2023-06-30 23:31:58 +00:00
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/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2023 KiCad Developers, see AUTHORS.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include "item_modification_routine.h"
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2023-07-02 17:59:04 +00:00
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namespace
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{
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/**
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* Check if two segments share an endpoint (can be at either end of either segment)
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*/
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bool SegmentsShareEndpoint( const SEG& aSegA, const SEG& aSegB )
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{
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return ( aSegA.A == aSegB.A || aSegA.A == aSegB.B || aSegA.B == aSegB.A || aSegA.B == aSegB.B );
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}
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} // namespace
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2023-06-30 23:31:58 +00:00
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wxString LINE_FILLET_ROUTINE::GetCommitDescription() const
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{
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return _( "Fillet Lines" );
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}
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wxString LINE_FILLET_ROUTINE::GetCompleteFailureMessage() const
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{
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return _( "Unable to fillet the selected lines." );
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}
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wxString LINE_FILLET_ROUTINE::GetSomeFailuresMessage() const
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{
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return _( "Some of the lines could not be filleted." );
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}
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void LINE_FILLET_ROUTINE::ProcessLinePair( PCB_SHAPE& aLineA, PCB_SHAPE& aLineB )
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{
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if( aLineA.GetLength() == 0.0 || aLineB.GetLength() == 0.0 )
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return;
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SEG seg_a( aLineA.GetStart(), aLineA.GetEnd() );
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SEG seg_b( aLineB.GetStart(), aLineB.GetEnd() );
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VECTOR2I* a_pt;
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VECTOR2I* b_pt;
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if( seg_a.A == seg_b.A )
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{
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a_pt = &seg_a.A;
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b_pt = &seg_b.A;
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}
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else if( seg_a.A == seg_b.B )
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{
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a_pt = &seg_a.A;
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b_pt = &seg_b.B;
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}
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else if( seg_a.B == seg_b.A )
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{
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a_pt = &seg_a.B;
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b_pt = &seg_b.A;
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}
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else if( seg_a.B == seg_b.B )
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{
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a_pt = &seg_a.B;
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b_pt = &seg_b.B;
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}
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else
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// Nothing to do
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return;
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SHAPE_ARC sArc( seg_a, seg_b, m_filletRadiusIU );
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VECTOR2I t1newPoint, t2newPoint;
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auto setIfPointOnSeg = []( VECTOR2I& aPointToSet, SEG aSegment, VECTOR2I aVecToTest )
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{
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VECTOR2I segToVec = aSegment.NearestPoint( aVecToTest ) - aVecToTest;
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// Find out if we are on the segment (minimum precision)
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if( segToVec.EuclideanNorm() < SHAPE_ARC::MIN_PRECISION_IU )
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{
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aPointToSet.x = aVecToTest.x;
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aPointToSet.y = aVecToTest.y;
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return true;
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}
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return false;
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};
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//Do not draw a fillet if the end points of the arc are not within the track segments
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if( !setIfPointOnSeg( t1newPoint, seg_a, sArc.GetP0() )
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&& !setIfPointOnSeg( t2newPoint, seg_b, sArc.GetP0() ) )
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{
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AddFailure();
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return;
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}
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if( !setIfPointOnSeg( t1newPoint, seg_a, sArc.GetP1() )
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&& !setIfPointOnSeg( t2newPoint, seg_b, sArc.GetP1() ) )
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{
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AddFailure();
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return;
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}
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auto tArc = std::make_unique<PCB_SHAPE>( GetBoard(), SHAPE_T::ARC );
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tArc->SetArcGeometry( sArc.GetP0(), sArc.GetArcMid(), sArc.GetP1() );
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// Copy properties from one of the source lines
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tArc->SetWidth( aLineA.GetWidth() );
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tArc->SetLayer( aLineA.GetLayer() );
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tArc->SetLocked( aLineA.IsLocked() );
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MarkItemModified( aLineA );
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MarkItemModified( aLineB );
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AddNewItem( std::move( tArc ) );
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*a_pt = t1newPoint;
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*b_pt = t2newPoint;
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aLineA.SetStart( seg_a.A );
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aLineA.SetEnd( seg_a.B );
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aLineB.SetStart( seg_b.A );
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aLineB.SetEnd( seg_b.B );
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AddSuccess();
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2023-07-02 17:59:04 +00:00
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}
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wxString LINE_CHAMFER_ROUTINE::GetCommitDescription() const
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{
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return _( "Chamfer Lines" );
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}
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wxString LINE_CHAMFER_ROUTINE::GetCompleteFailureMessage() const
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{
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return _( "Unable to chamfer the selected lines." );
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}
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wxString LINE_CHAMFER_ROUTINE::GetSomeFailuresMessage() const
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{
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return _( "Some of the lines could not be chamfered." );
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}
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void LINE_CHAMFER_ROUTINE::ProcessLinePair( PCB_SHAPE& aLineA, PCB_SHAPE& aLineB )
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{
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if( aLineA.GetLength() == 0.0 || aLineB.GetLength() == 0.0 )
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return;
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SEG seg_a( aLineA.GetStart(), aLineA.GetEnd() );
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SEG seg_b( aLineB.GetStart(), aLineB.GetEnd() );
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// If the segments share an endpoint, we won't try to chamfer them
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// (we could extend to the intersection point, but this gets complicated
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// and inconsistent when you select more than two lines)
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if( !SegmentsShareEndpoint( seg_a, seg_b ) )
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{
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// not an error, lots of lines in a 2+ line selection will not intersect
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return;
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}
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std::optional<CHAMFER_RESULT> chamfer_result =
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ComputeChamferPoints( seg_a, seg_b, m_chamferParams );
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if( !chamfer_result )
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{
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AddFailure();
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return;
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}
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auto tSegment = std::make_unique<PCB_SHAPE>( GetBoard(), SHAPE_T::SEGMENT );
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tSegment->SetStart( chamfer_result->m_chamfer.A );
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tSegment->SetEnd( chamfer_result->m_chamfer.B );
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// Copy properties from one of the source lines
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tSegment->SetWidth( aLineA.GetWidth() );
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tSegment->SetLayer( aLineA.GetLayer() );
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tSegment->SetLocked( aLineA.IsLocked() );
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AddNewItem( std::move( tSegment ) );
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MarkItemModified( aLineA );
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MarkItemModified( aLineB );
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// Shorten the original lines
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aLineA.SetStart( chamfer_result->m_updated_seg_a->A );
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aLineA.SetEnd( chamfer_result->m_updated_seg_a->B );
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aLineB.SetStart( chamfer_result->m_updated_seg_b->A );
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aLineB.SetEnd( chamfer_result->m_updated_seg_b->B );
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AddSuccess();
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}
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wxString LINE_EXTENSION_ROUTINE::GetCommitDescription() const
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{
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return _( "Extend Lines to Meet" );
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}
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wxString LINE_EXTENSION_ROUTINE::GetCompleteFailureMessage() const
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{
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return _( "Unable to extend the selected lines to meet." );
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}
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wxString LINE_EXTENSION_ROUTINE::GetSomeFailuresMessage() const
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{
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return _( "Some of the lines could not be extended to meet." );
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}
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void LINE_EXTENSION_ROUTINE::ProcessLinePair( PCB_SHAPE& aLineA, PCB_SHAPE& aLineB )
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{
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if( aLineA.GetLength() == 0.0 || aLineB.GetLength() == 0.0 )
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return;
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SEG seg_a( aLineA.GetStart(), aLineA.GetEnd() );
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SEG seg_b( aLineB.GetStart(), aLineB.GetEnd() );
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if( seg_a.Intersects( seg_b ) )
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{
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// already intersecting, nothing to do
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return;
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}
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OPT_VECTOR2I intersection = seg_a.IntersectLines( seg_b );
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if( !intersection )
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{
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// This might be an error, but it's also possible that the lines are
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// parallel and don't intersect. We'll just ignore this case.
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return;
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}
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const auto line_extender = [&]( const SEG& aSeg, PCB_SHAPE& aLine )
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{
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// If the intersection point is not already n the line, we'll extend to it
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if( !aSeg.Contains( *intersection ) )
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{
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const int dist_start = ( *intersection - aSeg.A ).EuclideanNorm();
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const int dist_end = ( *intersection - aSeg.B ).EuclideanNorm();
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const VECTOR2I& furthest_pt = ( dist_start < dist_end ) ? aSeg.B : aSeg.A;
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MarkItemModified( aLine );
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aLine.SetStart( furthest_pt );
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aLine.SetEnd( *intersection );
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}
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};
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line_extender( seg_a, aLineA );
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line_extender( seg_b, aLineB );
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AddSuccess();
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}
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