369 lines
11 KiB
C++
369 lines
11 KiB
C++
/*
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* KiRouter - a push-and-(sometimes-)shove PCB router
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*
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* Copyright (C) 2013-2017 CERN
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* Copyright (C) 2016-2021 KiCad Developers, see AUTHORS.txt for contributors.
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*
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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_LINE_PLACER_H
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#define __PNS_LINE_PLACER_H
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#include <math/vector2d.h>
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#include <geometry/shape.h>
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#include <geometry/shape_line_chain.h>
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#include "pns_sizes_settings.h"
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#include "pns_node.h"
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#include "pns_via.h"
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#include "pns_line.h"
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#include "pns_placement_algo.h"
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#include "pns_mouse_trail_tracer.h"
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namespace PNS {
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class ROUTER;
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class SHOVE;
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class OPTIMIZER;
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class VIA;
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class SIZES_SETTINGS;
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class NODE;
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class FIXED_TAIL
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{
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public:
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FIXED_TAIL( int aLineCount = 1);
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~FIXED_TAIL();
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struct FIX_POINT
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{
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int layer;
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bool placingVias;
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VECTOR2I p;
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DIRECTION_45 direction;
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};
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struct STAGE
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{
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NODE* commit;
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std::vector<FIX_POINT> pts;
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};
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void Clear();
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void AddStage( VECTOR2I aStart, int aLayer, bool placingVias, DIRECTION_45 direction,
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NODE *aNode );
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bool PopStage( STAGE& aStage );
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int StageCount() const;
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private:
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std::vector<STAGE> m_stages;
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};
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/**
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* Single track placement algorithm. Interactively routes a track.
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* Applies shove and walkaround algorithms when needed.
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*/
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class LINE_PLACER : public PLACEMENT_ALGO
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{
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public:
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LINE_PLACER( ROUTER* aRouter );
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~LINE_PLACER();
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/**
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* Start routing a single track at point aP, taking item aStartItem as anchor (unless NULL).
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*/
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bool Start( const VECTOR2I& aP, ITEM* aStartItem ) override;
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/**
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* Move the end of the currently routed trace to the point \a aP, taking \a aEndItem as
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* anchor (if not NULL).
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*/
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bool Move( const VECTOR2I& aP, ITEM* aEndItem ) override;
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/**
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* Commit the currently routed track to the parent node taking \a aP as the final end point
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* and \a aEndItem as the final anchor (if provided).
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*
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* @return true if route has been committed. May return false if the routing result is
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* violating design rules. In such cases, the track is only committed if
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* CanViolateDRC() is on.
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*/
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bool FixRoute( const VECTOR2I& aP, ITEM* aEndItem, bool aForceFinish ) override;
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bool UnfixRoute() override;
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bool CommitPlacement() override;
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bool AbortPlacement() override;
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bool HasPlacedAnything() const override;
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/**
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* Enable/disable a via at the end of currently routed trace.
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*/
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bool ToggleVia( bool aEnabled ) override;
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/**
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* Set the current routing layer.
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*/
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bool SetLayer( int aLayer ) override;
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/**
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* Return the "head" of the line being placed, that is the volatile part that has not been
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* "fixed" yet.
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*/
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const LINE& Head() const { return m_head; }
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/**
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* Return the "tail" of the line being placed, the part which has already wrapped around
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* and shoved some obstacles.
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*/
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const LINE& Tail() const { return m_tail; }
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/**
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* Return the complete routed line.
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*/
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const LINE Trace() const;
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/**
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* Return the complete routed line, as a single-member ITEM_SET.
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*/
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const ITEM_SET Traces() override;
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/**
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* Return the current end of the line being placed. It may not be equal to the cursor
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* position due to collisions.
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*/
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const VECTOR2I& CurrentEnd() const override
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{
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return m_currentEnd;
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}
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/**
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* Return the net code of currently routed track.
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*/
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const std::vector<int> CurrentNets() const override
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{
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return std::vector<int>( 1, m_currentNet );
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}
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/**
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* Return the layer of currently routed track.
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*/
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int CurrentLayer() const override
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{
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return m_currentLayer;
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}
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/**
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* Return the most recent world state.
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*/
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NODE* CurrentNode( bool aLoopsRemoved = false ) const override;
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/**
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* Toggle the current posture (straight/diagonal) of the trace head.
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*/
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void FlipPosture() override;
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/**
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* Perform on-the-fly update of the width, via diameter & drill size from a settings class.
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*
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* Performs on-the-fly update of the width, via diameter & drill size from a settings class.
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* Used to dynamically change these parameters as the track is routed.
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*/
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void UpdateSizes( const SIZES_SETTINGS& aSizes ) override;
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void SetOrthoMode( bool aOrthoMode ) override;
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bool IsPlacingVia() const override { return m_placingVia; }
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void GetModifiedNets( std::vector<int>& aNets ) const override;
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/**
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* Check if point \a aP lies on segment \a aSeg. If so, splits the segment in two, forming a
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* joint at \a aP and stores updated topology in node \a aNode.
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*/
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bool SplitAdjacentSegments( NODE* aNode, ITEM* aSeg, const VECTOR2I& aP );
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private:
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/**
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* Re-route the current track to point aP. Returns true, when routing has completed
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* successfully (i.e. the trace end has reached point \a aP), and false if the trace was
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* stuck somewhere on the way. May call routeStep() repetitively due to mouse smoothing.
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*
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* @param aP ending point of current route.
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* @return true, if the routing is complete.
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*/
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bool route( const VECTOR2I& aP );
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/**
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* Draw the "leading" rats nest line, which connects the end of currently routed track and
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* the nearest yet unrouted item. If the routing for current net is complete, draws nothing.
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*/
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void updateLeadingRatLine();
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/**
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* Set the board to route.
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*/
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void setWorld( NODE* aWorld );
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/**
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* Initialize placement of a new line with given parameters.
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*/
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void initPlacement();
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/**
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* Set preferred direction of the very first track segment to be laid.
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* Used by posture switching mechanism.
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*/
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void setInitialDirection( const DIRECTION_45& aDirection );
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/**
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* Searches aNode for traces concurrent to aLatest and removes them. Updated
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* topology is stored in aNode.
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*/
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void removeLoops( NODE* aNode, LINE& aLatest );
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/**
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* Assemble a line starting from segment or arc aLatest, removes collinear segments
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* and redundant vertexes. If a simplification has been found, replaces the old line
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* with the simplified one in \a aNode.
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*/
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void simplifyNewLine( NODE* aNode, LINKED_ITEM* aLatest );
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/**
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* Check if the head of the track intersects its tail. If so, cuts the tail up to the
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* intersecting segment and fixes the head direction to match the last segment before
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* the cut.
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*
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* @return true if the line has been changed.
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*/
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bool handleSelfIntersections();
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/**
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* Deal with pull-back: reduces the tail if head trace is moved backwards wrs to the
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* current tail direction.
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*
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* @return true if the line has been changed.
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*/
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bool handlePullback();
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/**
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* Moves "established" segments from the head to the tail if certain conditions are met.
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*
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* @return true, if the line has been changed.
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*/
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bool mergeHead();
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/**
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* Attempt to reduce the number of segments in the tail by trying to replace a certain
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* number of latest tail segments with a direct trace leading to \a aEnd that does not
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* collide with anything.
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*
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* @param aEnd is the current routing destination point.
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* @return true if the line has been changed.
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*/
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bool reduceTail( const VECTOR2I& aEnd );
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/**
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* Try to reduce the corner count of the most recent part of tail/head by merging
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* obtuse/collinear segments.
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*
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* @return true if the line has been changed.
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*/
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bool optimizeTailHeadTransition();
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/**
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* Compute the head trace between the current start point (m_p_start) and point \a aP,
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* starting with direction defined in m_direction. The trace walks around all
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* colliding solid or non-movable items. Movable segments are ignored, as they'll be
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* handled later by the shove algorithm.
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*/
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bool routeHead( const VECTOR2I& aP, LINE& aNewHead);
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/**
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* Perform a single routing algorithm step, for the end point \a aP.
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*
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* @param aP is the ending point of current route.
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* @return true if the line has been changed.
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*/
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void routeStep( const VECTOR2I& aP );
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///< Route step walk around mode.
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bool rhWalkOnly( const VECTOR2I& aP, LINE& aNewHead);
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///< Route step shove mode.
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bool rhShoveOnly( const VECTOR2I& aP, LINE& aNewHead);
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///< Route step mark obstacles mode.
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bool rhMarkObstacles( const VECTOR2I& aP, LINE& aNewHead );
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const VIA makeVia( const VECTOR2I& aP );
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bool buildInitialLine( const VECTOR2I& aP, LINE& aHead );
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DIRECTION_45 m_direction; ///< current routing direction
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DIRECTION_45 m_initial_direction; ///< routing direction for new traces
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LINE m_head; ///< the volatile part of the track from the previously
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///< analyzed point to the current routing destination
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LINE m_tail; ///< routing "tail": part of the track that has been already
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///< fixed due to collisions with obstacles
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NODE* m_world; ///< pointer to world to search colliding items
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VECTOR2I m_p_start; ///< current routing start (end of tail, beginning of head)
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std::unique_ptr<SHOVE> m_shove; ///< The shove engine
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NODE* m_currentNode; ///< Current world state
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NODE* m_lastNode; ///< Postprocessed world state (including marked collisions &
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///< removed loops)
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SIZES_SETTINGS m_sizes;
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bool m_placingVia;
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int m_currentNet;
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int m_currentLayer;
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VECTOR2I m_currentEnd;
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VECTOR2I m_currentStart;
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LINE m_currentTrace;
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PNS_MODE m_currentMode;
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ITEM* m_startItem;
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bool m_idle;
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bool m_chainedPlacement;
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bool m_orthoMode;
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bool m_placementCorrect;
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FIXED_TAIL m_fixedTail;
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MOUSE_TRAIL_TRACER m_mouseTrailTracer;
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};
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}
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#endif // __PNS_LINE_PLACER_H
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