Beispiel #1
0
//-----------------------------------------------------------------------------
// Purpose: 
//-----------------------------------------------------------------------------
void C_BaseObject::Simulate( void )
{
	if ( IsPlacing() && !MustBeBuiltOnAttachmentPoint() )
	{
		int iValidPlacement = ( IsPlacementPosValid() && ServerValidPlacement() ) ? 1 : 0;

		if ( m_iLastPlacementPosValid != iValidPlacement )
		{
			m_iLastPlacementPosValid = iValidPlacement;
			OnPlacementStateChanged( m_iLastPlacementPosValid > 0 );
		}

		// We figure out our own placement pos, but we still leave it to the server to 
		// do collision with other entities and nobuild triggers, so that sets the 
		// placement animation

		SetLocalOrigin( m_vecBuildOrigin );
		InvalidateBoneCache();

		// Clear out our origin and rotation interpolation history
		// so we don't pop when we teleport in the actual position from the server

		CInterpolatedVar< Vector > &interpolator = GetOriginInterpolator();
		interpolator.ClearHistory();

		CInterpolatedVar<QAngle> &rotInterpolator = GetRotationInterpolator();
		rotInterpolator.ClearHistory();
	}	

	BaseClass::Simulate();
}
Beispiel #2
0
//-----------------------------------------------------------------------------
// Purpose: Add entity to visibile entities list
//-----------------------------------------------------------------------------
void C_BaseObject::AddEntity( void )
{
	// If set to invisible, skip. Do this before resetting the entity pointer so it has 
	// valid data to decide whether it's visible.
	if ( !ShouldDraw() )
	{
		return;
	}

	// Update the entity position
	//UpdatePosition();

	// Yaw preview
	if (m_YawPreviewState != YAW_PREVIEW_OFF)
	{
		// This piece of code makes it so we keep using the preview
		// until we get a network update which matches the update value
		if (m_YawPreviewState == YAW_PREVIEW_WAITING_FOR_UPDATE)
		{
			if (fmod( fabs(GetLocalAngles().y - m_fYawPreview), 360.0f) < 1.0f)
			{
				m_YawPreviewState = YAW_PREVIEW_OFF;
			}
		}

		if (GetLocalOrigin().y != m_fYawPreview)
		{
			SetLocalAnglesDim( Y_INDEX, m_fYawPreview );
			InvalidateBoneCache();
		}
	}

	// Create flashlight effects, etc.
	CreateLightEffects();
}
//-----------------------------------------------------------------------------
// Purpose: Causes the turret to face its desired angles
//-----------------------------------------------------------------------------
bool CNPC_CeilingTurret::UpdateFacing( void )
{
	bool  bMoved = false;
	matrix3x4_t localToWorld;
	
	GetAttachment( LookupAttachment( "eyes" ), localToWorld );

	Vector vecGoalDir;
	AngleVectors( m_vecGoalAngles, &vecGoalDir );

	Vector vecGoalLocalDir;
	VectorIRotate( vecGoalDir, localToWorld, vecGoalLocalDir );

	if ( g_debug_turret_ceiling.GetBool() )
	{
		Vector	vecMuzzle, vecMuzzleDir;
		QAngle	vecMuzzleAng;

		GetAttachment( "eyes", vecMuzzle, vecMuzzleAng );
		AngleVectors( vecMuzzleAng, &vecMuzzleDir );

		NDebugOverlay::Cross3D( vecMuzzle, -Vector(2,2,2), Vector(2,2,2), 255, 255, 0, false, 0.05 );
		NDebugOverlay::Cross3D( vecMuzzle+(vecMuzzleDir*256), -Vector(2,2,2), Vector(2,2,2), 255, 255, 0, false, 0.05 );
		NDebugOverlay::Line( vecMuzzle, vecMuzzle+(vecMuzzleDir*256), 255, 255, 0, false, 0.05 );
		
		NDebugOverlay::Cross3D( vecMuzzle, -Vector(2,2,2), Vector(2,2,2), 255, 0, 0, false, 0.05 );
		NDebugOverlay::Cross3D( vecMuzzle+(vecGoalDir*256), -Vector(2,2,2), Vector(2,2,2), 255, 0, 0, false, 0.05 );
		NDebugOverlay::Line( vecMuzzle, vecMuzzle+(vecGoalDir*256), 255, 0, 0, false, 0.05 );
	}

	QAngle vecGoalLocalAngles;
	VectorAngles( vecGoalLocalDir, vecGoalLocalAngles );

	// Update pitch
	float flDiff = AngleNormalize( UTIL_ApproachAngle(  vecGoalLocalAngles.x, 0.0, 0.1f * MaxYawSpeed() ) );
	
	SetPoseParameter( m_poseAim_Pitch, GetPoseParameter( m_poseAim_Pitch ) + ( flDiff / 1.5f ) );

	if ( fabs( flDiff ) > 0.1f )
	{
		bMoved = true;
	}

	// Update yaw
	flDiff = AngleNormalize( UTIL_ApproachAngle(  vecGoalLocalAngles.y, 0.0, 0.1f * MaxYawSpeed() ) );

	SetPoseParameter( m_poseAim_Yaw, GetPoseParameter( m_poseAim_Yaw ) + ( flDiff / 1.5f ) );

	if ( fabs( flDiff ) > 0.1f )
	{
		bMoved = true;
	}

	InvalidateBoneCache();

	return bMoved;
}
//-----------------------------------------------------------------------------
// Purpose: 
//-----------------------------------------------------------------------------
int C_ObjectSentrygun::DrawModel( int flags )
{
	float flRealOriginZ = GetLocalOrigin().z;

	// If we're turtling, slide the model into the ground
	if ( m_bTurtled )
	{
		// How far down are we?
		float flTime = min( gpGlobals->curtime - m_flStartedTurtlingAt, SENTRY_TURTLE_TIME );
		float flPercent = 1 - (SENTRY_TURTLE_TIME - flTime) / SENTRY_TURTLE_TIME;

		Vector vNewOrigin = GetLocalOrigin();
		vNewOrigin.z -= (EntitySpaceSize().z * flPercent);
		SetLocalOrigin( vNewOrigin );
		InvalidateBoneCache();
	}
	else if ( !m_bTurtled )
	{
		if ( m_flStartedUnTurtlingAt )
		{
			float flTime = min( gpGlobals->curtime - m_flStartedUnTurtlingAt, SENTRY_TURTLE_TIME );
			float flPercent = (SENTRY_TURTLE_TIME - flTime) / SENTRY_TURTLE_TIME;
			
			Vector vNewOrigin = GetLocalOrigin();
			vNewOrigin.z -= (EntitySpaceSize().z * flPercent);
			SetLocalOrigin( vNewOrigin );
			InvalidateBoneCache();

			// Fully unturtled?
			if ( flTime >= SENTRY_TURTLE_TIME )
			{
				m_flStartedUnTurtlingAt = 0;
			}
		}
	}

	int drawn = BaseClass::DrawModel( flags );
	SetLocalOriginDim( Z_INDEX, flRealOriginZ );

	return drawn;
}
//-----------------------------------------------------------------------------
// Purpose: Update the designator position
//-----------------------------------------------------------------------------
void CObjectBaseMannedGun::UpdateDesignator( void )
{
	// Make the beam, if we don't have one yet
	if ( !m_hBeam && GetDriverPlayer() )
	{
		m_hBeam = BEAM_CREATE_PREDICTABLE_PERSIST( "sprites/laserbeam.vmt", 5, GetDriverPlayer() );
		if ( m_hBeam.Get() )
		{
			m_hBeam->PointEntInit( vec3_origin, this );
			m_hBeam->SetEndAttachment( m_nBarrelAttachment );
			m_hBeam->SetColor( 255, 32, 32 );
			m_hBeam->SetBrightness( 255 );
			m_hBeam->SetNoise( 0 );
			m_hBeam->SetWidth( 0.5 );
			m_hBeam->SetEndWidth( 0.5 );
		}
	}

	// We have to flush the bone cache because it's possible that only the bone controllers
	// have changed since the bonecache was generated, and bone controllers aren't checked.
	InvalidateBoneCache();

	QAngle vecAng;
	Vector vecSrc, vecAim;
	GetAttachment( m_nBarrelAttachment, vecSrc, vecAng );
	AngleVectors( vecAng, &vecAim, 0, 0 );

	// "Fire" the designator beam
	Vector vecEnd = vecSrc + vecAim * obj_manned_gun_designator_range.GetFloat();
	trace_t tr;
	TFGameRules()->WeaponTraceLine(vecSrc, vecEnd, MASK_SHOT, this, DMG_PROBE, &tr);

	if ( m_hLaserDesignation.Get() )
	{
		// Only update our designated target point if we hit something
		if ( tr.fraction != 1.0 )
		{
			m_hLaserDesignation->SetActive( true );
			m_hLaserDesignation->SetAbsOrigin( tr.endpos );
		}
		else
		{
			m_hLaserDesignation->SetActive( false );
		}
	}

	// Update beam visual
	if ( m_hBeam.Get() )
	{
		m_hBeam->SetStartPos( tr.endpos );
		m_hBeam->RelinkBeam();
	}
}
//-----------------------------------------------------------------------------
// Purpose: 
// Output : void SyncPoseToAimAngles
//-----------------------------------------------------------------------------
void CNPC_RocketTurret::SyncPoseToAimAngles ( void )
{
	QAngle localAngles = TransformAnglesToLocalSpace( m_vecCurrentAngles.Get(), EntityToWorldTransform() );

	// Update pitch
	SetPoseParameter( m_iPosePitch, localAngles.x );

	// Update yaw -- NOTE: This yaw movement is screwy for this model, we must invert the yaw delta and also skew an extra 90 deg to
	// get the 'forward face' of the turret to match up with the look direction. If the model and it's pose parameters change, this will be wrong.
	SetPoseParameter( m_iPoseYaw, AngleNormalize( -localAngles.y - 90 ) );

	InvalidateBoneCache();
}
//-----------------------------------------------------------------------------
// Purpose: Causes the camera to face its desired angles
//-----------------------------------------------------------------------------
bool CNPC_CombineCamera::UpdateFacing()
{
	bool  bMoved = false;
	matrix3x4_t localToWorld;
	
	GetAttachment(LookupAttachment("eyes"), localToWorld);

	Vector vecGoalDir;
	AngleVectors(m_vecGoalAngles, &vecGoalDir );

	Vector vecGoalLocalDir;
	VectorIRotate(vecGoalDir, localToWorld, vecGoalLocalDir);

	QAngle vecGoalLocalAngles;
	VectorAngles(vecGoalLocalDir, vecGoalLocalAngles);

	// Update pitch
	float flDiff = AngleNormalize(UTIL_ApproachAngle( vecGoalLocalAngles.x, 0.0, 0.1f * MaxYawSpeed()));
	
	int iPose = LookupPoseParameter(COMBINE_CAMERA_BC_PITCH);
	SetPoseParameter(iPose, GetPoseParameter(iPose) + (flDiff / 1.5f));

	if (fabs(flDiff) > 0.1f)
	{
		bMoved = true;
	}

	// Update yaw
	flDiff = AngleNormalize(UTIL_ApproachAngle( vecGoalLocalAngles.y, 0.0, 0.1f * MaxYawSpeed()));

	iPose = LookupPoseParameter(COMBINE_CAMERA_BC_YAW);
	SetPoseParameter(iPose, GetPoseParameter(iPose) + (flDiff / 1.5f));

	if (fabs(flDiff) > 0.1f)
	{
		bMoved = true;
	}

	if (bMoved && (m_flMoveSoundTime < gpGlobals->curtime))
	{
		EmitSound("NPC_CombineCamera.Move");
		m_flMoveSoundTime = gpGlobals->curtime + CAMERA_MOVE_INTERVAL;
	}

	// You're going to make decisions based on this info.  So bump the bone cache after you calculate everything
	InvalidateBoneCache();

	return bMoved;
}
void CNPC_Dog::PickupOrCatchObject( const char *pAttachmentName )
{
	if ( m_hPhysicsEnt )
	{
		InvalidateBoneCache();

		int iAttachment = LookupAttachment( pAttachmentName );

		if ( iAttachment == 0 )
			 iAttachment = m_iPhysGunAttachment;
		
		// Move physobject to shadow
		IPhysicsObject *pPhysicsObject = m_hPhysicsEnt->VPhysicsGetObject();
		if ( pPhysicsObject )
		{
			pPhysicsObject->SetShadow( 1e4, 1e4, false, false );
			pPhysicsObject->UpdateShadow( GetAbsOrigin(), GetAbsAngles(), false, 0 );
		}
		
		m_iContainerMoveType = m_hPhysicsEnt->GetMoveType();
		m_hPhysicsEnt->SetMoveType( MOVETYPE_NONE );
		
		m_hPhysicsEnt->SetParent( this, iAttachment );
	
		m_hPhysicsEnt->SetLocalOrigin( vec3_origin );
		m_hPhysicsEnt->SetLocalAngles( vec3_angle );

		m_hPhysicsEnt->SetGroundEntity( NULL );
		

		if ( m_hPhysicsEnt->GetOwnerEntity() == NULL )
			 m_hPhysicsEnt->SetOwnerEntity( this );

		if ( pPhysicsObject )
			 pPhysicsObject->RecheckCollisionFilter();

		m_bHasObject = true;

		//Fire Output!
		m_OnPickup.FireOutput( this, this );
	}
}
int C_FirstpersonBody::DrawModel( int flags )
{
	const int viewId = CurrentViewID();

	if ( viewId == VIEW_SHADOW_DEPTH_TEXTURE
		&& !C_GstringPlayer::ShouldFirstpersonModelCastShadow()
		|| viewId == VIEW_MONITOR )
	{
		return 0;
	}

	if ( viewId == VIEW_REFLECTION )
	{
		const Vector &vecViewOrigin( CurrentViewOrigin() );
		VisibleFogVolumeInfo_t fogVolumeInfo;
		render->GetVisibleFogVolume( vecViewOrigin, &fogVolumeInfo );
		if ( fogVolumeInfo.m_nVisibleFogVolume >= 0 )
		{
			if ( fogVolumeInfo.m_flWaterHeight - vecViewOrigin.z > -25.0f )
			{
				return 0;
			}
		}
	}

	if ( IsInThirdPersonView() )
	{
		m_bBonescalingEnabled = false;
	}

	{
		CBaseAnimating::AutoAllowBoneAccess boneAccess( true, false );

		InvalidateBoneCache();
		SetupBones( NULL, -1, BONE_USED_BY_ANYTHING, gpGlobals->curtime );
	}

	int ret = BaseClass::DrawModel( flags );
	m_bBonescalingEnabled = true;

	return ret;
}
void C_ClientPartialRagdoll::ImpactTrace( trace_t *pTrace, int iDamageType, const char *pCustomImpactName )
{
	BaseClass::ImpactTrace( pTrace, iDamageType, pCustomImpactName );

	// client entities have the network index -1 so lots of effects don't work easily
	if ( BloodColor() != DONT_BLEED )
	{
		const char *pszDecalName = NULL;

		switch ( BloodColor() )
		{
		case BLOOD_COLOR_RED:
			pszDecalName = "Blood";
			break;
		}

		int index = decalsystem->GetDecalIndexForName( pszDecalName );
		Vector vecDir = pTrace->endpos - pTrace->startpos;
		if ( vecDir.LengthSqr() > FLT_EPSILON )
		{
			vecDir.NormalizeInPlace();
		}

		if ( index >= 0 )
		{
			SetShrinkingEnabled( false );
			InvalidateBoneCache();
			SetupBones( NULL, -1, BONE_USED_BY_ANYTHING, gpGlobals->curtime );

			// add decal to model
			AddDecal( pTrace->startpos, pTrace->endpos, pTrace->endpos, pTrace->hitbox,
						index, false, *pTrace );

			SetShrinkingEnabled( true );
			InvalidateBoneCache();
		}

		// add decal to world
		trace_t tr;
		UTIL_TraceLine( pTrace->endpos, pTrace->endpos + vecDir * 35.0f, MASK_SOLID, this, COLLISION_GROUP_NONE, &tr );

		UTIL_BloodDecalTrace( &tr, BloodColor() );
		if ( ShouldCreateBloodParticles() )
		{
			UTIL_BloodImpact( pTrace->endpos, -vecDir, BloodColor(), 5 );
		}
	}

	if ( m_bReleaseRagdoll || m_bFadingOut )
		return;

	const float flGibbingChance = ( ( iDamageType & DMG_BLAST ) != 0 ) ?
		gstring_gibbing_explosion_chance.GetFloat() : gstring_gibbing_chance.GetFloat();
	const bool bSniperImpact = ( iDamageType & DMG_SNIPER ) != 0;

	if ( !bSniperImpact && RandomFloat() > flGibbingChance / 100.0f )
		return;

	CStudioHdr *pHdr = GetModelPtr();

	if ( pHdr == NULL )
		return;

	int iStudioBone = ConvertPhysBoneToStudioBone( this, pTrace->physicsbone );
	const bool bExplosionImpact = ( iDamageType & DMG_BLAST ) != 0;

	// if the hit bone is a valid studio bone and we know that this bone
	// is drawn as a normal bone (not shrunken)
	if ( iStudioBone >= 0
		&& m_normalBones.IsBitSet( iStudioBone )
		|| bExplosionImpact )
	{
		CUtlVector< ragdollparams_partial_t > gibModels;

		// we've been analysed already so use the known hit group
		// and try recusive splitting
		GibbingParamsRecursive_t params;
		params.pHdr = pHdr;
		params.pszHitBone = ( iStudioBone >= 0 && !bExplosionImpact ) ? pHdr->pBone( iStudioBone )->pszName() : NULL;
		params.pszParentName = STRING( m_strRecursiveParent );
		params.pszRootBone = ( m_iBranchRootBone >= 0 && m_iBranchRootBone < pHdr->numbones() )
			? pHdr->pBone( m_iBranchRootBone )->pszName() : NULL;
		params.pJointBones = &m_jointBones;

		const char *pszParentSplitBone;

		// find a suitable joint to cut
		if ( C_GibConfig::GetInstance()->GetGibsForGroup( params, gibModels, &pszParentSplitBone )
			|| bExplosionImpact && C_GibConfig::GetInstance()->GetRandomGibsForGroup( params, gibModels, &pszParentSplitBone ) )
		{
			int iSplitboneIndex = Studio_BoneIndexByName( pHdr, pszParentSplitBone );

			// don't do cutting if we cut this joint in the past
			// or if this joint is our current branch root
			if ( iSplitboneIndex < 0
				|| m_jointBones.IsBitSet( iSplitboneIndex )
				|| m_iBranchRootBone == iSplitboneIndex )
				return;

			matrix3x4_t boneDelta0[MAXSTUDIOBONES];
			matrix3x4_t boneDelta1[MAXSTUDIOBONES];
			matrix3x4_t currentBones[MAXSTUDIOBONES];
			const float boneDt = 0.1f;

			// setup bones without shrinking to position the new gibs
			SetShrinkingEnabled( false );
			GetRagdollInitBoneArrays( boneDelta0, boneDelta1, currentBones, boneDt );
			SetShrinkingEnabled( true );

			InvalidateBoneCache();

			// create the new gibmodels
			FOR_EACH_VEC( gibModels, i )
			{
				ragdollparams_partial_t &partial = gibModels[ i ];

				// add old trunk joints
				for ( int iBit = m_jointBones.FindNextSetBit( 0 );
					iBit >= 0; iBit = m_jointBones.FindNextSetBit( iBit + 1 ) )
				{
					if ( m_iBranchRootBone == iBit )
						continue;

					const char *pszName = pHdr->pBone( iBit )->pszName();

					partial.trunkBones.AddToTail( pszName );
				}

				// if we create a trunk from an existing branch
				// we have to propagate the branch root bone
				if ( partial.rootBone.IsEmpty()
					&& m_iBranchRootBone >= 0 )
				{
					partial.rootBone = pHdr->pBone( m_iBranchRootBone )->pszName();
				}

				C_BaseAnimating *pGib = CreateRagdollCopy( false );
				C_ClientPartialRagdoll *pRecursiveRagdoll = dynamic_cast< C_ClientPartialRagdoll* >( pGib );
				Assert( pRecursiveRagdoll );

				// apply force and propagate cut information
				if ( pRecursiveRagdoll != NULL )
				{
					pRecursiveRagdoll->SetRecursiveGibData( STRING( m_strRecursiveParent ), STRING( m_strRecursiveGoreName ),
						STRING( m_strRecursiveGoreMaterialName ) );
					pRecursiveRagdoll->SetShrinkingEnabled( true );

					Vector vecDelta = pTrace->endpos - pTrace->startpos;
					if ( vecDelta.LengthSqr() <= FLT_EPSILON )
					{
						vecDelta = RandomVector( -1, 1 );
					}
					vecDelta.NormalizeInPlace();

					pRecursiveRagdoll->m_vecForce = vecDelta * RandomFloat( 15000.0f, 35000.0f );
					pRecursiveRagdoll->m_nForceBone = pTrace->physicsbone;

					pRecursiveRagdoll->SetBloodColor( BloodColor() );
					pRecursiveRagdoll->m_jointBones.Or( m_jointBones, &pRecursiveRagdoll->m_jointBones );

					//FOR_EACH_VEC( m_Gore, i )
					//{
					//	const int iBone = m_Gore[ i ].m_iBone;

					//	if ( iBone >= 0 && iBone == m_iBranchRootBone )
					//	{

					//	}
					//	pRecursiveRagdoll->m_Gore.AddToTail( m_Gore[ i ] );
					//	m_Gore.Remove( i );
					//	i--;
					//}
				}

				pGib->InitAsClientRagdoll( boneDelta0, boneDelta1, currentBones, boneDt, false, &partial );

				if ( bExplosionImpact
					&& RandomFloat() <= gstring_gibbing_explosion_recursive_chance.GetFloat() / 100.0f )
				{
					pGib->ImpactTrace( pTrace, iDamageType, pCustomImpactName );
				}

				if ( BloodColor() == BLOOD_COLOR_RED
					&& ( !pRecursiveRagdoll || !pRecursiveRagdoll->m_bReleaseRagdoll )
					&& ShouldCreateBloodParticles() )
				{
					Assert( pszParentSplitBone != NULL );

					DispatchGibParticle( pGib, pszParentSplitBone, bExplosionImpact, BloodColor() );
				}
			}
Beispiel #11
0
//-----------------------------------------------------------------------------
// Purpose: Aim Gun at a target
//-----------------------------------------------------------------------------
void CASW_PropJeep::AimGunAt( Vector *endPos, float flInterval )
{
	Vector	aimPos = *endPos;

	// See if the gun should be allowed to aim
	if ( IsOverturned() || m_bEngineLocked || m_bHasGun == false )
	{
		SetPoseParameter( JEEP_GUN_YAW, 0 );
		SetPoseParameter( JEEP_GUN_PITCH, 0 );
		SetPoseParameter( JEEP_GUN_SPIN, 0 );
		return;

		// Make the gun go limp and look "down"
		Vector	v_forward, v_up;
		AngleVectors( GetLocalAngles(), NULL, &v_forward, &v_up );
		aimPos = WorldSpaceCenter() + ( v_forward * -32.0f ) - Vector( 0, 0, 128.0f );
	}

	matrix3x4_t gunMatrix;
	GetAttachment( LookupAttachment("gun_ref"), gunMatrix );

	// transform the enemy into gun space
	Vector localEnemyPosition;
	VectorITransform( aimPos, gunMatrix, localEnemyPosition );

	// do a look at in gun space (essentially a delta-lookat)
	QAngle localEnemyAngles;
	VectorAngles( localEnemyPosition, localEnemyAngles );
	
	// convert to +/- 180 degrees
	localEnemyAngles.x = UTIL_AngleDiff( localEnemyAngles.x, 0 );	
	localEnemyAngles.y = UTIL_AngleDiff( localEnemyAngles.y, 0 );

	float targetYaw = m_aimYaw + localEnemyAngles.y;
	float targetPitch = m_aimPitch + localEnemyAngles.x;
	
	// Constrain our angles
	float newTargetYaw	= clamp( targetYaw, -CANNON_MAX_LEFT_YAW, CANNON_MAX_RIGHT_YAW );
	float newTargetPitch = clamp( targetPitch, -CANNON_MAX_DOWN_PITCH, CANNON_MAX_UP_PITCH );

	// If the angles have been clamped, we're looking outside of our valid range
	if ( fabs(newTargetYaw-targetYaw) > 1e-4 || fabs(newTargetPitch-targetPitch) > 1e-4 )
	{
		m_bUnableToFire = true;
	}

	targetYaw = newTargetYaw;
	targetPitch = newTargetPitch;

	// Exponentially approach the target
	float yawSpeed = 8;
	float pitchSpeed = 8;

	m_aimYaw = UTIL_Approach( targetYaw, m_aimYaw, yawSpeed );
	m_aimPitch = UTIL_Approach( targetPitch, m_aimPitch, pitchSpeed );

	SetPoseParameter( JEEP_GUN_YAW, -m_aimYaw);
	SetPoseParameter( JEEP_GUN_PITCH, -m_aimPitch );

	InvalidateBoneCache();

	// read back to avoid drift when hitting limits
	// as long as the velocity is less than the delta between the limit and 180, this is fine.
	m_aimPitch = -GetPoseParameter( JEEP_GUN_PITCH );
	m_aimYaw = -GetPoseParameter( JEEP_GUN_YAW );

	// Now draw crosshair for actual aiming point
	Vector	vecMuzzle, vecMuzzleDir;
	QAngle	vecMuzzleAng;

	GetAttachment( "Muzzle", vecMuzzle, vecMuzzleAng );
	AngleVectors( vecMuzzleAng, &vecMuzzleDir );

	trace_t	tr;
	UTIL_TraceLine( vecMuzzle, vecMuzzle + (vecMuzzleDir * MAX_TRACE_LENGTH), MASK_SHOT, this, COLLISION_GROUP_NONE, &tr );

		// see if we hit something, if so, adjust endPos to hit location
	if ( tr.fraction < 1.0 )
	{
		m_vecGunCrosshair = vecMuzzle + ( vecMuzzleDir * MAX_TRACE_LENGTH * tr.fraction );
	}
}
void CNPC_Dog::ThrowObject( const char *pAttachmentName )
{
	if ( m_hPhysicsEnt )
	{
		m_bHasObject = false;

		IPhysicsObject *pPhysObj = m_hPhysicsEnt->VPhysicsGetObject();

		if ( pPhysObj )
		{
			Vector vGunPos;
			QAngle angGunAngles;

			AngularImpulse angVelocity = RandomAngularImpulse( -250 , -250 ) / pPhysObj->GetMass();

			InvalidateBoneCache();

			int iAttachment = LookupAttachment( pAttachmentName );

			if ( iAttachment == 0 )
				 iAttachment = m_iPhysGunAttachment;
			
			GetAttachment( iAttachment, vGunPos, angGunAngles );

			pPhysObj->Wake();

			if ( pPhysObj->GetShadowController() )
			{
				m_hPhysicsEnt->SetParent( NULL );
				m_hPhysicsEnt->SetMoveType( (MoveType_t)m_iContainerMoveType );
				m_hPhysicsEnt->SetOwnerEntity( this );

				pPhysObj->RemoveShadowController();
				pPhysObj->SetPosition( m_hPhysicsEnt->GetLocalOrigin(), m_hPhysicsEnt->GetLocalAngles(), true );

				pPhysObj->RecheckCollisionFilter();
				pPhysObj->RecheckContactPoints();
			}
				
			if ( m_hThrowTarget == NULL )
			#ifdef SecobMod__Enable_Fixed_Multiplayer_AI
				m_hThrowTarget = UTIL_GetNearestVisiblePlayer(this); 
			#else
				m_hThrowTarget = AI_GetSinglePlayer();
			#endif //SecobMod__Enable_Fixed_Multiplayer_AI

			Vector vThrowDirection;

			if ( m_hThrowTarget )
			{
				Vector vThrowOrigin = m_hThrowTarget->GetAbsOrigin();
				
				if ( m_hThrowTarget->IsPlayer() )
					 vThrowOrigin = vThrowOrigin + Vector( random->RandomFloat( -128, 128 ), random->RandomFloat( -128, 128 ), 0 );

				Vector vecToss = VecCheckToss( this, vGunPos, vThrowOrigin, m_flThrowArcModifier, 1.0f, true );

				if( vecToss == vec3_origin )
				{
					// Fix up an impossible throw so dog will at least toss the box in the target's general direction instead of dropping it.
					// Also toss it up in the air so it will fall down and break. (Just throw the box up at a 45 degree angle)
					Vector forward, up;
					GetVectors( &forward, NULL, &up );

					vecToss = forward + up;
					VectorNormalize( vecToss );

					vecToss *= pPhysObj->GetMass() * 30.0f;
				}

				vThrowDirection = vecToss + ( m_hThrowTarget->GetSmoothedVelocity() / 2 );
							
				Vector vLinearDrag;

				Vector unitVel = vThrowDirection;
				VectorNormalize( unitVel );

				float flTest = 1000 / vThrowDirection.Length();

				float flDrag = pPhysObj->CalculateLinearDrag( vThrowDirection );
				vThrowDirection = vThrowDirection + ( unitVel * ( flDrag * flDrag ) ) / flTest;
			
				pPhysObj->SetVelocity( &vThrowDirection, &angVelocity );
				
				m_flTimeToCatch = gpGlobals->curtime + dog_max_wait_time.GetFloat();

				//Don't start pulling until the object is away from me.
				//We base the time on the throw velocity.
				m_flTimeToPull = gpGlobals->curtime + ( 1000 / vThrowDirection.Length() );
			}

			//Fire Output!
			m_OnThrow.FireOutput( this, this );

			ClearBeams();
			
			if ( m_bBeamEffects == true )
			{
				EmitSound( "Weapon_PhysCannon.Launch" );
				
				CBeam *pBeam = CBeam::BeamCreate(  "sprites/orangelight1.vmt", 1.8 );

				if ( pBeam != NULL )
				{
					pBeam->PointEntInit( m_hPhysicsEnt->WorldSpaceCenter(), this );
					pBeam->SetEndAttachment( m_iPhysGunAttachment );
					pBeam->SetWidth( 6.4 );
					pBeam->SetEndWidth( 12.8 );					
					pBeam->SetBrightness( 255 );
					pBeam->SetColor( 255, 255, 255 );
					pBeam->LiveForTime( 0.2f );
					pBeam->RelinkBeam();
					pBeam->SetNoise( 2 );
				}
			
				Vector	shotDir = ( m_hPhysicsEnt->WorldSpaceCenter() - vGunPos );
				VectorNormalize( shotDir );

				CPVSFilter filter( m_hPhysicsEnt->WorldSpaceCenter() );
				te->GaussExplosion( filter, 0.0f, m_hPhysicsEnt->WorldSpaceCenter() - ( shotDir * 4.0f ), RandomVector(-1.0f, 1.0f), 0 );
			}
		}
	}
}
//-----------------------------------------------------------------------------
// Purpose: Plasma sentrygun's fire
//-----------------------------------------------------------------------------
void CObjectMannedPlasmagun::Fire( )
{
    if (m_flNextAttack > gpGlobals->curtime)
        return;

    // Because the plasma sentrygun always thinks it has ammo (see below)
    // we might not have ammo here, in which case we should just abort.
    if ( !m_nAmmoCount )
        return;

    // Make sure we think soon enough in case of firing...
    float flNextRecharge = gpGlobals->curtime + (HasPowerup(POWERUP_EMP) ? MANNED_PLASMAGUN_RECHARGE_TIME * 1.5 : MANNED_PLASMAGUN_RECHARGE_TIME);
    SetNextThink( gpGlobals->curtime + flNextRecharge );

    // We have to flush the bone cache because it's possible that only the bone controllers
    // have changed since the bonecache was generated, and bone controllers aren't checked.
    InvalidateBoneCache();

    QAngle vecAng;
    Vector vecSrc, vecAim;

    // Alternate barrels when firing
    if ( m_bFiringLeft )
    {
        // Aliens permanently fire left barrel because they have no right
        if ( GetTeamNumber() == TEAM_HUMANS )
        {
            m_bFiringLeft = false;
        }
        GetAttachment( m_nBarrelAttachment, vecSrc, vecAng );
        SetActivity( ACT_VM_PRIMARYATTACK );
    }
    else
    {
        m_bFiringLeft = true;
        GetAttachment( m_nRightBarrelAttachment, vecSrc, vecAng );
        SetActivity( ACT_VM_SECONDARYATTACK );
    }

    // Get the distance to the target
    AngleVectors( vecAng, &vecAim, 0, 0 );

    int damageType = GetAmmoDef()->DamageType( m_nAmmoType );
    CBasePlasmaProjectile *pPlasma = CBasePlasmaProjectile::CreatePredicted( vecSrc, vecAim, Vector( 0, 0, 0 ), damageType, GetDriverPlayer() );
    if ( pPlasma )
    {
        pPlasma->SetDamage( obj_manned_plasmagun_damage.GetFloat() );
        pPlasma->m_hOwner = GetDriverPlayer();
        //pPlasma->SetOwnerEntity( this );
        pPlasma->SetMaxRange( m_flMaxRange );
        if ( obj_manned_plasmagun_radius.GetFloat() )
        {
            pPlasma->SetExplosive( obj_manned_plasmagun_radius.GetFloat() );
        }
    }

    CSoundParameters params;
    if ( GetParametersForSound( "ObjectMannedPlasmagun.Fire", params, NULL ) )
    {
        CPASAttenuationFilter filter( this, params.soundlevel );
        if ( IsPredicted() )
        {
            filter.UsePredictionRules();
        }
        EmitSound( filter, entindex(), "ObjectMannedPlasmagun.Fire" );
    }
//	SetSentryAnim( TFTURRET_ANIM_FIRE );
    DoMuzzleFlash();

    --m_nAmmoCount;

    m_flNextIdleTime = gpGlobals->curtime + MANNED_PLASMAGUN_IDLE_TIME;

    // If I'm EMPed, slow the firing rate down
    m_flNextAttack = gpGlobals->curtime + ( HasPowerup(POWERUP_EMP) ? 0.3f : 0.1f );
}