Exemplo n.º 1
0
void CObjectTeleporter::ShowDirectionArrow( bool bShow )
{
	if ( bShow != m_bShowDirectionArrow )
	{
		if ( m_iDirectionBodygroup >= 0 )
		{
			SetBodygroup( m_iDirectionBodygroup, bShow ? 1 : 0 );
		}
			
		m_bShowDirectionArrow = bShow;

		if ( bShow )
		{
			CObjectTeleporter *pMatch = GetMatchingTeleporter();

			Assert( pMatch );

			Vector vecToOwner = pMatch->GetAbsOrigin() - GetAbsOrigin();
			QAngle angleToExit;
			VectorAngles( vecToOwner, Vector(0,0,1), angleToExit );
			angleToExit -= GetAbsAngles();

			// pose param is flipped and backwards, adjust.
			//m_flYawToExit = anglemod( -angleToExit.y + 180.0 );
			m_flYawToExit = AngleNormalize( -angleToExit.y + 180.0 );
			// For whatever reason the original code normalizes angle 0 to 360 while pose param
			// takes angle from -180 to 180. I have no idea how did this work properly
			// in official TF2 all this time. (Nicknine)
		}
	}
}
Exemplo n.º 2
0
bool CObjectTeleporter::CheckUpgradeOnHit( CTFPlayer *pPlayer )
{
	bool bUpgradeSuccesful = false; 

	if ( BaseClass::CheckUpgradeOnHit( pPlayer ) )
	{
		CObjectTeleporter *pMatch = GetMatchingTeleporter(); 

		if ( pMatch )
		{
			//pMatch->m_iUpgradeMetal = m_iUpgradeMetal;
			if ( pMatch && pMatch->CanBeUpgraded( pPlayer ) && GetUpgradeLevel() > pMatch->GetUpgradeLevel() )
			{
				// This end just got upgraded so make another end play upgrade anim if possible.
				pMatch->StartUpgrading();
			}
			// Other end still needs to keep up even while hauled etc.
			CopyUpgradeStateToMatch( pMatch, false );
		}

		bUpgradeSuccesful = true;
	}

	return bUpgradeSuccesful;
}
Exemplo n.º 3
0
void CObjectTeleporter::ShowDirectionArrow( bool bShow )
{
	if ( bShow != m_bShowDirectionArrow )
	{
		if ( m_iDirectionBodygroup >= 0 )
		{
			SetBodygroup( m_iDirectionBodygroup, bShow ? 1 : 0 );
		}
			
		m_bShowDirectionArrow = bShow;

		if ( bShow )
		{
			CObjectTeleporter *pMatch = GetMatchingTeleporter();

			Assert( pMatch );

			Vector vecToOwner = pMatch->GetAbsOrigin() - GetAbsOrigin();
			QAngle angleToExit;
			VectorAngles( vecToOwner, Vector(0,0,1), angleToExit );
			angleToExit -= GetAbsAngles();

			// pose param is flipped and backwards, adjust.
			m_flYawToExit = anglemod( -angleToExit.y + 180 );
		}
	}
}
Exemplo n.º 4
0
//-----------------------------------------------------------------------------
// Receive a teleporting player 
//-----------------------------------------------------------------------------
bool CObjectTeleporter::IsMatchingTeleporterReady( void )
{
	if ( m_hMatchingTeleporter.Get() == NULL )
	{
		m_hMatchingTeleporter = FindMatch();
	}

	CObjectTeleporter *pMatch = GetMatchingTeleporter();

	if ( pMatch &&
		pMatch->GetState() != TELEPORTER_STATE_BUILDING &&
		!pMatch->IsDisabled() &&
		!pMatch->IsUpgrading() &&
		!pMatch->IsRedeploying() )
		return true;

	return false;
}
Exemplo n.º 5
0
void CObjectTeleporter::InitializeMapPlacedObject( void )
{
	BaseClass::InitializeMapPlacedObject();

	CObjectTeleporter *pMatch = dynamic_cast<CObjectTeleporter*> ( gEntList.FindEntityByName( NULL, m_szMatchingTeleporterName ) ) ;
	if ( pMatch )
	{
		// Copy upgrade state from higher level end.
		bool bCopyFrom = pMatch->GetUpgradeLevel() > GetUpgradeLevel();

		if ( pMatch->GetUpgradeLevel() == GetUpgradeLevel() )
		{
			// If same level use it if it has more metal.
			bCopyFrom = pMatch->m_iUpgradeMetal > m_iUpgradeMetal;
		}

		CopyUpgradeStateToMatch( pMatch, bCopyFrom );

		m_hMatchingTeleporter = pMatch;
	}
}
Exemplo n.º 6
0
bool CObjectTeleporter::InputWrenchHit( CTFPlayer *pPlayer, CTFWrench *pWrench, Vector vecHitPos )
{
	if ( HasSapper() && GetMatchingTeleporter() )
	{
		CObjectTeleporter *pMatch = GetMatchingTeleporter();
		// do damage to any attached buildings
		CTakeDamageInfo info( pPlayer, pPlayer, 65, DMG_CLUB, TF_DMG_WRENCH_FIX );

		IHasBuildPoints *pBPInterface = dynamic_cast< IHasBuildPoints * >( pMatch );
		int iNumObjects = pBPInterface->GetNumObjectsOnMe();
		for ( int iPoint=0; iPoint < iNumObjects; iPoint++ )
		{
			CBaseObject *pObject = pMatch->GetBuildPointObject( iPoint );

			if ( pObject && pObject->IsHostileUpgrade() )
				pObject->TakeDamage( info );

		}
	}

	return BaseClass::InputWrenchHit( pPlayer, pWrench, vecHitPos );
}
Exemplo n.º 7
0
CObjectTeleporter* CObjectTeleporter::FindMatch( void )
{
	int iObjMode = GetObjectMode();
	int iOppositeMode = ( iObjMode == TELEPORTER_TYPE_ENTRANCE ) ? TELEPORTER_TYPE_EXIT : TELEPORTER_TYPE_ENTRANCE;

	CObjectTeleporter *pMatch = NULL;

	CTFPlayer *pBuilder = GetBuilder();

	if ( !pBuilder )
	{
		return NULL;
	}

	int i;
	int iNumObjects = pBuilder->GetObjectCount();
	for ( i=0;i<iNumObjects;i++ )
	{
		CBaseObject *pObj = pBuilder->GetObject(i);

		if ( pObj && pObj->GetType() == GetType() && pObj->GetObjectMode() == iOppositeMode && !pObj->IsDisabled() )
		{
			pMatch = ( CObjectTeleporter * )pObj;

			// Copy upgrade state from higher level end.
			bool bCopyFrom = pMatch->GetUpgradeLevel() > GetUpgradeLevel();
			if ( pMatch->GetUpgradeLevel() == GetUpgradeLevel() )
			{
				// If same level use it if it has more metal.
				bCopyFrom = pMatch->m_iUpgradeMetal > m_iUpgradeMetal;
			}
			CopyUpgradeStateToMatch( pMatch, bCopyFrom );
			break;
		}
	}

	return pMatch;
}
Exemplo n.º 8
0
bool CObjectTeleporter::Command_Repair( CTFPlayer *pActivator )
{
	bool bRepaired = false;
	int iAmountToHeal = 0;
	int iRepairCost = 0;

	// There's got to be a better way a shorter way to mirror repairs and such.
	if ( GetHealth() < GetMaxHealth() )
	{
		iAmountToHeal = min( 100, GetMaxHealth() - GetHealth() );

		// repair the building
		iRepairCost = ceil( (float)( iAmountToHeal ) * 0.2f );

		TRACE_OBJECT( UTIL_VarArgs( "%0.2f CObjectDispenser::Command_Repair ( %d / %d ) - cost = %d\n", gpGlobals->curtime, 
			GetHealth(),
			GetMaxHealth(),
			iRepairCost ) );

		if ( iRepairCost > 0 )
		{
			if ( iRepairCost > pActivator->GetBuildResources() )
			{
				iRepairCost = pActivator->GetBuildResources();
			}

			pActivator->RemoveBuildResources( iRepairCost );

			float flNewHealth = min( GetMaxHealth(), GetHealth() + ( iRepairCost * 5 ) );
			SetHealth( flNewHealth );

			bRepaired = (iRepairCost > 0);

			CObjectTeleporter *pMatch = GetMatchingTeleporter();

			if ( pMatch && pMatch->GetState() != TELEPORTER_STATE_BUILDING && !pMatch->IsUpgrading() )
			{
				float flNewHealth = min( pMatch->GetMaxHealth(), pMatch->GetHealth() + ( iRepairCost * 5 ) );
				pMatch->SetHealth( flNewHealth );
			}
		}
	}
	else if ( GetMatchingTeleporter() ) // See if the other teleporter needs repairing
	{
		CObjectTeleporter *pMatch = GetMatchingTeleporter();
		if ( pMatch->GetHealth() < pMatch->GetMaxHealth() && pMatch->GetState() != TELEPORTER_STATE_BUILDING && !pMatch->IsUpgrading() )
		{
			iAmountToHeal = min( 100, pMatch->GetMaxHealth() - pMatch->GetHealth() );

			// repair the building
			iRepairCost = ceil( (float)(iAmountToHeal)* 0.2f );

			TRACE_OBJECT( UTIL_VarArgs( "%0.2f CObjectDispenser::Command_Repair ( %d / %d ) - cost = %d\n", gpGlobals->curtime, 
				pMatch->GetHealth(),
				pMatch->GetMaxHealth(),
				iRepairCost ) );

			if ( iRepairCost > 0 )
			{
				if ( iRepairCost > pActivator->GetBuildResources() )
				{
					iRepairCost = pActivator->GetBuildResources();
				}

				pActivator->RemoveBuildResources( iRepairCost );

				float flNewHealth = min( pMatch->GetMaxHealth(), pMatch->GetHealth() + ( iRepairCost * 5 ) );
				pMatch->SetHealth( flNewHealth );

				bRepaired = (iRepairCost > 0);
			}
		}
	}

	return bRepaired;
}
Exemplo n.º 9
0
//-----------------------------------------------------------------------------
// 
//-----------------------------------------------------------------------------
void CObjectTeleporter::TeleporterThink( void )
{
	SetContextThink( &CObjectTeleporter::TeleporterThink, gpGlobals->curtime + BUILD_TELEPORTER_NEXT_THINK, TELEPORTER_THINK_CONTEXT );

	// At any point, if our match is not ready, revert to IDLE
	if ( IsDisabled() || IsRedeploying() || IsMatchingTeleporterReady() == false )
	{
		ShowDirectionArrow( false );

		if ( GetState() != TELEPORTER_STATE_IDLE && !IsUpgrading() )
		{
			SetState( TELEPORTER_STATE_IDLE );

			CObjectTeleporter *pMatch = GetMatchingTeleporter();
			if ( !pMatch )
			{
				// The other end has been destroyed. Revert back to L1.
				m_iUpgradeLevel = 1;

				// We need to adjust for any damage received if we downgraded
				float flHealthPercentage = GetHealth() / GetMaxHealthForCurrentLevel();
				SetMaxHealth( GetMaxHealthForCurrentLevel() );
				SetHealth( (int)( GetMaxHealthForCurrentLevel() * flHealthPercentage ) );
				m_iUpgradeMetal = 0;
			}
		}
		return;
	}

	if ( m_flMyNextThink && m_flMyNextThink > gpGlobals->curtime )
		return;

	// pMatch is not NULL and is not building
	CObjectTeleporter *pMatch = GetMatchingTeleporter();

	Assert( pMatch );
	Assert( pMatch->m_iState != TELEPORTER_STATE_BUILDING );

	switch ( m_iState )
	{
	// Teleporter is not yet active, do nothing
	case TELEPORTER_STATE_BUILDING:
	case TELEPORTER_STATE_UPGRADING:
		ShowDirectionArrow( false );
		break;

	default:
	case TELEPORTER_STATE_IDLE:
		// Do we have a match that is active?
		// Make sure both ends wait through full recharge time in case they get upgraded while recharging.
		if ( IsMatchingTeleporterReady() && !IsUpgrading() && gpGlobals->curtime > m_flRechargeTime )
		{
			SetState( TELEPORTER_STATE_READY );
			EmitSound( "Building_Teleporter.Ready" );

			if ( GetObjectMode() == TELEPORTER_TYPE_ENTRANCE )
			{
				ShowDirectionArrow( true );
			}
		}
		break;

	case TELEPORTER_STATE_READY:
		break;

	case TELEPORTER_STATE_SENDING:
		{
			pMatch->TeleporterReceive( m_hTeleportingPlayer, 1.0 );

			m_flRechargeTime = gpGlobals->curtime + ( BUILD_TELEPORTER_FADEOUT_TIME + BUILD_TELEPORTER_FADEIN_TIME + g_flTeleporterRechargeTimes[ GetUpgradeLevel() - 1] );
		
			// change state to recharging...
			SetState( TELEPORTER_STATE_RECHARGING );
		}
		break;

	case TELEPORTER_STATE_RECEIVING:
		{
			// get the position we'll move the player to
			Vector newPosition = GetAbsOrigin();
			newPosition.z += TELEPORTER_MAXS.z + 1;

			// Telefrag anyone in the way
			CBaseEntity *pEnts[256];
			Vector mins, maxs;
			Vector expand( 4, 4, 4 );

			mins = newPosition + VEC_HULL_MIN - expand;
			maxs = newPosition + VEC_HULL_MAX + expand;

			CTFPlayer *pTeleportingPlayer = m_hTeleportingPlayer.Get();

			// move the player
			if ( pTeleportingPlayer )
			{
				CUtlVector<CBaseEntity*> hPlayersToKill;
				bool bClear = true;

				// Telefrag any players in the way
				int numEnts = UTIL_EntitiesInBox( pEnts, 256, mins,	maxs, 0 );
				if ( numEnts )
				{
					//Iterate through the list and check the results
					for ( int i = 0; i < numEnts && bClear; i++ )
					{
						if ( pEnts[i] == NULL )
							continue;

						if ( pEnts[i] == this )
							continue;

						// kill players
						if ( pEnts[i]->IsPlayer() )
						{
							if ( !pTeleportingPlayer->InSameTeam(pEnts[i]) )
							{
								hPlayersToKill.AddToTail( pEnts[i] );
							}
							continue;
						}

						if ( pEnts[i]->IsBaseObject() )
							continue;

						// Solid entities will prevent a teleport
						if ( pEnts[i]->IsSolid() && pEnts[i]->ShouldCollide( pTeleportingPlayer->GetCollisionGroup(), MASK_ALL ) &&
							 g_pGameRules->ShouldCollide( pTeleportingPlayer->GetCollisionGroup(), pEnts[i]->GetCollisionGroup() ) )
						{
							// We're going to teleport into something solid. Abort & destroy this exit.
							bClear = false;
						}
					}
				}

				if ( bClear )
				{
					// Telefrag all enemy players we've found
					for ( int player = 0; player < hPlayersToKill.Count(); player++ )
					{
						CTakeDamageInfo info( this, pTeleportingPlayer, 1000, DMG_CRUSH, TF_DMG_TELEFRAG );
						hPlayersToKill[player]->TakeDamage( info );
					}

					pTeleportingPlayer->Teleport( &newPosition, &(GetAbsAngles()), &vec3_origin );

					// Unzoom if we are a sniper zoomed!
					if ( ( pTeleportingPlayer->GetPlayerClass()->GetClassIndex() == TF_CLASS_SNIPER ) &&
						pTeleportingPlayer->m_Shared.InCond( TF_COND_AIMING ) )
					{
						CTFWeaponBase *pWpn = pTeleportingPlayer->GetActiveTFWeapon();

						if ( pWpn && pWpn->GetWeaponID() == TF_WEAPON_SNIPERRIFLE )
						{
							CTFSniperRifle *pRifle = static_cast<CTFSniperRifle*>( pWpn );
							pRifle->ToggleZoom();
						}
					}

					pTeleportingPlayer->SetFOV( pTeleportingPlayer, 0, tf_teleporter_fov_time.GetFloat(), tf_teleporter_fov_start.GetInt() );

					color32 fadeColor = {255,255,255,100};
					UTIL_ScreenFade( pTeleportingPlayer, fadeColor, 0.25, 0.4, FFADE_IN );
				}
				else
				{
					DetonateObject();
				}
			}			

			SetState( TELEPORTER_STATE_RECEIVING_RELEASE );

			m_flMyNextThink = gpGlobals->curtime + ( BUILD_TELEPORTER_FADEIN_TIME );
		}
		break;

	case TELEPORTER_STATE_RECEIVING_RELEASE:
		{
			CTFPlayer *pTeleportingPlayer = m_hTeleportingPlayer.Get();

			if ( pTeleportingPlayer )
			{
				int iTeam = GetBuilder() ? GetBuilder()->GetTeamNumber() : GetTeamNumber();
				pTeleportingPlayer->m_Shared.SetTeleporterEffectColor( iTeam );
				pTeleportingPlayer->TeleportEffect();

				pTeleportingPlayer->m_Shared.RemoveCond( TF_COND_SELECTED_TO_TELEPORT );

				if ( !m_bWasMapPlaced && GetBuilder() )
					CTF_GameStats.Event_PlayerUsedTeleport( GetBuilder(), pTeleportingPlayer );

				IGameEvent * event = gameeventmanager->CreateEvent( "player_teleported" );
				if ( event )
				{
					event->SetInt( "userid", pTeleportingPlayer->GetUserID() );

					if ( GetBuilder() )
						event->SetInt( "builderid", GetBuilder()->GetUserID() );

					Vector vecOrigin = GetAbsOrigin();
					Vector vecDestinationOrigin = GetMatchingTeleporter()->GetAbsOrigin();
					Vector vecDifference = Vector( vecOrigin.x - vecDestinationOrigin.x, vecOrigin.y - vecDestinationOrigin.y, vecOrigin.z - vecDestinationOrigin.z );
					
					float flDist = sqrtf( pow( vecDifference.x, 2 ) + pow( vecDifference.y, 2 ) + pow( vecDifference.z, 2 ) );

					event->SetFloat( "dist", flDist );	

					gameeventmanager->FireEvent( event, true );
				}

				// Don't thank ourselves.
				if ( pTeleportingPlayer != GetBuilder() )
					pTeleportingPlayer->SpeakConceptIfAllowed( MP_CONCEPT_TELEPORTED );
			}

			// reset the pointers to the player now that we're done teleporting
			SetTeleportingPlayer( NULL );
			pMatch->SetTeleportingPlayer( NULL );

			SetState( TELEPORTER_STATE_RECHARGING );

			m_flMyNextThink = gpGlobals->curtime + ( g_flTeleporterRechargeTimes[ GetUpgradeLevel() - 1 ] );
		}
		break;

	case TELEPORTER_STATE_RECHARGING:
		// If we are finished recharging, go active
		if ( gpGlobals->curtime > m_flRechargeTime )
		{
			SetState( TELEPORTER_STATE_READY );
			EmitSound( "Building_Teleporter.Ready" );
		}
		break;
	}
}
Exemplo n.º 10
0
//-----------------------------------------------------------------------------
// Purpose: Start placing or building the currently selected object
//-----------------------------------------------------------------------------
void CTFWeaponBuilder::PrimaryAttack( void )
{
	CTFPlayer *pOwner = ToTFPlayer( GetOwner() );
	if ( !pOwner )
		return;

	if ( !CanAttack() )
		return;

	// Necessary so that we get the latest building position for the test, otherwise
	// we are one frame behind.
	UpdatePlacementState();

	// What state should we move to?
	switch( m_iBuildState )
	{
	case BS_IDLE:
		{
			// Idle state starts selection
			SetCurrentState( BS_SELECTING );
		}
		break;

	case BS_SELECTING:
		{
			// Do nothing, client handles selection
			return;
		}
		break;

	case BS_PLACING:
		{
			if ( m_hObjectBeingBuilt )
			{
				int iFlags = m_hObjectBeingBuilt->GetObjectFlags();

				// Tricky, because this can re-calc the object position and change whether its a valid 
				// pos or not. Best not to do this only in debug, but we can be pretty sure that this
				// will give the same result as was calculated in UpdatePlacementState() above.
				Assert( IsValidPlacement() );

				// If we're placing an attachment, like a sapper, play a placement animation on the owner
				if ( m_hObjectBeingBuilt->MustBeBuiltOnAttachmentPoint() )
				{
					pOwner->DoAnimationEvent( PLAYERANIMEVENT_ATTACK_GRENADE );
				}

				// Need to save this for later since StartBuilding will clear m_hObjectBeingBuilt.
				CBaseObject *pParentObject = m_hObjectBeingBuilt->GetParentObject();

				StartBuilding();

				// Attaching a sapper to a teleporter automatically saps another end.
				if ( GetType() == OBJ_ATTACHMENT_SAPPER )
				{
					CObjectTeleporter *pTeleporter = dynamic_cast<CObjectTeleporter *>( pParentObject );

					if ( pTeleporter )
					{
						CObjectTeleporter *pMatch = pTeleporter->GetMatchingTeleporter();

						// If the other end is not already sapped then place a sapper on it.
						if ( pMatch && !pMatch->IsPlacing() && !pMatch->HasSapper() )
						{
							SetCurrentState( BS_PLACING );
							StartPlacement();
							if ( m_hObjectBeingBuilt.Get() )
							{
								m_hObjectBeingBuilt->UpdateAttachmentPlacement( pMatch );
								StartBuilding();
							}
						}
					}
				}

				// Should we switch away?
				if ( iFlags & OF_ALLOW_REPEAT_PLACEMENT )
				{
					// Start placing another
					SetCurrentState( BS_PLACING );
					StartPlacement(); 
				}
				else
				{
					SwitchOwnersWeaponToLast();
				}
			}
		}
		break;

	case BS_PLACING_INVALID:
		{
			if ( m_flNextDenySound < gpGlobals->curtime )
			{
				CSingleUserRecipientFilter filter( pOwner );
				EmitSound( filter, entindex(), "Player.DenyWeaponSelection" );

				m_flNextDenySound = gpGlobals->curtime + 0.5;
			}
		}
		break;
	}

	m_flNextPrimaryAttack = gpGlobals->curtime + 0.2f;
}
Exemplo n.º 11
0
//-----------------------------------------------------------------------------
// 
//-----------------------------------------------------------------------------
void CObjectTeleporter::TeleporterThink( void )
{
	SetContextThink( &CObjectTeleporter::TeleporterThink, gpGlobals->curtime + BUILD_TELEPORTER_NEXT_THINK, TELEPORTER_THINK_CONTEXT );

	// At any point, if our match is not ready, revert to IDLE
	if ( IsDisabled() || IsMatchingTeleporterReady() == false )
	{
		if ( GetState() != TELEPORTER_STATE_IDLE )
		{
			SetState( TELEPORTER_STATE_IDLE );
			ShowDirectionArrow( false );
		}
		return;
	}

	if ( m_flMyNextThink && m_flMyNextThink > gpGlobals->curtime )
		return;

	// pMatch is not NULL and is not building
	CObjectTeleporter *pMatch = GetMatchingTeleporter();

	Assert( pMatch );
	Assert( pMatch->m_iState != TELEPORTER_STATE_BUILDING );

	switch ( m_iState )
	{
	// Teleporter is not yet active, do nothing
	case TELEPORTER_STATE_BUILDING:
		break;

	default:
	case TELEPORTER_STATE_IDLE:
		// Do we have a match that is active?
		if ( IsMatchingTeleporterReady() )
		{
			SetState( TELEPORTER_STATE_READY );
			EmitSound( "Building_Teleporter.Ready" );

			if ( GetType() == OBJ_TELEPORTER_ENTRANCE )
			{
				ShowDirectionArrow( true );
			}
		}
		break;

	case TELEPORTER_STATE_READY:
		break;

	case TELEPORTER_STATE_SENDING:
		{
			pMatch->TeleporterReceive( m_hTeleportingPlayer, 1.0 );

			m_flRechargeTime = gpGlobals->curtime + ( BUILD_TELEPORTER_FADEOUT_TIME + BUILD_TELEPORTER_FADEIN_TIME + TELEPORTER_RECHARGE_TIME );
		
			// change state to recharging...
			SetState( TELEPORTER_STATE_RECHARGING );
		}
		break;

	case TELEPORTER_STATE_RECEIVING:
		{
			// get the position we'll move the player to
			Vector newPosition = GetAbsOrigin();
			newPosition.z += TELEPORTER_MAXS.z + 1;

			// Telefrag anyone in the way
			CBaseEntity *pEnts[256];
			Vector mins, maxs;
			Vector expand( 4, 4, 4 );

			mins = newPosition + VEC_HULL_MIN - expand;
			maxs = newPosition + VEC_HULL_MAX + expand;

			CTFPlayer *pTeleportingPlayer = m_hTeleportingPlayer.Get();

			// move the player
			if ( pTeleportingPlayer )
			{
				CUtlVector<CBaseEntity*> hPlayersToKill;
				bool bClear = true;

				// Telefrag any players in the way
				int numEnts = UTIL_EntitiesInBox( pEnts, 256, mins,	maxs, 0 );
				if ( numEnts )
				{
					//Iterate through the list and check the results
					for ( int i = 0; i < numEnts && bClear; i++ )
					{
						if ( pEnts[i] == NULL )
							continue;

						if ( pEnts[i] == this )
							continue;

						// kill players and NPCs
						if ( pEnts[i]->IsPlayer() || pEnts[i]->IsNPC() )
						{
							if ( !pTeleportingPlayer->InSameTeam(pEnts[i]) )
							{
								hPlayersToKill.AddToTail( pEnts[i] );
							}
							continue;
						}

						if ( pEnts[i]->IsBaseObject() )
							continue;

						// Solid entities will prevent a teleport
						if ( pEnts[i]->IsSolid() && pEnts[i]->ShouldCollide( pTeleportingPlayer->GetCollisionGroup(), MASK_ALL ) &&
							 g_pGameRules->ShouldCollide( pTeleportingPlayer->GetCollisionGroup(), pEnts[i]->GetCollisionGroup() ) )
						{
							// We're going to teleport into something solid. Abort & destroy this exit.
							bClear = false;
						}
					}
				}

				if ( bClear )
				{
					// Telefrag all enemy players we've found
					for ( int player = 0; player < hPlayersToKill.Count(); player++ )
					{
						hPlayersToKill[player]->TakeDamage( CTakeDamageInfo( pTeleportingPlayer, this, 1000, DMG_CRUSH ) );
					}

					pTeleportingPlayer->Teleport( &newPosition, &(GetAbsAngles()), &vec3_origin );

					// Unzoom if we are a sniper zoomed!
					if ( ( pTeleportingPlayer->GetPlayerClass()->GetClassIndex() == TF_CLASS_SNIPER ) &&
						pTeleportingPlayer->m_Shared.InCond( TF_COND_AIMING ) )
					{
						CTFWeaponBase *pWpn = pTeleportingPlayer->GetActiveTFWeapon();

						if ( pWpn && pWpn->GetWeaponID() == TF_WEAPON_SNIPERRIFLE )
						{
							CTFSniperRifle *pRifle = static_cast<CTFSniperRifle*>( pWpn );
							pRifle->ToggleZoom();
						}
					}

					pTeleportingPlayer->SetFOV( pTeleportingPlayer, 0, tf_teleporter_fov_time.GetFloat(), tf_teleporter_fov_start.GetInt() );

					color32 fadeColor = {255,255,255,100};
					UTIL_ScreenFade( pTeleportingPlayer, fadeColor, 0.25, 0.4, FFADE_IN );
				}
				else
				{
					DetonateObject();
				}
			}			

			SetState( TELEPORTER_STATE_RECEIVING_RELEASE );

			m_flMyNextThink = gpGlobals->curtime + ( BUILD_TELEPORTER_FADEIN_TIME );
		}
		break;

	case TELEPORTER_STATE_RECEIVING_RELEASE:
		{
			CTFPlayer *pTeleportingPlayer = m_hTeleportingPlayer.Get();

			if ( pTeleportingPlayer )
			{
				pTeleportingPlayer->TeleportEffect();
				pTeleportingPlayer->m_Shared.RemoveCond( TF_COND_SELECTED_TO_TELEPORT );
				CTF_GameStats.Event_PlayerUsedTeleport( GetBuilder(), pTeleportingPlayer );

				pTeleportingPlayer->SpeakConceptIfAllowed( MP_CONCEPT_TELEPORTED );
			}

			// reset the pointers to the player now that we're done teleporting
			SetTeleportingPlayer( NULL );
			pMatch->SetTeleportingPlayer( NULL );

			SetState( TELEPORTER_STATE_RECHARGING );

			m_flMyNextThink = gpGlobals->curtime + ( TELEPORTER_RECHARGE_TIME );
		}
		break;

	case TELEPORTER_STATE_RECHARGING:
		// If we are finished recharging, go active
		if ( gpGlobals->curtime > m_flRechargeTime )
		{
			SetState( TELEPORTER_STATE_READY );
			EmitSound( "Building_Teleporter.Ready" );
		}
		break;
	}
}