kicad/pcbnew/tools/grid_helper.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2014 CERN
* Copyright (C) 2018-2020 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 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <functional>
using namespace std::placeholders;
#include <class_board.h>
#include <class_dimension.h>
#include <fp_shape.h>
#include <class_module.h>
#include <class_track.h>
#include <class_zone.h>
#include <geometry/shape_circle.h>
#include <geometry/shape_line_chain.h>
#include <geometry/shape_rect.h>
#include <geometry/shape_segment.h>
#include <geometry/shape_simple.h>
#include <macros.h>
#include <math/util.h> // for KiROUND
#include <math/vector2d.h>
#include <painter.h>
#include <pcbnew_settings.h>
#include <tool/tool_manager.h>
#include <view/view.h>
#include <view/view_controls.h>
#include "grid_helper.h"
GRID_HELPER::GRID_HELPER( TOOL_MANAGER* aToolMgr, MAGNETIC_SETTINGS* aMagneticSettings ) :
m_toolMgr( aToolMgr ),
m_magneticSettings( aMagneticSettings )
{
m_enableSnap = true;
m_enableGrid = true;
m_enableSnapLine = true;
m_snapItem = nullptr;
KIGFX::VIEW* view = m_toolMgr->GetView();
m_viewAxis.SetSize( 20000 );
m_viewAxis.SetStyle( KIGFX::ORIGIN_VIEWITEM::CROSS );
m_viewAxis.SetColor( COLOR4D( 1.0, 1.0, 1.0, 0.4 ) );
m_viewAxis.SetDrawAtZero( true );
view->Add( &m_viewAxis );
view->SetVisible( &m_viewAxis, false );
m_viewSnapPoint.SetStyle( KIGFX::ORIGIN_VIEWITEM::CIRCLE_CROSS );
m_viewSnapPoint.SetColor( COLOR4D( 1.0, 1.0, 1.0, 1.0 ) );
m_viewSnapPoint.SetDrawAtZero( true );
view->Add( &m_viewSnapPoint );
view->SetVisible( &m_viewSnapPoint, false );
m_viewSnapLine.SetStyle( KIGFX::ORIGIN_VIEWITEM::DASH_LINE );
m_viewSnapLine.SetColor( COLOR4D( 0.33, 0.55, 0.95, 1.0 ) );
m_viewSnapLine.SetDrawAtZero( true );
view->Add( &m_viewSnapLine );
view->SetVisible( &m_viewSnapLine, false );
}
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GRID_HELPER::~GRID_HELPER()
{
}
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VECTOR2I GRID_HELPER::GetGrid() const
{
VECTOR2D size = m_toolMgr->GetView()->GetGAL()->GetGridSize();
return VECTOR2I( KiROUND( size.x ), KiROUND( size.y ) );
}
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VECTOR2I GRID_HELPER::GetOrigin() const
{
VECTOR2D origin = m_toolMgr->GetView()->GetGAL()->GetGridOrigin();
return VECTOR2I( origin );
}
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void GRID_HELPER::SetAuxAxes( bool aEnable, const VECTOR2I& aOrigin )
{
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if( aEnable )
{
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m_auxAxis = aOrigin;
m_viewAxis.SetPosition( wxPoint( aOrigin ) );
m_toolMgr->GetView()->SetVisible( &m_viewAxis, true );
}
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else
{
m_auxAxis = OPT<VECTOR2I>();
m_toolMgr->GetView()->SetVisible( &m_viewAxis, false );
}
}
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VECTOR2I GRID_HELPER::Align( const VECTOR2I& aPoint ) const
{
if( !m_enableGrid )
return aPoint;
const VECTOR2D gridOffset( GetOrigin() );
const VECTOR2D grid( GetGrid() );
VECTOR2I nearest( KiROUND( ( aPoint.x - gridOffset.x ) / grid.x ) * grid.x + gridOffset.x,
KiROUND( ( aPoint.y - gridOffset.y ) / grid.y ) * grid.y + gridOffset.y );
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if( !m_auxAxis )
return nearest;
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if( std::abs( m_auxAxis->x - aPoint.x ) < std::abs( nearest.x - aPoint.x ) )
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nearest.x = m_auxAxis->x;
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if( std::abs( m_auxAxis->y - aPoint.y ) < std::abs( nearest.y - aPoint.y ) )
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nearest.y = m_auxAxis->y;
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return nearest;
}
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VECTOR2I GRID_HELPER::AlignToSegment( const VECTOR2I& aPoint, const SEG& aSeg )
{
OPT_VECTOR2I pts[6];
if( !m_enableSnap )
return aPoint;
const VECTOR2D gridOffset( GetOrigin() );
const VECTOR2D gridSize( GetGrid() );
VECTOR2I nearest( KiROUND( ( aPoint.x - gridOffset.x ) / gridSize.x ) * gridSize.x + gridOffset.x,
KiROUND( ( aPoint.y - gridOffset.y ) / gridSize.y ) * gridSize.y + gridOffset.y );
pts[0] = aSeg.A;
pts[1] = aSeg.B;
pts[2] = aSeg.IntersectLines( SEG( nearest + VECTOR2I( -1, 1 ), nearest + VECTOR2I( 1, -1 ) ) );
pts[3] = aSeg.IntersectLines( SEG( nearest + VECTOR2I( -1, -1 ), nearest + VECTOR2I( 1, 1 ) ) );
int min_d = std::numeric_limits<int>::max();
for( int i = 0; i < 4; i++ )
{
if( pts[i] && aSeg.Contains( *pts[i] ) )
{
int d = (*pts[i] - aPoint).EuclideanNorm();
if( d < min_d )
{
min_d = d;
nearest = *pts[i];
}
}
}
return nearest;
}
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VECTOR2I GRID_HELPER::AlignToArc( const VECTOR2I& aPoint, const SHAPE_ARC& aArc )
{
if( !m_enableSnap )
return aPoint;
const VECTOR2D gridOffset( GetOrigin() );
const VECTOR2D gridSize( GetGrid() );
VECTOR2I nearest( KiROUND( ( aPoint.x - gridOffset.x ) / gridSize.x ) * gridSize.x + gridOffset.x,
KiROUND( ( aPoint.y - gridOffset.y ) / gridSize.y ) * gridSize.y + gridOffset.y );
int min_d = std::numeric_limits<int>::max();
for( auto pt : { aArc.GetP0(), aArc.GetP1() } )
{
int d = ( pt - aPoint ).EuclideanNorm();
if( d < min_d )
{
min_d = d;
nearest = pt;
}
else
break;
}
return nearest;
}
VECTOR2I GRID_HELPER::BestDragOrigin( const VECTOR2I &aMousePos, std::vector<BOARD_ITEM*>& aItems )
{
clearAnchors();
for( BOARD_ITEM* item : aItems )
computeAnchors( item, aMousePos, true );
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double worldScale = m_toolMgr->GetView()->GetGAL()->GetWorldScale();
double lineSnapMinCornerDistance = 50.0 / worldScale;
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ANCHOR* nearestOutline = nearestAnchor( aMousePos, OUTLINE, LSET::AllLayersMask() );
ANCHOR* nearestCorner = nearestAnchor( aMousePos, CORNER, LSET::AllLayersMask() );
ANCHOR* nearestOrigin = nearestAnchor( aMousePos, ORIGIN, LSET::AllLayersMask() );
ANCHOR* best = NULL;
double minDist = std::numeric_limits<double>::max();
if( nearestOrigin )
{
minDist = nearestOrigin->Distance( aMousePos );
best = nearestOrigin;
}
if( nearestCorner )
{
double dist = nearestCorner->Distance( aMousePos );
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if( dist < minDist )
{
minDist = dist;
best = nearestCorner;
}
}
if( nearestOutline )
{
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double dist = nearestOutline->Distance( aMousePos );
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if( minDist > lineSnapMinCornerDistance && dist < minDist )
best = nearestOutline;
}
return best ? best->pos : aMousePos;
}
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std::set<BOARD_ITEM*> GRID_HELPER::queryVisible( const BOX2I& aArea,
const std::vector<BOARD_ITEM*>& aSkip ) const
{
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std::set<BOARD_ITEM*> items;
std::vector<KIGFX::VIEW::LAYER_ITEM_PAIR> selectedItems;
KIGFX::VIEW* view = m_toolMgr->GetView();
RENDER_SETTINGS* settings = view->GetPainter()->GetSettings();
const std::set<unsigned int>& activeLayers = settings->GetHighContrastLayers();
bool isHighContrast = settings->GetHighContrast();
view->Query( aArea, selectedItems );
for( const KIGFX::VIEW::LAYER_ITEM_PAIR& it : selectedItems )
{
BOARD_ITEM* item = static_cast<BOARD_ITEM*>( it.first );
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// The item must be visible and on an active layer
if( view->IsVisible( item )
&& ( !isHighContrast || activeLayers.count( it.second ) )
&& item->ViewGetLOD( it.second, view ) < view->GetScale() )
{
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items.insert ( item );
}
}
for( BOARD_ITEM* skipItem : aSkip )
items.erase( skipItem );
return items;
}
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VECTOR2I GRID_HELPER::BestSnapAnchor( const VECTOR2I& aOrigin, BOARD_ITEM* aDraggedItem )
{
LSET layers;
std::vector<BOARD_ITEM*> item;
if( aDraggedItem )
{
layers = aDraggedItem->GetLayerSet();
item.push_back( aDraggedItem );
}
else
layers = LSET::AllLayersMask();
return BestSnapAnchor( aOrigin, layers, item );
}
VECTOR2I GRID_HELPER::BestSnapAnchor( const VECTOR2I& aOrigin, const LSET& aLayers,
const std::vector<BOARD_ITEM*>& aSkip )
{
int snapDist = GetGrid().x;
int snapRange = snapDist;
BOX2I bb( VECTOR2I( aOrigin.x - snapRange / 2, aOrigin.y - snapRange / 2 ),
VECTOR2I( snapRange, snapRange ) );
clearAnchors();
for( BOARD_ITEM* item : queryVisible( bb, aSkip ) )
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computeAnchors( item, aOrigin );
ANCHOR* nearest = nearestAnchor( aOrigin, SNAPPABLE, aLayers );
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VECTOR2I nearestGrid = Align( aOrigin );
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if( nearest )
snapDist = nearest->Distance( aOrigin );
// Existing snap lines need priority over new snaps
if( m_snapItem && m_enableSnapLine && m_enableSnap )
{
bool snapLine = false;
int x_dist = std::abs( m_viewSnapLine.GetPosition().x - aOrigin.x );
int y_dist = std::abs( m_viewSnapLine.GetPosition().y - aOrigin.y );
/// Allows de-snapping from the line if you are closer to another snap point
if( x_dist < snapRange && ( !nearest || snapDist > snapRange ) )
{
nearestGrid.x = m_viewSnapLine.GetPosition().x;
snapLine = true;
}
if( y_dist < snapRange && ( !nearest || snapDist > snapRange ) )
{
nearestGrid.y = m_viewSnapLine.GetPosition().y;
snapLine = true;
}
if( snapLine && m_skipPoint != VECTOR2I( m_viewSnapLine.GetPosition() ) )
{
m_viewSnapLine.SetEndPosition( nearestGrid );
if( m_toolMgr->GetView()->IsVisible( &m_viewSnapLine ) )
m_toolMgr->GetView()->Update( &m_viewSnapLine, KIGFX::GEOMETRY );
else
m_toolMgr->GetView()->SetVisible( &m_viewSnapLine, true );
return nearestGrid;
}
}
if( nearest && m_enableSnap )
{
if( nearest->Distance( aOrigin ) <= snapRange )
{
m_viewSnapPoint.SetPosition( wxPoint( nearest->pos ) );
m_viewSnapLine.SetPosition( wxPoint( nearest->pos ) );
m_toolMgr->GetView()->SetVisible( &m_viewSnapLine, false );
if( m_toolMgr->GetView()->IsVisible( &m_viewSnapPoint ) )
m_toolMgr->GetView()->Update( &m_viewSnapPoint, KIGFX::GEOMETRY);
else
m_toolMgr->GetView()->SetVisible( &m_viewSnapPoint, true );
m_snapItem = nearest;
return nearest->pos;
}
}
m_snapItem = nullptr;
m_toolMgr->GetView()->SetVisible( &m_viewSnapPoint, false );
m_toolMgr->GetView()->SetVisible( &m_viewSnapLine, false );
return nearestGrid;
}
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BOARD_ITEM* GRID_HELPER::GetSnapped() const
{
if( !m_snapItem )
return nullptr;
return m_snapItem->item;
}
void GRID_HELPER::computeAnchors( BOARD_ITEM* aItem, const VECTOR2I& aRefPos, bool aFrom )
{
VECTOR2I origin;
KIGFX::VIEW* view = m_toolMgr->GetView();
RENDER_SETTINGS* settings = view->GetPainter()->GetSettings();
const std::set<unsigned int>& activeLayers = settings->GetHighContrastLayers();
bool isHighContrast = settings->GetHighContrast();
auto handlePadShape =
[&]( D_PAD* aPad )
{
addAnchor( aPad->GetPosition(), CORNER | SNAPPABLE, aPad );
const std::shared_ptr<SHAPE> eshape = aPad->GetEffectiveShape( aPad->GetLayer() );
wxASSERT( eshape->Type() == SH_COMPOUND );
const std::vector<SHAPE*> shapes =
static_cast<const SHAPE_COMPOUND*>( eshape.get() )->Shapes();
for( const SHAPE* shape : shapes )
{
switch( shape->Type() )
{
case SH_RECT:
{
const SHAPE_RECT* rect = static_cast<const SHAPE_RECT*>( shape );
SHAPE_LINE_CHAIN outline = rect->Outline();
for( int i = 0; i < outline.SegmentCount(); i++ )
{
const SEG& seg = outline.CSegment( i );
addAnchor( seg.A, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.Center(), OUTLINE | SNAPPABLE, aPad );
}
break;
}
case SH_SEGMENT:
{
const SHAPE_SEGMENT* segment = static_cast<const SHAPE_SEGMENT*>( shape );
int offset = segment->GetWidth() / 2;
SEG seg = segment->GetSeg();
VECTOR2I normal = ( seg.B - seg.A ).Resize( offset ).Rotate( -M_PI_2 );
/*
* TODO: This creates more snap points than necessary for rounded rect pads
* because they are built up of overlapping segments. We could fix this if
* desired by testing these to see if they are "inside" the pad.
*/
addAnchor( seg.A + normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.A - normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.B + normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.B - normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.Center() + normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.Center() - normal, OUTLINE | SNAPPABLE, aPad );
normal = normal.Rotate( M_PI_2 );
addAnchor( seg.A - normal, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.B + normal, OUTLINE | SNAPPABLE, aPad );
break;
}
case SH_CIRCLE:
{
const SHAPE_CIRCLE* circle = static_cast<const SHAPE_CIRCLE*>( shape );
int r = circle->GetRadius();
VECTOR2I start = circle->GetCenter();
addAnchor( start + VECTOR2I( -r, 0 ), OUTLINE | SNAPPABLE, aPad );
addAnchor( start + VECTOR2I( r, 0 ), OUTLINE | SNAPPABLE, aPad );
addAnchor( start + VECTOR2I( 0, -r ), OUTLINE | SNAPPABLE, aPad );
addAnchor( start + VECTOR2I( 0, r ), OUTLINE | SNAPPABLE, aPad );
break;
}
case SH_ARC:
{
const SHAPE_ARC* arc = static_cast<const SHAPE_ARC*>( shape );
addAnchor( arc->GetP0(), OUTLINE | SNAPPABLE, aPad );
addAnchor( arc->GetP1(), OUTLINE | SNAPPABLE, aPad );
addAnchor( arc->GetArcMid(), OUTLINE | SNAPPABLE, aPad );
break;
}
case SH_SIMPLE:
{
const SHAPE_SIMPLE* poly = static_cast<const SHAPE_SIMPLE*>( shape );
for( size_t i = 0; i < poly->GetSegmentCount(); i++ )
{
const SEG& seg = poly->GetSegment( i );
addAnchor( seg.A, OUTLINE | SNAPPABLE, aPad );
addAnchor( seg.Center(), OUTLINE | SNAPPABLE, aPad );
if( i == poly->GetSegmentCount() - 1 )
addAnchor( seg.B, OUTLINE | SNAPPABLE, aPad );
}
break;
}
case SH_POLY_SET:
case SH_LINE_CHAIN:
case SH_COMPOUND:
case SH_POLY_SET_TRIANGLE:
case SH_NULL:
default:
break;
}
}
};
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switch( aItem->Type() )
{
case PCB_MODULE_T:
{
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MODULE* mod = static_cast<MODULE*>( aItem );
for( D_PAD* pad : mod->Pads() )
{
// Getting pads from the module requires re-checking that the pad is shown
if( ( aFrom || m_magneticSettings->pads == MAGNETIC_OPTIONS::CAPTURE_ALWAYS )
&& pad->GetBoundingBox().Contains( wxPoint( aRefPos.x, aRefPos.y ) )
&& view->IsVisible( pad )
&& ( !isHighContrast || activeLayers.count( pad->GetLayer() ) )
&& pad->ViewGetLOD( pad->GetLayer(), view ) < view->GetScale() )
{
handlePadShape( pad );
break;
}
}
// if the cursor is not over a pad, then drag the module by its origin
addAnchor( mod->GetPosition(), ORIGIN | SNAPPABLE, mod );
break;
}
case PCB_PAD_T:
{
if( aFrom || m_magneticSettings->pads == MAGNETIC_OPTIONS::CAPTURE_ALWAYS )
{
D_PAD* pad = static_cast<D_PAD*>( aItem );
handlePadShape( pad );
}
break;
}
case PCB_FP_SHAPE_T:
case PCB_SHAPE_T:
{
if( !m_magneticSettings->graphics )
break;
PCB_SHAPE* shape = static_cast<PCB_SHAPE*>( aItem );
VECTOR2I start = shape->GetStart();
VECTOR2I end = shape->GetEnd();
switch( shape->GetShape() )
{
case S_CIRCLE:
{
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int r = ( start - end ).EuclideanNorm();
addAnchor( start, ORIGIN | SNAPPABLE, shape );
addAnchor( start + VECTOR2I( -r, 0 ), OUTLINE | SNAPPABLE, shape );
addAnchor( start + VECTOR2I( r, 0 ), OUTLINE | SNAPPABLE, shape );
addAnchor( start + VECTOR2I( 0, -r ), OUTLINE | SNAPPABLE, shape );
addAnchor( start + VECTOR2I( 0, r ), OUTLINE | SNAPPABLE, shape );
break;
}
case S_ARC:
origin = shape->GetCenter();
addAnchor( shape->GetArcStart(), CORNER | SNAPPABLE, shape );
addAnchor( shape->GetArcEnd(), CORNER | SNAPPABLE, shape );
addAnchor( shape->GetArcMid(), CORNER | SNAPPABLE, shape );
addAnchor( origin, ORIGIN | SNAPPABLE, shape );
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break;
case S_RECT:
{
VECTOR2I point2( end.x, start.y );
VECTOR2I point3( start.x, end.y );
SEG first( start, point2 );
SEG second( point2, end );
SEG third( end, point3 );
SEG fourth( point3, start );
addAnchor( first.A, CORNER | SNAPPABLE, shape );
addAnchor( first.Center(), CORNER | SNAPPABLE, shape );
addAnchor( second.A, CORNER | SNAPPABLE, shape );
addAnchor( second.Center(), CORNER | SNAPPABLE, shape );
addAnchor( third.A, CORNER | SNAPPABLE, shape );
addAnchor( third.Center(), CORNER | SNAPPABLE, shape );
addAnchor( fourth.A, CORNER | SNAPPABLE, shape );
addAnchor( fourth.Center(), CORNER | SNAPPABLE, shape );
break;
}
case S_SEGMENT:
origin.x = start.x + ( start.x - end.x ) / 2;
origin.y = start.y + ( start.y - end.y ) / 2;
addAnchor( start, CORNER | SNAPPABLE, shape );
addAnchor( end, CORNER | SNAPPABLE, shape );
addAnchor( SEG( start, end ).Center(), CORNER | SNAPPABLE, shape );
addAnchor( origin, ORIGIN, shape );
break;
case S_POLYGON:
for( const VECTOR2I& p : shape->BuildPolyPointsList() )
addAnchor( p, CORNER | SNAPPABLE, shape );
break;
case S_CURVE:
addAnchor( start, CORNER | SNAPPABLE, shape );
addAnchor( end, CORNER | SNAPPABLE, shape );
KI_FALLTHROUGH;
default:
origin = shape->GetStart();
addAnchor( origin, ORIGIN | SNAPPABLE, shape );
break;
}
break;
}
case PCB_TRACE_T:
case PCB_ARC_T:
{
if( aFrom || m_magneticSettings->tracks == MAGNETIC_OPTIONS::CAPTURE_ALWAYS )
{
TRACK* track = static_cast<TRACK*>( aItem );
VECTOR2I start = track->GetStart();
VECTOR2I end = track->GetEnd();
origin.x = start.x + ( start.x - end.x ) / 2;
origin.y = start.y + ( start.y - end.y ) / 2;
addAnchor( start, CORNER | SNAPPABLE, track );
addAnchor( end, CORNER | SNAPPABLE, track );
addAnchor( origin, ORIGIN, track);
}
break;
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}
case PCB_MARKER_T:
case PCB_TARGET_T:
addAnchor( aItem->GetPosition(), ORIGIN | CORNER | SNAPPABLE, aItem );
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break;
case PCB_VIA_T:
{
if( aFrom || m_magneticSettings->tracks == MAGNETIC_OPTIONS::CAPTURE_ALWAYS )
addAnchor( aItem->GetPosition(), ORIGIN | CORNER | SNAPPABLE, aItem );
break;
}
case PCB_ZONE_AREA_T:
{
const SHAPE_POLY_SET* outline = static_cast<const ZONE_CONTAINER*>( aItem )->Outline();
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SHAPE_LINE_CHAIN lc;
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lc.SetClosed( true );
for( auto iter = outline->CIterateWithHoles(); iter; iter++ )
{
addAnchor( *iter, CORNER, aItem );
lc.Append( *iter );
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}
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addAnchor( lc.NearestPoint( aRefPos ), OUTLINE, aItem );
break;
}
case PCB_DIM_ALIGNED_T:
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case PCB_DIM_ORTHOGONAL_T:
{
const ALIGNED_DIMENSION* dim = static_cast<const ALIGNED_DIMENSION*>( aItem );
addAnchor( dim->GetCrossbarStart(), CORNER | SNAPPABLE, aItem );
addAnchor( dim->GetCrossbarEnd(), CORNER | SNAPPABLE, aItem );
addAnchor( dim->GetStart(), CORNER | SNAPPABLE, aItem );
addAnchor( dim->GetEnd(), CORNER | SNAPPABLE, aItem );
break;
}
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case PCB_DIM_CENTER_T:
{
const CENTER_DIMENSION* dim = static_cast<const CENTER_DIMENSION*>( aItem );
addAnchor( dim->GetStart(), CORNER | SNAPPABLE, aItem );
addAnchor( dim->GetEnd(), CORNER | SNAPPABLE, aItem );
VECTOR2I start( dim->GetStart() );
VECTOR2I radial( dim->GetEnd() - dim->GetStart() );
for( int i = 0; i < 2; i++ )
{
radial = radial.Rotate( DEG2RAD( 90 ) );
addAnchor( start + radial, CORNER | SNAPPABLE, aItem );
}
break;
}
case PCB_DIM_LEADER_T:
{
const LEADER* leader = static_cast<const LEADER*>( aItem );
addAnchor( leader->GetStart(), CORNER | SNAPPABLE, aItem );
addAnchor( leader->GetEnd(), CORNER | SNAPPABLE, aItem );
addAnchor( leader->Text().GetPosition(), CORNER | SNAPPABLE, aItem );
break;
}
case PCB_FP_TEXT_T:
case PCB_TEXT_T:
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addAnchor( aItem->GetPosition(), ORIGIN, aItem );
break;
default:
break;
}
}
GRID_HELPER::ANCHOR* GRID_HELPER::nearestAnchor( const VECTOR2I& aPos, int aFlags,
LSET aMatchLayers )
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{
double minDist = std::numeric_limits<double>::max();
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ANCHOR* best = NULL;
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for( ANCHOR& a : m_anchors )
{
if( ( aMatchLayers & a.item->GetLayerSet() ) == 0 )
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continue;
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if( ( aFlags & a.flags ) != aFlags )
continue;
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double dist = a.Distance( aPos );
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if( dist < minDist )
{
minDist = dist;
best = &a;
}
}
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return best;
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}