/* * KiRouter - a push-and-(sometimes-)shove PCB router * * Copyright (C) 2013-2014 CERN * Copyright (C) 2016 KiCad Developers, see AUTHORS.txt for contributors. * Author: Tomasz Wlostowski * * 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 . */ #include #include #include #include #include #include #include #include #include #include #include #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_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" 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 = new LOGGER; // Initialize all other variables: m_lastNode = nullptr; m_iterLimit = 0; m_settings = nullptr; m_showInterSteps = false; m_snapshotIter = 0; m_violation = false; m_iface = nullptr; } ROUTER* ROUTER::GetInstance() { return theRouter; } ROUTER::~ROUTER() { ClearWorld(); theRouter = nullptr; delete m_logger; } void ROUTER::SyncWorld() { ClearWorld(); m_world = std::make_unique( ); m_iface->SyncWorld( m_world.get() ); } void ROUTER::ClearWorld() { if( m_world ) { 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 ) { if( m_state == IDLE || m_placer == nullptr ) return m_world->HitTest( aP ); else return m_placer->CurrentNode()->HitTest( aP ); } bool ROUTER::StartDragging( const VECTOR2I& aP, ITEM* aItem, int aDragMode ) { return StartDragging( aP, ITEM_SET( aItem ), aDragMode ); } bool ROUTER::StartDragging( const VECTOR2I& aP, ITEM_SET aStartItems, int aDragMode ) { if( aStartItems.Empty() ) return false; if( aStartItems.Count( ITEM::SOLID_T ) == aStartItems.Size() ) { m_dragger = std::make_unique( this ); m_forceMarkObstaclesMode = true; } else { if( aDragMode & DM_FREE_ANGLE ) m_forceMarkObstaclesMode = true; else m_forceMarkObstaclesMode = false; m_dragger = std::make_unique( this ); } m_dragger->SetMode( aDragMode ); m_dragger->SetWorld( m_world.get() ); m_dragger->SetLogger( m_logger ); m_dragger->SetDebugDecorator( m_iface->GetDebugDecorator() ); if( m_dragger->Start( aP, aStartItems ) ) { m_state = DRAG_SEGMENT; } else { m_dragger.reset(); m_state = IDLE; return false; } return true; } bool ROUTER::isStartingPointRoutable( const VECTOR2I& aWhere, ITEM* aStartItem, int aLayer ) { if( Settings().CanViolateDRC() && Settings().Mode() == RM_MarkObstacles ) return true; ITEM_SET candidates = QueryHoverItems( aWhere ); for( ITEM* item : candidates.Items() ) { if( !item->IsRoutable() && item->Layers().Overlaps( aLayer ) ) return false; } if( m_mode == PNS_MODE_ROUTE_SINGLE && aStartItem ) { VECTOR2I startPoint = aStartItem->Anchor( 0 ); SEGMENT dummyStartSeg( SEG( startPoint, startPoint ), aStartItem->Net() ); dummyStartSeg.SetWidth( m_sizes.TrackWidth() ); dummyStartSeg.SetLayer( aLayer ); if( m_world->CheckColliding( &dummyStartSeg, ITEM::ANY_T ) ) return false; } else if( m_mode == PNS_MODE_ROUTE_DIFF_PAIR && aStartItem ) { // TODO } return true; } bool ROUTER::StartRouting( const VECTOR2I& aP, ITEM* aStartItem, int aLayer ) { if( ! isStartingPointRoutable( aP, aStartItem, aLayer ) ) { SetFailureReason( _( "The routing start point violates DRC." ) ); return false; } m_forceMarkObstaclesMode = false; switch( m_mode ) { case PNS_MODE_ROUTE_SINGLE: m_placer = std::make_unique( this ); break; case PNS_MODE_ROUTE_DIFF_PAIR: m_placer = std::make_unique( this ); break; case PNS_MODE_TUNE_SINGLE: m_placer = std::make_unique( this ); break; case PNS_MODE_TUNE_DIFF_PAIR: m_placer = std::make_unique( this ); break; case PNS_MODE_TUNE_DIFF_PAIR_SKEW: m_placer = std::make_unique( 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_logger ) m_logger->Log( LOGGER::EVT_START_ROUTE, aP, aStartItem ); bool rv = m_placer->Start( aP, aStartItem ); if( !rv ) return false; m_currentEnd = aP; m_state = ROUTE_TRACK; return rv; } void ROUTER::Move( const VECTOR2I& aP, ITEM* endItem ) { m_currentEnd = aP; if( m_logger ) m_logger->Log( LOGGER::EVT_MOVE, aP, endItem ); switch( m_state ) { case ROUTE_TRACK: movePlacing( aP, endItem ); break; case DRAG_SEGMENT: moveDragging( aP, endItem ); break; default: break; } } void ROUTER::moveDragging( const VECTOR2I& aP, ITEM* aEndItem ) { m_iface->EraseView(); m_dragger->Drag( aP ); ITEM_SET dragged = m_dragger->Traces(); updateView( m_dragger->CurrentNode(), dragged, true ); } void ROUTER::markViolations( NODE* aNode, ITEM_SET& aCurrent, NODE::ITEM_VECTOR& aRemoved ) { auto updateItem = [&]( ITEM* currentItem, ITEM* itemToMark ) { std::unique_ptr tmp( itemToMark->Clone() ); int clearance; if( itemToMark->Marker() & MK_HOLE ) clearance = aNode->GetHoleClearance( currentItem, itemToMark ); else clearance = aNode->GetClearance( currentItem, itemToMark ); m_iface->DisplayItem( tmp.get(), -1, clearance ); // Remove the obstacle itself from the view unless we're just marking its hole if( itemToMark->Marker() & MK_HOLE ) aRemoved.push_back( itemToMark ); }; for( ITEM* item : aCurrent.Items() ) { NODE::OBSTACLES obstacles; aNode->QueryColliding( item, obstacles, ITEM::ANY_T ); if( item->OfKind( ITEM::LINE_T ) ) { LINE* l = static_cast( item ); if( l->EndsWithVia() ) { VIA v( l->Via() ); aNode->QueryColliding( &v, obstacles, ITEM::ANY_T ); } } for( OBSTACLE& obs : obstacles ) { 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( 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; if( Settings().Mode() == RM_MarkObstacles || m_forceMarkObstaclesMode ) markViolations( aNode, aCurrent, removed ); aNode->GetUpdatedItems( removed, added ); for( ITEM* item : added ) { int clearance = GetRuleResolver()->Clearance( item, nullptr ); m_iface->DisplayItem( item, -1, 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 ); } void ROUTER::movePlacing( const VECTOR2I& aP, ITEM* aEndItem ) { m_iface->EraseView(); 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( item ); int clearance = GetRuleResolver()->Clearance( item, nullptr ); m_iface->DisplayItem( l, -1, clearance ); if( l->EndsWithVia() ) { const VIA& via = l->Via(); int viaClearance = GetRuleResolver()->Clearance( &via, nullptr ); int holeClearance = GetRuleResolver()->HoleClearance( &via, nullptr ); if( holeClearance + via.Drill() / 2 > viaClearance + via.Diameter() / 2 ) viaClearance = holeClearance + via.Drill() / 2 - via.Diameter() / 2; m_iface->DisplayItem( &l->Via(), -1, viaClearance ); } } //ITEM_SET tmp( ¤t ); updateView( m_placer->CurrentNode( true ), current ); } void ROUTER::CommitRouting( NODE* aNode ) { if( m_state == ROUTE_TRACK && !m_placer->HasPlacedAnything() ) return; NODE::ITEM_VECTOR removed, added; aNode->GetUpdatedItems( removed, added ); for( ITEM* item : removed ) m_iface->RemoveItem( item ); for( ITEM* item : added ) m_iface->AddItem( item ); m_iface->Commit(); m_world->Commit( aNode ); } bool ROUTER::FixRoute( const VECTOR2I& aP, ITEM* aEndItem, bool aForceFinish ) { 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: rv = m_dragger->FixRoute(); break; default: break; } return rv; } void ROUTER::UndoLastSegment() { if( !RoutingInProgress() ) 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 nets; m_placer->GetModifiedNets( nets ); // Update the ratsnest with new changes for( int 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::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 ); } } const std::vector ROUTER::GetCurrentNets() const { if( m_placer ) return m_placer->CurrentNets(); else if( m_dragger ) return m_dragger->CurrentNets(); return std::vector(); } 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::ToggleRounded() { CORNER_MODE newMode = CORNER_MODE::MITERED_45; switch( m_settings->GetCornerMode() ) { case CORNER_MODE::MITERED_45: newMode = CORNER_MODE::ROUNDED_45; break; default: break; } m_settings->SetCornerMode( newMode ); } 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::BreakSegment( ITEM *aItem, const VECTOR2I& aP ) { NODE *node = m_world->Branch(); LINE_PLACER placer( this ); if( placer.SplitAdjacentSegments( node, aItem, aP ) ) { CommitRouting( node ); } else { delete node; } } }