520 lines
12 KiB
C++
520 lines
12 KiB
C++
/*
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* KiRouter - a push-and-(sometimes-)shove PCB router
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*
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* Copyright (C) 2013-2015 CERN
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* Copyright (C) 2016 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 modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation, either version 3 of the License, or (at your
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* option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* 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 along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef __PNS_DIFF_PAIR_H
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#define __PNS_DIFF_PAIR_H
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#include <vector>
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#include <geometry/shape.h>
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#include <geometry/shape_line_chain.h>
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#include "pns_line.h"
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#include "pns_via.h"
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#include "ranged_num.h"
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namespace PNS {
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class DIFF_PAIR;
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/**
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* DP_GATEWAY
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*
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* Defines a "gateway" for routing a differential pair - e.g. a pair of points (anchors) with certain
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* orientation, spacing and (optionally) predefined entry paths. The routing algorithm connects such
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* gateways with parallel lines, thus creating a difrerential pair.
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**/
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class DP_GATEWAY {
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public:
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DP_GATEWAY( const VECTOR2I& aAnchorP,
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const VECTOR2I& aAnchorN,
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bool aIsDiagonal,
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int aAllowedEntryAngles = DIRECTION_45::ANG_OBTUSE,
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int aPriority = 0 )
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: m_anchorP( aAnchorP ),
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m_anchorN( aAnchorN ),
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m_isDiagonal( aIsDiagonal ),
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m_allowedEntryAngles( aAllowedEntryAngles ),
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m_priority( aPriority )
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{
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m_hasEntryLines = false;
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}
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~DP_GATEWAY()
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{
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}
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/**
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* Function IsDiagonal()
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*
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* @return true, if the gateway anchors lie on a diagonal line
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*/
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bool IsDiagonal() const
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{
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return m_isDiagonal;
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}
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const VECTOR2I& AnchorP() const { return m_anchorP; }
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const VECTOR2I& AnchorN() const { return m_anchorN; }
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/**
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* Function AllowedAngles()
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*
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* @return a mask of 45-degree entry directoins allowed for the
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* gateway.
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*/
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int AllowedAngles () const { return m_allowedEntryAngles; }
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/**
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* Function Priority()
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*
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* @return priority/score value for gateway matching
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*/
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int Priority() const
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{
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return m_priority;
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}
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void SetPriority(int aPriority)
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{
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m_priority = aPriority;
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}
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void SetEntryLines( const SHAPE_LINE_CHAIN& aEntryP, const SHAPE_LINE_CHAIN& aEntryN )
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{
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m_entryP = aEntryP;
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m_entryN = aEntryN;
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m_hasEntryLines = true;
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}
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const SHAPE_LINE_CHAIN& EntryP() const { return m_entryP; }
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const SHAPE_LINE_CHAIN& EntryN() const { return m_entryN; }
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const DIFF_PAIR Entry() const ;
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void Reverse();
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bool HasEntryLines () const
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{
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return m_hasEntryLines;
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}
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private:
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SHAPE_LINE_CHAIN m_entryP, m_entryN;
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bool m_hasEntryLines;
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VECTOR2I m_anchorP, m_anchorN;
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bool m_isDiagonal;
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int m_allowedEntryAngles;
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int m_priority;
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};
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/**
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* DP_PRIMITIVE_PAIR
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*
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* Stores staring/ending primitives (pads, vias or segments) for a differential pair.
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**/
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class DP_PRIMITIVE_PAIR
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{
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public:
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DP_PRIMITIVE_PAIR():
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m_primP( NULL ), m_primN( NULL ) {};
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DP_PRIMITIVE_PAIR( const DP_PRIMITIVE_PAIR& aOther );
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DP_PRIMITIVE_PAIR( ITEM* aPrimP, ITEM* aPrimN );
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DP_PRIMITIVE_PAIR( const VECTOR2I& aAnchorP, const VECTOR2I& aAnchorN );
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~DP_PRIMITIVE_PAIR();
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void SetAnchors( const VECTOR2I& aAnchorP, const VECTOR2I& aAnchorN );
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const VECTOR2I& AnchorP() const { return m_anchorP; }
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const VECTOR2I& AnchorN() const { return m_anchorN; }
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DP_PRIMITIVE_PAIR& operator=( const DP_PRIMITIVE_PAIR& aOther );
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ITEM* PrimP() const { return m_primP; }
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ITEM* PrimN() const { return m_primN; }
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bool Directional() const;
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DIRECTION_45 DirP() const;
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DIRECTION_45 DirN() const;
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void CursorOrientation( const VECTOR2I& aCursorPos, VECTOR2I& aMidpoint, VECTOR2I& aDirection ) const;
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void dump()
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{
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printf( "-- Prim-P %p anchor [%d, %d]\n", m_primP, m_anchorP.x, m_anchorP.y );
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printf( "-- Prim-N %p anchor [%d, %d]\n", m_primN, m_anchorN.x, m_anchorN.y );
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}
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private:
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DIRECTION_45 anchorDirection( const ITEM* aItem, const VECTOR2I& aP ) const;
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ITEM* m_primP;
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ITEM* m_primN;
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VECTOR2I m_anchorP, m_anchorN;
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};
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/**
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* DP_GATEWAYS
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*
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* A set of gateways calculated for the cursor or starting/ending primitive pair.
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**/
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class DP_GATEWAYS
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{
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public:
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DP_GATEWAYS( int aGap ):
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m_gap( aGap ), m_viaGap( aGap )
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{
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// Do not leave unitialized members, and keep static analyser quiet:
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m_viaDiameter = 0;
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m_fitVias = true;
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}
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void SetGap( int aGap )
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{
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m_gap = aGap;
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m_viaGap = aGap;
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}
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void Clear()
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{
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m_gateways.clear();
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}
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void SetFitVias( bool aEnable, int aDiameter = 0, int aViaGap = -1 )
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{
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m_fitVias = aEnable;
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m_viaDiameter = aDiameter;
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if(aViaGap < 0)
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m_viaGap = m_gap;
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else
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m_viaGap = aViaGap;
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}
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void BuildForCursor( const VECTOR2I& aCursorPos );
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void BuildOrthoProjections( DP_GATEWAYS &aEntries, const VECTOR2I& aCursorPos, int aOrthoScore );
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void BuildGeneric( const VECTOR2I& p0_p, const VECTOR2I& p0_n, bool aBuildEntries = false, bool aViaMode = false );
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void BuildFromPrimitivePair( const DP_PRIMITIVE_PAIR& aPair, bool aPreferDiagonal );
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bool FitGateways( DP_GATEWAYS& aEntry, DP_GATEWAYS& aTarget, bool aPrefDiagonal, DIFF_PAIR& aDp );
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std::vector<DP_GATEWAY>& Gateways()
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{
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return m_gateways;
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}
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const std::vector<DP_GATEWAY>& CGateways() const
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{
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return m_gateways;
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}
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void FilterByOrientation( int aAngleMask, DIRECTION_45 aRefOrientation );
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private:
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struct DP_CANDIDATE
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{
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SHAPE_LINE_CHAIN p, n;
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VECTOR2I gw_p, gw_n;
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int score;
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};
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bool checkDiagonalAlignment( const VECTOR2I& a, const VECTOR2I& b ) const;
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void buildDpContinuation( const DP_PRIMITIVE_PAIR& aPair, bool aIsDiagonal );
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void buildEntries( const VECTOR2I& p0_p, const VECTOR2I& p0_n );
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int m_gap;
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int m_viaGap;
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int m_viaDiameter;
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bool m_fitVias;
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std::vector<DP_GATEWAY> m_gateways;
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};
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/**
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* DIFF_PAIR
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*
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* Basic class for a differential pair. Stores two PNS_LINEs (for positive and negative nets, respectively),
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* the gap and coupling constraints.
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**/
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class DIFF_PAIR : public ITEM {
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public:
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struct COUPLED_SEGMENTS {
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COUPLED_SEGMENTS ( const SEG& aCoupledP, const SEG& aParentP, int aIndexP,
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const SEG& aCoupledN, const SEG& aParentN, int aIndexN ) :
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coupledP( aCoupledP ),
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coupledN( aCoupledN ),
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parentP( aParentP ),
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parentN( aParentN ),
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indexP( aIndexP ),
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indexN( aIndexN )
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{}
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SEG coupledP;
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SEG coupledN;
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SEG parentP;
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SEG parentN;
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int indexP;
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int indexN;
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};
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typedef std::vector<COUPLED_SEGMENTS> COUPLED_SEGMENTS_VEC;
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DIFF_PAIR() : ITEM( DIFF_PAIR_T ), m_hasVias( false )
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{
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// Initialize some members, to avoid uninitialized variables.
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m_net_p = 0;
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m_net_n = 0;;
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m_width = 0;
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m_gap = 0;
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m_viaGap = 0;
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m_maxUncoupledLength = 0;
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m_chamferLimit = 0;
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}
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DIFF_PAIR( int aGap ) :
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ITEM( DIFF_PAIR_T ),
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m_hasVias( false )
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{
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m_gapConstraint = aGap;
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// Initialize other members, to avoid uninitialized variables.
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m_net_p = 0;
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m_net_n = 0;;
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m_width = 0;
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m_gap = 0;
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m_viaGap = 0;
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m_maxUncoupledLength = 0;
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m_chamferLimit = 0;
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}
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DIFF_PAIR( const SHAPE_LINE_CHAIN &aP, const SHAPE_LINE_CHAIN& aN, int aGap = 0 ):
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ITEM( DIFF_PAIR_T ),
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m_n( aN ),
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m_p( aP ),
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m_hasVias( false )
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{
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m_gapConstraint = aGap;
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// Initialize other members, to avoid uninitialized variables.
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m_net_p = 0;
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m_net_n = 0;;
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m_width = 0;
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m_gap = 0;
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m_viaGap = 0;
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m_maxUncoupledLength = 0;
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m_chamferLimit = 0;
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}
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DIFF_PAIR( const LINE &aLineP, const LINE &aLineN, int aGap = 0 ):
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ITEM( DIFF_PAIR_T ),
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m_line_p( aLineP ),
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m_line_n( aLineN ),
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m_hasVias( false )
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{
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m_gapConstraint = aGap;
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m_net_p = aLineP.Net();
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m_net_n = aLineN.Net();
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m_p = aLineP.CLine();
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m_n = aLineN.CLine();
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// Do not leave unitialized members, and keep static analyser quiet:
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m_width = 0;
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m_gap = 0;
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m_viaGap = 0;
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m_maxUncoupledLength = 0;
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m_chamferLimit = 0;
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}
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static inline bool ClassOf( const ITEM* aItem )
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{
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return aItem && DIFF_PAIR_T == aItem->Kind();
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}
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DIFF_PAIR* Clone() const override { assert( false ); return NULL; }
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static DIFF_PAIR* AssembleDp( LINE *aLine );
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void SetShape( const SHAPE_LINE_CHAIN &aP, const SHAPE_LINE_CHAIN& aN, bool aSwapLanes = false )
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{
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if( aSwapLanes )
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{
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m_p = aN;
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m_n = aP;
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}
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else
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{
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m_p = aP;
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m_n = aN;
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}
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}
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void SetShape( const DIFF_PAIR& aPair )
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{
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m_p = aPair.m_p;
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m_n = aPair.m_n;
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}
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void SetNets( int aP, int aN )
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{
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m_net_p = aP;
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m_net_n = aN;
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}
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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 Width() const { return m_width; }
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void SetGap( int aGap )
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{
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m_gap = aGap;
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m_gapConstraint = RANGED_NUM<int>( m_gap, 10000, 10000 );
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}
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int Gap() const
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{
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return m_gap;
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}
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void AppendVias( const VIA &aViaP, const VIA& aViaN )
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{
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m_hasVias = true;
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m_via_p = aViaP;
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m_via_n = aViaN;
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}
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void RemoveVias()
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{
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m_hasVias = false;
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}
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bool EndsWithVias() const
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{
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return m_hasVias;
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}
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int NetP() const
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{
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return m_net_p;
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}
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int NetN() const
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{
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return m_net_n;
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}
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LINE& PLine()
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{
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if( !m_line_p.IsLinked() )
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updateLine( m_line_p, m_p, m_net_p, m_via_p );
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return m_line_p;
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}
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LINE& NLine()
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{
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if( !m_line_n.IsLinked() )
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updateLine( m_line_n, m_n, m_net_n, m_via_n );
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return m_line_n;
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}
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DP_PRIMITIVE_PAIR EndingPrimitives();
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double CoupledLength() const;
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double TotalLength() const;
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double CoupledLengthFactor() const;
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double Skew() const;
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void CoupledSegmentPairs( COUPLED_SEGMENTS_VEC& aPairs ) const;
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void Clear()
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{
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m_n.Clear();
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m_p.Clear();
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}
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void Append( const DIFF_PAIR& aOther )
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{
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m_n.Append( aOther.m_n );
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m_p.Append( aOther.m_p );
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}
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bool Empty() const
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{
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return ( m_n.SegmentCount() == 0 ) || ( m_p.SegmentCount() == 0 );
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}
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const SHAPE_LINE_CHAIN& CP() const { return m_p; }
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const SHAPE_LINE_CHAIN& CN() const { return m_n; }
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bool BuildInitial( const DP_GATEWAY& aEntry, const DP_GATEWAY& aTarget, bool aPrefDiagonal );
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bool CheckConnectionAngle( const DIFF_PAIR &aOther, int allowedAngles ) const;
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int CoupledLength( const SEG& aP, const SEG& aN ) const;
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int64_t CoupledLength( const SHAPE_LINE_CHAIN& aP, const SHAPE_LINE_CHAIN& aN ) const;
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const RANGED_NUM<int> GapConstraint() const
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{
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return m_gapConstraint;
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}
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private:
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void updateLine( LINE &aLine, const SHAPE_LINE_CHAIN& aShape, int aNet, VIA& aVia )
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{
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aLine.SetShape( aShape );
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aLine.SetWidth( m_width );
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aLine.SetNet( aNet );
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aLine.SetLayer( Layers().Start() );
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if( m_hasVias )
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aLine.AppendVia( aVia );
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}
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SHAPE_LINE_CHAIN m_n, m_p;
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LINE m_line_p, m_line_n;
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VIA m_via_p, m_via_n;
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bool m_hasVias;
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int m_net_p, m_net_n;
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int m_width;
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int m_gap;
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int m_viaGap;
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int m_maxUncoupledLength;
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int m_chamferLimit;
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RANGED_NUM<int> m_gapConstraint;
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};
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}
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#endif
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