コード例 #1
0
WALKAROUND::WALKAROUND_STATUS WALKAROUND::Route( const LINE& aInitialPath,
        LINE& aWalkPath, bool aOptimize )
{
    LINE path_cw( aInitialPath ), path_ccw( aInitialPath );
    WALKAROUND_STATUS s_cw = IN_PROGRESS, s_ccw = IN_PROGRESS;
    SHAPE_LINE_CHAIN best_path;

    // special case for via-in-the-middle-of-track placement
    if( aInitialPath.PointCount() <= 1 )
    {
        if( aInitialPath.EndsWithVia() && m_world->CheckColliding( &aInitialPath.Via(), m_itemMask ) )
            return STUCK;

        aWalkPath = aInitialPath;
        return DONE;
    }

    start( aInitialPath );

    m_currentObstacle[0] = m_currentObstacle[1] = nearestObstacle( aInitialPath );
    m_recursiveBlockageCount = 0;

    aWalkPath = aInitialPath;

    if( m_forceWinding )
    {
        s_cw = m_forceCw ? IN_PROGRESS : STUCK;
        s_ccw = m_forceCw ? STUCK : IN_PROGRESS;
        m_forceSingleDirection = true;
    } else {
        m_forceSingleDirection = false;
    }

    while( m_iteration < m_iterationLimit )
    {
        if( s_cw != STUCK )
            s_cw = singleStep( path_cw, true );

        if( s_ccw != STUCK )
            s_ccw = singleStep( path_ccw, false );

        if( ( s_cw == DONE && s_ccw == DONE ) || ( s_cw == STUCK && s_ccw == STUCK ) )
        {
            int len_cw  = path_cw.CLine().Length();
            int len_ccw = path_ccw.CLine().Length();

            if( m_forceLongerPath )
                aWalkPath = ( len_cw > len_ccw ? path_cw : path_ccw );
            else
                aWalkPath = ( len_cw < len_ccw ? path_cw : path_ccw );

            break;
        }
        else if( s_cw == DONE && !m_forceLongerPath )
        {
            aWalkPath = path_cw;
            break;
        }
        else if( s_ccw == DONE && !m_forceLongerPath )
        {
            aWalkPath = path_ccw;
            break;
        }

        m_iteration++;
    }

    if( m_iteration == m_iterationLimit )
    {
        int len_cw  = path_cw.CLine().Length();
        int len_ccw = path_ccw.CLine().Length();

        if( m_forceLongerPath )
            aWalkPath = ( len_cw > len_ccw ? path_cw : path_ccw );
        else
            aWalkPath = ( len_cw < len_ccw ? path_cw : path_ccw );
    }

    if( m_cursorApproachMode )
    {
        // int len_cw = path_cw.GetCLine().Length();
        // int len_ccw = path_ccw.GetCLine().Length();
        bool found = false;

        SHAPE_LINE_CHAIN l = aWalkPath.CLine();

        for( int i = 0; i < l.SegmentCount(); i++ )
        {
            const SEG s = l.Segment( i );

            VECTOR2I nearest = s.NearestPoint( m_cursorPos );
            VECTOR2I::extended_type dist_a = ( s.A - m_cursorPos ).SquaredEuclideanNorm();
            VECTOR2I::extended_type dist_b = ( s.B - m_cursorPos ).SquaredEuclideanNorm();
            VECTOR2I::extended_type dist_n = ( nearest - m_cursorPos ).SquaredEuclideanNorm();

            if( dist_n <= dist_a && dist_n < dist_b )
            {
                l.Remove( i + 1, -1 );
                l.Append( nearest );
                l.Simplify();
                found = true;
                break;
            }
        }

        if( found )
        {
            aWalkPath = aInitialPath;
            aWalkPath.SetShape( l );
        }
    }

    aWalkPath.Line().Simplify();

    if( aWalkPath.SegmentCount() < 1 )
        return STUCK;
    if( aWalkPath.CPoint( -1 ) != aInitialPath.CPoint( -1 ) )
        return STUCK;
    if( aWalkPath.CPoint( 0 ) != aInitialPath.CPoint( 0 ) )
        return STUCK;

    WALKAROUND_STATUS st = s_ccw == DONE || s_cw == DONE ? DONE : STUCK;

    if( st == DONE )
    {
        if( aOptimize )
            OPTIMIZER::Optimize( &aWalkPath, OPTIMIZER::MERGE_OBTUSE, m_world );
    }

    return st;
}
コード例 #2
0
PNS_WALKAROUND::WalkaroundStatus PNS_WALKAROUND::Route( const PNS_LINE& aInitialPath,
        PNS_LINE& aWalkPath,
        bool aOptimize )
{
    PNS_LINE path_cw( aInitialPath ), path_ccw( aInitialPath );
    WalkaroundStatus s_cw = IN_PROGRESS, s_ccw = IN_PROGRESS;
    SHAPE_LINE_CHAIN best_path;

    start( aInitialPath );

    m_currentObstacle[0] = m_currentObstacle[1] = nearestObstacle( aInitialPath );
    m_recursiveBlockageCount = 0;

    aWalkPath = aInitialPath;

    while( m_iteration < m_iteration_limit )
    {
        if( s_cw != STUCK )
            s_cw = singleStep( path_cw, true );

        if( s_ccw != STUCK )
            s_ccw = singleStep( path_ccw, false );

        if( ( s_cw == DONE && s_ccw == DONE ) || ( s_cw == STUCK && s_ccw == STUCK ) )
        {
            int len_cw  = path_cw.GetCLine().Length();
            int len_ccw = path_ccw.GetCLine().Length();

            if( m_forceLongerPath )
                aWalkPath = (len_cw > len_ccw ? path_cw : path_ccw);
            else
                aWalkPath = (len_cw < len_ccw ? path_cw : path_ccw);

            break;
        }
        else if( s_cw == DONE && !m_forceLongerPath )
        {
            aWalkPath = path_cw;
            break;
        }
        else if( s_ccw == DONE && !m_forceLongerPath )
        {
            aWalkPath = path_ccw;
            break;
        }

        m_iteration++;
    }

    if( m_iteration == m_iteration_limit )
    {
        int len_cw  = path_cw.GetCLine().Length();
        int len_ccw = path_ccw.GetCLine().Length();


        if( m_forceLongerPath )
            aWalkPath = (len_cw > len_ccw ? path_cw : path_ccw);
        else
            aWalkPath = (len_cw < len_ccw ? path_cw : path_ccw);
    }

    if( m_cursorApproachMode )
    {
        // int len_cw = path_cw.GetCLine().Length();
        // int len_ccw = path_ccw.GetCLine().Length();
        bool found = false;

        SHAPE_LINE_CHAIN l = aWalkPath.GetCLine();

        for( int i = 0; i < l.SegmentCount(); i++ )
        {
            const SEG s = l.Segment( i );

            VECTOR2I nearest = s.NearestPoint( m_cursorPos );
            VECTOR2I::extended_type dist_a = ( s.A - m_cursorPos ).SquaredEuclideanNorm();
            VECTOR2I::extended_type dist_b = ( s.B - m_cursorPos ).SquaredEuclideanNorm();
            VECTOR2I::extended_type dist_n = ( nearest - m_cursorPos ).SquaredEuclideanNorm();

            if( dist_n <= dist_a && dist_n < dist_b )
            {
                // PNSDisplayDebugLine( l, 3 );
                l.Remove( i + 1, -1 );
                l.Append( nearest );
                l.Simplify();
                found = true;
                break;
            }
        }

        if( found )
        {
            aWalkPath = aInitialPath;
            aWalkPath.SetShape( l );
        }
    }

    aWalkPath.SetWorld( m_world );
    aWalkPath.GetLine().Simplify();

    WalkaroundStatus st = s_ccw == DONE || s_cw == DONE ? DONE : STUCK;

    if( aOptimize && st == DONE )
        PNS_OPTIMIZER::Optimize( &aWalkPath, PNS_OPTIMIZER::MERGE_OBTUSE, m_world );

    return st;
}
コード例 #3
0
bool DRC::doEdgeZoneDrc( ZONE_CONTAINER* aArea, int aCornerIndex )
{
    if( !aArea->IsOnCopperLayer() )    // Cannot have a Drc error if not on copper layer
        return true;
    // Get polygon, contour and vertex index.
    SHAPE_POLY_SET::VERTEX_INDEX index;

    // If the vertex does not exist, there is no conflict
    if( !aArea->Outline()->GetRelativeIndices( aCornerIndex, &index ) )
        return true;

    // Retrieve the selected contour
    SHAPE_LINE_CHAIN contour;
    contour = aArea->Outline()->Polygon( index.m_polygon )[index.m_contour];

    // Retrieve the segment that starts at aCornerIndex-th corner.
    SEG selectedSegment = contour.Segment( index.m_vertex );

    VECTOR2I start = selectedSegment.A;
    VECTOR2I end = selectedSegment.B;

    // iterate through all areas
    for( int ia2 = 0; ia2 < m_pcb->GetAreaCount(); ia2++ )
    {
        ZONE_CONTAINER* area_to_test   = m_pcb->GetArea( ia2 );
        int             zone_clearance = std::max( area_to_test->GetZoneClearance(),
                                                   aArea->GetZoneClearance() );

        // test for same layer
        if( area_to_test->GetLayer() != aArea->GetLayer() )
            continue;

        // Test for same net
        if( ( aArea->GetNetCode() == area_to_test->GetNetCode() ) && (aArea->GetNetCode() >= 0) )
            continue;

        // test for same priority
        if( area_to_test->GetPriority() != aArea->GetPriority() )
            continue;

        // test for same type
        if( area_to_test->GetIsKeepout() != aArea->GetIsKeepout() )
            continue;

        // For keepout, there is no clearance, so use a minimal value for it
        // use 1, not 0 as value to avoid some issues in tests
        if( area_to_test->GetIsKeepout() )
            zone_clearance = 1;

        // test for ending line inside area_to_test
        if( area_to_test->Outline()->Contains( end ) )
        {
            // COPPERAREA_COPPERAREA error: corner inside copper area
            m_currentMarker = fillMarker( aArea, static_cast<wxPoint>( end ),
                                          COPPERAREA_INSIDE_COPPERAREA,
                                          m_currentMarker );
            return false;
        }

        // now test spacing between areas
        int ax1    = start.x;
        int ay1    = start.y;
        int ax2    = end.x;
        int ay2    = end.y;

        // Iterate through all edges in the polygon.
        SHAPE_POLY_SET::SEGMENT_ITERATOR iterator;
        for( iterator = area_to_test->Outline()->IterateSegmentsWithHoles(); iterator; iterator++ )
        {
            SEG segment = *iterator;

            int bx1 = segment.A.x;
            int by1 = segment.A.y;
            int bx2 = segment.B.x;
            int by2 = segment.B.y;

            int x, y;   // variables containing the intersecting point coordinates
            int d = GetClearanceBetweenSegments( bx1, by1, bx2, by2,
                                                 0,
                                                 ax1, ay1, ax2, ay2,
                                                 0,
                                                 zone_clearance,
                                                 &x, &y );

            if( d < zone_clearance )
            {
                // COPPERAREA_COPPERAREA error : edge intersect or too close
                m_currentMarker = fillMarker( aArea, wxPoint( x, y ),
                                              COPPERAREA_CLOSE_TO_COPPERAREA,
                                              m_currentMarker );
                return false;
            }

        }
    }

    return true;
}