doxygen/pns__router_8cpp_source.html

/*

 * KiRouter - a push-and-(sometimes-)shove PCB router

 *

 * Copyright (C) 2013-2014 CERN

 * Copyright (C) 2016-2024 KiCad Developers, see AUTHORS.txt for contributors.

 * 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 3 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 <http://www.gnu.org/licenses/>.

 */


#include <cstdio>

#include <memory>

#include <vector>


#include <gal/graphics_abstraction_layer.h>


#include <advanced_config.h>

#include <settings/settings_manager.h>


#include <pcb_painter.h>

#include <pad.h>

#include <zone.h>


#include <geometry/shape.h>


#include "pns_node.h"

#include "pns_line_placer.h"

#include "pns_line.h"

#include "pns_solid.h"

#include "pns_utils.h"

#include "pns_router.h"

#include "pns_shove.h"

#include "pns_dragger.h"

#include "pns_multi_dragger.h"

#include "pns_component_dragger.h"

#include "pns_topology.h"

#include "pns_diff_pair_placer.h"

#include "pns_meander_placer.h"

#include "pns_meander_skew_placer.h"

#include "pns_dp_meander_placer.h"

#include "router_preview_item.h"


namespace PNS {


// an ugly singleton for drawing debug items within the router context.

// To be fixed sometime in the future.

static ROUTER* theRouter;


ROUTER::ROUTER()

{

    theRouter = this;


    m_state = IDLE;

    m_mode = PNS_MODE_ROUTE_SINGLE;


    m_logger = nullptr;


    if( ADVANCED_CFG::GetCfg().m_EnableRouterDump )

        m_logger = new LOGGER;


    // Initialize all other variables:

    m_lastNode = nullptr;

    m_iterLimit = 0;

    m_settings = nullptr;

    m_iface = nullptr;

    m_visibleViewArea.SetMaximum();

}


ROUTER* ROUTER::GetInstance()

{

    return theRouter;

}


ROUTER::~ROUTER()

{

    ClearWorld();

    theRouter = nullptr;

    delete m_logger;

}


void ROUTER::SyncWorld()

{

    ClearWorld();


    m_world = std::make_unique<NODE>( );

    m_iface->SyncWorld( m_world.get() );

    m_world->FixupVirtualVias();

}


void ROUTER::ClearWorld()

{

    if( m_world )

    {

        m_world->SetRuleResolver( nullptr );

        m_world->KillChildren();

        m_world.reset();

    }


    m_placer.reset();

}


bool ROUTER::RoutingInProgress() const

{

    return m_state != IDLE;

}


const ITEM_SET ROUTER::QueryHoverItems( const VECTOR2I& aP, int aSlopRadius )

{

    NODE*         node = m_placer ? m_placer->CurrentNode() : m_world.get();

    PNS::ITEM_SET ret;


    wxCHECK( node, ret );


    if( aSlopRadius > 0 )

    {

        NODE::OBSTACLES          obs;

        SEGMENT                  test( SEG( aP, aP ), nullptr );

        COLLISION_SEARCH_OPTIONS opts;


        test.SetWidth( 1 );

        test.SetLayers( PNS_LAYER_RANGE::All() );


        opts.m_differentNetsOnly = false;

        opts.m_overrideClearance = aSlopRadius;


        node->QueryColliding( &test, obs, opts );


        for( const OBSTACLE& obstacle : obs )

            ret.Add( obstacle.m_item, false );


        return ret;

    }

    else

    {

        return node->HitTest( aP );

    }

}


bool ROUTER::StartDragging( const VECTOR2I& aP, ITEM* aItem, int aDragMode )

{

    m_leaderSegments.clear();

    return StartDragging( aP, ITEM_SET( aItem ), aDragMode );

}


bool ROUTER::StartDragging( const VECTOR2I& aP, ITEM_SET aStartItems, int aDragMode )

{

    m_leaderSegments.clear();


    if( aStartItems.Empty() )

        return false;


    GetRuleResolver()->ClearCaches();


    if( aStartItems.Count( ITEM::SOLID_T ) == aStartItems.Size() )

    {

        m_dragger = std::make_unique<COMPONENT_DRAGGER>( this );

        m_state = DRAG_COMPONENT;

    }

    // more than 1 track segment or arc to drag? launch the multisegment dragger

    else if( aStartItems.Count( ITEM::SEGMENT_T | ITEM::ARC_T ) > 1 )

    {

        m_dragger = std::make_unique<MULTI_DRAGGER>( this );

        m_state = DRAG_SEGMENT;

    }

    else

    {

        m_dragger = std::make_unique<DRAGGER>( this );

        m_state = DRAG_SEGMENT;

    }


    m_dragger->SetMode( static_cast<PNS::DRAG_MODE>( aDragMode ) );

    m_dragger->SetWorld( m_world.get() );

    m_dragger->SetLogger( m_logger );

    m_dragger->SetDebugDecorator( m_iface->GetDebugDecorator() );


    if( m_logger )

        m_logger->Clear();


    if( m_logger )

    {

        if( aStartItems.Size() == 1 )

            m_logger->Log( LOGGER::EVT_START_DRAG, aP, aStartItems[0] );

        else if( aStartItems.Size() > 1 )

            m_logger->LogM( LOGGER::EVT_START_MULTIDRAG, aP, aStartItems.Items() ); // fixme default args

    }


    if( m_dragger->Start( aP, aStartItems ) )

    {

        return true;

    }

    else

    {

        m_dragger.reset();

        m_state = IDLE;

        return false;

    }

}


bool ROUTER::isStartingPointRoutable( const VECTOR2I& aWhere, ITEM* aStartItem, int aLayer )

{

    if( Settings().AllowDRCViolations() )

        return true;


    if( m_mode == PNS_MODE_ROUTE_DIFF_PAIR )

    {

        if( m_sizes.DiffPairGap() < m_sizes.MinClearance() )

        {

            SetFailureReason( _( "Diff pair gap is less than board minimum clearance." ) );

            return false;

        }

    }


    ITEM_SET candidates = QueryHoverItems( aWhere );

    wxString failureReason;


    for( ITEM* item : candidates.Items() )

    {

        // Edge cuts are put on all layers, but they're not *really* on all layers

        if( item->BoardItem() && item->BoardItem()->GetLayer() == Edge_Cuts )

            continue;


        if( !item->Layers().Overlaps( aLayer ) )

            continue;


        if( item->IsRoutable() )

        {

            failureReason = wxEmptyString;

            break;

        }

        else

        {

            BOARD_ITEM* parent = item->BoardItem();


            switch( parent->Type() )

            {

            case PCB_PAD_T:

            {

                PAD* pad = static_cast<PAD*>( parent );


                if( pad->GetAttribute() == PAD_ATTRIB::NPTH )

                    failureReason = _( "Cannot start routing from a non-plated hole." );

            }

                break;


            case PCB_ZONE_T:

            {

                ZONE* zone = static_cast<ZONE*>( parent );


                if( !zone->HasKeepoutParametersSet() )

                    break;


                if( !zone->GetZoneName().IsEmpty() )

                {

                    failureReason = wxString::Format( _( "Rule area '%s' disallows tracks." ),

                                                      zone->GetZoneName() );

                }

                else

                {

                    failureReason = _( "Rule area disallows tracks." );

                }

            }

                break;


            case PCB_FIELD_T:

            case PCB_TEXT_T:

            case PCB_TEXTBOX_T:

                failureReason = _( "Cannot start routing from a text item." );

                break;


            default:

                break;

            }

        }

    }


    if( !failureReason.IsEmpty() )

    {

        SetFailureReason( failureReason );

        return false;

    }


    VECTOR2I startPoint = aWhere;


    if( m_mode == PNS_MODE_ROUTE_SINGLE )

    {

        SHAPE_LINE_CHAIN dummyStartSeg;

        LINE             dummyStartLine;


        dummyStartSeg.Append( startPoint );

        dummyStartSeg.Append( startPoint, true );


        dummyStartLine.SetShape( dummyStartSeg );

        dummyStartLine.SetLayer( aLayer );

        dummyStartLine.SetNet( aStartItem ? aStartItem->Net() : 0 );

        dummyStartLine.SetWidth( m_sizes.TrackWidth() );


        if( m_world->CheckColliding( &dummyStartLine, ITEM::ANY_T ) )

        {

            // If the only reason we collide is track width; it's better to allow the user to start

            // anyway and just highlight the resulting collisions, so they can change width later.

            dummyStartLine.SetWidth( m_sizes.BoardMinTrackWidth() );


            if( m_world->CheckColliding( &dummyStartLine, ITEM::ANY_T ) )

            {

                ITEM_SET dummyStartSet( &dummyStartLine );

                NODE::ITEM_VECTOR highlightedItems;


                markViolations( m_world.get(), dummyStartSet, highlightedItems );


                for( ITEM* item : highlightedItems )

                    m_iface->HideItem( item );


                SetFailureReason( _( "The routing start point violates DRC." ) );

                return false;

            }

        }

    }

    else if( m_mode == PNS_MODE_ROUTE_DIFF_PAIR )

    {

        if( !aStartItem )

        {

            SetFailureReason( _( "Cannot start a differential pair in the middle of nowhere." ) );

            return false;

        }


        DP_PRIMITIVE_PAIR dpPair;

        wxString          errorMsg;


        if( !DIFF_PAIR_PLACER::FindDpPrimitivePair( m_world.get(), startPoint, aStartItem, dpPair,

                                                    &errorMsg ) )

        {

            SetFailureReason( errorMsg );

            return false;

        }


        SHAPE_LINE_CHAIN dummyStartSegA;

        SHAPE_LINE_CHAIN dummyStartSegB;

        LINE             dummyStartLineA;

        LINE             dummyStartLineB;


        dummyStartSegA.Append( dpPair.AnchorN() );

        dummyStartSegA.Append( dpPair.AnchorN(), true );


        dummyStartSegB.Append( dpPair.AnchorP() );

        dummyStartSegB.Append( dpPair.AnchorP(), true );


        dummyStartLineA.SetShape( dummyStartSegA );

        dummyStartLineA.SetLayer( aLayer );

        dummyStartLineA.SetNet( dpPair.PrimN()->Net() );

        dummyStartLineA.SetWidth( m_sizes.DiffPairWidth() );


        dummyStartLineB.SetShape( dummyStartSegB );

        dummyStartLineB.SetLayer( aLayer );

        dummyStartLineB.SetNet( dpPair.PrimP()->Net() );

        dummyStartLineB.SetWidth( m_sizes.DiffPairWidth() );


        if( m_world->CheckColliding( &dummyStartLineA, ITEM::ANY_T )

                || m_world->CheckColliding( &dummyStartLineB, ITEM::ANY_T ) )

        {

            // If the only reason we collide is track width; it's better to allow the user to start

            // anyway and just highlight the resulting collisions, so they can change width later.

            dummyStartLineA.SetWidth( m_sizes.BoardMinTrackWidth() );

            dummyStartLineB.SetWidth( m_sizes.BoardMinTrackWidth() );


            if( m_world->CheckColliding( &dummyStartLineA, ITEM::ANY_T )

                || m_world->CheckColliding( &dummyStartLineB, ITEM::ANY_T ) )

            {

                ITEM_SET          dummyStartSet;

                NODE::ITEM_VECTOR highlightedItems;


                dummyStartSet.Add( dummyStartLineA );

                dummyStartSet.Add( dummyStartLineB );

                markViolations( m_world.get(), dummyStartSet, highlightedItems );


                for( ITEM* item : highlightedItems )

                    m_iface->HideItem( item );


                SetFailureReason( _( "The routing start point violates DRC." ) );

                return false;

            }

        }

    }


    return true;

}


bool ROUTER::StartRouting( const VECTOR2I& aP, ITEM* aStartItem, int aLayer )

{

    GetRuleResolver()->ClearCaches();


    if( !isStartingPointRoutable( aP, aStartItem, aLayer ) )

        return false;


    switch( m_mode )

    {

    case PNS_MODE_ROUTE_SINGLE:

        m_placer = std::make_unique<LINE_PLACER>( this );

        break;


    case PNS_MODE_ROUTE_DIFF_PAIR:

        m_placer = std::make_unique<DIFF_PAIR_PLACER>( this );

        break;


    case PNS_MODE_TUNE_SINGLE:

        m_placer = std::make_unique<MEANDER_PLACER>( this );

        break;


    case PNS_MODE_TUNE_DIFF_PAIR:

        m_placer = std::make_unique<DP_MEANDER_PLACER>( this );

        break;


    case PNS_MODE_TUNE_DIFF_PAIR_SKEW:

        m_placer = std::make_unique<MEANDER_SKEW_PLACER>( this );

        break;


    default:

        return false;

    }


    m_placer->UpdateSizes( m_sizes );

    m_placer->SetLayer( aLayer );

    m_placer->SetDebugDecorator( m_iface->GetDebugDecorator() );

    m_placer->SetLogger( m_logger );


    if( m_placer->Start( aP, aStartItem ) )

    {

        m_state = ROUTE_TRACK;


        if( m_logger )

        {

            m_logger->Clear();

            m_logger->Log( LOGGER::EVT_START_ROUTE, aP, aStartItem, &m_sizes, m_placer->CurrentLayer() );

        }


        return true;

    }

    else

    {

        m_state = IDLE;

        m_placer.reset();


        return false;

    }

}


bool ROUTER::Move( const VECTOR2I& aP, ITEM* endItem )

{

    if( m_logger )

        m_logger->Log( LOGGER::EVT_MOVE, aP, endItem );


    switch( m_state )

    {

    case ROUTE_TRACK:

        return movePlacing( aP, endItem );


    case DRAG_SEGMENT:

    case DRAG_COMPONENT:

        return moveDragging( aP, endItem );


    default:

        break;

    }


    GetRuleResolver()->ClearTemporaryCaches();


    return false;

}


bool ROUTER::getNearestRatnestAnchor( VECTOR2I& aOtherEnd, PNS_LAYER_RANGE& aOtherEndLayers,

                                      ITEM*& aOtherEndItem )

{

    // Can't finish something with no connections

    if( GetCurrentNets().empty() )

        return false;


    PLACEMENT_ALGO* placer = Placer();


    if( placer == nullptr || placer->Traces().Size() == 0 )

        return false;


    LINE* trace = dynamic_cast<LINE*>( placer->Traces()[0] );


    if( trace == nullptr )

        return false;


    PNS::NODE*    lastNode = placer->CurrentNode( true );

    PNS::TOPOLOGY topo( lastNode );


    // If the user has drawn a line, get the anchor nearest to the line end

    if( trace->SegmentCount() > 0 )

    {

        return topo.NearestUnconnectedAnchorPoint( trace, aOtherEnd, aOtherEndLayers,

                                                   aOtherEndItem );

    }


    // Otherwise, find the closest anchor to our start point


    // Get joint from placer start item

    const JOINT* jt = lastNode->FindJoint( placer->CurrentStart(), placer->CurrentLayer(),

                                           placer->CurrentNets()[0] );


    if( !jt )

        return false;


    // Get unconnected item from joint

    int        anchor;

    PNS::ITEM* it = topo.NearestUnconnectedItem( jt, &anchor );


    if( !it )

        return false;


    aOtherEnd = it->Anchor( anchor );

    aOtherEndLayers = it->Layers();

    aOtherEndItem = it;


    return true;

}


bool ROUTER::Finish()

{

    if( m_state != ROUTE_TRACK )

        return false;


    PLACEMENT_ALGO* placer = Placer();


    if( placer == nullptr || placer->Traces().Size() == 0 )

        return false;


    LINE* current = dynamic_cast<LINE*>( placer->Traces()[0] );


    if( current == nullptr )

        return false;


    // Get our current line and position and nearest ratsnest to them if it exists

    VECTOR2I    otherEnd;

    PNS_LAYER_RANGE otherEndLayers;

    ITEM*       otherEndItem = nullptr;


    // Get the anchor nearest to the end of the trace the user is routing

    if( !getNearestRatnestAnchor( otherEnd, otherEndLayers, otherEndItem ) )

        return false;


    // Keep moving until we don't change position or hit the limit

    int      triesLeft = 5;

    VECTOR2I moveResultPoint;


    do

    {

        moveResultPoint = placer->CurrentEnd();

        Move( otherEnd, otherEndItem );

        triesLeft--;

    } while( placer->CurrentEnd() != moveResultPoint && triesLeft );


    // If we've made it, fix the route and we're done

    if( moveResultPoint == otherEnd && otherEndLayers.Overlaps( GetCurrentLayer() ) )

    {

        bool forceFinish = false;

        bool allowViolations = false;


        return FixRoute( otherEnd, otherEndItem, forceFinish, allowViolations );

    }


    return false;

}


bool ROUTER::ContinueFromEnd( ITEM** aNewStartItem )

{

    PLACEMENT_ALGO* placer = Placer();


    if( placer == nullptr || placer->Traces().Size() == 0 )

        return false;


    LINE* current = dynamic_cast<LINE*>( placer->Traces()[0] );


    if( current == nullptr )

        return false;


    int         currentLayer = GetCurrentLayer();

    VECTOR2I    currentEnd = placer->CurrentEnd();

    VECTOR2I    otherEnd;

    PNS_LAYER_RANGE otherEndLayers;

    ITEM*       otherEndItem = nullptr;


    // Get the anchor nearest to the end of the trace the user is routing

    if( !getNearestRatnestAnchor( otherEnd, otherEndLayers, otherEndItem ) )

        return false;


    CommitRouting();


    // Commit whatever we've fixed and restart routing from the other end

    int nextLayer = otherEndLayers.Overlaps( currentLayer ) ? currentLayer : otherEndLayers.Start();


    if( !StartRouting( otherEnd, otherEndItem, nextLayer ) )

        return false;


    // Attempt to route to our current position

    Move( currentEnd, nullptr );


    *aNewStartItem = otherEndItem;


    return true;

}


bool ROUTER::moveDragging( const VECTOR2I& aP, ITEM* aEndItem )

{

    m_iface->EraseView();


    bool ret = m_dragger->Drag( aP );

    ITEM_SET dragged = m_dragger->Traces();


    m_leaderSegments = m_dragger->GetLastCommittedLeaderSegments();


    updateView( m_dragger->CurrentNode(), dragged, true );

    return ret;

}


void ROUTER::markViolations( NODE* aNode, ITEM_SET& aCurrent, NODE::ITEM_VECTOR& aRemoved )

{

    auto updateItem =

            [&]( ITEM* currentItem, ITEM* itemToMark )

            {

                std::unique_ptr<ITEM> tmp( itemToMark->Clone() );


                int  clearance;

                bool removeOriginal = true;


                clearance = aNode->GetClearance( currentItem, itemToMark );


                if( itemToMark->Layers().IsMultilayer() && !currentItem->Layers().IsMultilayer() )

                    tmp->SetLayer( currentItem->Layer() );


                if( itemToMark->IsCompoundShapePrimitive() )

                {

                    // We're only highlighting one (or more) of several primitives so we don't

                    // want all the other parts of the object to disappear

                    removeOriginal = false;

                }


                m_iface->DisplayItem( tmp.get(), clearance );


                if( removeOriginal )

                    aRemoved.push_back( itemToMark );

            };


    for( ITEM* item : aCurrent.Items() )

    {

        NODE::OBSTACLES obstacles;


        aNode->QueryColliding( item, obstacles );


        if( item->OfKind( ITEM::LINE_T ) )

        {

            LINE* l = static_cast<LINE*>( item );


            if( l->EndsWithVia() )

            {

                VIA v( l->Via() );

                aNode->QueryColliding( &v, obstacles );

            }

        }


        ITEM_SET draggedItems;


        if( GetDragger() )

            draggedItems = GetDragger()->Traces();


        for( const OBSTACLE& obs : obstacles )

        {

            // Don't mark items being dragged; only board items they collide with

            if( draggedItems.Contains( obs.m_item ) )

                continue;


            obs.m_item->Mark( obs.m_item->Marker() | MK_VIOLATION );

            updateItem( item, obs.m_item );

        }


        if( item->Kind() == ITEM::LINE_T )

        {

            LINE* line = static_cast<LINE*>( item );


            // Show clearance on any blocking obstacles

            if( line->GetBlockingObstacle() )

                updateItem( item, line->GetBlockingObstacle() );

        }

    }

}


void ROUTER::updateView( NODE* aNode, ITEM_SET& aCurrent, bool aDragging )

{

    NODE::ITEM_VECTOR removed, added;

    NODE::OBSTACLES obstacles;


    if( !aNode )

        return;


    markViolations( aNode, aCurrent, removed );


    aNode->GetUpdatedItems( removed, added );


    std::vector<const PNS::ITEM*> cacheCheckItems( added.begin(), added.end() );

    GetRuleResolver()->ClearCacheForItems( cacheCheckItems );


    for( ITEM* item : added )

    {

        int clearance = GetRuleResolver()->Clearance( item, nullptr );

        m_iface->DisplayItem( item, clearance, aDragging );

    }


    for( ITEM* item : removed )

        m_iface->HideItem( item );

}


void ROUTER::UpdateSizes( const SIZES_SETTINGS& aSizes )

{

    m_sizes = aSizes;


    // Change track/via size settings

    if( m_state == ROUTE_TRACK )

        m_placer->UpdateSizes( m_sizes );

}


bool ROUTER::movePlacing( const VECTOR2I& aP, ITEM* aEndItem )

{

    m_iface->EraseView();


    bool ret = m_placer->Move( aP, aEndItem );

    ITEM_SET current = m_placer->Traces();


    for( const ITEM* item : current.CItems() )

    {

        if( !item->OfKind( ITEM::LINE_T ) )

            continue;


        const LINE* l = static_cast<const LINE*>( item );

        int clearance = GetRuleResolver()->Clearance( item, nullptr );


        m_iface->DisplayItem( l, clearance, false, PNS_HEAD_TRACE );


        if( l->EndsWithVia() )

        {

            const VIA& via = l->Via();

            clearance = GetRuleResolver()->Clearance( &via, nullptr );


            if( via.HasHole() )

            {

                int holeClearance = GetRuleResolver()->Clearance( via.Hole(), nullptr );

                int annularWidth = std::max( 0, via.Diameter( l->Layer() ) - via.Drill() ) / 2;

                int excessHoleClearance = holeClearance - annularWidth;


                if( excessHoleClearance > clearance )

                    clearance = excessHoleClearance;

            }


            m_iface->DisplayItem( &l->Via(), clearance, false, PNS_HEAD_TRACE );

        }

    }


    //ITEM_SET tmp( &current );


    updateView( m_placer->CurrentNode( true ), current );


    return ret;

}


void ROUTER::GetUpdatedItems( std::vector<PNS::ITEM*>& aRemoved, std::vector<PNS::ITEM*>& aAdded,

                              std::vector<PNS::ITEM*>& aHeads )

{

    NODE *node = nullptr;

    ITEM_SET current;


    if( m_state == ROUTE_TRACK )

    {

        node = m_placer->CurrentNode( true );

        current = m_placer->Traces();

    }

    else if ( m_state == DRAG_SEGMENT )

    {

        node = m_dragger->CurrentNode();

        current = m_dragger->Traces();

    }


    // There probably should be a debugging assertion and possibly a PNS_LOGGER call here but

    // I'm not sure how to be proceed WLS.

    if( !node )

        return;


    node->GetUpdatedItems( aRemoved, aAdded );


    for( const ITEM* item : current.CItems() )

        aHeads.push_back( item->Clone() );

}


void ROUTER::CommitRouting( NODE* aNode )

{

    if( m_state == ROUTE_TRACK && !m_placer->HasPlacedAnything() )

        return;


    NODE::ITEM_VECTOR removed;

    NODE::ITEM_VECTOR added;

    NODE::ITEM_VECTOR changed;


    aNode->GetUpdatedItems( removed, added );


    for( ITEM* item : removed )

    {

        bool is_changed = false;


        // Items in remove/add that share the same parent are just updated versions

        // We move them to the updated vector to preserve attributes such as UUID and pad data

        if( item->Parent() )

        {

            for( NODE::ITEM_VECTOR::iterator added_it = added.begin();

                    added_it != added.end(); ++added_it )

            {

                if( ( *added_it )->Parent() && ( *added_it )->Parent() == item->Parent() )

                {

                    changed.push_back( *added_it );

                    added.erase( added_it );

                    is_changed = true;

                    break;

                }

            }

        }


        if( !is_changed && !item->IsVirtual() )

            m_iface->RemoveItem( item );

    }


    for( ITEM* item : added )

    {

        if( !item->IsVirtual() )

            m_iface->AddItem( item );

    }


    for( ITEM* item : changed )

    {

        if( !item->IsVirtual() )

            m_iface->UpdateItem( item );

    }


    m_iface->Commit();

    m_world->Commit( aNode );

}


bool ROUTER::FixRoute( const VECTOR2I& aP, ITEM* aEndItem, bool aForceFinish, bool aForceCommit )

{

    bool rv = false;


    if( m_logger )

        m_logger->Log( LOGGER::EVT_FIX, aP, aEndItem );


    switch( m_state )

    {

    case ROUTE_TRACK:

        rv = m_placer->FixRoute( aP, aEndItem, aForceFinish );

        break;


    case DRAG_SEGMENT:

    case DRAG_COMPONENT:

        rv = m_dragger->FixRoute( aForceCommit );

        break;


    default:

        break;

    }


    return rv;

}


std::vector<PNS::ITEM*> ROUTER::GetLastCommittedLeaderSegments()

{

    return m_leaderSegments;

};


std::optional<VECTOR2I> ROUTER::UndoLastSegment()

{

    if( !RoutingInProgress() )

        return std::nullopt;


    if( m_logger )

        m_logger->Log( LOGGER::EVT_UNFIX );


    return m_placer->UnfixRoute();

}


void ROUTER::CommitRouting()

{

    if( m_state == ROUTE_TRACK )

        m_placer->CommitPlacement();


    StopRouting();

}


void ROUTER::StopRouting()

{

    // Update the ratsnest with new changes


    if( m_placer )

    {

        std::vector<NET_HANDLE> nets;

        m_placer->GetModifiedNets( nets );


        // Update the ratsnest with new changes

        for( NET_HANDLE n : nets )

            m_iface->UpdateNet( n );

    }


    if( !RoutingInProgress() )

        return;


    m_placer.reset();

    m_dragger.reset();


    m_iface->EraseView();


    m_state = IDLE;

    m_world->KillChildren();

    m_world->ClearRanks();

}


void ROUTER::ClearViewDecorations()

{

    m_iface->EraseView();

}


void ROUTER::FlipPosture()

{

    if( m_state == ROUTE_TRACK )

    {

        m_placer->FlipPosture();

    }

}


bool ROUTER::SwitchLayer( int aLayer )

{

    if( m_state == ROUTE_TRACK )

        return m_placer->SetLayer( aLayer );


    return false;

}


void ROUTER::ToggleViaPlacement()

{

    if( m_state == ROUTE_TRACK )

    {

        bool toggle = !m_placer->IsPlacingVia();

        m_placer->ToggleVia( toggle );


        if( m_logger )

            m_logger->Log( LOGGER::EVT_TOGGLE_VIA, VECTOR2I(), nullptr, &m_sizes );

    }

}


const std::vector<NET_HANDLE> ROUTER::GetCurrentNets() const

{

    if( m_placer )

        return m_placer->CurrentNets();

    else if( m_dragger )

        return m_dragger->CurrentNets();


    return std::vector<NET_HANDLE>();

}


int ROUTER::GetCurrentLayer() const

{

    if( m_placer )

        return m_placer->CurrentLayer();

    else if( m_dragger )

        return m_dragger->CurrentLayer();


    return -1;

}


LOGGER* ROUTER::Logger()

{

    return m_logger;

}


bool ROUTER::IsPlacingVia() const

{

    if( !m_placer )

        return false;


    return m_placer->IsPlacingVia();

}


void ROUTER::ToggleCornerMode()

{

    DIRECTION_45::CORNER_MODE mode = m_settings->GetCornerMode();


    switch( m_settings->GetCornerMode() )

    {

    case DIRECTION_45::CORNER_MODE::MITERED_45: mode = DIRECTION_45::CORNER_MODE::ROUNDED_45; break;

    case DIRECTION_45::CORNER_MODE::ROUNDED_45: mode = DIRECTION_45::CORNER_MODE::MITERED_90; break;

    case DIRECTION_45::CORNER_MODE::MITERED_90: mode = DIRECTION_45::CORNER_MODE::ROUNDED_90; break;

    case DIRECTION_45::CORNER_MODE::ROUNDED_90: mode = DIRECTION_45::CORNER_MODE::MITERED_45; break;

    }


    m_settings->SetCornerMode( mode );

}


void ROUTER::SetOrthoMode( bool aEnable )

{

    if( !m_placer )

        return;


    m_placer->SetOrthoMode( aEnable );

}


void ROUTER::SetMode( ROUTER_MODE aMode )

{

    m_mode = aMode;

}


void ROUTER::SetInterface( ROUTER_IFACE *aIface )

{

    m_iface = aIface;

}


void ROUTER::BreakSegmentOrArc( ITEM *aItem, const VECTOR2I& aP )

{

    NODE *node = m_world->Branch();


    LINE_PLACER placer( this );


    bool ret = false;


    if( aItem->OfKind( ITEM::SEGMENT_T ) )

        ret = placer.SplitAdjacentSegments( node, aItem, aP );

    else if( aItem->OfKind( ITEM::ARC_T ) )

        ret = placer.SplitAdjacentArcs( node, aItem, aP );


    if( ret )

    {

        CommitRouting( node );

    }

    else

    {

        delete node;

    }

}


}

advanced_config.h

BITMAPS::via
@ via

BITMAPS::anchor
@ anchor

BITMAPS::pad
@ pad

ADVANCED_CFG::GetCfg
static const ADVANCED_CFG & GetCfg()
Get the singleton instance's config, which is shared by all consumers.
Definition: advanced_config.cpp:302

BOARD_ITEM
A base class for any item which can be embedded within the BOARD container class, and therefore insta...
Definition: board_item.h:79

BOX2::SetMaximum
constexpr void SetMaximum()
Definition: box2.h:80

DIRECTION_45::CORNER_MODE
CORNER_MODE
Corner modes.
Definition: direction45.h:67

DIRECTION_45::ROUNDED_90
@ ROUNDED_90
H/V with filleted corners.
Definition: direction45.h:71

DIRECTION_45::MITERED_90
@ MITERED_90
H/V only (90-degree corners)
Definition: direction45.h:70

DIRECTION_45::ROUNDED_45
@ ROUNDED_45
H/V/45 with filleted corners.
Definition: direction45.h:69

DIRECTION_45::MITERED_45
@ MITERED_45
H/V/45 with mitered corners (default)
Definition: direction45.h:68

EDA_ITEM::Type
KICAD_T Type() const
Returns the type of object.
Definition: eda_item.h:101

PAD
Definition: pad.h:54

PNS::DIFF_PAIR_PLACER::FindDpPrimitivePair
static bool FindDpPrimitivePair(NODE *aWorld, const VECTOR2I &aP, ITEM *aItem, DP_PRIMITIVE_PAIR &aPair, wxString *aErrorMsg=nullptr)
Definition: pns_diff_pair_placer.cpp:498

PNS::DP_PRIMITIVE_PAIR
Store starting/ending primitives (pads, vias or segments) for a differential pair.
Definition: pns_diff_pair.h:120

PNS::DP_PRIMITIVE_PAIR::AnchorN
const VECTOR2I & AnchorN() const
Definition: pns_diff_pair.h:134

PNS::DP_PRIMITIVE_PAIR::PrimN
ITEM * PrimN() const
Definition: pns_diff_pair.h:139

PNS::DP_PRIMITIVE_PAIR::AnchorP
const VECTOR2I & AnchorP() const
Definition: pns_diff_pair.h:133

PNS::DP_PRIMITIVE_PAIR::PrimP
ITEM * PrimP() const
Definition: pns_diff_pair.h:138

PNS::DRAG_ALGO::Traces
virtual const ITEM_SET Traces()=0
Function Traces()

PNS::ITEM_SET
Definition: pns_itemset.h:37

PNS::ITEM_SET::Empty
bool Empty() const
Definition: pns_itemset.h:82

PNS::ITEM_SET::Size
int Size() const
Definition: pns_itemset.h:112

PNS::ITEM_SET::Count
int Count(int aKindMask=-1) const
Definition: pns_itemset.h:66

PNS::ITEM_SET::Add
void Add(const LINE &aLine)
Definition: pns_itemset.cpp:33

PNS::ITEM_SET::Contains
bool Contains(ITEM *aItem) const
Definition: pns_itemset.h:151

PNS::ITEM_SET::Items
std::vector< ITEM * > & Items()
Definition: pns_itemset.h:87

PNS::ITEM_SET::CItems
const std::vector< ITEM * > & CItems() const
Definition: pns_itemset.h:88

PNS::ITEM
Base class for PNS router board items.
Definition: pns_item.h:97

PNS::ITEM::Layers
const PNS_LAYER_RANGE & Layers() const
Definition: pns_item.h:199

PNS::ITEM::Net
virtual NET_HANDLE Net() const
Definition: pns_item.h:197

PNS::ITEM::SetNet
void SetNet(NET_HANDLE aNet)
Definition: pns_item.h:196

PNS::ITEM::Layer
virtual int Layer() const
Definition: pns_item.h:203

PNS::ITEM::SetLayer
void SetLayer(int aLayer)
Definition: pns_item.h:202

PNS::ITEM::SOLID_T
@ SOLID_T
Definition: pns_item.h:103

PNS::ITEM::LINE_T
@ LINE_T
Definition: pns_item.h:104

PNS::ITEM::ARC_T
@ ARC_T
Definition: pns_item.h:107

PNS::ITEM::SEGMENT_T
@ SEGMENT_T
Definition: pns_item.h:106

PNS::ITEM::ANY_T
@ ANY_T
Definition: pns_item.h:111

PNS::ITEM::OfKind
bool OfKind(int aKindMask) const
Definition: pns_item.h:178

PNS::ITEM::Anchor
virtual VECTOR2I Anchor(int n) const
Definition: pns_item.h:255

PNS::JOINT
A 2D point on a given set of layers and belonging to a certain net, that links together a number of b...
Definition: pns_joint.h:43

PNS::LINE_PLACER
Single track placement algorithm.
Definition: pns_line_placer.h:85

PNS::LINE_PLACER::SplitAdjacentArcs
bool SplitAdjacentArcs(NODE *aNode, ITEM *aArc, const VECTOR2I &aP)
Snaps the point aP to arc aArc.
Definition: pns_line_placer.cpp:1318

PNS::LINE_PLACER::SplitAdjacentSegments
bool SplitAdjacentSegments(NODE *aNode, ITEM *aSeg, const VECTOR2I &aP)
Snaps the point aP to segment aSeg.
Definition: pns_line_placer.cpp:1290

PNS::LINE
Represents a track on a PCB, connecting two non-trivial joints (that is, vias, pads,...
Definition: pns_line.h:62

PNS::LINE::GetBlockingObstacle
ITEM * GetBlockingObstacle() const
Definition: pns_line.h:217

PNS::LINE::SetShape
void SetShape(const SHAPE_LINE_CHAIN &aLine)
Return the shape of the line.
Definition: pns_line.h:127

PNS::LINE::Via
VIA & Via()
Definition: pns_line.h:198

PNS::LINE::SegmentCount
int SegmentCount() const
Definition: pns_line.h:140

PNS::LINE::SetWidth
void SetWidth(int aWidth)
Return line width.
Definition: pns_line.h:150

PNS::LINE::EndsWithVia
bool EndsWithVia() const
Definition: pns_line.h:190

PNS::LOGGER
Definition: pns_logger.h:43

PNS::LOGGER::Log
void Log(EVENT_TYPE evt, const VECTOR2I &pos=VECTOR2I(), const ITEM *item=nullptr, const SIZES_SETTINGS *sizes=nullptr, int aLayer=0)
Definition: pns_logger.cpp:70

PNS::LOGGER::LogM
void LogM(EVENT_TYPE evt, const VECTOR2I &pos=VECTOR2I(), std::vector< ITEM * > items={}, const SIZES_SETTINGS *sizes=nullptr, int aLayer=0)
Definition: pns_logger.cpp:46

PNS::LOGGER::Clear
void Clear()
Definition: pns_logger.cpp:40

PNS::LOGGER::EVT_START_ROUTE
@ EVT_START_ROUTE
Definition: pns_logger.h:47

PNS::LOGGER::EVT_MOVE
@ EVT_MOVE
Definition: pns_logger.h:50

PNS::LOGGER::EVT_START_MULTIDRAG
@ EVT_START_MULTIDRAG
Definition: pns_logger.h:54

PNS::LOGGER::EVT_START_DRAG
@ EVT_START_DRAG
Definition: pns_logger.h:48

PNS::LOGGER::EVT_FIX
@ EVT_FIX
Definition: pns_logger.h:49

PNS::LOGGER::EVT_TOGGLE_VIA
@ EVT_TOGGLE_VIA
Definition: pns_logger.h:52

PNS::LOGGER::EVT_UNFIX
@ EVT_UNFIX
Definition: pns_logger.h:53

PNS::NODE
Keep the router "world" - i.e.
Definition: pns_node.h:231

PNS::NODE::ITEM_VECTOR
std::vector< ITEM * > ITEM_VECTOR
Definition: pns_node.h:242

PNS::NODE::GetClearance
int GetClearance(const ITEM *aA, const ITEM *aB, bool aUseClearanceEpsilon=true) const
Return the pre-set worst case clearance between any pair of items.
Definition: pns_node.cpp:129

PNS::NODE::GetUpdatedItems
void GetUpdatedItems(ITEM_VECTOR &aRemoved, ITEM_VECTOR &aAdded)
Return the list of items removed and added in this branch with respect to the root branch.
Definition: pns_node.cpp:1443

PNS::NODE::FindJoint
const JOINT * FindJoint(const VECTOR2I &aPos, int aLayer, NET_HANDLE aNet) const
Search for a joint at a given position, layer and belonging to given net.
Definition: pns_node.cpp:1242

PNS::NODE::OBSTACLES
std::set< OBSTACLE > OBSTACLES
Definition: pns_node.h:243

PNS::NODE::QueryColliding
int QueryColliding(const ITEM *aItem, OBSTACLES &aObstacles, const COLLISION_SEARCH_OPTIONS &aOpts=COLLISION_SEARCH_OPTIONS()) const
Find items colliding (closer than clearance) with the item aItem.
Definition: pns_node.cpp:255

PNS::NODE::HitTest
const ITEM_SET HitTest(const VECTOR2I &aPoint) const
Find all items that contain the point aPoint.
Definition: pns_node.cpp:490

PNS::PLACEMENT_ALGO
PLACEMENT_ALGO.
Definition: pns_placement_algo.h:46

PNS::PLACEMENT_ALGO::CurrentNode
virtual NODE * CurrentNode(bool aLoopsRemoved=false) const =0
Function CurrentNode()

PNS::PLACEMENT_ALGO::CurrentEnd
virtual const VECTOR2I & CurrentEnd() const =0
Function CurrentEnd()

PNS::PLACEMENT_ALGO::Traces
virtual const ITEM_SET Traces()=0
Function Traces()

PNS::PLACEMENT_ALGO::CurrentStart
virtual const VECTOR2I & CurrentStart() const =0
Function CurrentStart()

PNS::PLACEMENT_ALGO::CurrentLayer
virtual int CurrentLayer() const =0
Function CurrentLayer()

PNS::PLACEMENT_ALGO::CurrentNets
virtual const std::vector< NET_HANDLE > CurrentNets() const =0
Function CurrentNets()

PNS::ROUTER_IFACE
ROUTER.
Definition: pns_router.h:87

PNS::ROUTER_IFACE::RemoveItem
virtual void RemoveItem(ITEM *aItem)=0

PNS::ROUTER_IFACE::UpdateItem
virtual void UpdateItem(ITEM *aItem)=0

PNS::ROUTER_IFACE::DisplayItem
virtual void DisplayItem(const ITEM *aItem, int aClearance, bool aEdit=false, int aFlags=0)=0

PNS::ROUTER_IFACE::GetDebugDecorator
virtual DEBUG_DECORATOR * GetDebugDecorator()=0

PNS::ROUTER_IFACE::HideItem
virtual void HideItem(ITEM *aItem)=0

PNS::ROUTER_IFACE::Commit
virtual void Commit()=0

PNS::ROUTER_IFACE::UpdateNet
virtual void UpdateNet(NET_HANDLE aNet)=0

PNS::ROUTER_IFACE::AddItem
virtual void AddItem(ITEM *aItem)=0

PNS::ROUTER_IFACE::EraseView
virtual void EraseView()=0

PNS::ROUTER_IFACE::SyncWorld
virtual void SyncWorld(NODE *aNode)=0

PNS::ROUTER
Definition: pns_router.h:125

PNS::ROUTER::updateView
void updateView(NODE *aNode, ITEM_SET &aCurrent, bool aDragging=false)
Definition: pns_router.cpp:716

PNS::ROUTER::SetMode
void SetMode(ROUTER_MODE aMode)
Definition: pns_router.cpp:1057

PNS::ROUTER::moveDragging
bool moveDragging(const VECTOR2I &aP, ITEM *aItem)
Definition: pns_router.cpp:630

PNS::ROUTER::SwitchLayer
bool SwitchLayer(int layer)
Definition: pns_router.cpp:973

PNS::ROUTER::StopRouting
void StopRouting()
Definition: pns_router.cpp:930

PNS::ROUTER::ClearViewDecorations
void ClearViewDecorations()
Definition: pns_router.cpp:958

PNS::ROUTER::m_leaderSegments
std::vector< PNS::ITEM * > m_leaderSegments
Definition: pns_router.h:255

PNS::ROUTER::ToggleCornerMode
void ToggleCornerMode()
Definition: pns_router.cpp:1032

PNS::ROUTER::m_iterLimit
int m_iterLimit
Definition: pns_router.h:259

PNS::ROUTER::Placer
PLACEMENT_ALGO * Placer()
Definition: pns_router.h:221

PNS::ROUTER::GetLastCommittedLeaderSegments
std::vector< PNS::ITEM * > GetLastCommittedLeaderSegments()
Definition: pns_router.cpp:903

PNS::ROUTER::m_lastNode
NODE * m_lastNode
Definition: pns_router.h:250

PNS::ROUTER::ClearWorld
void ClearWorld()
Definition: pns_router.cpp:105

PNS::ROUTER::BreakSegmentOrArc
void BreakSegmentOrArc(ITEM *aItem, const VECTOR2I &aP)
Definition: pns_router.cpp:1069

PNS::ROUTER::ContinueFromEnd
bool ContinueFromEnd(ITEM **aNewStartItem)
Definition: pns_router.cpp:591

PNS::ROUTER::UpdateSizes
void UpdateSizes(const SIZES_SETTINGS &aSizes)
Applies stored settings.
Definition: pns_router.cpp:742

PNS::ROUTER::SetFailureReason
void SetFailureReason(const wxString &aReason)
Definition: pns_router.h:218

PNS::ROUTER::IDLE
@ IDLE
Definition: pns_router.h:129

PNS::ROUTER::DRAG_COMPONENT
@ DRAG_COMPONENT
Definition: pns_router.h:131

PNS::ROUTER::DRAG_SEGMENT
@ DRAG_SEGMENT
Definition: pns_router.h:130

PNS::ROUTER::ROUTE_TRACK
@ ROUTE_TRACK
Definition: pns_router.h:132

PNS::ROUTER::Logger
LOGGER * Logger()
Definition: pns_router.cpp:1017

PNS::ROUTER::m_state
RouterState m_state
Definition: pns_router.h:247

PNS::ROUTER::CommitRouting
void CommitRouting()
Definition: pns_router.cpp:921

PNS::ROUTER::m_dragger
std::unique_ptr< DRAG_ALGO > m_dragger
Definition: pns_router.h:253

PNS::ROUTER::QueryHoverItems
const ITEM_SET QueryHoverItems(const VECTOR2I &aP, int aSlopRadius=0)
Definition: pns_router.cpp:124

PNS::ROUTER::SetInterface
void SetInterface(ROUTER_IFACE *aIface)
Definition: pns_router.cpp:1063

PNS::ROUTER::Finish
bool Finish()
Definition: pns_router.cpp:543

PNS::ROUTER::markViolations
void markViolations(NODE *aNode, ITEM_SET &aCurrent, NODE::ITEM_VECTOR &aRemoved)
Definition: pns_router.cpp:644

PNS::ROUTER::SyncWorld
void SyncWorld()
Definition: pns_router.cpp:95

PNS::ROUTER::~ROUTER
~ROUTER()
Definition: pns_router.cpp:87

PNS::ROUTER::m_placer
std::unique_ptr< PLACEMENT_ALGO > m_placer
Definition: pns_router.h:252

PNS::ROUTER::ROUTER
ROUTER()
Definition: pns_router.cpp:60

PNS::ROUTER::isStartingPointRoutable
bool isStartingPointRoutable(const VECTOR2I &aWhere, ITEM *aItem, int aLayer)
Definition: pns_router.cpp:219

PNS::ROUTER::m_iface
ROUTER_IFACE * m_iface
Definition: pns_router.h:257

PNS::ROUTER::IsPlacingVia
bool IsPlacingVia() const
Definition: pns_router.cpp:1023

PNS::ROUTER::FlipPosture
void FlipPosture()
Definition: pns_router.cpp:964

PNS::ROUTER::GetRuleResolver
RULE_RESOLVER * GetRuleResolver() const
Definition: pns_router.h:185

PNS::ROUTER::m_sizes
SIZES_SETTINGS m_sizes
Definition: pns_router.h:262

PNS::ROUTER::Settings
ROUTING_SETTINGS & Settings()
Definition: pns_router.h:197

PNS::ROUTER::GetDragger
DRAG_ALGO * GetDragger()
Definition: pns_router.h:145

PNS::ROUTER::movePlacing
bool movePlacing(const VECTOR2I &aP, ITEM *aItem)
Definition: pns_router.cpp:752

PNS::ROUTER::RoutingInProgress
bool RoutingInProgress() const
Definition: pns_router.cpp:118

PNS::ROUTER::m_visibleViewArea
BOX2I m_visibleViewArea
Definition: pns_router.h:246

PNS::ROUTER::GetInstance
static ROUTER * GetInstance()
Definition: pns_router.cpp:81

PNS::ROUTER::UndoLastSegment
std::optional< VECTOR2I > UndoLastSegment()
Definition: pns_router.cpp:909

PNS::ROUTER::m_logger
LOGGER * m_logger
Definition: pns_router.h:264

PNS::ROUTER::SetOrthoMode
void SetOrthoMode(bool aEnable)
Definition: pns_router.cpp:1048

PNS::ROUTER::StartDragging
bool StartDragging(const VECTOR2I &aP, ITEM *aItem, int aDragMode=DM_ANY)
Definition: pns_router.cpp:157

PNS::ROUTER::StartRouting
bool StartRouting(const VECTOR2I &aP, ITEM *aItem, int aLayer)
Definition: pns_router.cpp:408

PNS::ROUTER::GetCurrentLayer
int GetCurrentLayer() const
Definition: pns_router.cpp:1006

PNS::ROUTER::getNearestRatnestAnchor
bool getNearestRatnestAnchor(VECTOR2I &aOtherEnd, PNS_LAYER_RANGE &aOtherEndLayers, ITEM *&aOtherEndItem)
Definition: pns_router.cpp:492

PNS::ROUTER::GetUpdatedItems
void GetUpdatedItems(std::vector< PNS::ITEM * > &aRemoved, std::vector< PNS::ITEM * > &aAdded, std::vector< PNS::ITEM * > &aHeads)
Definition: pns_router.cpp:796

PNS::ROUTER::FixRoute
bool FixRoute(const VECTOR2I &aP, ITEM *aItem, bool aForceFinish, bool aForceCommit)
Definition: pns_router.cpp:878

PNS::ROUTER::m_world
std::unique_ptr< NODE > m_world
Definition: pns_router.h:249

PNS::ROUTER::ToggleViaPlacement
void ToggleViaPlacement()
Definition: pns_router.cpp:982

PNS::ROUTER::m_settings
ROUTING_SETTINGS * m_settings
Definition: pns_router.h:261

PNS::ROUTER::GetCurrentNets
const std::vector< NET_HANDLE > GetCurrentNets() const
Definition: pns_router.cpp:995

PNS::ROUTER::m_mode
ROUTER_MODE m_mode
Definition: pns_router.h:263

PNS::ROUTER::Move
bool Move(const VECTOR2I &aP, ITEM *aItem)
Definition: pns_router.cpp:468

PNS::ROUTING_SETTINGS::SetCornerMode
void SetCornerMode(DIRECTION_45::CORNER_MODE aMode)
Definition: pns_routing_settings.h:144

PNS::ROUTING_SETTINGS::GetCornerMode
DIRECTION_45::CORNER_MODE GetCornerMode() const
Definition: pns_routing_settings.h:143

PNS::RULE_RESOLVER::ClearCacheForItems
virtual void ClearCacheForItems(std::vector< const ITEM * > &aItems)
Definition: pns_node.h:167

PNS::RULE_RESOLVER::ClearTemporaryCaches
virtual void ClearTemporaryCaches()
Definition: pns_node.h:169

PNS::RULE_RESOLVER::Clearance
virtual int Clearance(const ITEM *aA, const ITEM *aB, bool aUseClearanceEpsilon=true)=0

PNS::RULE_RESOLVER::ClearCaches
virtual void ClearCaches()
Definition: pns_node.h:168

PNS::SEGMENT
Definition: pns_segment.h:39

PNS::SIZES_SETTINGS
Definition: pns_sizes_settings.h:38

PNS::SIZES_SETTINGS::DiffPairWidth
int DiffPairWidth() const
Definition: pns_sizes_settings.h:80

PNS::SIZES_SETTINGS::TrackWidth
int TrackWidth() const
Definition: pns_sizes_settings.h:71

PNS::SIZES_SETTINGS::MinClearance
int MinClearance() const
Definition: pns_sizes_settings.h:68

PNS::SIZES_SETTINGS::DiffPairGap
int DiffPairGap() const
Definition: pns_sizes_settings.h:81

PNS::SIZES_SETTINGS::BoardMinTrackWidth
int BoardMinTrackWidth() const
Definition: pns_sizes_settings.h:77

PNS::TOPOLOGY
Definition: pns_topology.h:40

PNS::TOPOLOGY::NearestUnconnectedItem
ITEM * NearestUnconnectedItem(const JOINT *aStart, int *aAnchor=nullptr, int aKindMask=ITEM::ANY_T)
Definition: pns_topology.cpp:160

PNS::TOPOLOGY::NearestUnconnectedAnchorPoint
bool NearestUnconnectedAnchorPoint(const LINE *aTrack, VECTOR2I &aPoint, PNS_LAYER_RANGE &aLayers, ITEM *&aItem)
Definition: pns_topology.cpp:97

PNS::VIA
Definition: pns_via.h:59

PNS_LAYER_RANGE
Represent a contiguous set of PCB layers.
Definition: pns_layerset.h:32

PNS_LAYER_RANGE::Start
int Start() const
Definition: pns_layerset.h:86

PNS_LAYER_RANGE::Overlaps
bool Overlaps(const PNS_LAYER_RANGE &aOther) const
Definition: pns_layerset.h:67

PNS_LAYER_RANGE::All
static PNS_LAYER_RANGE All()
Definition: pns_layerset.h:129

PNS_LAYER_RANGE::IsMultilayer
bool IsMultilayer() const
Definition: pns_layerset.h:81

SEG
Definition: seg.h:42

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:83

SHAPE_LINE_CHAIN::Append
void Append(int aX, int aY, bool aAllowDuplication=false)
Append a new point at the end of the line chain.
Definition: shape_line_chain.h:509

VECTOR2< int32_t >

ZONE
Handle a list of polygons defining a copper zone.
Definition: zone.h:73

ZONE::GetZoneName
const wxString & GetZoneName() const
Definition: zone.h:132

ZONE::HasKeepoutParametersSet
bool HasKeepoutParametersSet() const
Accessor to determine if any keepout parameters are set.
Definition: zone.h:712

empty
static bool empty(const wxTextEntryBase *aCtrl)
Definition: dialog_sim_command.cpp:41

_
#define _(s)
Definition: eda_3d_actions.cpp:35

graphics_abstraction_layer.h

Edge_Cuts
@ Edge_Cuts
Definition: layer_ids.h:112

PNS
Push and Shove diff pair dimensions (gap) settings dialog.
Definition: dialog_pns_diff_pair_dimensions.h:33

PNS::theRouter
static ROUTER * theRouter
Definition: pns_router.cpp:58

PNS::NET_HANDLE
void * NET_HANDLE
Definition: pns_item.h:54

PNS::ROUTER_MODE
ROUTER_MODE
Definition: pns_router.h:62

PNS::PNS_MODE_ROUTE_SINGLE
@ PNS_MODE_ROUTE_SINGLE
Definition: pns_router.h:63

PNS::PNS_MODE_ROUTE_DIFF_PAIR
@ PNS_MODE_ROUTE_DIFF_PAIR
Definition: pns_router.h:64

PNS::PNS_MODE_TUNE_DIFF_PAIR
@ PNS_MODE_TUNE_DIFF_PAIR
Definition: pns_router.h:66

PNS::PNS_MODE_TUNE_SINGLE
@ PNS_MODE_TUNE_SINGLE
Definition: pns_router.h:65

PNS::PNS_MODE_TUNE_DIFF_PAIR_SKEW
@ PNS_MODE_TUNE_DIFF_PAIR_SKEW
Definition: pns_router.h:67

PNS::DRAG_MODE
DRAG_MODE
Definition: pns_router.h:71

PNS::MK_VIOLATION
@ MK_VIOLATION
Definition: pns_item.h:43

test
Definition: drc_test_provider_diff_pair_coupling.cpp:51

pad.h

pcb_painter.h

pns_component_dragger.h

pns_diff_pair_placer.h

pns_dp_meander_placer.h

pns_dragger.h

pns_line.h

pns_line_placer.h

pns_meander_placer.h

pns_meander_skew_placer.h

pns_multi_dragger.h

pns_node.h

pns_router.h

pns_shove.h

pns_solid.h

pns_topology.h

pns_utils.h

router_preview_item.h

PNS_HEAD_TRACE
#define PNS_HEAD_TRACE
Definition: router_preview_item.h:49

settings_manager.h

shape.h

PNS::COLLISION_SEARCH_OPTIONS
Definition: pns_node.h:113

PNS::COLLISION_SEARCH_OPTIONS::m_overrideClearance
int m_overrideClearance
Definition: pns_node.h:115

PNS::COLLISION_SEARCH_OPTIONS::m_differentNetsOnly
bool m_differentNetsOnly
Definition: pns_node.h:114

PNS::OBSTACLE
Hold an object colliding with another object, along with some useful data about the collision.
Definition: pns_node.h:87

PCB_TEXTBOX_T
@ PCB_TEXTBOX_T
class PCB_TEXTBOX, wrapped text on a layer
Definition: typeinfo.h:93

PCB_ZONE_T
@ PCB_ZONE_T
class ZONE, a copper pour area
Definition: typeinfo.h:107

PCB_TEXT_T
@ PCB_TEXT_T
class PCB_TEXT, text on a layer
Definition: typeinfo.h:92

PCB_FIELD_T
@ PCB_FIELD_T
class PCB_FIELD, text associated with a footprint property
Definition: typeinfo.h:90

PCB_PAD_T
@ PCB_PAD_T
class PAD, a pad in a footprint
Definition: typeinfo.h:87

VECTOR2I
VECTOR2< int32_t > VECTOR2I
Definition: vector2d.h:691

zone.h