doxygen/pns__dragger_8cpp_source.html

/*

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

 *

 * Copyright (C) 2013-2014 CERN

 * Copyright (C) 2016-2021 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 "pns_arc.h"


#include "pns_dragger.h"

#include "pns_shove.h"

#include "pns_router.h"

#include "pns_debug_decorator.h"

#include "pns_walkaround.h"


namespace PNS {


DRAGGER::DRAGGER( ROUTER* aRouter ) :

 DRAG_ALGO( aRouter ),

 m_initialVia( {} ),

 m_draggedVia( {} )

{

 m_world = nullptr;

 m_lastNode = nullptr;

 m_mode = DM_SEGMENT;

 m_draggedSegmentIndex = 0;

 m_dragStatus = false;

 m_currentMode = RM_MarkObstacles;

 m_freeAngleMode = false;

}


DRAGGER::~DRAGGER()

{

}


bool DRAGGER::propagateViaForces( NODE* node, std::set<VIA*>& vias )

{

 VIA* via = *vias.begin();


 VECTOR2I force;

 VECTOR2I lead = -m_mouseTrailTracer.GetTrailLeadVector();


 const int iterLimit = Settings().ViaForcePropIterationLimit();


 if( via->PushoutForce( node, lead, force, ITEM::ANY_T, iterLimit ) )

 {

 via->SetPos( via->Pos() + force );

 return true;

 }


 return false;

}


VVIA* DRAGGER::checkVirtualVia( const VECTOR2D& aP, SEGMENT* aSeg )

{

 int w2 = aSeg->Width() / 2;


 auto distA = ( aP - aSeg->Seg().A ).EuclideanNorm();

 auto distB = ( aP - aSeg->Seg().B ).EuclideanNorm();


 VECTOR2I psnap;


 if( distA <= w2 )

 {

 psnap = aSeg->Seg().A;

 }

 else if( distB <= w2 )

 {

 psnap = aSeg->Seg().B;

 }

 else

 {

 return nullptr;

 }


 JOINT *jt = m_world->FindJoint( psnap, aSeg );


 if ( !jt )

 {

 return nullptr;

 }


 for( auto& lnk : jt->LinkList() )

 {

 if( lnk.item->IsVirtual() && lnk.item->OfKind( ITEM::VIA_T ))

 {

 return static_cast<VVIA*>( lnk.item );

 }

 }


 return nullptr;

}


bool DRAGGER::startDragSegment( const VECTOR2D& aP, SEGMENT* aSeg )

{

 int w2 = aSeg->Width() / 2;


 m_draggedLine = m_world->AssembleLine( aSeg, &m_draggedSegmentIndex );

 m_lastDragSolution = m_draggedLine;


 if( m_shove )

 {

 m_shove->SetInitialLine( m_draggedLine );

 }


 auto distA = ( aP - aSeg->Seg().A ).EuclideanNorm();

 auto distB = ( aP - aSeg->Seg().B ).EuclideanNorm();


 if( distA < w2 || distB < w2 )

 {

 m_mode = DM_CORNER;


 if( distB <= distA )

 m_draggedSegmentIndex++;

 }

 else if( m_freeAngleMode )

 {

 if( distB < distA &&

 ( m_draggedSegmentIndex < m_draggedLine.PointCount() - 2 ) &&

 ( !m_draggedLine.CLine().IsPtOnArc( static_cast<size_t>(m_draggedSegmentIndex) + 1 ) ) )

 {

 m_draggedSegmentIndex++;

 }


 m_mode = DM_CORNER;

 }

 else

 {

 m_mode = DM_SEGMENT;

 }


 return true;

}


bool DRAGGER::startDragArc( const VECTOR2D& aP, ARC* aArc )

{

 m_draggedLine = m_world->AssembleLine( aArc, &m_draggedSegmentIndex );

 m_shove->SetInitialLine( m_draggedLine );

 m_mode = DM_ARC;


 return true;

}


bool DRAGGER::startDragVia( VIA* aVia )

{

 m_initialVia = aVia->MakeHandle();

 m_draggedVia = m_initialVia;


 m_mode = DM_VIA;


 return true;

}


const ITEM_SET DRAGGER::findViaFanoutByHandle ( NODE *aNode, const VIA_HANDLE& handle )

{

 ITEM_SET rv;


 JOINT* jt = aNode->FindJoint( handle.pos, handle.layers.Start(), handle.net );


 if( !jt )

 return rv;


 for( ITEM* item : jt->LinkList() )

 {

 if( item->OfKind( ITEM::SEGMENT_T | ITEM::ARC_T ) )

 {

 int segIndex;

 LINKED_ITEM* seg = ( LINKED_ITEM*) item;

 LINE l = aNode->AssembleLine( seg, &segIndex );


 if( segIndex != 0 )

 l.Reverse();


 rv.Add( l );

 }

 else if( item->OfKind( ITEM::VIA_T ) )

 {

 rv.Add( item );

 }

 }


 return rv;

}


bool DRAGGER::Start( const VECTOR2I& aP, ITEM_SET& aPrimitives )

{

 if( aPrimitives.Empty() )

 return false;


 ITEM* startItem = aPrimitives[0];


 m_lastNode = nullptr;

 m_draggedItems.Clear();

 m_currentMode = Settings().Mode();

 m_freeAngleMode = (m_mode & DM_FREE_ANGLE);

 m_lastValidPoint = aP;


 m_mouseTrailTracer.Clear();

 m_mouseTrailTracer.AddTrailPoint( aP );


 if( m_currentMode == RM_Shove && !m_freeAngleMode )

 {

 m_shove = std::make_unique<SHOVE>( m_world, Router() );

 m_shove->SetLogger( Logger() );

 m_shove->SetDebugDecorator( Dbg() );

 }


 startItem->Unmark( MK_LOCKED );


 PNS_DBG( Dbg(), Message, wxString::Format( "StartDragging: item %p [kind %d]",

 startItem, (int) startItem->Kind() ) );


 switch( startItem->Kind() )

 {

 case ITEM::SEGMENT_T:

 {

 SEGMENT* seg = static_cast<SEGMENT*>( startItem );

 VVIA* vvia = checkVirtualVia( aP, seg );


 if( vvia )

 {

 return startDragVia( vvia );

 }

 else

 {

 return startDragSegment( aP, seg );

 }

 }

 case ITEM::VIA_T:

 return startDragVia( static_cast<VIA*>( startItem ) );


 case ITEM::ARC_T:

 return startDragArc( aP, static_cast<ARC*>( startItem ) );


 default:

 return false;

 }

}


void DRAGGER::SetMode( PNS::DRAG_MODE aMode )

{

 m_mode = static_cast<int>( aMode );

}


PNS::DRAG_MODE DRAGGER::Mode() const

{

 return static_cast<PNS::DRAG_MODE>( m_mode );

}


const std::vector<int> DRAGGER::CurrentNets() const

{

 if( m_mode == PNS::DM_VIA )

 return std::vector<int>( 1, m_draggedVia.net );

 else

 return std::vector<int>( 1, m_draggedLine.Net() );

}


bool DRAGGER::dragMarkObstacles( const VECTOR2I& aP )

{

 // fixme: rewrite using shared_ptr...

 if( m_lastNode )

 {

 delete m_lastNode;

 m_lastNode = nullptr;

 }


 m_lastNode = m_world->Branch();


 switch( m_mode )

 {

 case DM_SEGMENT:

 case DM_CORNER:

 {

 //TODO: Make threshold configurable

 int thresh = Settings().SmoothDraggedSegments() ? m_draggedLine.Width() / 4 : 0;

 LINE origLine( m_draggedLine );

 LINE dragged( m_draggedLine );

 dragged.SetSnapThreshhold( thresh );

 dragged.ClearLinks();


 if( m_mode == DM_SEGMENT )

 dragged.DragSegment( aP, m_draggedSegmentIndex );

 else

 dragged.DragCorner( aP, m_draggedSegmentIndex, m_freeAngleMode );


 m_lastNode->Remove( origLine );

 m_lastNode->Add( dragged );


 m_draggedItems.Clear();

 m_draggedItems.Add( dragged );


 break;

 }


 case DM_VIA: // fixme...

 {

 dragViaMarkObstacles( m_initialVia, m_lastNode, aP );


 break;

 }

 }


 if( Settings().AllowDRCViolations() )

 m_dragStatus = true;

 else

 m_dragStatus = !m_world->CheckColliding( m_draggedItems );


 return true;

}


bool DRAGGER::dragViaMarkObstacles( const VIA_HANDLE& aHandle, NODE* aNode, const VECTOR2I& aP )

{

 m_draggedItems.Clear();


 ITEM_SET fanout = findViaFanoutByHandle( aNode, aHandle );


 if( fanout.Empty() )

 {

 return true;

 }


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

 {

 if( const LINE* l = dyn_cast<const LINE*>( item ) )

 {

 LINE origLine( *l );

 LINE draggedLine( *l );


 draggedLine.DragCorner( aP, origLine.CLine().Find( aHandle.pos ), m_freeAngleMode );

 draggedLine.ClearLinks();


 m_draggedItems.Add( draggedLine );


 m_lastNode->Remove( origLine );

 m_lastNode->Add( draggedLine );

 }

 else if ( VIA *via = dyn_cast<VIA*>( item ) )

 {

 auto nvia = Clone( *via );


 nvia->SetPos( aP );

 m_draggedItems.Add( nvia.get() );


 m_lastNode->Remove( via );

 m_lastNode->Add( std::move( nvia ) );

 }

 }


 return true;

}


bool DRAGGER::dragViaWalkaround( const VIA_HANDLE& aHandle, NODE* aNode, const VECTOR2I& aP )

{

 m_draggedItems.Clear();


 ITEM_SET fanout = findViaFanoutByHandle( aNode, aHandle );


 if( fanout.Empty() )

 {

 return true;

 }


 bool viaPropOk = false;

 VECTOR2I viaTargetPos;


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

 {

 if ( VIA *via = dyn_cast<VIA*>( item ) )

 {

 auto draggedVia = Clone( *via );


 draggedVia->SetPos( aP );

 m_draggedItems.Add( draggedVia.get() );


 std::set<VIA*> vias;


 vias.insert( draggedVia.get() );


 bool ok = propagateViaForces( m_lastNode, vias );


 if( ok )

 {

 viaTargetPos = draggedVia->Pos();

 viaPropOk = true;

 m_lastNode->Remove( via );

 m_lastNode->Add( std::move(draggedVia) );

 }

 }

 }


 if( !viaPropOk ) // can't force-propagate the via? bummer...

 return false;


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

 {

 if( const LINE* l = dyn_cast<const LINE*>( item ) )

 {

 LINE origLine( *l );

 LINE draggedLine( *l );

 LINE walkLine( *l );


 draggedLine.DragCorner( viaTargetPos, origLine.CLine().Find( aHandle.pos ),

 m_freeAngleMode );

 draggedLine.ClearLinks();


 if ( m_world->CheckColliding( &draggedLine ) )

 {

 bool ok = tryWalkaround( m_lastNode, draggedLine, walkLine );


 if( !ok )

 return false;


 m_lastNode->Remove( origLine );

 optimizeAndUpdateDraggedLine( walkLine, origLine, aP );

 }

 else

 {

 m_draggedItems.Add( draggedLine );


 m_lastNode->Remove( origLine );

 m_lastNode->Add( draggedLine );

 }

 }

 }


 return true;

}


void DRAGGER::optimizeAndUpdateDraggedLine( LINE& aDragged, const LINE& aOrig, const VECTOR2I& aP )

{

 VECTOR2D lockV;

 aDragged.ClearLinks();

 aDragged.Unmark();


 lockV = aDragged.CLine().NearestPoint( aP );


 OPTIMIZER optimizer( m_lastNode );


 int effort = OPTIMIZER::MERGE_SEGMENTS | OPTIMIZER::KEEP_TOPOLOGY | OPTIMIZER::RESTRICT_AREA;


 if( Settings().SmoothDraggedSegments() )

 effort |= OPTIMIZER::MERGE_COLINEAR;


 optimizer.SetEffortLevel( effort );


 OPT_BOX2I affectedArea = aDragged.ChangedArea( &aOrig );

 VECTOR2I anchor( aP );


 if( aDragged.CLine().Find( aP ) < 0 )

 {

 anchor = aDragged.CLine().NearestPoint( aP );

 }


 optimizer.SetPreserveVertex( anchor );


 // People almost never want KiCad to reroute tracks in areas they can't even see, so restrict

 // the area to what is visible even if we are optimizing the "entire" track.

 if( Settings().GetOptimizeEntireDraggedTrack() )

 affectedArea = VisibleViewArea();

 else if( !affectedArea )

 affectedArea = BOX2I( aP ); // No valid area yet? set to minimum to disable optimization


 PNS_DBG( Dbg(), AddPoint, anchor, YELLOW, 100000, wxT( "drag-anchor" ) );

 PNS_DBG( Dbg(), AddShape, *affectedArea, RED, 0, wxT( "drag-affected-area" ) );


 optimizer.SetRestrictArea( *affectedArea );

 optimizer.Optimize( &aDragged );


 OPT_BOX2I optArea = aDragged.ChangedArea( &aOrig );


 if( optArea )

 PNS_DBG( Dbg(), AddShape, *optArea, BLUE, 0, wxT( "drag-opt-area" ) );


 m_lastNode->Add( aDragged );

 m_draggedItems.Clear();

 m_draggedItems.Add( aDragged );

}


bool DRAGGER::tryWalkaround( NODE* aNode, LINE& aOrig, LINE& aWalk )

{

 WALKAROUND walkaround( aNode, Router() );

 bool ok = false;

 walkaround.SetSolidsOnly( false );

 walkaround.SetDebugDecorator( Dbg() );

 walkaround.SetLogger( Logger() );

 walkaround.SetIterationLimit( Settings().WalkaroundIterationLimit() );


 aWalk = aOrig;


 WALKAROUND::RESULT wr = walkaround.Route( aWalk );


 if( wr.statusCcw == WALKAROUND::DONE && wr.statusCw == WALKAROUND::DONE )

 {

 if( wr.lineCw.CLine().PointCount() > 1

 && wr.lineCw.CLine().Length() < wr.lineCcw.CLine().Length() )

 {

 aWalk = wr.lineCw;

 ok = true;

 }

 else if( wr.lineCcw.CLine().PointCount() > 1 )

 {

 aWalk = wr.lineCcw;

 ok = true;

 }

 }

 else if( wr.statusCw == WALKAROUND::DONE && wr.lineCw.CLine().PointCount() > 1 )

 {

 aWalk = wr.lineCw;

 ok = true;

 }

 else if( wr.statusCcw == WALKAROUND::DONE && wr.lineCcw.CLine().PointCount() > 1 )

 {

 aWalk = wr.lineCcw;

 ok = true;

 }


 return ok;

}


bool DRAGGER::dragWalkaround( const VECTOR2I& aP )

{

 bool ok = false;


 // fixme: rewrite using shared_ptr...

 if( m_lastNode )

 {

 delete m_lastNode;

 m_lastNode = nullptr;

 }


 m_lastNode = m_world->Branch();


 switch( m_mode )

 {

 case DM_SEGMENT:

 case DM_CORNER:

 {

 int thresh = Settings().SmoothDraggedSegments() ? m_draggedLine.Width() / 4 : 0;

 LINE dragged( m_draggedLine );

 LINE draggedWalk( m_draggedLine );

 LINE origLine( m_draggedLine );


 dragged.SetSnapThreshhold( thresh );


 if( m_mode == DM_SEGMENT )

 dragged.DragSegment( aP, m_draggedSegmentIndex );

 else

 dragged.DragCorner( aP, m_draggedSegmentIndex );


 if ( m_world->CheckColliding( &dragged ) )

 {

 ok = tryWalkaround( m_lastNode, dragged, draggedWalk );

 }

 else

 {

 draggedWalk = dragged;

 ok = true;

 }


 if( draggedWalk.CLine().PointCount() < 2 )

 ok = false;


 if( ok )

 {

 PNS_DBG( Dbg(), AddShape, &origLine.CLine(), BLUE, 50000, wxT( "drag-orig-line" ) );

 PNS_DBG( Dbg(), AddShape, &draggedWalk.CLine(), CYAN, 75000, wxT( "drag-walk" ) );

 m_lastNode->Remove( origLine );

 optimizeAndUpdateDraggedLine( draggedWalk, origLine, aP );

 }


 break;

 }

 case DM_VIA: // fixme...

 {

 ok = dragViaWalkaround( m_initialVia, m_lastNode, aP );

 break;

 }

 }


 m_dragStatus = ok;


 return true;

}


bool DRAGGER::dragShove( const VECTOR2I& aP )

{

 bool ok = false;


 if( m_lastNode )

 {

 delete m_lastNode;

 m_lastNode = nullptr;

 }


 switch( m_mode )

 {

 case DM_SEGMENT:

 case DM_CORNER:

 {

 //TODO: Make threshold configurable

 int thresh = Settings().SmoothDraggedSegments() ? m_draggedLine.Width() / 2 : 0;

 LINE dragged( m_draggedLine );

 dragged.SetSnapThreshhold( thresh );


 if( m_mode == DM_SEGMENT )

 dragged.DragSegment( aP, m_draggedSegmentIndex );

 else

 dragged.DragCorner( aP, m_draggedSegmentIndex );


 PNS_DBG( Dbg(), AddShape, &dragged.CLine(), BLUE, 5000, wxT( "drag-shove-line" ) );


 SHOVE::SHOVE_STATUS st = m_shove->ShoveLines( dragged );


 if( st == SHOVE::SH_OK )

 {

 ok = true;

 }

 else if( st == SHOVE::SH_HEAD_MODIFIED )

 {

 dragged = m_shove->NewHead();

 ok = true;

 }


 m_lastNode = m_shove->CurrentNode()->Branch();


 if( ok )

 {

 VECTOR2D lockV;

 dragged.ClearLinks();

 dragged.Unmark();

 optimizeAndUpdateDraggedLine( dragged, m_draggedLine, aP );

 m_lastDragSolution = dragged;

 }

 else

 {

 m_lastDragSolution.ClearLinks();

 m_lastNode->Add( m_lastDragSolution );

 }


 break;

 }


 case DM_VIA:

 {

 VIA_HANDLE newVia;


 // corner count limiter intended to avoid excessive optimization produces mediocre results for via shoving.

 // this is a hack that disables it, before I figure out a more reliable solution

 m_shove->DisablePostShoveOptimizations( OPTIMIZER::LIMIT_CORNER_COUNT );

 SHOVE::SHOVE_STATUS st = m_shove->ShoveDraggingVia( m_draggedVia, aP, newVia );


 if( st == SHOVE::SH_OK || st == SHOVE::SH_HEAD_MODIFIED )

 ok = true;


 m_lastNode = m_shove->CurrentNode()->Branch();


 if( newVia.valid )

 m_draggedVia = newVia;


 m_draggedItems.Clear();

 break;

 }

 }


 m_dragStatus = ok;


 return ok;

}


bool DRAGGER::FixRoute()

{

 NODE* node = CurrentNode();


 if( node )

 {

 // If collisions exist, we can fix in shove/smart mode because all tracks to be committed

 // will be in valid positions (even if the current routing solution to the mouse cursor is

 // invalid). In other modes, we can only commit if "Allow DRC violations" is enabled.

 if( !m_dragStatus )

 {

 Drag( m_lastValidPoint );

 node = CurrentNode();


 if( !node )

 return false;

 }


 if( !m_dragStatus && !Settings().AllowDRCViolations() )

 return false;


 Router()->CommitRouting( node );

 return true;

 }


 return false;

}


bool DRAGGER::Drag( const VECTOR2I& aP )

{

 m_mouseTrailTracer.AddTrailPoint( aP );


 bool ret = false;


 if( m_freeAngleMode )

 {

 ret = dragMarkObstacles( aP );

 }

 else

 {

 switch( m_currentMode )

 {

 case RM_MarkObstacles: ret = dragMarkObstacles( aP ); break;

 case RM_Shove: ret = dragShove( aP ); break;

 case RM_Walkaround: ret = dragWalkaround( aP ); break;

 default: break;

 }

 }


 if( ret )

 m_lastValidPoint = aP;


 return ret;

}


NODE* DRAGGER::CurrentNode() const

{

 return m_lastNode ? m_lastNode : m_world;

}


const ITEM_SET DRAGGER::Traces()

{

 return m_draggedItems;

}


}

BITMAPS::via
@ via

BITMAPS::anchor
@ anchor

BOX2I
BOX2< VECTOR2I > BOX2I
Definition: box2.h:847

OPT_BOX2I
std::optional< BOX2I > OPT_BOX2I
Definition: box2.h:850

LAYER_RANGE::Start
int Start() const
Definition: pns_layerset.h:82

PNS::ALGO_BASE::VisibleViewArea
const BOX2I & VisibleViewArea() const
Definition: pns_algo_base.cpp:40

PNS::ALGO_BASE::SetDebugDecorator
void SetDebugDecorator(DEBUG_DECORATOR *aDecorator)
Assign a debug decorator allowing this algo to draw extra graphics for visual debugging.
Definition: pns_algo_base.h:73

PNS::ALGO_BASE::SetLogger
void SetLogger(LOGGER *aLogger)
Definition: pns_algo_base.h:65

PNS::ALGO_BASE::Logger
virtual LOGGER * Logger()
Definition: pns_algo_base.cpp:34

PNS::ALGO_BASE::Router
ROUTER * Router() const
Return current router settings.
Definition: pns_algo_base.h:54

PNS::ALGO_BASE::Settings
ROUTING_SETTINGS & Settings() const
Return the logger object, allowing to dump geometry to a file.
Definition: pns_algo_base.cpp:28

PNS::ALGO_BASE::Dbg
DEBUG_DECORATOR * Dbg() const
Definition: pns_algo_base.h:78

PNS::ARC
Definition: pns_arc.h:37

PNS::DRAGGER::m_draggedItems
ITEM_SET m_draggedItems
If true, moves the connection lines without maintaining 45 degrees corners.
Definition: pns_dragger.h:156

PNS::DRAGGER::Mode
PNS::DRAG_MODE Mode() const override
Definition: pns_dragger.cpp:267

PNS::DRAGGER::m_dragStatus
bool m_dragStatus
Definition: pns_dragger.h:150

PNS::DRAGGER::optimizeAndUpdateDraggedLine
void optimizeAndUpdateDraggedLine(LINE &aDragged, const LINE &aOrig, const VECTOR2I &aP)
Definition: pns_dragger.cpp:456

PNS::DRAGGER::findViaFanoutByHandle
const ITEM_SET findViaFanoutByHandle(NODE *aNode, const VIA_HANDLE &handle)
Definition: pns_dragger.cpp:174

PNS::DRAGGER::startDragSegment
bool startDragSegment(const VECTOR2D &aP, SEGMENT *aSeg)
Definition: pns_dragger.cpp:112

PNS::DRAGGER::m_lastValidPoint
VECTOR2D m_lastValidPoint
Contains the list of items that are currently modified by the dragger.
Definition: pns_dragger.h:153

PNS::DRAGGER::Start
virtual bool Start(const VECTOR2I &aP, ITEM_SET &aPrimitives) override
Function Start()
Definition: pns_dragger.cpp:205

PNS::DRAGGER::CurrentNode
NODE * CurrentNode() const override
Function CurrentNode()
Definition: pns_dragger.cpp:758

PNS::DRAGGER::DRAGGER
DRAGGER(ROUTER *aRouter)
Definition: pns_dragger.cpp:32

PNS::DRAGGER::dragViaMarkObstacles
bool dragViaMarkObstacles(const VIA_HANDLE &aHandle, NODE *aNode, const VECTOR2I &aP)
Definition: pns_dragger.cpp:336

PNS::DRAGGER::Drag
bool Drag(const VECTOR2I &aP) override
Function Drag()
Definition: pns_dragger.cpp:730

PNS::DRAGGER::m_mode
int m_mode
Definition: pns_dragger.h:145

PNS::DRAGGER::startDragVia
bool startDragVia(VIA *aVia)
Definition: pns_dragger.cpp:164

PNS::DRAGGER::m_lastDragSolution
LINE m_lastDragSolution
Definition: pns_dragger.h:147

PNS::DRAGGER::m_draggedSegmentIndex
int m_draggedSegmentIndex
Definition: pns_dragger.h:149

PNS::DRAGGER::dragShove
bool dragShove(const VECTOR2I &aP)
Definition: pns_dragger.cpp:615

PNS::DRAGGER::SetMode
void SetMode(PNS::DRAG_MODE aDragMode) override
Definition: pns_dragger.cpp:261

PNS::DRAGGER::dragMarkObstacles
bool dragMarkObstacles(const VECTOR2I &aP)
Definition: pns_dragger.cpp:282

PNS::DRAGGER::m_shove
std::unique_ptr< SHOVE > m_shove
Definition: pns_dragger.h:148

PNS::DRAGGER::m_lastNode
NODE * m_lastNode
Definition: pns_dragger.h:144

PNS::DRAGGER::m_draggedLine
LINE m_draggedLine
Definition: pns_dragger.h:146

PNS::DRAGGER::~DRAGGER
~DRAGGER()
Definition: pns_dragger.cpp:47

PNS::DRAGGER::dragWalkaround
bool dragWalkaround(const VECTOR2I &aP)
Definition: pns_dragger.cpp:549

PNS::DRAGGER::FixRoute
bool FixRoute() override
Function FixRoute()
Definition: pns_dragger.cpp:701

PNS::DRAGGER::CurrentNets
const std::vector< int > CurrentNets() const override
Function CurrentNets()
Definition: pns_dragger.cpp:273

PNS::DRAGGER::checkVirtualVia
VVIA * checkVirtualVia(const VECTOR2D &aP, SEGMENT *aSeg)
Definition: pns_dragger.cpp:71

PNS::DRAGGER::m_draggedVia
VIA_HANDLE m_draggedVia
Definition: pns_dragger.h:142

PNS::DRAGGER::dragViaWalkaround
bool dragViaWalkaround(const VIA_HANDLE &aHandle, NODE *aNode, const VECTOR2I &aP)
Definition: pns_dragger.cpp:378

PNS::DRAGGER::m_freeAngleMode
bool m_freeAngleMode
Definition: pns_dragger.h:159

PNS::DRAGGER::m_currentMode
PNS_MODE m_currentMode
Definition: pns_dragger.h:151

PNS::DRAGGER::Traces
const ITEM_SET Traces() override
Function Traces()
Definition: pns_dragger.cpp:764

PNS::DRAGGER::tryWalkaround
bool tryWalkaround(NODE *aNode, LINE &aOrig, LINE &aWalk)
Definition: pns_dragger.cpp:507

PNS::DRAGGER::startDragArc
bool startDragArc(const VECTOR2D &aP, ARC *aArc)
Definition: pns_dragger.cpp:154

PNS::DRAGGER::m_mouseTrailTracer
MOUSE_TRAIL_TRACER m_mouseTrailTracer
Definition: pns_dragger.h:160

PNS::DRAGGER::m_initialVia
VIA_HANDLE m_initialVia
Definition: pns_dragger.h:141

PNS::DRAGGER::propagateViaForces
bool propagateViaForces(NODE *node, std::set< VIA * > &vias)
Definition: pns_dragger.cpp:52

PNS::DRAG_ALGO
DRAG_ALGO.
Definition: pns_drag_algo.h:44

PNS::DRAG_ALGO::m_world
NODE * m_world
Definition: pns_drag_algo.h:124

PNS::ITEM_SET
Definition: pns_itemset.h:37

PNS::ITEM_SET::Empty
bool Empty() const
Definition: pns_itemset.h:130

PNS::ITEM_SET::Clear
void Clear()
Definition: pns_itemset.h:188

PNS::ITEM_SET::Add
void Add(const LINE &aLine)
Definition: pns_itemset.cpp:32

PNS::ITEM_SET::Items
ENTRIES & Items()
Definition: pns_itemset.h:135

PNS::ITEM
Base class for PNS router board items.
Definition: pns_item.h:56

PNS::ITEM::Unmark
virtual void Unmark(int aMarker=-1) const
Definition: pns_item.h:213

PNS::ITEM::Kind
PnsKind Kind() const
Return the type (kind) of the item.
Definition: pns_item.h:132

PNS::ITEM::ARC_T
@ ARC_T
Definition: pns_item.h:67

PNS::ITEM::SEGMENT_T
@ SEGMENT_T
Definition: pns_item.h:66

PNS::ITEM::VIA_T
@ VIA_T
Definition: pns_item.h:68

PNS::ITEM::ANY_T
@ ANY_T
Definition: pns_item.h:70

PNS::ITEM::Net
int Net() const
Definition: pns_item.h:154

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::JOINT::LinkList
const LINKED_ITEMS & LinkList() const
Definition: pns_joint.h:241

PNS::LINE
Represents a track on a PCB, connecting two non-trivial joints (that is, vias, pads,...
Definition: pns_line.h:61

PNS::LINE::Unmark
virtual void Unmark(int aMarker=-1) const override
Definition: pns_line.cpp:99

PNS::LINE::CLine
const SHAPE_LINE_CHAIN & CLine() const
Definition: pns_line.h:142

PNS::LINE::ChangedArea
OPT_BOX2I ChangedArea(const LINE *aOther) const
Definition: pns_line.cpp:1152

PNS::LINE::Reverse
void Reverse()
Clip the line to the nearest obstacle, traversing from the line's start vertex (0).
Definition: pns_line.cpp:1023

PNS::LINE::DragCorner
void DragCorner(const VECTOR2I &aP, int aIndex, bool aFreeAngle=false)
Definition: pns_line.cpp:734

PNS::LINE::SetSnapThreshhold
void SetSnapThreshhold(int aThreshhold)
Definition: pns_line.h:224

PNS::LINE::DragSegment
void DragSegment(const VECTOR2I &aP, int aIndex, bool aFreeAngle=false)
Definition: pns_line.cpp:748

PNS::LINE::PointCount
int PointCount() const
Definition: pns_line.h:145

PNS::LINE::Width
int Width() const
Return true if the line is geometrically identical as line aOther.
Definition: pns_line.h:161

PNS::LINKED_ITEM
Definition: pns_linked_item.h:30

PNS::LINK_HOLDER::ClearLinks
virtual void ClearLinks()
Return the number of segments that were assembled together to form this line.
Definition: pns_link_holder.h:69

PNS::MOUSE_TRAIL_TRACER::Clear
void Clear()
Definition: pns_mouse_trail_tracer.cpp:38

PNS::MOUSE_TRAIL_TRACER::AddTrailPoint
void AddTrailPoint(const VECTOR2I &aP)
Definition: pns_mouse_trail_tracer.cpp:46

PNS::MOUSE_TRAIL_TRACER::GetTrailLeadVector
VECTOR2I GetTrailLeadVector() const
Definition: pns_mouse_trail_tracer.cpp:278

PNS::NODE
Keep the router "world" - i.e.
Definition: pns_node.h:156

PNS::NODE::Branch
NODE * Branch()
Create a lightweight copy (called branch) of self that tracks the changes (added/removed items) wrs t...
Definition: pns_node.cpp:139

PNS::NODE::CheckColliding
OPT_OBSTACLE CheckColliding(const ITEM *aItem, int aKindMask=ITEM::ANY_T)
Check if the item collides with anything else in the world, and if found, returns the obstacle.
Definition: pns_node.cpp:475

PNS::NODE::Add
bool Add(std::unique_ptr< SEGMENT > aSegment, bool aAllowRedundant=false)
Add an item to the current node.
Definition: pns_node.cpp:667

PNS::NODE::FindJoint
JOINT * FindJoint(const VECTOR2I &aPos, int aLayer, int aNet)
Search for a joint at a given position, layer and belonging to given net.
Definition: pns_node.cpp:1201

PNS::NODE::Remove
void Remove(ARC *aArc)
Remove an item from this branch.
Definition: pns_node.cpp:893

PNS::NODE::AssembleLine
const LINE AssembleLine(LINKED_ITEM *aSeg, int *aOriginSegmentIndex=nullptr, bool aStopAtLockedJoints=false, bool aFollowLockedSegments=false)
Follow the joint map to assemble a line connecting two non-trivial joints starting from segment aSeg.
Definition: pns_node.cpp:1003

PNS::OPTIMIZER
Perform various optimizations of the lines being routed, attempting to make the lines shorter and les...
Definition: pns_optimizer.h:95

PNS::OPTIMIZER::SetPreserveVertex
void SetPreserveVertex(const VECTOR2I &aV)
Definition: pns_optimizer.h:137

PNS::OPTIMIZER::SetRestrictArea
void SetRestrictArea(const BOX2I &aArea, bool aStrict=true)
Definition: pns_optimizer.h:150

PNS::OPTIMIZER::SetEffortLevel
void SetEffortLevel(int aEffort)
Definition: pns_optimizer.h:132

PNS::OPTIMIZER::Optimize
static bool Optimize(LINE *aLine, int aEffortLevel, NODE *aWorld, const VECTOR2I &aV=VECTOR2I(0, 0))
Definition: pns_optimizer.cpp:1096

PNS::OPTIMIZER::LIMIT_CORNER_COUNT
@ LIMIT_CORNER_COUNT
Do not attempt to optimize if the resulting line's corner count is outside the predefined range.
Definition: pns_optimizer.h:108

PNS::OPTIMIZER::KEEP_TOPOLOGY
@ KEEP_TOPOLOGY
Definition: pns_optimizer.h:103

PNS::OPTIMIZER::MERGE_SEGMENTS
@ MERGE_SEGMENTS
Reduce corner cost iteratively.
Definition: pns_optimizer.h:99

PNS::OPTIMIZER::MERGE_COLINEAR
@ MERGE_COLINEAR
Merge co-linear segments.
Definition: pns_optimizer.h:106

PNS::OPTIMIZER::RESTRICT_AREA
@ RESTRICT_AREA
Definition: pns_optimizer.h:107

PNS::ROUTER
Definition: pns_router.h:117

PNS::ROUTER::CommitRouting
void CommitRouting()
Definition: pns_router.cpp:902

PNS::ROUTING_SETTINGS::ViaForcePropIterationLimit
int ViaForcePropIterationLimit() const
Definition: pns_routing_settings.h:157

PNS::ROUTING_SETTINGS::SmoothDraggedSegments
bool SmoothDraggedSegments() const
Enable/disable smoothing segments during dragging.
Definition: pns_routing_settings.h:106

PNS::ROUTING_SETTINGS::Mode
PNS_MODE Mode() const
Set the routing mode.
Definition: pns_routing_settings.h:64

PNS::SEGMENT
Definition: pns_segment.h:39

PNS::SEGMENT::Seg
const SEG & Seg() const
Definition: pns_segment.h:84

PNS::SEGMENT::Width
int Width() const override
Definition: pns_segment.h:79

PNS::SHOVE::SHOVE_STATUS
SHOVE_STATUS
Definition: pns_shove.h:50

PNS::SHOVE::SH_HEAD_MODIFIED
@ SH_HEAD_MODIFIED
Definition: pns_shove.h:54

PNS::SHOVE::SH_OK
@ SH_OK
Definition: pns_shove.h:51

PNS::VIA
Definition: pns_via.h:50

PNS::VIA::MakeHandle
const VIA_HANDLE MakeHandle() const
Definition: pns_via.cpp:213

PNS::VVIA
Definition: pns_via.h:178

PNS::WALKAROUND
Definition: pns_walkaround.h:36

PNS::WALKAROUND::SetIterationLimit
void SetIterationLimit(const int aIterLimit)
Definition: pns_walkaround.h:84

PNS::WALKAROUND::DONE
@ DONE
Definition: pns_walkaround.h:61

PNS::WALKAROUND::SetSolidsOnly
void SetSolidsOnly(bool aSolidsOnly)
Definition: pns_walkaround.h:89

PNS::WALKAROUND::Route
WALKAROUND_STATUS Route(const LINE &aInitialPath, LINE &aWalkPath, bool aOptimize=true)
Definition: pns_walkaround.cpp:223

SEG::A
VECTOR2I A
Definition: seg.h:49

SEG::B
VECTOR2I B
Definition: seg.h:50

SHAPE_LINE_CHAIN::IsPtOnArc
bool IsPtOnArc(size_t aPtIndex) const
Definition: shape_line_chain.h:822

SHAPE_LINE_CHAIN::PointCount
int PointCount() const
Return the number of points (vertices) in this line chain.
Definition: shape_line_chain.h:320

SHAPE_LINE_CHAIN::NearestPoint
const VECTOR2I NearestPoint(const VECTOR2I &aP, bool aAllowInternalShapePoints=true) const
Find a point on the line chain that is closest to point aP.
Definition: shape_line_chain.cpp:1878

SHAPE_LINE_CHAIN::Length
long long int Length() const
Return length of the line chain in Euclidean metric.
Definition: shape_line_chain.cpp:687

SHAPE_LINE_CHAIN::Find
int Find(const VECTOR2I &aP, int aThreshold=0) const
Search for point aP.
Definition: shape_line_chain.cpp:951

VECTOR2< int >

BLUE
@ BLUE
Definition: color4d.h:54

CYAN
@ CYAN
Definition: color4d.h:56

YELLOW
@ YELLOW
Definition: color4d.h:65

RED
@ RED
Definition: color4d.h:57

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

PNS::RM_MarkObstacles
@ RM_MarkObstacles
Ignore collisions, mark obstacles.
Definition: pns_routing_settings.h:41

PNS::RM_Walkaround
@ RM_Walkaround
Only walk around.
Definition: pns_routing_settings.h:43

PNS::RM_Shove
@ RM_Shove
Only shove.
Definition: pns_routing_settings.h:42

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

PNS::DM_CORNER
@ DM_CORNER
Definition: pns_router.h:72

PNS::DM_FREE_ANGLE
@ DM_FREE_ANGLE
Definition: pns_router.h:75

PNS::DM_VIA
@ DM_VIA
Definition: pns_router.h:74

PNS::DM_SEGMENT
@ DM_SEGMENT
Definition: pns_router.h:73

PNS::DM_ARC
@ DM_ARC
Definition: pns_router.h:76

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

PNS::Clone
std::unique_ptr< typename std::remove_const< T >::type > Clone(const T &aItem)
Definition: pns_item.h:279

pns_arc.h

pns_debug_decorator.h

PNS_DBG
#define PNS_DBG(dbg, method,...)
Definition: pns_debug_decorator.h:122

pns_dragger.h

pns_router.h

pns_shove.h

pns_walkaround.h

Format
void Format(OUTPUTFORMATTER *out, int aNestLevel, int aCtl, const CPTREE &aTree)
Output a PTREE into s-expression format via an OUTPUTFORMATTER derivative.
Definition: ptree.cpp:200

PNS::VIA_HANDLE
Definition: pns_via.h:42

PNS::VIA_HANDLE::net
int net
Definition: pns_via.h:46

PNS::VIA_HANDLE::pos
VECTOR2I pos
Definition: pns_via.h:44

PNS::VIA_HANDLE::layers
LAYER_RANGE layers
Definition: pns_via.h:45

PNS::VIA_HANDLE::valid
bool valid
Definition: pns_via.h:43

PNS::WALKAROUND::RESULT
Definition: pns_walkaround.h:66

PNS::WALKAROUND::RESULT::statusCcw
WALKAROUND_STATUS statusCcw
Definition: pns_walkaround.h:75

PNS::WALKAROUND::RESULT::lineCcw
LINE lineCcw
Definition: pns_walkaround.h:76

PNS::WALKAROUND::RESULT::lineCw
LINE lineCw
Definition: pns_walkaround.h:76

PNS::WALKAROUND::RESULT::statusCw
WALKAROUND_STATUS statusCw
Definition: pns_walkaround.h:75

EuclideanNorm
double EuclideanNorm(const VECTOR2I &vector)
Definition: trigo.h:129