kicad/pcbnew/router/pns_tool_base.cpp

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/*
* KiRouter - a push-and-(sometimes-)shove PCB router
*
* Copyright (C) 2013 CERN
* Copyright (C) 2016-2023 KiCad Developers, see AUTHORS.txt for contributors.
* Author: Tomasz Wlostowski <tomasz.wlostowski@cern.ch>
*
* 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 <functional>
using namespace std::placeholders;
#include <gal/graphics_abstraction_layer.h>
#include <pcb_painter.h>
#include <pcbnew_settings.h>
#include <tools/pcb_grid_helper.h>
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#include <wx/log.h>
#include "pns_kicad_iface.h"
#include "pns_tool_base.h"
#include "pns_arc.h"
#include "pns_solid.h"
#include "pns_dragger.h"
const unsigned int PNS::TOOL_BASE::COORDS_PADDING = pcbIUScale.mmToIU( 20 );
using namespace KIGFX;
namespace PNS {
TOOL_BASE::TOOL_BASE( const std::string& aToolName ) :
PCB_TOOL_BASE( aToolName )
{
m_gridHelper = nullptr;
m_iface = nullptr;
m_router = nullptr;
m_cancelled = false;
m_startItem = nullptr;
m_endItem = nullptr;
m_gridHelper = nullptr;
m_cancelled = false;
}
TOOL_BASE::~TOOL_BASE()
{
delete m_gridHelper;
delete m_router;
delete m_iface; // Delete after m_router because PNS::NODE dtor needs m_ruleResolver
}
void TOOL_BASE::Reset( RESET_REASON aReason )
{
delete m_gridHelper;
delete m_router;
delete m_iface; // Delete after m_router because PNS::NODE dtor needs m_ruleResolver
m_iface = new PNS_KICAD_IFACE;
m_iface->SetBoard( board() );
m_iface->SetView( getView() );
m_iface->SetHostTool( this );
m_router = new ROUTER;
m_router->SetInterface( m_iface );
m_router->ClearWorld();
m_router->SyncWorld();
m_router->UpdateSizes( m_savedSizes );
PCBNEW_SETTINGS* settings = frame()->GetPcbNewSettings();
if( !settings->m_PnsSettings )
settings->m_PnsSettings = std::make_unique<ROUTING_SETTINGS>( settings, "tools.pns" );
m_router->LoadSettings( settings->m_PnsSettings.get() );
m_gridHelper = new PCB_GRID_HELPER( m_toolMgr, frame()->GetMagneticItemsSettings() );
}
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ITEM* TOOL_BASE::pickSingleItem( const VECTOR2I& aWhere, NET_HANDLE aNet, int aLayer,
bool aIgnorePads, const std::vector<ITEM*> aAvoidItems )
{
int tl = aLayer > 0 ? aLayer : getView()->GetTopLayer();
int maxSlopRadius = std::max( m_gridHelper->GetGrid().x, m_gridHelper->GetGrid().y );
static const int candidateCount = 5;
ITEM* prioritized[candidateCount];
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SEG::ecoord dist[candidateCount];
for( int i = 0; i < candidateCount; i++ )
{
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prioritized[i] = nullptr;
dist[i] = VECTOR2I::ECOORD_MAX;
}
auto haveCandidates =
[&]()
{
for( ITEM* item : prioritized )
{
if( item )
return true;
}
return false;
};
for( int slopRadius : { 0, maxSlopRadius } )
{
ITEM_SET candidates = m_router->QueryHoverItems( aWhere, slopRadius );
for( ITEM* item : candidates.Items() )
{
if( !item->IsRoutable() )
continue;
if( !IsCopperLayer( item->Layers().Start() ) )
continue;
if( !m_iface->IsAnyLayerVisible( item->Layers() ) )
continue;
if( alg::contains( aAvoidItems, item ) )
continue;
// fixme: this causes flicker with live loop removal...
//if( item->Parent() && !item->Parent()->ViewIsVisible() )
// continue;
if( item->OfKind( ITEM::SOLID_T ) && aIgnorePads )
{
continue;
}
else if( m_router->GetInterface()->GetNetCode( aNet) <= 0 || item->Net() == aNet )
{
if( item->OfKind( ITEM::VIA_T | ITEM::SOLID_T ) )
{
SEG::ecoord d = ( item->Shape()->Centre() - aWhere ).SquaredEuclideanNorm();
if( d < dist[2] )
{
prioritized[2] = item;
dist[2] = d;
}
if( item->Layers().Overlaps( tl ) && d < dist[0] )
{
prioritized[0] = item;
dist[0] = d;
}
}
else // ITEM::SEGMENT_T | ITEM::ARC_T
{
LINKED_ITEM* li = static_cast<LINKED_ITEM*>( item );
SEG::ecoord d = std::min( ( li->Anchor( 0 ) - aWhere ).SquaredEuclideanNorm(),
( li->Anchor( 1 ) - aWhere ).SquaredEuclideanNorm() );
if( d < dist[3] )
{
prioritized[3] = item;
dist[3] = d;
}
if( item->Layers().Overlaps( tl ) && d < dist[1] )
{
prioritized[1] = item;
dist[1] = d;
}
}
}
else if( item->OfKind( ITEM::SOLID_T ) && item->IsFreePad() )
{
// Allow free pads only when already inside pad
if( item->Shape()->Collide( aWhere ) )
{
prioritized[0] = item;
dist[0] = 0;
}
}
else if ( item->Net() == 0 && m_router->Settings().Mode() == RM_MarkObstacles )
{
// Allow unconnected items as last resort in RM_MarkObstacles mode
if( item->Layers().Overlaps( tl ) )
prioritized[4] = item;
}
}
if( haveCandidates() )
break;
}
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ITEM* rv = nullptr;
bool highContrast = ( frame()->GetDisplayOptions().m_ContrastModeDisplay != HIGH_CONTRAST_MODE::NORMAL );
for( ITEM* item : prioritized )
{
if( highContrast && item && !item->Layers().Overlaps( tl ) )
item = nullptr;
if( item && ( aLayer < 0 || item->Layers().Overlaps( aLayer ) ) )
{
rv = item;
break;
}
}
if( rv )
{
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wxLogTrace( wxT( "PNS" ), wxT( "%s, layer : %d, tl: %d" ),
rv->KindStr().c_str(),
rv->Layers().Start(),
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tl );
}
return rv;
}
void TOOL_BASE::highlightNets( bool aEnabled, std::set<NET_HANDLE> aNets )
{
RENDER_SETTINGS* rs = getView()->GetPainter()->GetSettings();
std::set<int> netcodes;
for( const NET_HANDLE& net : aNets )
netcodes.insert( m_router->GetInterface()->GetNetCode( net ) );
if( netcodes.size() > 0 && aEnabled )
{
// If the user has previously set some of the routed nets to be highlighted,
// we assume they want to keep them highlighted after routing
const std::set<int>& currentNetCodes = rs->GetHighlightNetCodes();
bool keep = false;
for( const int& netcode : netcodes )
{
if( currentNetCodes.find( netcode ) != currentNetCodes.end() )
{
keep = true;
break;
}
}
if( rs->IsHighlightEnabled() && keep )
m_startHighlightNetcodes = currentNetCodes;
else
m_startHighlightNetcodes.clear();
rs->SetHighlight( netcodes, true );
}
else
{
rs->SetHighlight( m_startHighlightNetcodes, m_startHighlightNetcodes.size() > 0 );
}
// Do not remove this call. This is required to update the layers when we highlight a net.
// In this case, highlighting a net dims all other elements, so the colors need to update
getView()->UpdateAllLayersColor();
}
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bool TOOL_BASE::checkSnap( ITEM *aItem )
{
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// Sync PNS engine settings with the general PCB editor options.
ROUTING_SETTINGS& pnss = m_router->Settings();
// If we're dragging a track segment, don't try to snap to items that are part of the original line.
if( m_startItem && aItem && m_router->GetState() == ROUTER::DRAG_SEGMENT
&& m_router->GetDragger() )
{
DRAGGER* dragger = dynamic_cast<DRAGGER*>( m_router->GetDragger() );
LINKED_ITEM* linkedItem = dynamic_cast<LINKED_ITEM*>( aItem );
if( dragger && linkedItem && dragger->GetOriginalLine().ContainsLink( linkedItem ) )
return false;
}
MAGNETIC_SETTINGS* magSettings = frame()->GetMagneticItemsSettings();
pnss.SetSnapToPads( magSettings->pads == MAGNETIC_OPTIONS::CAPTURE_CURSOR_IN_TRACK_TOOL
|| magSettings->pads == MAGNETIC_OPTIONS::CAPTURE_ALWAYS );
pnss.SetSnapToTracks( magSettings->tracks == MAGNETIC_OPTIONS::CAPTURE_CURSOR_IN_TRACK_TOOL
|| magSettings->tracks == MAGNETIC_OPTIONS::CAPTURE_ALWAYS );
if( aItem )
{
if( aItem->OfKind( ITEM::VIA_T | ITEM::SEGMENT_T | ITEM::ARC_T ) )
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return pnss.GetSnapToTracks();
else if( aItem->OfKind( ITEM::SOLID_T ) )
return pnss.GetSnapToPads();
}
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return false;
}
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void TOOL_BASE::updateStartItem( const TOOL_EVENT& aEvent, bool aIgnorePads )
{
int tl = getView()->GetTopLayer();
GAL* gal = m_toolMgr->GetView()->GetGAL();
VECTOR2I pos = aEvent.HasPosition() ? (VECTOR2I) aEvent.Position() : m_startSnapPoint;
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pos = GetClampedCoords( pos, COORDS_PADDING );
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controls()->ForceCursorPosition( false );
m_gridHelper->SetUseGrid( gal->GetGridSnapping() && !aEvent.DisableGridSnapping() );
m_gridHelper->SetSnap( !aEvent.Modifier( MD_SHIFT ) );
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m_startItem = pickSingleItem( pos, nullptr, -1, aIgnorePads );
if( !m_gridHelper->GetUseGrid() && m_startItem && !m_startItem->Layers().Overlaps( tl ) )
m_startItem = nullptr;
m_startSnapPoint = snapToItem( m_startItem, pos );
controls()->ForceCursorPosition( true, m_startSnapPoint );
}
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void TOOL_BASE::updateEndItem( const TOOL_EVENT& aEvent )
{
int layer;
GAL* gal = m_toolMgr->GetView()->GetGAL();
m_gridHelper->SetUseGrid( gal->GetGridSnapping() && !aEvent.DisableGridSnapping() );
m_gridHelper->SetSnap( !aEvent.Modifier( MD_SHIFT ) );
controls()->ForceCursorPosition( false );
VECTOR2I mousePos = GetClampedCoords( controls()->GetMousePosition(), COORDS_PADDING );
if( m_router->GetState() == ROUTER::ROUTE_TRACK && aEvent.IsDrag() )
{
// If the user is moving the mouse quickly while routing then clicks will come in as
// short drags. In this case we want to use the drag origin rather than the current
// mouse position.
mousePos = aEvent.DragOrigin();
}
if( m_router->Settings().Mode() != RM_MarkObstacles &&
( m_router->GetCurrentNets().empty() || m_router->GetCurrentNets().front() == nullptr ) )
{
m_endSnapPoint = snapToItem( nullptr, mousePos );
controls()->ForceCursorPosition( true, m_endSnapPoint );
m_endItem = nullptr;
return;
}
if( m_router->IsPlacingVia() )
layer = -1;
else
layer = m_router->GetCurrentLayer();
ITEM* endItem = nullptr;
std::vector<NET_HANDLE> nets = m_router->GetCurrentNets();
for( NET_HANDLE net : nets )
{
endItem = pickSingleItem( mousePos, net, layer, false, { m_startItem } );
if( endItem )
break;
}
if( m_gridHelper->GetSnap() && checkSnap( endItem ) )
{
m_endItem = endItem;
m_endSnapPoint = snapToItem( endItem, mousePos );
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}
else
{
m_endItem = nullptr;
m_endSnapPoint = m_gridHelper->Align( mousePos, m_router->IsPlacingVia() ? GRID_VIAS
: GRID_WIRES );
}
controls()->ForceCursorPosition( true, m_endSnapPoint );
if( m_endItem )
{
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wxLogTrace( wxT( "PNS" ), wxT( "%s, layer : %d" ),
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m_endItem->KindStr().c_str(),
m_endItem->Layers().Start() );
}
}
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ROUTER *TOOL_BASE::Router() const
{
return m_router;
}
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PNS_KICAD_IFACE* TOOL_BASE::GetInterface() const
{
return m_iface;
}
const VECTOR2I TOOL_BASE::snapToItem( ITEM* aItem, const VECTOR2I& aP )
{
if( !aItem || !m_iface->IsItemVisible( aItem ) )
{
return m_gridHelper->Align( aP, m_router->IsPlacingVia() ? GRID_VIAS : GRID_WIRES );
}
switch( aItem->Kind() )
{
case ITEM::SOLID_T:
{
SOLID* solid = static_cast<SOLID*>( aItem );
if( solid->AnchorPoints().empty() )
return solid->Anchor( 0 );
VECTOR2I anchor;
SEG::ecoord minDist = std::numeric_limits<SEG::ecoord>::max();
for( VECTOR2I anchorCandidate : solid->AnchorPoints() )
{
SEG::ecoord distSq = ( aP - anchorCandidate ).SquaredEuclideanNorm();
if( distSq < minDist )
{
minDist = distSq;
anchor = anchorCandidate;
}
}
return anchor;
}
case ITEM::VIA_T:
return static_cast<VIA*>( aItem )->Pos();
case ITEM::SEGMENT_T:
case ITEM::ARC_T:
{
LINKED_ITEM* li = static_cast<LINKED_ITEM*>( aItem );
VECTOR2I A = li->Anchor( 0 );
VECTOR2I B = li->Anchor( 1 );
SEG::ecoord w_sq = SEG::Square( li->Width() / 2 );
SEG::ecoord distA_sq = ( aP - A ).SquaredEuclideanNorm();
SEG::ecoord distB_sq = ( aP - B ).SquaredEuclideanNorm();
if( distA_sq < w_sq || distB_sq < w_sq )
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{
return ( distA_sq < distB_sq ) ? A : B;
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}
else if( aItem->Kind() == ITEM::SEGMENT_T )
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{
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// TODO(snh): Clean this up
SEGMENT* seg = static_cast<SEGMENT*>( li );
return m_gridHelper->AlignToSegment( aP, seg->Seg() );
}
else if( aItem->Kind() == ITEM::ARC_T )
{
ARC* arc = static_cast<ARC*>( li );
return m_gridHelper->AlignToArc( aP, *static_cast<const SHAPE_ARC*>( arc->Shape() ) );
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}
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break;
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}
default:
break;
}
return m_gridHelper->Align( aP, m_router->IsPlacingVia() ? GRID_VIAS : GRID_WIRES );
}
}