//-----------------------------------------------------------------------------
// Purpose: Used at level change and round start to re-calculate which holiday is active
//-----------------------------------------------------------------------------
void UTIL_CalculateHolidays()
{
	s_HolidaysActive.ClearAll();

	CRTime::UpdateRealTime();
	for ( int iHoliday = 0; iHoliday < kHolidayCount; iHoliday++ )
	{
		if ( EconHolidays_IsHolidayActive( iHoliday, CRTime::RTime32TimeCur() ) )
		{
			s_HolidaysActive.Set( iHoliday );
		}
	}

	s_HolidaysCalculated = true;
}
示例#2
0
// Called during player movement to set up/restore after lag compensation
void CLagCompensationManager::StartLagCompensation( CBasePlayer *player, CUserCmd *cmd )
{
	//DONT LAG COMP AGAIN THIS FRAME IF THERES ALREADY ONE IN PROGRESS
	//IF YOU'RE HITTING THIS THEN IT MEANS THERES A CODE BUG
	if ( m_pCurrentPlayer )
	{
		Assert( m_pCurrentPlayer == NULL );
		Warning( "Trying to start a new lag compensation session while one is already active!\n" );
		return;
	}

	// sort out any changes to the AI indexing
	if ( m_bNeedsAIUpdate ) // to be called once per frame... must happen BEFORE lag compensation -
	{// if that happens, that is. if not its called at the end of the frame
		m_bNeedsAIUpdate = false;
		UpdateAIIndexes();
	}

	// Assume no players or entities need to be restored
	m_RestorePlayer.ClearAll();
	m_RestoreEntity.ClearAll();
	m_bNeedToRestore = false;

	m_pCurrentPlayer = player;
	
	if ( !player->m_bLagCompensation		// Player not wanting lag compensation
		 || (gpGlobals->maxClients <= 1)	// no lag compensation in single player
		 || !sv_unlag.GetBool()				// disabled by server admin
		 || player->IsBot() 				// not for bots
		 || player->IsObserver()			// not for spectators
		)
		return;

	// NOTE: Put this here so that it won't show up in single player mode.
	VPROF_BUDGET( "StartLagCompensation", VPROF_BUDGETGROUP_OTHER_NETWORKING );
	Q_memset( m_RestoreData, 0, sizeof( m_RestoreData ) );
	Q_memset( m_ChangeData, 0, sizeof( m_ChangeData ) );
	Q_memset( m_EntityRestoreData, 0, sizeof( m_EntityRestoreData ) );
	Q_memset( m_EntityChangeData, 0, sizeof( m_EntityChangeData ) );

	// Get true latency

	// correct is the amout of time we have to correct game time
	float correct = 0.0f;

	INetChannelInfo *nci = engine->GetPlayerNetInfo( player->entindex() ); 

	if ( nci )
	{
		// add network latency
		correct+= nci->GetLatency( FLOW_OUTGOING );
	}

	// calc number of view interpolation ticks - 1
	int lerpTicks = TIME_TO_TICKS( player->m_fLerpTime );

	// add view interpolation latency see C_BaseEntity::GetInterpolationAmount()
	correct += TICKS_TO_TIME( lerpTicks );
	
	// check bouns [0,sv_maxunlag]
	correct = clamp( correct, 0.0f, sv_maxunlag.GetFloat() );

	// correct tick send by player 
	int targettick = cmd->tick_count - lerpTicks;

	// calc difference between tick send by player and our latency based tick
	float deltaTime =  correct - TICKS_TO_TIME(gpGlobals->tickcount - targettick);

	if ( fabs( deltaTime ) > 0.2f )
	{
		// difference between cmd time and latency is too big > 200ms, use time correction based on latency
		// DevMsg("StartLagCompensation: delta too big (%.3f)\n", deltaTime );
		targettick = gpGlobals->tickcount - TIME_TO_TICKS( correct );
	}
	
	// Iterate all active players
	const CBitVec<MAX_EDICTS> *pEntityTransmitBits = engine->GetEntityTransmitBitsForClient( player->entindex() - 1 );
	for ( int i = 1; i <= gpGlobals->maxClients; i++ )
	{
		CBasePlayer *pPlayer = UTIL_PlayerByIndex( i );
		if ( !pPlayer || player == pPlayer )
			continue;

		// Custom checks for if things should lag compensate (based on things like what team the player is on).
		if ( !player->WantsLagCompensationOnEntity( pPlayer, cmd, pEntityTransmitBits ) )
			continue;

		// Move other player back in time
		BacktrackPlayer( pPlayer, TICKS_TO_TIME( targettick ) );
	}

	// also iterate all monsters
	CAI_BaseNPC **ppAIs = g_AI_Manager.AccessAIs();
	int nAIs = g_AI_Manager.NumAIs();

	for ( int i = 0; i < nAIs; i++ )
	{
		CAI_BaseNPC *pNPC = ppAIs[i];
		// Custom checks for if things should lag compensate
		if ( !pNPC || !player->WantsLagCompensationOnEntity( pNPC, cmd, pEntityTransmitBits ) )
			continue;
		
		// Move NPC back in time
		BacktrackEntity( pNPC, TICKS_TO_TIME( targettick ) );
	}
}
bool _ComputeRagdollBones( const ragdoll_t *pRagdoll, matrix3x4_t &parentTransform, matrix3x4_t *pBones, Vector *pPositions, QAngle *pAngles )
{
	matrix3x4_t inverted, output;

#ifdef _DEBUG
	CBitVec<MAXSTUDIOBONES> vBonesComputed;
	vBonesComputed.ClearAll();
#endif

	for ( int i = 0; i < pRagdoll->listCount; ++i )
	{
		const ragdollelement_t& element = pRagdoll->list[ i ];

		// during restore if a model has changed since the file was saved, this could be NULL
		if ( !element.pObject )
			return false;

		int const boneIndex = pRagdoll->boneIndex[ i ];
		if ( boneIndex < 0 )
		{
			AssertMsg( 0, "Replay: No mapping for ragdoll bone\n" );
			return false;
		}

		// Get global transform and put it into the bone cache
		element.pObject->GetPositionMatrix( &pBones[ boneIndex ] );

		// Ensure a fixed translation from the parent (no stretching)
		if ( element.parentIndex >= 0 && !pRagdoll->allowStretch )
		{
			int parentIndex = pRagdoll->boneIndex[ element.parentIndex ];

#ifdef _DEBUG
			// Make sure we computed the parent already
			Assert( vBonesComputed.IsBitSet(parentIndex) );
#endif

			// overwrite the position from physics to force rigid attachment
			// NOTE: On the client we actually override this with the proper parent bone in each LOD
			Vector out;
			VectorTransform( element.originParentSpace, pBones[ parentIndex ], out );
			MatrixSetColumn( out, 3, pBones[ boneIndex ] );

			MatrixInvert( pBones[ parentIndex ], inverted );
		}
		else if ( element.parentIndex == - 1 )
		{
			// Decompose into parent space
			MatrixInvert( parentTransform, inverted );
		}

#ifdef _DEBUG
		vBonesComputed.Set( boneIndex, true );
#endif

		// Compute local transform and put into 'output'
 		ConcatTransforms( inverted, pBones[ boneIndex ], output );

		// Cache as Euler/position
 		MatrixAngles( output, pAngles[ i ], pPositions[ i ] );
	}
	return true;
}
void CGroundLine::SetParameters(
	const Vector &vStart, 
	const Vector &vEnd, 
	const Vector &vStartColor,	// Color values 0-1
	const Vector &vEndColor,
	float alpha,
	float lineWidth
	)
{
	m_vStart = vStart;
	m_vEnd = vEnd;
	m_vStartColor = vStartColor;
	m_vEndColor = vEndColor;
	m_Alpha = alpha;
	m_LineWidth = lineWidth;

	Vector vTo( vEnd.x - vStart.x, vEnd.y - vStart.y, 0 );
	float flXYLen = vTo.Length();

	// Recalculate our segment list.
	unsigned int nSteps = (int)flXYLen / XY_PER_SEGMENT;
	nSteps = clamp( nSteps, 8, MAX_GROUNDLINE_SEGMENTS ) & ~1;
	unsigned int nMaxSteps = nSteps / 2;

	// First generate the sequence. We generate every other point here so it can insert fixup points to prevent
	// it from crossing world geometry.
	Vector pt[MAX_GROUNDLINE_SEGMENTS];
	Vector vStep = (Vector(m_vEnd[0], m_vEnd[1], 0) - Vector(m_vStart[0], m_vStart[1], 0)) / (nMaxSteps-1);

	pt[0] = FindBestSurfacePoint(m_vStart);

	unsigned int i;
	for(i=1; i < nMaxSteps; i++)
		pt[i<<1] = FindBestSurfacePoint(pt[(i-1)<<1] + vStep);


	CBitVec<MAX_GROUNDLINE_SEGMENTS> pointsUsed;
	pointsUsed.ClearAll();

	// Now try to make sure they don't intersect the geometry.
	for(i=0; i < nMaxSteps-1; i++)
	{
		Vector &a = pt[i<<1];
		Vector &b = pt[(i+1)<<1];

		trace_t trace;
		UTIL_TraceLine(a, b, MASK_SOLID_BRUSHONLY, NULL, COLLISION_GROUP_NONE, &trace);
		if(trace.fraction < 1)
		{
			int cIndex = (i<<1)+1;
			Vector &c = pt[cIndex];

			// Ok, this line segment intersects the world. Do a binary search to try to find the
			// point of intersection.
			Vector hi, lo;
			if(a.z < b.z)
			{
				hi = b;
				lo = a;
			}
			else
			{
				hi = a;
				lo = b;
			}

			if(BinSearchSegments(lo, hi, Vector(lo[0],lo[1],hi[2]), 15, &c))
			{
				pointsUsed.Set( cIndex );
			}
			else if(BinSearchSegments(lo, hi, Vector(hi[0],hi[1],hi[2]+500), 15, &c))
			{
				pointsUsed.Set( cIndex );
			}
		}
	}

	// Export the points.
	m_nPoints = 0;
	for(i=0; i < nSteps; i++)
	{
		// Every other point is always active.
		if( pointsUsed.Get( i ) || !(i & 1) )
		{
			m_Points[m_nPoints] = pt[i];
			++m_nPoints;
		}
	}
}