354 lines
9.2 KiB
C++
354 lines
9.2 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) 2013 CERN
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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 __SEG_H
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#define __SEG_H
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#include <cstdio>
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#include <climits>
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#include <math/vector2d.h>
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#include <boost/optional/optional.hpp>
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typedef boost::optional<VECTOR2I> OPT_VECTOR2I;
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class SEG
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{
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private:
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typedef VECTOR2I::extended_type ecoord;
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public:
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friend inline std::ostream& operator<<( std::ostream& aStream, const SEG& aSeg );
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/* Start and the of the segment. Public, to make access simpler. These are references
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* to an object the segment belongs to (e.g. a line chain) or references to locally stored
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* points (m_a, m_b).
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*/
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VECTOR2I& A;
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VECTOR2I& B;
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/** Default constructor
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* Creates an empty (0, 0) segment, locally-referenced
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*/
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SEG() : A( m_a ), B( m_b )
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{
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A = m_a;
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B = m_b;
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m_is_local = true;
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m_index = -1;
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}
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/**
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* Constructor
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* Creates a segment between (aX1, aY1) and (aX2, aY2), locally referenced
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*/
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SEG( int aX1, int aY1, int aX2, int aY2 ) : A( m_a ), B( m_b )
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{
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m_a = VECTOR2I( aX1, aY1 );
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m_b = VECTOR2I( aX2, aY2 );
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A = m_a;
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B = m_b;
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m_is_local = true;
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m_index = -1;
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}
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/**
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* Constructor
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* Creates a segment between (aA) and (aB), locally referenced
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*/
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SEG( const VECTOR2I& aA, const VECTOR2I& aB ) : A( m_a ), B( m_b ), m_a( aA ), m_b( aB )
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{
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A = m_a;
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B = m_b;
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m_is_local = true;
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m_index = -1;
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}
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/**
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* Constructor
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* Creates a segment between (aA) and (aB), referenced to a multi-segment shape
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* @param aA reference to the start point in the parent shape
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* @param aB reference to the end point in the parent shape
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* @param aIndex index of the segment within the parent shape
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*/
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SEG ( VECTOR2I& aA, VECTOR2I& aB, int aIndex ) : A( aA ), B( aB )
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{
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m_is_local = false;
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m_index = aIndex;
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}
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/**
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* Copy constructor
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*/
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SEG ( const SEG& aSeg ) : A( m_a ), B( m_b )
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{
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if( aSeg.m_is_local )
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{
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m_a = aSeg.m_a;
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m_b = aSeg.m_b;
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A = m_a;
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B = m_b;
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m_is_local = true;
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m_index = -1;
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}
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else
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{
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A = aSeg.A;
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B = aSeg.B;
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m_index = aSeg.m_index;
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m_is_local = false;
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}
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}
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SEG& operator=( const SEG& aSeg )
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{
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A = aSeg.A;
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B = aSeg.B;
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m_a = aSeg.m_a;
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m_b = aSeg.m_b;
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m_index = aSeg.m_index;
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m_is_local = aSeg.m_is_local;
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return *this;
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}
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/**
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* Function LineProject()
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*
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* Computes the perpendicular projection point of aP on a line passing through
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* ends of the segment.
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* @param aP point to project
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* @return projected point
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*/
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VECTOR2I LineProject( const VECTOR2I& aP ) const;
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/**
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* Function Side()
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*
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* Determines on which side of directed line passing via segment ends point aP lies.
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* @param aP point to determine the orientation wrs to self
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* @return: < 0: left, 0 : on the line, > 0 : right
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*/
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int Side( const VECTOR2I& aP ) const
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{
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const ecoord det = ( B - A ).Cross( aP - A );
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return det < 0 ? -1 : ( det > 0 ? 1 : 0 );
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}
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/**
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* Function LineDistance()
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*
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* Returns the closest Euclidean distance between point aP and the line defined by
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* the ends of segment (this).
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* @param aDetermineSide: when true, the sign of the returned value indicates
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* the side of the line at which we are (negative = left)
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* @return the distance
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*/
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int LineDistance( const VECTOR2I& aP, bool aDetermineSide = false ) const;
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/**
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* Function NearestPoint()
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*
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* Computes a point on the segment (this) that is closest to point aP.
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* @return: nearest point
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*/
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const VECTOR2I NearestPoint( const VECTOR2I &aP ) const;
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/**
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* Function Intersect()
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*
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* Computes intersection point of segment (this) with segment aSeg.
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* @param aSeg: segment to intersect with
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* @param aIgnoreEndpoints: don't treat corner cases (i.e. end of one segment touching the
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* other) as intersections.
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* @param aLines: treat segments as infinite lines
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* @return intersection point, if exists
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*/
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OPT_VECTOR2I Intersect( const SEG& aSeg, bool aIgnoreEndpoints = false,
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bool aLines = false ) const;
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/**
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* Function IntersectLines()
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*
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* Computes the intersection point of lines passing through ends of (this) and aSeg
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* @param aSeg segment defining the line to intersect with
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* @return intersection point, if exists
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*/
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OPT_VECTOR2I IntersectLines( const SEG& aSeg ) const
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{
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return Intersect( aSeg, false, true );
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}
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bool Collide( const SEG& aSeg, int aClearance ) const;
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ecoord SquaredDistance( const SEG& aSeg ) const;
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/**
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* Function Distance()
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*
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* Computes minimum Euclidean distance to segment aSeg.
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* @param aSeg other segment
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* @return minimum distance
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*/
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int Distance( const SEG& aSeg ) const
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{
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return sqrt( SquaredDistance( aSeg ) );
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}
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ecoord SquaredDistance( const VECTOR2I& aP ) const
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{
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return ( NearestPoint( aP ) - aP ).SquaredEuclideanNorm();
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}
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/**
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* Function Distance()
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*
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* Computes minimum Euclidean distance to point aP.
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* @param aP the point
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* @return minimum distance
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*/
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int Distance( const VECTOR2I& aP ) const
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{
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return sqrt( SquaredDistance( aP ) );
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}
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/**
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* Function Collinear()
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*
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* Checks if segment aSeg lies on the same line as (this).
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* @param aSeg the segment to chech colinearity with
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* @return true, when segments are collinear.
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*/
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bool Collinear( const SEG& aSeg ) const
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{
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ecoord qa = A.y - B.y;
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ecoord qb = B.x - A.x;
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ecoord qc = -qa * A.x - qb * A.y;
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ecoord d1 = std::abs( aSeg.A.x * qa + aSeg.A.y * qb + qc );
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ecoord d2 = std::abs( aSeg.B.x * qa + aSeg.B.y * qb + qc );
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return ( d1 <= 1 && d2 <= 1 );
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}
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/**
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* Function Length()
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*
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* Returns the length (this)
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* @return length
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*/
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int Length() const
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{
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return ( A - B ).EuclideanNorm();
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}
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ecoord SquaredLength() const
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{
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return ( A - B ).SquaredEuclideanNorm();
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}
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/**
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* Function Index()
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*
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* Return the index of this segment in its parent shape (applicable only to non-local segments)
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* @return index value
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*/
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int Index() const
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{
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return m_index;
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}
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bool Contains( const VECTOR2I& aP ) const;
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bool PointCloserThan( const VECTOR2I& aP, int aDist ) const;
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// friend std::ostream& operator<<( std::ostream& stream, const SEG& aSeg );
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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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///> locally stored start/end coordinates (used when m_is_local == true)
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VECTOR2I m_a, m_b;
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///> index withing the parent shape (used when m_is_local == false)
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int m_index;
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///> locality flag
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bool m_is_local;
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};
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inline VECTOR2I SEG::LineProject( const VECTOR2I& aP ) const
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{
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// fixme: numerical errors for large integers
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assert( false );
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return VECTOR2I( 0, 0 );
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}
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inline int SEG::LineDistance( const VECTOR2I& aP, bool aDetermineSide ) const
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{
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ecoord p = A.y - B.y;
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ecoord q = B.x - A.x;
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ecoord r = -p * A.x - q * A.y;
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ecoord dist = ( p * aP.x + q * aP.y + r ) / sqrt( p * p + q * q );
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return aDetermineSide ? dist : abs( dist );
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}
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inline const VECTOR2I SEG::NearestPoint( const VECTOR2I& aP ) const
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{
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VECTOR2I d = B - A;
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ecoord l_squared = d.Dot( d );
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if( l_squared == 0 )
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return A;
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ecoord t = d.Dot( aP - A );
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if( t < 0 )
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return A;
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else if( t > l_squared )
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return B;
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int xp = rescale( t, (ecoord)d.x, l_squared );
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int yp = rescale( t, (ecoord)d.y, l_squared );
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return A + VECTOR2I( xp, yp );
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}
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inline std::ostream& operator<<( std::ostream& aStream, const SEG& aSeg )
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{
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if( aSeg.m_is_local )
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aStream << "[ local " << aSeg.A << " - " << aSeg.B << " ]";
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return aStream;
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}
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#endif // __SEG_H
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