From 039ac92480a09266146fc5b0c9ec67a32a2565ad Mon Sep 17 00:00:00 2001 From: saurabhb17 Date: Wed, 26 Feb 2020 16:04:40 +0530 Subject: Added secondary files --- include/geometry/shape_line_chain.h | 598 ++++++++++++++++++++++++++++++++++++ 1 file changed, 598 insertions(+) create mode 100644 include/geometry/shape_line_chain.h (limited to 'include/geometry/shape_line_chain.h') diff --git a/include/geometry/shape_line_chain.h b/include/geometry/shape_line_chain.h new file mode 100644 index 0000000..ae2bf5e --- /dev/null +++ b/include/geometry/shape_line_chain.h @@ -0,0 +1,598 @@ +/* + * This program source code file is part of KiCad, a free EDA CAD application. + * + * Copyright (C) 2013 CERN + * @author Tomasz Wlostowski + * + * 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 + */ + +#ifndef __SHAPE_LINE_CHAIN +#define __SHAPE_LINE_CHAIN + +#include +#include + +#include + +#include +#include +#include + +/** + * Class SHAPE_LINE_CHAIN + * + * Represents a polyline (an zero-thickness chain of connected line segments). + * I purposedly didn't name it "polyline" to avoid confusion with the existing CPolyLine + * class in pcbnew. + * + * SHAPE_LINE_CHAIN class shall not be used for polygons! + */ +class SHAPE_LINE_CHAIN : public SHAPE +{ +private: + typedef std::vector::iterator point_iter; + typedef std::vector::const_iterator point_citer; + +public: + /** + * Struct INTERSECTION + * + * Represents an intersection between two line segments + */ + struct INTERSECTION + { + /// segment belonging from the (this) argument of Intersect() + SEG our; + /// segment belonging from the aOther argument of Intersect() + SEG their; + /// point of intersection between our and their. + VECTOR2I p; + }; + + typedef std::vector INTERSECTIONS; + + /** + * Constructor + * Initializes an empty line chain. + */ + SHAPE_LINE_CHAIN() : + SHAPE( SH_LINE_CHAIN ), m_closed( false ) + {} + + /** + * Copy Constructor + */ + SHAPE_LINE_CHAIN( const SHAPE_LINE_CHAIN& aShape ) : + SHAPE( SH_LINE_CHAIN ), m_points( aShape.m_points ), m_closed( aShape.m_closed ) + {} + + /** + * Constructor + * Initializes a 2-point line chain (a single segment) + */ + SHAPE_LINE_CHAIN( const VECTOR2I& aA, const VECTOR2I& aB ) : + SHAPE( SH_LINE_CHAIN ), m_closed( false ) + { + m_points.resize( 2 ); + m_points[0] = aA; + m_points[1] = aB; + } + + SHAPE_LINE_CHAIN( const VECTOR2I& aA, const VECTOR2I& aB, const VECTOR2I& aC ) : + SHAPE( SH_LINE_CHAIN ), m_closed( false ) + { + m_points.resize( 3 ); + m_points[0] = aA; + m_points[1] = aB; + m_points[2] = aC; + } + + SHAPE_LINE_CHAIN( const VECTOR2I& aA, const VECTOR2I& aB, const VECTOR2I& aC, const VECTOR2I& aD ) : + SHAPE( SH_LINE_CHAIN ), m_closed( false ) + { + m_points.resize( 4 ); + m_points[0] = aA; + m_points[1] = aB; + m_points[2] = aC; + m_points[3] = aD; + } + + + SHAPE_LINE_CHAIN( const VECTOR2I* aV, int aCount ) : + SHAPE( SH_LINE_CHAIN ), + m_closed( false ) + { + m_points.resize( aCount ); + + for( int i = 0; i < aCount; i++ ) + m_points[i] = *aV++; + } + + ~SHAPE_LINE_CHAIN() + {} + + SHAPE* Clone() const; + + /** + * Function Clear() + * Removes all points from the line chain. + */ + void Clear() + { + m_points.clear(); + m_closed = false; + } + + /** + * Function SetClosed() + * + * Marks the line chain as closed (i.e. with a segment connecting the last point with + * the first point). + * @param aClosed: whether the line chain is to be closed or not. + */ + void SetClosed( bool aClosed ) + { + m_closed = aClosed; + } + + /** + * Function IsClosed() + * + * @return aClosed: true, when our line is closed. + */ + bool IsClosed() const + { + return m_closed; + } + + /** + * Function SegmentCount() + * + * Returns number of segments in this line chain. + * @return number of segments + */ + int SegmentCount() const + { + int c = m_points.size() - 1; + if( m_closed ) + c++; + + return std::max( 0, c ); + } + + /** + * Function PointCount() + * + * Returns the number of points (vertices) in this line chain + * @return number of points + */ + int PointCount() const + { + return m_points.size(); + } + + /** + * Function Segment() + * + * Returns a segment referencing to the segment (index) in the line chain. + * Modifying ends of the returned segment will modify corresponding points in the line chain. + * @param aIndex: index of the segment in the line chain. Negative values are counted from + * the end (i.e. -1 means the last segment in the line chain) + * @return SEG referenced to given segment in the line chain + */ + SEG Segment( int aIndex ) + { + if( aIndex < 0 ) + aIndex += SegmentCount(); + + if( aIndex == (int)( m_points.size() - 1 ) && m_closed ) + return SEG( m_points[aIndex], m_points[0], aIndex ); + else + return SEG( m_points[aIndex], m_points[aIndex + 1], aIndex ); + } + + /** + * Function CSegment() + * + * Returns a read-only segment referencing to the segment (index) in the line chain. + * @param aIndex: index of the segment in the line chain. Negative values are counted from + * the end (i.e. -1 means the last segment in the line chain) + * @return SEG referenced to given segment in the line chain + */ + const SEG CSegment( int aIndex ) const + { + if( aIndex < 0 ) + aIndex += SegmentCount(); + + if( aIndex == (int)( m_points.size() - 1 ) && m_closed ) + return SEG( const_cast( m_points[aIndex] ), + const_cast( m_points[0] ), aIndex ); + else + return SEG( const_cast( m_points[aIndex] ), + const_cast( m_points[aIndex + 1] ), aIndex ); + } + + /** + * Function Point() + * + * Returns a reference to a given point in the line chain. + * @param aIndex index of the point + * @return reference to the point + */ + VECTOR2I& Point( int aIndex ) + { + if( aIndex < 0 ) + aIndex += PointCount(); + + return m_points[aIndex]; + } + + /** + * Function CPoint() + * + * Returns a const reference to a given point in the line chain. + * @param aIndex index of the point + * @return const reference to the point + */ + const VECTOR2I& CPoint( int aIndex ) const + { + if( aIndex < 0 ) + aIndex += PointCount(); + else if( aIndex >= PointCount() ) + aIndex -= PointCount(); + + return m_points[aIndex]; + } + + /// @copydoc SHAPE::BBox() + const BOX2I BBox( int aClearance = 0 ) const + { + BOX2I bbox; + bbox.Compute( m_points ); + + if( aClearance != 0 ) + bbox.Inflate( aClearance ); + + return bbox; + } + + /** + * Function Collide() + * + * Checks if point aP lies closer to us than aClearance. + * @param aP the point to check for collisions with + * @param aClearance minimum distance that does not qualify as a collision. + * @return true, when a collision has been found + */ + bool Collide( const VECTOR2I& aP, int aClearance = 0 ) const; + + /** + * Function Collide() + * + * Checks if segment aSeg lies closer to us than aClearance. + * @param aSeg the segment to check for collisions with + * @param aClearance minimum distance that does not qualify as a collision. + * @return true, when a collision has been found + */ + bool Collide( const SEG& aSeg, int aClearance = 0 ) const; + + /** + * Function Distance() + * + * Computes the minimum distance between the line chain and a point aP. + * @param aP the point + * @return minimum distance. + */ + int Distance( const VECTOR2I& aP ) const; + + /** + * Function Reverse() + * + * Reverses point order in the line chain. + * @return line chain with reversed point order (original A-B-C-D: returned D-C-B-A) + */ + const SHAPE_LINE_CHAIN Reverse() const; + + /** + * Function Length() + * + * Returns length of the line chain in Euclidean metric. + * @return length of the line chain + */ + int Length() const; + + /** + * Function Append() + * + * Appends a new point at the end of the line chain. + * @param aX is X coordinate of the new point + * @param aY is Y coordinate of the new point + */ + void Append( int aX, int aY, bool aAllowDuplication = false ) + { + VECTOR2I v( aX, aY ); + Append( v, aAllowDuplication ); + } + + /** + * Function Append() + * + * Appends a new point at the end of the line chain. + * @param aP the new point + */ + void Append( const VECTOR2I& aP, bool aAllowDuplication = false ) + { + if( m_points.size() == 0 ) + m_bbox = BOX2I( aP, VECTOR2I( 0, 0 ) ); + + if( m_points.size() == 0 || aAllowDuplication || CPoint( -1 ) != aP ) + { + m_points.push_back( aP ); + m_bbox.Merge( aP ); + } + } + + /** + * Function Append() + * + * Appends another line chain at the end. + * @param aOtherLine the line chain to be appended. + */ + void Append( const SHAPE_LINE_CHAIN& aOtherLine ) + { + if( aOtherLine.PointCount() == 0 ) + return; + + else if( PointCount() == 0 || aOtherLine.CPoint( 0 ) != CPoint( -1 ) ) + { + const VECTOR2I p = aOtherLine.CPoint( 0 ); + m_points.push_back( p ); + m_bbox.Merge( p ); + } + + for( int i = 1; i < aOtherLine.PointCount(); i++ ) + { + const VECTOR2I p = aOtherLine.CPoint( i ); + m_points.push_back( p ); + m_bbox.Merge( p ); + } + } + + void Insert( int aVertex, const VECTOR2I& aP ) + { + m_points.insert( m_points.begin() + aVertex, aP ); + } + + /** + * Function Replace() + * + * Replaces points with indices in range [start_index, end_index] with a single + * point aP. + * @param aStartIndex start of the point range to be replaced (inclusive) + * @param aEndIndex end of the point range to be replaced (inclusive) + * @param aP replacement point + */ + void Replace( int aStartIndex, int aEndIndex, const VECTOR2I& aP ); + + /** + * Function Replace() + * + * Replaces points with indices in range [start_index, end_index] with the points from + * line chain aLine. + * @param aStartIndex start of the point range to be replaced (inclusive) + * @param aEndIndex end of the point range to be replaced (inclusive) + * @param aLine replacement line chain. + */ + void Replace( int aStartIndex, int aEndIndex, const SHAPE_LINE_CHAIN& aLine ); + + /** + * Function Remove() + * + * Removes the range of points [start_index, end_index] from the line chain. + * @param aStartIndex start of the point range to be replaced (inclusive) + * @param aEndIndex end of the point range to be replaced (inclusive) + */ + void Remove( int aStartIndex, int aEndIndex ); + + /** + * Function Split() + * + * Inserts the point aP belonging to one of the our segments, splitting the adjacent + * segment in two. + * @param aP the point to be inserted + * @return index of the newly inserted point (or a negative value if aP does not lie on + * our line) + */ + int Split( const VECTOR2I& aP ); + + /** + * Function Find() + * + * Searches for point aP. + * @param aP the point to be looked for + * @return index of the correspoinding point in the line chain or negative when not found. + */ + int Find( const VECTOR2I& aP ) const; + + /** + * Function FindSegment() + * + * Searches for segment containing point aP. + * @param aP the point to be looked for + * @return index of the correspoinding segment in the line chain or negative when not found. + */ + int FindSegment( const VECTOR2I& aP ) const; + + /** + * Function Slice() + * + * Returns a subset of this line chain containing the [start_index, end_index] range of points. + * @param aStartIndex start of the point range to be returned (inclusive) + * @param aEndIndex end of the point range to be returned (inclusive) + * @return cut line chain. + */ + const SHAPE_LINE_CHAIN Slice( int aStartIndex, int aEndIndex = -1 ) const; + + struct compareOriginDistance + { + compareOriginDistance( const VECTOR2I& aOrigin ): + m_origin( aOrigin ) + {} + + bool operator()( const INTERSECTION& aA, const INTERSECTION& aB ) + { + return ( m_origin - aA.p ).EuclideanNorm() < ( m_origin - aB.p ).EuclideanNorm(); + } + + VECTOR2I m_origin; + }; + + bool Intersects( const SHAPE_LINE_CHAIN& aChain ) const; + + /** + * Function Intersect() + * + * Finds all intersection points between our line chain and the segment aSeg. + * @param aSeg the segment chain to find intersections with + * @param aIp reference to a vector to store found intersections. Intersection points + * are sorted with increasing distances from point aSeg.a. + * @return number of intersections found + */ + int Intersect( const SEG& aSeg, INTERSECTIONS& aIp ) const; + + /** + * Function Intersect() + * + * Finds all intersection points between our line chain and the line chain aChain. + * @param aChain the line chain to find intersections with + * @param aIp reference to a vector to store found intersections. Intersection points + * are sorted with increasing path lengths from the starting point of aChain. + * @return number of intersections found + */ + int Intersect( const SHAPE_LINE_CHAIN& aChain, INTERSECTIONS& aIp ) const; + + /** + * Function PathLength() + * + * Computes the walk path length from the beginning of the line chain and + * the point aP belonging to our line. + * @return: path length in Euclidean metric or negative if aP does not belong to + * the line chain. + */ + int PathLength( const VECTOR2I& aP ) const; + + /** + * Function PointInside() + * + * Checks if point aP lies inside a convex polygon defined by the line chain. For closed + * shapes only. + * @param aP point to check + * @return true if the point is inside the shape (edge is not treated as being inside). + */ + bool PointInside( const VECTOR2I& aP ) const; + + /** + * Function PointOnEdge() + * + * Checks if point aP lies on an edge or vertex of the line chain. + * @param aP point to check + * @return true if the point lies on the edge. + */ + bool PointOnEdge( const VECTOR2I& aP ) const; + + /** + * Function SelfIntersecting() + * + * Checks if the line chain is self-intersecting. + * @return (optional) first found self-intersection point. + */ + const boost::optional SelfIntersecting() const; + + /** + * Function Simplify() + * + * Simplifies the line chain by removing colinear adjacent segments and duplicate vertices. + * @return reference to self. + */ + SHAPE_LINE_CHAIN& Simplify(); + + /** + * Function NearestPoint() + * + * Finds a point on the line chain that is closest to point aP. + * @return the nearest point. + */ + const VECTOR2I NearestPoint( const VECTOR2I& aP ) const; + + /** + * Function NearestPoint() + * + * Finds a point on the line chain that is closest to the line defined + * by the points of segment aSeg, also returns the distance. + * @param aSeg Segment defining the line. + * @param dist reference receiving the distance to the nearest point. + * @return the nearest point. + */ + const VECTOR2I NearestPoint( const SEG& aSeg, int& dist ) const; + + /// @copydoc SHAPE::Format() + const std::string Format() const; + + /// @copydoc SHAPE::Parse() + bool Parse( std::stringstream& aStream ); + + bool operator!=( const SHAPE_LINE_CHAIN& aRhs ) const + { + if( PointCount() != aRhs.PointCount() ) + return true; + + for( int i = 0; i < PointCount(); i++ ) + { + if( CPoint( i ) != aRhs.CPoint( i ) ) + return true; + } + + return false; + } + + bool CompareGeometry( const SHAPE_LINE_CHAIN & aOther ) const; + + void Move( const VECTOR2I& aVector ) + { + for( std::vector::iterator i = m_points.begin(); i != m_points.end(); ++i ) + (*i) += aVector; + } + + bool IsSolid() const + { + return false; + } + +private: + /// array of vertices + std::vector m_points; + + /// is the line chain closed? + bool m_closed; + + /// cached bounding box + BOX2I m_bbox; +}; + +#endif // __SHAPE_LINE_CHAIN -- cgit