, (i%1) == 0 );
}
}
static bool IsSmall( CBaseEntity *pBlocker )
{
CCollisionProperty *pCollisionProp = pBlocker->CollisionProp();
int nSmaller = 0;
Vector vecSize = pCollisionProp->OBBMaxs() - pCollisionProp->OBBMins();
for ( int i = 0; i < 3; i++ )
{
if ( vecSize[i] >= 42 )
return false;
if ( vecSize[i] <= 30 )
{
nSmaller++;
}
}
return ( nSmaller >= 2 );
}
//-----------------------------------------------------------------------------
// Purpose: Breaks the breakable. m_hBreaker is the entity that caused us to break.
//-----------------------------------------------------------------------------
void CBreakable::Die( void )
{
Vector vecVelocity;// shard velocity
char cFlag = 0;
int pitch;
float fvol;
pitch = 95 + random->RandomInt(0,29);
if (pitch > 97 && pitch < 103)
{
pitch = 100;
}
// The more negative m_iHealth, the louder
// the sound should be.
fvol = random->RandomFloat(0.85, 1.0) + (abs(m_iHealth) / 100.0);
if (fvol > 1.0)
{
fvol = 1.0;
}
const char *soundname = NULL;
switch (m_Material)
{
default:
break;
case matGlass:
soundname = "Breakable.Glass";
cFlag = BREAK_GLASS;
break;
case matWood:
soundname = "Breakable.Crate";
cFlag = BREAK_WOOD;
break;
case matComputer:
soundname = "Breakable.Computer";
cFlag = BREAK_METAL;
break;
case matMetal:
soundname = "Breakable.Metal";
cFlag = BREAK_METAL;
break;
case matFlesh:
case matWeb:
soundname = "Breakable.Flesh";
cFlag = BREAK_FLESH;
break;
case matRocks:
case matCinderBlock:
soundname = "Breakable.Concrete";
cFlag = BREAK_CONCRETE;
break;
case matCeilingTile:
soundname = "Breakable.Ceiling";
break;
}
if ( soundname )
{
if ( m_hBreaker && m_hBreaker->IsPlayer() )
{
IGameEvent * event = gameeventmanager->CreateEvent( "break_breakable" );
if ( event )
{
event->SetInt( "userid", ToBasePlayer( m_hBreaker )->GetUserID() );
event->SetInt( "entindex", entindex() );
event->SetInt( "material", cFlag );
gameeventmanager->FireEvent( event );
}
}
CSoundParameters params;
if ( GetParametersForSound( soundname, params, NULL ) )
{
CPASAttenuationFilter filter( this );
EmitSound_t ep;
ep.m_nChannel = params.channel;
ep.m_pSoundName = params.soundname;
ep.m_flVolume = fvol;
ep.m_SoundLevel = params.soundlevel;
ep.m_nPitch = pitch;
EmitSound( filter, entindex(), ep );
}
}
switch( m_Explosion )
{
case expDirected:
vecVelocity = g_vecAttackDir * -200;
break;
case expUsePrecise:
{
AngleVectors( m_GibDir, &vecVelocity, NULL, NULL );
vecVelocity *= 200;
}
break;
case expRandom:
vecVelocity.x = 0;
vecVelocity.y = 0;
vecVelocity.z = 0;
break;
default:
DevMsg("**ERROR - Unspecified gib dir method in func_breakable!\n");
break;
}
Vector vecSpot = WorldSpaceCenter();
CPVSFilter filter2( vecSpot );
int iModelIndex = 0;
CCollisionProperty *pCollisionProp = CollisionProp();
Vector vSize = pCollisionProp->OBBSize();
int iCount = ( vSize[0] * vSize[1] + vSize[1] * vSize[2] + vSize[2] * vSize[0] ) / ( 3 * 12 * 12 );
if ( iCount > func_break_max_pieces.GetInt() )
{
iCount = func_break_max_pieces.GetInt();
}
ConVarRef breakable_disable_gib_limit( "breakable_disable_gib_limit" );
if ( !breakable_disable_gib_limit.GetBool() && iCount )
{
if ( m_PerformanceMode == PM_NO_GIBS )
{
iCount = 0;
}
else if ( m_PerformanceMode == PM_REDUCED_GIBS )
{
int iNewCount = iCount * func_break_reduction_factor.GetFloat();
iCount = MAX( iNewCount, 1 );
}
}
if ( m_iszModelName != NULL_STRING )
{
for ( int i = 0; i < iCount; i++ )
{
#ifdef HL1_DLL
// Use the passed model instead of the propdata type
const char *modelName = STRING( m_iszModelName );
// if the map specifies a model by name
if( strstr( modelName, ".mdl" ) != NULL )
{
iModelIndex = modelinfo->GetModelIndex( modelName );
}
else // do the hl2 / normal way
#endif
iModelIndex = modelinfo->GetModelIndex( g_PropDataSystem.GetRandomChunkModel( STRING( m_iszModelName ) ) );
// All objects except the first one in this run are marked as slaves...
int slaveFlag = 0;
if ( i != 0 )
{
slaveFlag = BREAK_SLAVE;
}
te->BreakModel( filter2, 0.0,
vecSpot, pCollisionProp->GetCollisionAngles(), vSize,
vecVelocity, iModelIndex, 100, 1, 2.5, cFlag | slaveFlag );
}
}
ResetOnGroundFlags();
// Don't fire something that could fire myself
SetName( NULL_STRING );
AddSolidFlags( FSOLID_NOT_SOLID );
// Fire targets on break
m_OnBreak.FireOutput( m_hBreaker, this );
VPhysicsDestroyObject();
SetThink( &CBreakable::SUB_Remove );
SetNextThink( gpGlobals->curtime + 0.1f );
if ( m_iszSpawnObject != NULL_STRING )
{
CBaseEntity::Create( STRING(m_iszSpawnObject), vecSpot, pCollisionProp->GetCollisionAngles(), this );
}
if ( Explodable() )
{
ExplosionCreate( vecSpot, pCollisionProp->GetCollisionAngles(), this, GetExplosiveDamage(), GetExplosiveRadius(), true );
}
}
static void RecvProxy_OBBMaxs( const CRecvProxyData *pData, void *pStruct, void *pOut )
{
CCollisionProperty *pProp = ((CCollisionProperty*)pStruct);
Vector &vecMaxs = *((Vector*)pData->m_Value.m_Vector);
pProp->SetCollisionBounds( pProp->OBBMins(), vecMaxs );
}
IterationRetval_t CPortalCollideableEnumerator::EnumElement( IHandleEntity *pHandleEntity )
{
EHANDLE hEnt = pHandleEntity->GetRefEHandle();
CBaseEntity *pEnt = hEnt.Get();
if( pEnt == NULL ) //I really never thought this would be necessary
return ITERATION_CONTINUE;
if( hEnt == m_hTestPortal )
return ITERATION_CONTINUE; //ignore this portal
/*if( staticpropmgr->IsStaticProp( pHandleEntity ) )
{
//we're dealing with a static prop, which unfortunately doesn't have everything I want to use for checking
ICollideable *pCollideable = pEnt->GetCollideable();
Vector vMins, vMaxs;
pCollideable->WorldSpaceSurroundingBounds( &vMins, &vMaxs );
Vector ptTest( (m_vPlaneNormal.x > 0.0f)?(vMaxs.x):(vMins.x),
(m_vPlaneNormal.y > 0.0f)?(vMaxs.y):(vMins.y),
(m_vPlaneNormal.z > 0.0f)?(vMaxs.z):(vMins.z) );
float fPtPlaneDist = m_vPlaneNormal.Dot( ptTest ) - m_fPlaneDist;
if( fPtPlaneDist <= 0.0f )
return ITERATION_CONTINUE;
}
else*/
{
//not a static prop, w00t
CCollisionProperty *pEntityCollision = pEnt->CollisionProp();
if( !pEntityCollision->IsSolid() )
return ITERATION_CONTINUE; //not solid
Vector ptEntCenter = pEntityCollision->WorldSpaceCenter();
float fBoundRadius = pEntityCollision->BoundingRadius();
float fPtPlaneDist = m_vPlaneNormal.Dot( ptEntCenter ) - m_fPlaneDist;
if( fPtPlaneDist < -fBoundRadius )
return ITERATION_CONTINUE; //object wholly behind the portal
if( !(fPtPlaneDist > fBoundRadius) && (fPtPlaneDist > -fBoundRadius) ) //object is not wholly in front of the portal, but could be partially in front, do more checks
{
Vector ptNearest;
pEntityCollision->CalcNearestPoint( m_ptForward1000, &ptNearest );
fPtPlaneDist = m_vPlaneNormal.Dot( ptNearest ) - m_fPlaneDist;
if( fPtPlaneDist < 0.0f )
return ITERATION_CONTINUE; //closest point was behind the portal plane, we don't want it
}
}
//if we're down here, this entity needs to be added to our enumeration
Assert( m_iHandleCount < 1024 );
if( m_iHandleCount < 1024 )
m_pHandles[m_iHandleCount] = pHandleEntity;
++m_iHandleCount;
return ITERATION_CONTINUE;
}
