Example #1
0
//
// Handle the changing state of collision between one entity and any colshape
//
void CColManager::DoHitDetectionForEntity ( const CVector& vecNowPosition, CElement* pEntity )
{
    std::map < CColShape*, int > shortList;

    // Get all entities within the sphere
    CElementResult queryResult;
    GetSpatialDatabase()->SphereQuery ( queryResult, CSphere ( vecNowPosition, 0.0f ) );

    // Extract colshapes
    for ( CElementResult ::const_iterator it = queryResult.begin () ; it != queryResult.end (); ++it )
        if ( (*it)->GetType () == CElement::COLSHAPE )
            shortList[ (CColShape*)*it ] = 1;

    // Add existing collisions, so they can be disconnected if required
    for ( list < CColShape* > ::const_iterator it = pEntity->CollisionsBegin () ; it != pEntity->CollisionsEnd (); ++it )
        shortList[ *it ] = 1;

    // Test each colshape against the entity
    for ( std::map < CColShape*, int > ::const_iterator it = shortList.begin () ; it != shortList.end (); ++it )
    {
        CColShape* pShape = it->first;

        // Enabled and not being deleted?
        if ( !pShape->IsBeingDeleted () && pShape->IsEnabled () )
        {
            // Collided?
            bool bHit = pShape->DoHitDetection ( vecNowPosition );
            HandleHitDetectionResult ( bHit, pShape, pEntity );
        }
    }
}
Example #2
0
//
// Handle the changing state of collision between one colshape and any entity
//
void CColManager::DoHitDetectionForColShape ( CColShape* pShape )
{
    // Ensure colshape is enabled and not being deleted
    if ( pShape->IsBeingDeleted () || !pShape->IsEnabled () )
        return;

    std::map < CElement*, int > entityList;

    // Get all entities within the sphere
    CSphere querySphere = pShape->GetWorldBoundingSphere ();
    CElementResult result;
    GetSpatialDatabase()->SphereQuery ( result, querySphere );
 
    // Extract relevant types
    for ( CElementResult::const_iterator it = result.begin () ; it != result.end (); ++it )
    {
        CElement* pEntity = *it;
        switch ( pEntity->GetType () )
        {
            case CElement::COLSHAPE:
            case CElement::SCRIPTFILE:
            case CElement::RADAR_AREA:
            case CElement::CONSOLE:
            case CElement::TEAM:
            case CElement::BLIP:
            case CElement::DUMMY:
                break;
            default:
                if ( pEntity->GetParentEntity () )
                    entityList[ pEntity ] = 1;
        }
    }

    // Add existing colliders, so they can be disconnected if required
    for ( list < CElement* > ::const_iterator it = pShape->CollidersBegin () ; it != pShape->CollidersEnd (); ++it )
    {
       entityList[ *it ] = 1;
    }

    // Test each entity against the colshape
    for ( std::map < CElement*, int > ::const_iterator it = entityList.begin () ; it != entityList.end (); ++it )
    {
        CElement* pEntity = it->first;
        CVector vecPosition =
        pEntity->GetPosition ();

        // Collided?
        bool bHit = pShape->DoHitDetection ( vecPosition );
        HandleHitDetectionResult ( bHit, pShape, pEntity );
    }
}
Example #3
0
// Put this player in other players nearlist if this player can observe them in some way
void CPlayer::UpdateOthersNearList ( void )
{
    m_UpdateNearListTimer.Reset ();

    // Get the two positions to check
    const CVector& vecPlayerPosition = GetPosition ();
    CVector vecCameraPosition;
    GetCamera ()->GetPosition ( vecCameraPosition );

    m_vecUpdateNearLastPosition = vecPlayerPosition;

    // Fill resultNearBoth with rough list of nearby players
    CElementResult resultNearBoth;
    {
        // Calculate distance from player to his camera. (Note as spatial database is 2D, we can use the 2D distance here)
        const float fCameraDistance = DistanceBetweenPoints2D ( vecCameraPosition, vecPlayerPosition );
        if ( fCameraDistance < 40.f )
        {
            //
            // If player near his camera (which is the usual case), we can do optimized things
            //

            // Do one query with a slightly bigger sphere
            const CVector vecAvgPos = ( vecCameraPosition + vecPlayerPosition ) * 0.5f;
            GetSpatialDatabase()->SphereQuery ( resultNearBoth, CSphere ( vecAvgPos, DISTANCE_FOR_NEAR_VIEWER + fCameraDistance * 0.5f ) );

        }
        else
        {
            //
            // Bit more complicated if camera is not near player
            //

            // Perform queries on spatial database
            CElementResult resultNearCamera;
            GetSpatialDatabase()->SphereQuery ( resultNearCamera, CSphere ( vecCameraPosition, DISTANCE_FOR_NEAR_VIEWER ) );

            CElementResult resultNearPlayer;
            GetSpatialDatabase()->SphereQuery ( resultNearPlayer, CSphere ( vecPlayerPosition, DISTANCE_FOR_NEAR_VIEWER ) );

            std::set < CPlayer* > mergedList;

            // Merge
            for ( CElementResult::const_iterator it = resultNearCamera.begin () ; it != resultNearCamera.end (); ++it )
                if ( (*it)->GetType () == CElement::PLAYER )
                    mergedList.insert ( (CPlayer*)*it );

            for ( CElementResult::const_iterator it = resultNearPlayer.begin () ; it != resultNearPlayer.end (); ++it )
                if ( (*it)->GetType () == CElement::PLAYER )
                    mergedList.insert ( (CPlayer*)*it );

            // Copy to resultNearBoth
            for ( std::set < CPlayer* > ::iterator it = mergedList.begin (); it != mergedList.end (); ++it )
                resultNearBoth.push_back ( *it );
        }
    }

    // Accurately check distance to other players, and put this player in their near list
    for ( CElementResult::const_iterator it = resultNearBoth.begin () ; it != resultNearBoth.end (); ++it )
    {
        if ( (*it)->GetType () == CElement::PLAYER )
        {
            CPlayer* pOtherPlayer = (CPlayer*)*it;
            if ( pOtherPlayer != this )
            {
                const CVector& vecOtherPlayerPos = pOtherPlayer->GetPosition ();

                // Check distance is accurate
                if ( ( vecPlayerPosition - vecOtherPlayerPos ).LengthSquared () < DISTANCE_FOR_NEAR_VIEWER * DISTANCE_FOR_NEAR_VIEWER ||
                     ( vecCameraPosition - vecOtherPlayerPos ).LengthSquared () < DISTANCE_FOR_NEAR_VIEWER * DISTANCE_FOR_NEAR_VIEWER )
                {
                    // Check dimension matches
                    if ( m_usDimension == pOtherPlayer->GetDimension () )
                    {
                        pOtherPlayer->RefreshNearPlayer ( this );

                        // Lightsync needs it the other way round
                        if ( g_pBandwidthSettings->bLightSyncEnabled )
                            this->RefreshNearPlayer ( pOtherPlayer );
                    }
                }
            }
        }
    }
}