doxygen/connectivity__items_8h_source.html

/*

 * This program source code file is part of KICAD, a free EDA CAD application.

 *

 * Copyright (C) 2013-2017 CERN

 * Copyright The KiCad Developers, see AUTHORS.txt for contributors.

 *

 * @author Maciej Suminski <[email protected]>

 * @author Tomasz Wlostowski <[email protected]>

 *

 * This program is free software; you can redistribute it and/or

 * modify it under the terms of the GNU General Public License

 * as published by the Free Software Foundation; either version 2

 * of the License, or (at your option) any later version.

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 *

 * You should have received a copy of the GNU General Public License

 * along with this program.  If not, see <https://www.gnu.org/licenses/>.

 */


#ifndef PCBNEW_CONNECTIVITY_ITEMS_H

#define PCBNEW_CONNECTIVITY_ITEMS_H


#include <geometry/shape_poly_set.h>


#include <algorithm>

#include <atomic>

#include <deque>

#include <functional>

#include <memory>

#include <vector>


#include <connectivity/connectivity_rtree.h>

#include <connectivity/connectivity_data.h>


class CN_ITEM;

class CN_CLUSTER;

class PCB_SHAPE;


class CN_ANCHOR

{

public:


    CN_ANCHOR( const VECTOR2I& aPos, CN_ITEM* aItem ) :

            m_pos( aPos ),

            m_item( aItem ),

            m_tag( -1 ),

            m_noline( false )

    { }


    bool Valid() const;


    bool Dirty() const;


    CN_ITEM* Item() const { return m_item; }

    void SetItem( CN_ITEM* aItem ) { m_item = aItem; }


    BOARD_CONNECTED_ITEM* Parent() const;


    const VECTOR2I& Pos() const { return m_pos; }


    void Move( const VECTOR2I& aPos )

    {

        m_pos += aPos;

    }


     unsigned int Dist( const CN_ANCHOR& aSecond )

    {

        return ( m_pos - aSecond.Pos() ).EuclideanNorm();

    }


    int GetTag() const { return m_tag; }

    void SetTag( int aTag ) { m_tag = aTag; }


    const bool& GetNoLine() const { return m_noline; }

    void SetNoLine( bool aEnable ) { m_noline = aEnable; }


    const std::shared_ptr<CN_CLUSTER>& GetCluster() const { return m_cluster; }

    void SetCluster( std::shared_ptr<CN_CLUSTER>& aCluster ) { m_cluster = aCluster; }


    bool IsDangling() const;


    int ConnectedItemsCount() const;


    // Tag used for unconnected items.

    static const int TAG_UNCONNECTED = -1;


private:

    VECTOR2I    m_pos;

    CN_ITEM*    m_item;

    int         m_tag;

    bool        m_noline;


    std::shared_ptr<CN_CLUSTER> m_cluster;

};


class CN_ITEM

{

public:

    void Dump();


    CN_ITEM( BOARD_CONNECTED_ITEM* aParent, bool aCanChangeNet, int aAnchorCount = 2 )

    {

        m_parent = aParent;

        m_canChangeNet = aCanChangeNet;

        m_valid = true;

        m_dirty = true;

        m_anchors.reserve( std::max( 6, aAnchorCount ) );

        m_start_layer = 0;

        m_end_layer = std::numeric_limits<int>::max();

        m_connected.reserve( 8 );

    }


    virtual ~CN_ITEM()

    {

        for( const std::shared_ptr<CN_ANCHOR>& anchor : m_anchors )

            anchor->SetItem( nullptr );

    };


    std::shared_ptr<CN_ANCHOR> AddAnchor( const VECTOR2I& aPos )

    {

        m_anchors.emplace_back( std::make_shared<CN_ANCHOR>( aPos, this ) );

        return m_anchors.at( m_anchors.size() - 1 );

    }


    std::vector<std::shared_ptr<CN_ANCHOR>>& Anchors() { return m_anchors; }


    void SetValid( bool aValid ) { m_valid = aValid; }

    bool Valid() const { return m_valid; }


    void SetDirty( bool aDirty ) { m_dirty.store( aDirty, std::memory_order_release ); }

    bool Dirty() const { return m_dirty.load( std::memory_order_acquire ); }


    void SetLayers( int aStartLayer, int aEndLayer )

    {

        // B_Cu is nominally layer 2 but we reset it to INT_MAX to ensure that it is

        // always greater than any other layer in the RTree

        if( aStartLayer == B_Cu )

            aStartLayer = std::numeric_limits<int>::max();


        if( aEndLayer == B_Cu )

            aEndLayer = std::numeric_limits<int>::max();


        m_start_layer = aStartLayer;

        m_end_layer = aEndLayer;

    }


    void SetLayer( int aLayer ) { SetLayers( aLayer, aLayer ); }


    int StartLayer() const { return m_start_layer; }

    int EndLayer() const { return m_end_layer; }


    virtual int Layer() const

    {

        return StartLayer();

    }


    PCB_LAYER_ID GetBoardLayer() const

    {

        int layer = Layer();


        if( layer == std::numeric_limits<int>::max() )

            layer = B_Cu;


        return ToLAYER_ID( layer );

    }


    const BOX2I& BBox()

    {

        if( m_dirty.load( std::memory_order_acquire ) && m_valid )

        {

            std::lock_guard<std::mutex> lock( m_listLock );


            if( m_dirty.load( std::memory_order_relaxed ) && m_valid )

            {

                m_bbox = m_parent->GetBoundingBox();

                m_dirty.store( false, std::memory_order_release );

            }

        }


        return m_bbox;

    }


    BOARD_CONNECTED_ITEM* Parent() const { return m_parent; }


    const std::vector<CN_ITEM*>& ConnectedItems() const { return m_connected; }

    void ClearConnections() { m_connected.clear(); }


    bool CanChangeNet() const { return m_canChangeNet; }


    void Connect( CN_ITEM* b )

    {

        std::lock_guard<std::mutex> lock( m_listLock );


        auto i = std::lower_bound( m_connected.begin(), m_connected.end(), b );


        if( i != m_connected.end() && *i == b )

          return;


        m_connected.insert( i, b );

    }


    void RemoveInvalidRefs();


    virtual int AnchorCount() const;

    virtual const VECTOR2I GetAnchor( int n ) const;


    int Net() const

    {

        return ( !m_parent || !m_valid ) ? -1 : m_parent->GetNetCode();

    }


protected:

    std::atomic<bool> m_dirty;

    int             m_start_layer;

    int             m_end_layer;

    BOX2I           m_bbox;


private:

    BOARD_CONNECTED_ITEM*                    m_parent;


    std::vector<CN_ITEM*>                    m_connected;

    std::vector<std::shared_ptr<CN_ANCHOR>>  m_anchors;


    bool            m_canChangeNet;


    bool            m_valid;


    std::mutex      m_listLock;

};


/*

 * Represents a single outline of a zone fill on a particular layer.  \a aSubpolyIndex indicates

 * which outline in the fill's SHAPE_POLY_SET.

 */


class CN_ZONE_LAYER : public CN_ITEM

{

public:


    CN_ZONE_LAYER( ZONE* aParent, PCB_LAYER_ID aLayer, int aSubpolyIndex ) :

            CN_ITEM( aParent, false ),

            m_zone( aParent ),

            m_subpolyIndex( aSubpolyIndex ),

            m_layer( aLayer )

    {

        std::shared_ptr<SHAPE_POLY_SET> fillPoly = aParent->GetFilledPolysList( aLayer );


        if( fillPoly && aSubpolyIndex < fillPoly->OutlineCount() )

            m_outline = fillPoly->Outline( aSubpolyIndex );


        SetLayers( aLayer, aLayer );

    }


    void BuildRTree()

    {

        if( m_zone->IsTeardropArea() )

            return;


        m_triangulatedPolys.clear();

        m_rTree.RemoveAll();


        std::shared_ptr<SHAPE_POLY_SET> fillPoly = m_zone->GetFilledPolysList( m_layer );


        if( !fillPoly )

            return;


        for( unsigned int ii = 0; ii < fillPoly->TriangulatedPolyCount(); ++ii )

        {

            const auto* triangleSet = fillPoly->TriangulatedPolygon( ii );


            if( triangleSet->GetSourceOutlineIndex() != m_subpolyIndex )

                continue;


            // Deep copy the triangulated polygon. The copy constructor copies the vertex storage

            // and updates all TRI parent pointers to reference our owned copy. This ensures the

            // triangles remain valid even if the zone is refilled on another thread.

            m_triangulatedPolys.push_back(

                    std::make_unique<SHAPE_POLY_SET::TRIANGULATED_POLYGON>( *triangleSet ) );

        }


        for( const auto& triPoly : m_triangulatedPolys )

        {

            for( const SHAPE_POLY_SET::TRIANGULATED_POLYGON::TRI& tri : triPoly->Triangles() )

            {

                BOX2I     bbox = tri.BBox();

                const int mmin[2] = { bbox.GetX(), bbox.GetY() };

                const int mmax[2] = { bbox.GetRight(), bbox.GetBottom() };


                m_rTree.Insert( mmin, mmax, &tri );

            }

        }

    }


    int SubpolyIndex() const { return m_subpolyIndex; }


    PCB_LAYER_ID GetLayer() const { return m_layer; }


    bool ContainsPoint( const VECTOR2I& p ) const

    {

        if( m_outline.PointCount() == 0 )

            return false;


        if( m_zone->IsTeardropArea() )

            return m_outline.Collide( p );


        int  min[2] = { p.x, p.y };

        int  max[2] = { p.x, p.y };

        bool collision = false;


        auto visitor =

                [&]( const SHAPE* aShape ) -> bool

                {

                    if( aShape->Collide( p ) )

                    {

                        collision = true;

                        return false;

                    }


                    return true;

                };


        m_rTree.Search( min, max, visitor );


        return collision;

    }


    PCB_LAYER_ID GetLayer() { return m_layer; }


    virtual int AnchorCount() const override;

    virtual const VECTOR2I GetAnchor( int n ) const override;


    bool HasValidOutline() const

    {

        return m_outline.PointCount() > 0;

    }


    const SHAPE_LINE_CHAIN& GetOutline() const

    {

        return m_outline;

    }


    int OutlinePointCount() const

    {

        return m_outline.PointCount();

    }


    const VECTOR2I& OutlinePoint( int aIndex ) const

    {

        return m_outline.CPoint( aIndex );

    }


    bool Collide( SHAPE* aRefShape ) const

    {

        if( m_outline.PointCount() == 0 )

            return false;


        if( m_zone->IsTeardropArea() )

            return aRefShape->Collide( &m_outline, 0 );


        BOX2I bbox = aRefShape->BBox();

        int  min[2] = { bbox.GetX(), bbox.GetY() };

        int  max[2] = { bbox.GetRight(), bbox.GetBottom() };

        bool collision = false;


        auto visitor =

                [&]( const SHAPE* aShape ) -> bool

                {

                    if( aRefShape->Collide( aShape ) )

                    {

                        collision = true;

                        return false;

                    }


                    return true;

                };


        m_rTree.Search( min, max, visitor );


        return collision;

    }


    bool HasSingleConnection();


private:

    ZONE*                               m_zone;

    int                                 m_subpolyIndex;

    PCB_LAYER_ID                        m_layer;

    SHAPE_LINE_CHAIN                    m_outline;

    std::vector<std::unique_ptr<SHAPE_POLY_SET::TRIANGULATED_POLYGON>> m_triangulatedPolys;

    KIRTREE::DYNAMIC_RTREE<const SHAPE*, int, 2> m_rTree;

};


class CN_LIST

{

public:


    CN_LIST()

    {

        m_dirty = false;

        m_hasInvalid = false;

    }


    void Clear()

    {

        for( CN_ITEM* item : m_items )

            delete item;


        m_items.clear();

        m_index.RemoveAll();

    }


    std::vector<CN_ITEM*>::iterator begin() { return m_items.begin(); };

    std::vector<CN_ITEM*>::iterator end() { return m_items.end(); };


    std::vector<CN_ITEM*>::const_iterator begin() const { return m_items.begin(); }

    std::vector<CN_ITEM*>::const_iterator end() const { return m_items.end(); }


    CN_ITEM* operator[] ( int aIndex ) { return m_items[aIndex]; }


    template <class T>


    void FindNearby( CN_ITEM* aItem, T aFunc )

    {

        m_index.Query( aItem->BBox(), aItem->StartLayer(), aItem->EndLayer(), aFunc );

    }


    void SetHasInvalid( bool aInvalid = true ) { m_hasInvalid = aInvalid; }


    void SetDirty( bool aDirty = true ) { m_dirty = aDirty; }

    bool IsDirty() const { return m_dirty; }


    void RemoveInvalidItems( std::vector<CN_ITEM*>& aGarbage );


    void ClearDirtyFlags()

    {

        for( CN_ITEM* item : m_items )

            item->SetDirty( false );


        SetDirty( false );

    }


    int Size() const { return m_items.size(); }


    CN_ITEM* Add( PAD* pad );

    CN_ITEM* Add( PCB_TRACK* track );

    CN_ITEM* Add( PCB_ARC* track );

    CN_ITEM* Add( PCB_VIA* via );

    CN_ITEM* Add( CN_ZONE_LAYER* zitem );

    CN_ITEM* Add( PCB_SHAPE* shape );


    const std::vector<CN_ITEM*> Add( ZONE* zone, PCB_LAYER_ID aLayer );


protected:


    void addItemtoTree( CN_ITEM* item )

    {

        m_index.Insert( item );

    }


protected:

    std::vector<CN_ITEM*> m_items;


private:

    bool                  m_dirty;

    bool                  m_hasInvalid;

    CN_RTREE<CN_ITEM*>    m_index;

};


class CN_CLUSTER

{

public:

    CN_CLUSTER();

    ~CN_CLUSTER();


    bool HasValidNet() const { return m_originNet > 0; }

    int OriginNet() const { return m_originNet; }


    wxString OriginNetName() const;


    bool Contains( const CN_ITEM* aItem );

    bool Contains( const BOARD_CONNECTED_ITEM* aItem );

    void Dump();


    int Size() const { return m_items.size(); }


    bool IsOrphaned() const

    {

        return m_originPad == nullptr;

    }


    bool IsConflicting() const { return m_conflicting; }


    void Add( CN_ITEM* item );


    std::vector<CN_ITEM*>::iterator begin() { return m_items.begin(); };

    std::vector<CN_ITEM*>::iterator end() { return m_items.end(); };


private:

    bool                         m_conflicting;

    int                          m_originNet;

    CN_ITEM*                     m_originPad;

    std::vector<CN_ITEM*>        m_items;

    std::unordered_map<int, int> m_netRanks;

};


#endif /* PCBNEW_CONNECTIVITY_ITEMS_H */

BITMAPS::via
@ via
Definition bitmaps_list.h:658

BITMAPS::anchor
@ anchor
Definition bitmaps_list.h:89

BITMAPS::pad
@ pad
Definition bitmaps_list.h:412

BOX2I
BOX2< VECTOR2I > BOX2I
Definition box2.h:918

BOARD_CONNECTED_ITEM
A base class derived from BOARD_ITEM for items that can be connected and have a net,...
Definition board_connected_item.h:42

BOX2::GetY
constexpr coord_type GetY() const
Definition box2.h:204

BOX2::GetX
constexpr coord_type GetX() const
Definition box2.h:203

BOX2::GetRight
constexpr coord_type GetRight() const
Definition box2.h:213

BOX2::GetBottom
constexpr coord_type GetBottom() const
Definition box2.h:218

CN_ANCHOR::SetTag
void SetTag(int aTag)
Definition connectivity_items.h:82

CN_ANCHOR::m_item
CN_ITEM * m_item
Pad or track/arc/via owning the anchor.
Definition connectivity_items.h:110

CN_ANCHOR::TAG_UNCONNECTED
static const int TAG_UNCONNECTED
Definition connectivity_items.h:106

CN_ANCHOR::m_pos
VECTOR2I m_pos
Position of the anchor.
Definition connectivity_items.h:109

CN_ANCHOR::Move
void Move(const VECTOR2I &aPos)
Definition connectivity_items.h:70

CN_ANCHOR::Valid
bool Valid() const
Definition connectivity_items.cpp:326

CN_ANCHOR::SetNoLine
void SetNoLine(bool aEnable)
Definition connectivity_items.h:86

CN_ANCHOR::ConnectedItemsCount
int ConnectedItemsCount() const
Definition connectivity_items.cpp:388

CN_ANCHOR::m_cluster
std::shared_ptr< CN_CLUSTER > m_cluster
Cluster to which the anchor belongs.
Definition connectivity_items.h:114

CN_ANCHOR::CN_ANCHOR
CN_ANCHOR(const VECTOR2I &aPos, CN_ITEM *aItem)
Definition connectivity_items.h:52

CN_ANCHOR::GetNoLine
const bool & GetNoLine() const
Definition connectivity_items.h:85

CN_ANCHOR::GetTag
int GetTag() const
Definition connectivity_items.h:81

CN_ANCHOR::GetCluster
const std::shared_ptr< CN_CLUSTER > & GetCluster() const
Definition connectivity_items.h:88

CN_ANCHOR::Dist
unsigned int Dist(const CN_ANCHOR &aSecond)
Definition connectivity_items.h:75

CN_ANCHOR::SetCluster
void SetCluster(std::shared_ptr< CN_CLUSTER > &aCluster)
Definition connectivity_items.h:89

CN_ANCHOR::Pos
const VECTOR2I & Pos() const
Definition connectivity_items.h:68

CN_ANCHOR::Dirty
bool Dirty() const
Definition connectivity_items.cpp:335

CN_ANCHOR::Item
CN_ITEM * Item() const
Definition connectivity_items.h:63

CN_ANCHOR::m_tag
int m_tag
Tag for quick connection resolution.
Definition connectivity_items.h:111

CN_ANCHOR::m_noline
bool m_noline
Whether it the node can be a target for ratsnest lines.
Definition connectivity_items.h:112

CN_ANCHOR::Parent
BOARD_CONNECTED_ITEM * Parent() const
Definition connectivity_items.cpp:319

CN_ANCHOR::IsDangling
bool IsDangling() const
The anchor point is dangling if the parent is a track and this anchor point is not connected to anoth...
Definition connectivity_items.cpp:341

CN_ANCHOR::SetItem
void SetItem(CN_ITEM *aItem)
Definition connectivity_items.h:64

CN_CLUSTER
Definition connectivity_items.h:517

CN_CLUSTER::Size
int Size() const
Definition connectivity_items.h:531

CN_CLUSTER::CN_CLUSTER
CN_CLUSTER()
Definition connectivity_items.cpp:414

CN_CLUSTER::end
std::vector< CN_ITEM * >::iterator end()
Definition connectivity_items.h:543

CN_CLUSTER::m_items
std::vector< CN_ITEM * > m_items
Definition connectivity_items.h:549

CN_CLUSTER::Dump
void Dump()
Definition connectivity_items.cpp:453

CN_CLUSTER::IsConflicting
bool IsConflicting() const
Definition connectivity_items.h:538

CN_CLUSTER::IsOrphaned
bool IsOrphaned() const
Definition connectivity_items.h:533

CN_CLUSTER::m_conflicting
bool m_conflicting
Definition connectivity_items.h:546

CN_CLUSTER::Contains
bool Contains(const CN_ITEM *aItem)
Definition connectivity_items.cpp:437

CN_CLUSTER::m_originNet
int m_originNet
Definition connectivity_items.h:547

CN_CLUSTER::Add
void Add(CN_ITEM *item)
Definition connectivity_items.cpp:472

CN_CLUSTER::m_originPad
CN_ITEM * m_originPad
Definition connectivity_items.h:548

CN_CLUSTER::begin
std::vector< CN_ITEM * >::iterator begin()
Definition connectivity_items.h:542

CN_CLUSTER::OriginNetName
wxString OriginNetName() const
Definition connectivity_items.cpp:428

CN_CLUSTER::m_netRanks
std::unordered_map< int, int > m_netRanks
Definition connectivity_items.h:550

CN_CLUSTER::HasValidNet
bool HasValidNet() const
Definition connectivity_items.h:522

CN_CLUSTER::OriginNet
int OriginNet() const
Definition connectivity_items.h:523

CN_CLUSTER::~CN_CLUSTER
~CN_CLUSTER()
Definition connectivity_items.cpp:423

CN_ITEM
CN_ITEM represents a BOARD_CONNETED_ITEM in the connectivity system (ie: a pad, track/arc/via,...
Definition connectivity_items.h:124

CN_ITEM::Layer
virtual int Layer() const
Return the item's layer, for single-layered items only.
Definition connectivity_items.h:193

CN_ITEM::Connect
void Connect(CN_ITEM *b)
Definition connectivity_items.h:235

CN_ITEM::~CN_ITEM
virtual ~CN_ITEM()
Definition connectivity_items.h:140

CN_ITEM::BBox
const BOX2I & BBox()
Definition connectivity_items.h:212

CN_ITEM::AnchorCount
virtual int AnchorCount() const
Definition connectivity_items.cpp:36

CN_ITEM::RemoveInvalidRefs
void RemoveInvalidRefs()
Definition connectivity_items.cpp:133

CN_ITEM::m_connected
std::vector< CN_ITEM * > m_connected
list of physically touching items
Definition connectivity_items.h:267

CN_ITEM::ConnectedItems
const std::vector< CN_ITEM * > & ConnectedItems() const
Definition connectivity_items.h:230

CN_ITEM::Dump
void Dump()
Definition connectivity_items.cpp:86

CN_ITEM::Net
int Net() const
Definition connectivity_items.h:252

CN_ITEM::m_start_layer
int m_start_layer
start layer of the item N.B. B_Cu is set to INT_MAX
Definition connectivity_items.h:260

CN_ITEM::SetValid
void SetValid(bool aValid)
Definition connectivity_items.h:154

CN_ITEM::m_dirty
std::atomic< bool > m_dirty
used to identify recently added item not yet scanned into the connectivity search
Definition connectivity_items.h:258

CN_ITEM::m_parent
BOARD_CONNECTED_ITEM * m_parent
Definition connectivity_items.h:265

CN_ITEM::m_end_layer
int m_end_layer
end layer of the item N.B. B_Cu is set to INT_MAX
Definition connectivity_items.h:261

CN_ITEM::Valid
bool Valid() const
Definition connectivity_items.h:155

CN_ITEM::StartLayer
int StartLayer() const
Return the contiguous set of layers spanned by the item.
Definition connectivity_items.h:185

CN_ITEM::AddAnchor
std::shared_ptr< CN_ANCHOR > AddAnchor(const VECTOR2I &aPos)
Definition connectivity_items.h:146

CN_ITEM::SetLayers
void SetLayers(int aStartLayer, int aEndLayer)
Set the layers spanned by the item to aStartLayer and aEndLayer.
Definition connectivity_items.h:163

CN_ITEM::ClearConnections
void ClearConnections()
Definition connectivity_items.h:231

CN_ITEM::m_bbox
BOX2I m_bbox
bounding box for the item
Definition connectivity_items.h:262

CN_ITEM::GetAnchor
virtual const VECTOR2I GetAnchor(int n) const
Definition connectivity_items.cpp:56

CN_ITEM::GetBoardLayer
PCB_LAYER_ID GetBoardLayer() const
When using CN_ITEM layers to compare against board items, use this function which correctly remaps th...
Definition connectivity_items.h:202

CN_ITEM::m_canChangeNet
bool m_canChangeNet
can the net propagator modify the netcode?
Definition connectivity_items.h:270

CN_ITEM::SetDirty
void SetDirty(bool aDirty)
Definition connectivity_items.h:157

CN_ITEM::CanChangeNet
bool CanChangeNet() const
Definition connectivity_items.h:233

CN_ITEM::CN_ITEM
CN_ITEM(BOARD_CONNECTED_ITEM *aParent, bool aCanChangeNet, int aAnchorCount=2)
Definition connectivity_items.h:128

CN_ITEM::EndLayer
int EndLayer() const
Definition connectivity_items.h:186

CN_ITEM::SetLayer
void SetLayer(int aLayer)
Set the layers spanned by the item to a single layer aLayer.
Definition connectivity_items.h:180

CN_ITEM::m_anchors
std::vector< std::shared_ptr< CN_ANCHOR > > m_anchors
Definition connectivity_items.h:268

CN_ITEM::m_valid
bool m_valid
used to identify garbage items (we use lazy removal)
Definition connectivity_items.h:272

CN_ITEM::Dirty
bool Dirty() const
Definition connectivity_items.h:158

CN_ITEM::Anchors
std::vector< std::shared_ptr< CN_ANCHOR > > & Anchors()
Definition connectivity_items.h:152

CN_ITEM::Parent
BOARD_CONNECTED_ITEM * Parent() const
Definition connectivity_items.h:228

CN_ITEM::m_listLock
std::mutex m_listLock
mutex protecting this item's connected_items set to
Definition connectivity_items.h:274

CN_LIST::m_index
CN_RTREE< CN_ITEM * > m_index
Definition connectivity_items.h:512

CN_LIST::CN_LIST
CN_LIST()
Definition connectivity_items.h:445

CN_LIST::operator[]
CN_ITEM * operator[](int aIndex)
Definition connectivity_items.h:466

CN_LIST::Add
CN_ITEM * Add(PAD *pad)
Definition connectivity_items.cpp:145

CN_LIST::m_hasInvalid
bool m_hasInvalid
Definition connectivity_items.h:511

CN_LIST::begin
std::vector< CN_ITEM * >::iterator begin()
Definition connectivity_items.h:460

CN_LIST::begin
std::vector< CN_ITEM * >::const_iterator begin() const
Definition connectivity_items.h:463

CN_LIST::SetDirty
void SetDirty(bool aDirty=true)
Definition connectivity_items.h:476

CN_LIST::Size
int Size() const
Definition connectivity_items.h:489

CN_LIST::end
std::vector< CN_ITEM * >::const_iterator end() const
Definition connectivity_items.h:464

CN_LIST::IsDirty
bool IsDirty() const
Definition connectivity_items.h:477

CN_LIST::end
std::vector< CN_ITEM * >::iterator end()
Definition connectivity_items.h:461

CN_LIST::m_items
std::vector< CN_ITEM * > m_items
Definition connectivity_items.h:507

CN_LIST::FindNearby
void FindNearby(CN_ITEM *aItem, T aFunc)
Definition connectivity_items.h:469

CN_LIST::Clear
void Clear()
Definition connectivity_items.h:451

CN_LIST::ClearDirtyFlags
void ClearDirtyFlags()
Definition connectivity_items.h:481

CN_LIST::addItemtoTree
void addItemtoTree(CN_ITEM *item)
Definition connectivity_items.h:501

CN_LIST::SetHasInvalid
void SetHasInvalid(bool aInvalid=true)
Definition connectivity_items.h:474

CN_LIST::m_dirty
bool m_dirty
Definition connectivity_items.h:510

CN_LIST::RemoveInvalidItems
void RemoveInvalidItems(std::vector< CN_ITEM * > &aGarbage)
Definition connectivity_items.cpp:293

CN_RTREE
CN_RTREE - Implements an R-tree for fast spatial indexing of connectivity items.
Definition connectivity_rtree.h:37

CN_ZONE_LAYER
Definition connectivity_items.h:283

CN_ZONE_LAYER::m_subpolyIndex
int m_subpolyIndex
Definition connectivity_items.h:431

CN_ZONE_LAYER::AnchorCount
virtual int AnchorCount() const override
Definition connectivity_items.cpp:98

CN_ZONE_LAYER::HasSingleConnection
bool HasSingleConnection()
Definition connectivity_items.cpp:116

CN_ZONE_LAYER::GetOutline
const SHAPE_LINE_CHAIN & GetOutline() const
Definition connectivity_items.h:382

CN_ZONE_LAYER::CN_ZONE_LAYER
CN_ZONE_LAYER(ZONE *aParent, PCB_LAYER_ID aLayer, int aSubpolyIndex)
Definition connectivity_items.h:285

CN_ZONE_LAYER::m_triangulatedPolys
std::vector< std::unique_ptr< SHAPE_POLY_SET::TRIANGULATED_POLYGON > > m_triangulatedPolys
Definition connectivity_items.h:435

CN_ZONE_LAYER::GetAnchor
virtual const VECTOR2I GetAnchor(int n) const override
Definition connectivity_items.cpp:107

CN_ZONE_LAYER::OutlinePoint
const VECTOR2I & OutlinePoint(int aIndex) const
Definition connectivity_items.h:392

CN_ZONE_LAYER::GetLayer
PCB_LAYER_ID GetLayer() const
Definition connectivity_items.h:341

CN_ZONE_LAYER::Collide
bool Collide(SHAPE *aRefShape) const
Definition connectivity_items.h:397

CN_ZONE_LAYER::SubpolyIndex
int SubpolyIndex() const
Definition connectivity_items.h:339

CN_ZONE_LAYER::BuildRTree
void BuildRTree()
Definition connectivity_items.h:299

CN_ZONE_LAYER::m_rTree
KIRTREE::DYNAMIC_RTREE< const SHAPE *, int, 2 > m_rTree
Definition connectivity_items.h:436

CN_ZONE_LAYER::OutlinePointCount
int OutlinePointCount() const
Definition connectivity_items.h:387

CN_ZONE_LAYER::m_layer
PCB_LAYER_ID m_layer
Definition connectivity_items.h:432

CN_ZONE_LAYER::m_outline
SHAPE_LINE_CHAIN m_outline
Cached copy of the zone outline.
Definition connectivity_items.h:433

CN_ZONE_LAYER::m_zone
ZONE * m_zone
Definition connectivity_items.h:430

CN_ZONE_LAYER::GetLayer
PCB_LAYER_ID GetLayer()
Definition connectivity_items.h:372

CN_ZONE_LAYER::ContainsPoint
bool ContainsPoint(const VECTOR2I &p) const
Definition connectivity_items.h:343

CN_ZONE_LAYER::HasValidOutline
bool HasValidOutline() const
Definition connectivity_items.h:377

KIRTREE::DYNAMIC_RTREE
Dynamic R*-tree with SoA node layout and stored insertion bounding boxes.
Definition dynamic_rtree.h:60

PAD
Definition pad.h:61

PCB_ARC
Definition pcb_track.h:257

PCB_SHAPE
Definition pcb_shape.h:35

PCB_TRACK
Definition pcb_track.h:57

PCB_VIA
Definition pcb_track.h:355

SHAPE_LINE_CHAIN
Represent a polyline containing arcs as well as line segments: A chain of connected line and/or arc s...
Definition shape_line_chain.h:78

SHAPE
An abstract shape on 2D plane.
Definition shape.h:124

SHAPE::Collide
virtual bool Collide(const VECTOR2I &aP, int aClearance=0, int *aActual=nullptr, VECTOR2I *aLocation=nullptr) const
Check if the boundary of shape (this) lies closer to the point aP than aClearance,...
Definition shape.h:179

SHAPE::BBox
virtual const BOX2I BBox(int aClearance=0) const =0
Compute a bounding box of the shape, with a margin of aClearance a collision.

VECTOR2::x
T x
Definition vector2d.h:75

VECTOR2::y
T y
Definition vector2d.h:75

ZONE
Handle a list of polygons defining a copper zone.
Definition zone.h:70

ZONE::GetFilledPolysList
std::shared_ptr< SHAPE_POLY_SET > GetFilledPolysList(PCB_LAYER_ID aLayer) const
Definition zone.h:697

connectivity_data.h

connectivity_rtree.h

PCB_LAYER_ID
PCB_LAYER_ID
A quick note on layer IDs:
Definition layer_ids.h:56

B_Cu
@ B_Cu
Definition layer_ids.h:61

ToLAYER_ID
PCB_LAYER_ID ToLAYER_ID(int aLayer)
Definition lset.cpp:750

shape_poly_set.h

SHAPE_POLY_SET::TRIANGULATED_POLYGON::TRI
Definition shape_poly_set.h:79

TRANSLINE_PARAMETERS::T
@ T
Definition transline_calculation_base.h:39

VECTOR2I
VECTOR2< int32_t > VECTOR2I
Definition vector2d.h:683