/* * KiRouter - a push-and-(sometimes-)shove PCB router * * Copyright (C) 2013-2015 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 3 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, see . */ #ifndef __PNS_MEANDER_H #define __PNS_MEANDER_H #include #include #include class PNS_MEANDER_PLACER_BASE; ///< Shapes of available meanders enum PNS_MEANDER_TYPE { MT_SINGLE, // _|^|_, single-sided MT_START, // _|^| MT_FINISH, // |^|_ MT_TURN, // |^| or |_| MT_CHECK_START, // try fitting a start type, but don't produce a line MT_CHECK_FINISH, // try fitting a finish type, but don't produce a line MT_CORNER, // line corner MT_EMPTY // no meander (straight line) }; /** * Class PNS_MEANDER_SETTINGS * * Holds dimensions for the meandering algorithm. */ class PNS_MEANDER_SETTINGS { public: ///> meander corner shape enum CornerType { ROUND = 1, // rounded (90 degree arc) CHAMFER // chamfered (45 degree segment) }; PNS_MEANDER_SETTINGS() { m_minAmplitude = 100000; m_maxAmplitude = 1000000; m_step = 50000; m_spacing = 600000; m_targetLength = 100000000; m_targetSkew = 0; m_cornerType = ROUND; m_cornerRadiusPercentage = 100; m_lengthTolerance = 100000; m_cornerArcSegments = 8; } ///> minimum meandering amplitude int m_minAmplitude; ///> maximum meandering amplitude int m_maxAmplitude; ///> meandering period/spacing (see dialog picture for explanation) int m_spacing; ///> amplitude/spacing adjustment step int m_step; ///> desired length of the tuned line/diff pair int m_targetLength; ///> type of corners for the meandered line CornerType m_cornerType; ///> rounding percentage (0 - 100) int m_cornerRadiusPercentage; ///> allowable tuning error int m_lengthTolerance; ///> number of line segments for arc approximation int m_cornerArcSegments; ///> target skew value for diff pair de-skewing int m_targetSkew; }; class PNS_MEANDERED_LINE; /** * Class PNS_MEANDER_SETTINGS * * Holds the geometry of a single meander. */ class PNS_MEANDER_SHAPE { public: /** * Constructor * * @param aPlacer the meander placer instance * @param aWidth width of the meandered line * @param aIsDual when true, the shape contains two meandered * lines at a given offset (diff pairs) */ PNS_MEANDER_SHAPE( PNS_MEANDER_PLACER_BASE *aPlacer, int aWidth, bool aIsDual = false ) : m_placer( aPlacer ), m_dual( aIsDual ), m_width( aWidth ), m_baselineOffset( 0 ) { } /** * Function SetType() * * Sets the type of the meander. */ void SetType( PNS_MEANDER_TYPE aType ) { m_type = aType; } /** * Function Type() * * @return the type of the meander. */ PNS_MEANDER_TYPE Type() const { return m_type; } /** * Function SetBaseIndex() * * Sets an auxillary index of the segment being meandered in its original PNS_LINE. */ void SetBaseIndex( int aIndex ) { m_baseIndex = aIndex; } /** * Function BaseIndex() * * @return auxillary index of the segment being meandered in its original PNS_LINE. */ int BaseIndex() const { return m_baseIndex; } /** * Function Amplitude() * * @return the amplitude of the meander shape. */ int Amplitude() const { return m_amplitude; } /** * Function MakeCorner() * * Creates a dummy meander shape representing a line corner. Used to define * the starts/ends of meandered segments. * @param aP1 corner point of the 1st line * @param aP2 corner point of the 2nd line (if m_dual == true) */ void MakeCorner( VECTOR2I aP1, VECTOR2I aP2 = VECTOR2I( 0, 0 ) ); /** * Function Resize() * * Changes the amplitude of the meander shape to aAmpl and recalculates * the resulting line chain. * @param aAmpl new amplitude. */ void Resize( int aAmpl ); /** * Function Recalculate() * * Recalculates the line chain representing the meanders's shape. */ void Recalculate(); /** * Function IsDual() * * @return true if the shape represents 2 parallel lines (diff pair). */ bool IsDual() const { return m_dual; } /** * Function Side() * * @return true if the meander is to the right of its base segment. */ bool Side() const { return m_side; } /** * Function End() * * @return end vertex of the base segment of the meander shape. */ VECTOR2I End() const { return m_clippedBaseSeg.B; } /** * Function CLine() * * @return the line chain representing the shape of the meander. */ const SHAPE_LINE_CHAIN& CLine( int aShape ) const { return m_shapes[aShape]; } /** * Function MakeEmpty() * * Replaces the meander with straight bypass line(s), effectively * clearing it. */ void MakeEmpty(); /** * Function Fit() * * Attempts to fit a meander of a given type onto a segment, avoiding * collisions with other board features. * @param aType type of meander shape * @param aSeg base segment for meandering * @param aP start point of the meander * @param aSide side of aSeg to put the meander on (true = right) * @return true on success. */ bool Fit( PNS_MEANDER_TYPE aType, const SEG& aSeg, const VECTOR2I& aP, bool aSide ); /** * Function BaseSegment() * * Returns the base segment the meadner was fitted to. * @return the base segment. */ const SEG& BaseSegment() const { return m_clippedBaseSeg; } /** * Function BaselineLength() * * @return length of the base segment for the meander (i.e. * the minimum tuned length. */ int BaselineLength() const; /** * Function MaxTunableLength() * * @return the length of the fitted line chain. */ int MaxTunableLength() const; /** * Function Settings() * * @return the current meandering settings. */ const PNS_MEANDER_SETTINGS& Settings() const; /** * Function Width() * * @return width of the meandered line. */ int Width() const { return m_width; } /** * Function SetBaselineOffset() * * Sets the parallel offset between the base segment and the meandered * line. Used for dual menaders (diff pair) only. * @param aOffset the offset */ void SetBaselineOffset( int aOffset ) { m_baselineOffset = aOffset; } private: friend class PNS_MEANDERED_LINE; ///> starts turtle drawing void start( SHAPE_LINE_CHAIN* aTarget, const VECTOR2D& aWhere, const VECTOR2D& aDir ); ///> moves turtle forward by aLength void forward( int aLength ); ///> turns the turtle by aAngle void turn( int aAngle ); ///> tells the turtle to draw an arc of given radius and turn direction void arc( int aRadius, bool aSide ); ///> tells the turtle to draw an U-like shape void uShape( int aSides, int aCorner, int aTop ); ///> generates a 90-degree circular arc SHAPE_LINE_CHAIN circleQuad( VECTOR2D aP, VECTOR2D aDir, bool aSide ); ///> reflects a point onto other side of a given segment VECTOR2I reflect( VECTOR2I aP, const SEG& aLine ); ///> produces a meander shape of given type SHAPE_LINE_CHAIN genMeanderShape( VECTOR2D aP, VECTOR2D aDir, bool aSide, PNS_MEANDER_TYPE aType, int aAmpl, int aBaselineOffset = 0 ); ///> recalculates the clipped baseline after the parameters of ///> the meander have been changed. void updateBaseSegment(); ///> returns sanitized corner radius value int cornerRadius() const; ///> returns sanitized spacing value int spacing() const; ///> the type PNS_MEANDER_TYPE m_type; ///> the placer that placed this meander PNS_MEANDER_PLACER_BASE* m_placer; ///> dual or single line bool m_dual; ///> width of the line int m_width; ///> amplitude of the meander int m_amplitude; ///> offset wrs the base segment (dual only) int m_baselineOffset; ///> first point of the meandered line VECTOR2I m_p0; ///> base segment (unclipped) SEG m_baseSeg; ///> base segment (clipped) SEG m_clippedBaseSeg; ///> side (true = right) bool m_side; ///> the actual shapes (0 used for single, both for dual) SHAPE_LINE_CHAIN m_shapes[2]; ///> index of the meandered segment in the base line int m_baseIndex; ///> current turtle direction VECTOR2D m_currentDir; ///> current turtle position VECTOR2D m_currentPos; ///> the line the turtle is drawing on SHAPE_LINE_CHAIN* m_currentTarget; }; /** * Class PNS_MEANDERED_LINE * * Represents a set of meanders fitted over a single or two lines. */ class PNS_MEANDERED_LINE { public: PNS_MEANDERED_LINE() { } /** * Constructor * * @param aPlacer the meander placer instance * @param aIsDual when true, the meanders are generated for two coupled lines */ PNS_MEANDERED_LINE( PNS_MEANDER_PLACER_BASE* aPlacer, bool aIsDual = false ) : m_placer( aPlacer ), m_dual( aIsDual ) { } /** * Function AddCorner() * * Creates a dummy meander shape representing a line corner. Used to define * the starts/ends of meandered segments. * @param aA corner point of the 1st line * @param aB corner point of the 2nd line (if m_dual == true) */ void AddCorner( const VECTOR2I& aA, const VECTOR2I& aB = VECTOR2I( 0, 0 ) ); /** * Function AddMeander() * * Adds a new meander shape the the meandered line. * @param aShape the meander shape to add */ void AddMeander( PNS_MEANDER_SHAPE* aShape ); /** * Function Clear() * * Clears the line geometry, removing all corners and meanders. */ void Clear(); /** * Function SetWidth() * * Sets the line width. */ void SetWidth( int aWidth ) { m_width = aWidth; } /** * Function MeanderSegment() * * Fits maximum amplitude meanders on a given segment and adds to the * current line. * @param aSeg the base segment to meander * @param aBaseIndex index of the base segment in the original line */ void MeanderSegment( const SEG& aSeg, int aBaseIndex = 0 ); /// @copydoc PNS_MEANDER_SHAPE::SetBaselineOffset() void SetBaselineOffset( int aOffset ) { m_baselineOffset = aOffset; } /** * Function Meanders() * * @return set of meander shapes for this line */ std::vector& Meanders() { return m_meanders; } /** * Function CheckSelfIntersections() * * Checks if the given shape is intersecting with any other meander in * the current line. * @param aShape the shape to check * @param aClearance clearance value * @return true, if the meander shape is not colliding */ bool CheckSelfIntersections ( PNS_MEANDER_SHAPE* aShape, int aClearance ); /** * Function Settings() * * @return the current meandering settings. */ const PNS_MEANDER_SETTINGS& Settings() const; private: VECTOR2I m_last; PNS_MEANDER_PLACER_BASE* m_placer; std::vector m_meanders; bool m_dual; int m_width; int m_baselineOffset; }; #endif // __PNS_MEANDER_H