274 lines
8.8 KiB
C++
274 lines
8.8 KiB
C++
/*
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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) 2018 CERN
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* Copyright (C) 2019-2022 KiCad Developers, see AUTHORS.txt for contributors.
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* @author Tomasz Wlostowski <tomasz.wlostowski@cern.ch>
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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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#ifndef __SHAPE_ARC_H
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#define __SHAPE_ARC_H
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#include <geometry/shape.h>
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#include <base_units.h>
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#include <math/vector2d.h> // for VECTOR2I
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#include <geometry/eda_angle.h>
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class SHAPE_LINE_CHAIN;
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class SHAPE_ARC : public SHAPE
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{
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public:
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SHAPE_ARC() :
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SHAPE( SH_ARC ),
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m_width( 0 )
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{};
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/**
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* Construct and arc using center, start, angle.
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*
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* Center and angle are used to calculate the mid and end points of the arc, and are not
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* stored.
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*
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* @param aArcCenter is the arc center.
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* @param aArcStartPoint is the arc start point.
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* @param aCenterAngle is the arc angle.
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* @param aWidth is the arc line thickness.
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*/
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SHAPE_ARC( const VECTOR2I& aArcCenter, const VECTOR2I& aArcStartPoint,
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const EDA_ANGLE& aCenterAngle, int aWidth = 0 );
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/**
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* @param aArcStart is the arc start point.
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* @param aArcEnd is the arc end point.
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* @param aArcMid is the arc mid point.
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* @param aWidth is the arc line thickness.
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*/
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SHAPE_ARC( const VECTOR2I& aArcStart, const VECTOR2I& aArcMid, const VECTOR2I& aArcEnd,
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int aWidth );
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/**
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* Build a SHAPE_ARC which is tangent to two segments and a given radius.
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*
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* @param aSegmentA is the first segment
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* @param aSegmentB is the second segment
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* @param aRadius is the arc radius
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* @param aWidth is the arc line thickness
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*/
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SHAPE_ARC( const SEG& aSegmentA, const SEG& aSegmentB, int aRadius, int aWidth = 0 );
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SHAPE_ARC( const SHAPE_ARC& aOther );
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virtual ~SHAPE_ARC() {}
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SHAPE* Clone() const override
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{
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return new SHAPE_ARC( *this );
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}
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/**
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* Construct this arc from the given start, end and angle.
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*
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* @param aStart is the arc starting point
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* @param aEnd is the arc endpoint
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* @param aAngle is the arc included angle
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* @param aWidth is the arc line thickness
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* @return this arc.
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*/
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SHAPE_ARC& ConstructFromStartEndAngle( const VECTOR2I& aStart, const VECTOR2I& aEnd,
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const EDA_ANGLE& aAngle, double aWidth = 0 );
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/**
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* Constructs this arc from the given start, end and center.
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* @param aStart is the arc starting point
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* @param aEnd is the arc endpoint
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* @param aCenter is the arc center
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* @param aClockwise determines which of the two solutions to construct
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* @param aWidth is the arc line thickness
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* @return *this
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*/
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SHAPE_ARC& ConstructFromStartEndCenter( const VECTOR2I& aStart, const VECTOR2I& aEnd,
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const VECTOR2I& aCenter, bool aClockwise = false,
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double aWidth = 0 );
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const VECTOR2I& GetP0() const { return m_start; }
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const VECTOR2I& GetP1() const { return m_end; }
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const VECTOR2I& GetArcMid() const { return m_mid; }
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VECTOR2I GetCenter() const;
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const BOX2I BBox( int aClearance = 0 ) const override;
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bool Collide( const SEG& aSeg, int aClearance = 0, int* aActual = nullptr,
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VECTOR2I* aLocation = nullptr ) const override;
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bool Collide( const VECTOR2I& aP, int aClearance = 0, int* aActual = nullptr,
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VECTOR2I* aLocation = nullptr ) const override;
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bool Collide( const SHAPE* aShape, int aClearance = 0, int* aActual = nullptr,
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VECTOR2I* aLocation = nullptr ) const override
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{
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return SHAPE::Collide( aShape, aClearance, aActual, aLocation );
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}
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/**
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* Find intersection points between this arc and aSeg, treating aSeg as an infinite line.
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* Ignores arc width.
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*
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* @param aSeg Line to intersect against (treated as an infinite line)
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* @param aIpsBuffer Buffer to store the resulting intersection points (if any)
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* @return Number of intersection points found
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*/
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int IntersectLine( const SEG& aSeg, std::vector<VECTOR2I>* aIpsBuffer ) const;
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/**
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* Find intersection points between this arc and aArc. Ignores arc width.
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*
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* @param aSeg
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* @param aIpsBuffer Buffer to store the resulting intersection points (if any)
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* @return Number of intersection points found
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*/
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int Intersect( const SHAPE_ARC& aArc, std::vector<VECTOR2I>* aIpsBuffer ) const;
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bool IsClockwise() const;
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void SetWidth( int aWidth )
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{
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m_width = aWidth;
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}
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int GetWidth() const
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{
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return m_width;
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}
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bool IsSolid() const override
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{
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return true;
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}
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void Move( const VECTOR2I& aVector ) override;
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/**
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* Rotate the arc by a given angle about a point.
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*
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* @param aCenter is the rotation center.
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* @param aAngle rotation angle.
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*/
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void Rotate( const EDA_ANGLE& aAngle, const VECTOR2I& aCenter ) override;
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void Mirror( bool aX = true, bool aY = false, const VECTOR2I& aVector = { 0, 0 } );
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void Mirror( const SEG& axis );
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void Reverse();
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SHAPE_ARC Reversed() const;
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double GetRadius() const;
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SEG GetChord() const
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{
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return SEG( m_start, m_end );
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}
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/**
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* @return the central angle of the arc shape, normalized between 0..360 deg.
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*/
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EDA_ANGLE GetCentralAngle() const;
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/**
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* @return the start angle of the arc shape, normalized between 0..360 deg.
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*/
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EDA_ANGLE GetStartAngle() const;
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/**
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* @return the end angle of the arc shape, normalized between 0..360 deg.
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*/
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EDA_ANGLE GetEndAngle() const;
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/**
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* @return the length of the arc shape.
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*/
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double GetLength() const;
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/**
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* @note The default is #ARC_HIGH_DEF in Pcbnew units. This is to allow common geometry
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* collision functions. Other programs should call this using explicit accuracy
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* values.
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*
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* @todo Unify KiCad internal units.
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*
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* @return a default accuracy value for ConvertToPolyline() to build the polyline.
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*/
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static double DefaultAccuracyForPCB(){ return 0.005 * PCB_IU_PER_MM; }
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/**
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* Construct a SHAPE_LINE_CHAIN of segments from a given arc.
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*
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* @note The default is #ARC_HIGH_DEF in Pcbnew units. This is to allow common geometry
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* collision functions. Other programs should call this using explicit accuracy
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* values.
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*
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* @todo Unify KiCad internal units.
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*
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* @param aAccuracy maximum divergence from true arc given in internal units.
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* @param aEffectiveAccuracy is the actual divergence from true arc given.
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* the approximation error is between -aEffectiveAccuracy/2 and +aEffectiveAccuracy/2
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* in internal units
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* @return a #SHAPE_LINE_CHAIN.
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*/
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const SHAPE_LINE_CHAIN ConvertToPolyline( double aAccuracy = DefaultAccuracyForPCB(),
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double* aEffectiveAccuracy = nullptr ) const;
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bool operator==( SHAPE_ARC const& aArc ) const
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{
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return ( aArc.m_start == m_start ) && ( aArc.m_end == m_end ) && ( aArc.m_mid == m_mid )
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&& ( aArc.m_width == m_width );
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}
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void TransformToPolygon( SHAPE_POLY_SET& aBuffer, int aError,
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ERROR_LOC aErrorLoc ) const override;
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private:
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bool ccw( const VECTOR2I& aA, const VECTOR2I& aB, const VECTOR2I& aC ) const
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{
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return ( ecoord{ aC.y } - aA.y ) * ( ecoord{ aB.x } - aA.x ) >
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( ecoord{ aB.y } - aA.y ) * ( ecoord{ aC.x } - aA.x );
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}
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void update_bbox();
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bool sliceContainsPoint( const VECTOR2I& p ) const;
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private:
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VECTOR2I m_start;
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VECTOR2I m_mid;
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VECTOR2I m_end;
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int m_width;
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BOX2I m_bbox;
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};
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// Required for Boost Test BOOST_CHECK_EQUAL:
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std::ostream& operator<<( std::ostream& aStream, const SHAPE_ARC& aArc );
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#endif
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