/* * KiRouter - a push-and-(sometimes-)shove PCB router * * Copyright (C) 2013-2014 CERN * Copyright (C) 2016-2021 KiCad Developers, see AUTHORS.txt for contributors. * * @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_ROUTING_SETTINGS #define __PNS_ROUTING_SETTINGS #include #include #include "time_limit.h" class DIRECTION_45; class TOOL_SETTINGS; namespace PNS { ///< Routing modes enum PNS_MODE { RM_MarkObstacles = 0, ///< Ignore collisions, mark obstacles RM_Shove, ///< Only shove RM_Walkaround, ///< Only walk around RM_Smart ///< Guess what's better, try to make least mess on the PCB }; ///< Optimization effort. enum PNS_OPTIMIZATION_EFFORT { OE_LOW = 0, OE_MEDIUM = 1, OE_FULL = 2 }; ///< What kind of corners to create in the line placers. enum class CORNER_MODE { MITERED_90, ///< H/V only (90-degree corners) (not yet implemented) MITERED_45, ///< H/V/45 with mitered corners (default) ROUNDED_90, ///< H/V with filleted corners (not yet implemented) ROUNDED_45 ///< H/V/45 with filleted corners }; /** * Contain all persistent settings of the router, such as the mode, optimization effort, etc. */ class ROUTING_SETTINGS : public NESTED_SETTINGS { public: ROUTING_SETTINGS( JSON_SETTINGS* aParent, const std::string& aPath ); ///< Return the routing mode. PNS_MODE Mode() const { return m_routingMode; } ///< Set the routing mode. void SetMode( PNS_MODE aMode ) { m_routingMode = aMode; } ///< Return the optimizer effort. Bigger means cleaner traces, but slower routing. PNS_OPTIMIZATION_EFFORT OptimizerEffort() const { return m_optimizerEffort; } ///< Set the optimizer effort. Bigger means cleaner traces, but slower routing. void SetOptimizerEffort( PNS_OPTIMIZATION_EFFORT aEffort ) { m_optimizerEffort = aEffort; } ///< Return true if shoving vias is enabled. bool ShoveVias() const { return m_shoveVias; } ///< Enable/disable shoving vias. void SetShoveVias( bool aShoveVias ) { m_shoveVias = aShoveVias; } ///< Return true if loop (redundant track) removal is on. bool RemoveLoops() const { return m_removeLoops; } ///< Enable/disable loop (redundant track) removal. void SetRemoveLoops( bool aRemoveLoops ) { m_removeLoops = aRemoveLoops; } ///< Return true if suggesting the finish of currently placed track is on. bool SuggestFinish() { return m_suggestFinish; } ///< Enable displaying suggestions for finishing the currently placed track. void SetSuggestFinish( bool aSuggestFinish ) { m_suggestFinish = aSuggestFinish; } ///< Return true if Smart Pads (optimized connections) is enabled. bool SmartPads() const { return m_smartPads; } ///< Enable/disable Smart Pads (optimized connections). void SetSmartPads( bool aSmartPads ) { m_smartPads = aSmartPads; } ///< Return true if follow mouse mode is active (permanently on for the moment). bool FollowMouse() const { return m_followMouse && !( Mode() == RM_MarkObstacles ); } ///< Return true if smoothing segments during dragging is enabled. bool SmoothDraggedSegments() const { return m_smoothDraggedSegments; } ///< Enable/disable smoothing segments during dragging. void SetSmoothDraggedSegments( bool aSmooth ) { m_smoothDraggedSegments = aSmooth; } ///< Return true if jumping over unmovable obstacles is on. bool JumpOverObstacles() const { return m_jumpOverObstacles; } ///< Enable/disable jumping over unmovable obstacles. void SetJumpOverObstacles( bool aJumpOverObstacles ) { m_jumpOverObstacles = aJumpOverObstacles; } void SetStartDiagonal( bool aStartDiagonal ) { m_startDiagonal = aStartDiagonal; } bool CanViolateDRC() const { return m_canViolateDRC; } void SetCanViolateDRC( bool aViolate ) { m_canViolateDRC = aViolate; } bool GetFreeAngleMode() const { return m_freeAngleMode; } void SetFreeAngleMode( bool aEnable ) { m_freeAngleMode = aEnable; } const DIRECTION_45 InitialDirection() const; int ShoveIterationLimit() const; TIME_LIMIT ShoveTimeLimit() const; int WalkaroundIterationLimit() const { return m_walkaroundIterationLimit; }; TIME_LIMIT WalkaroundTimeLimit() const; void SetInlineDragEnabled ( bool aEnable ) { m_inlineDragEnabled = aEnable; } bool InlineDragEnabled() const { return m_inlineDragEnabled; } void SetSnapToTracks( bool aSnap ) { m_snapToTracks = aSnap; } void SetSnapToPads( bool aSnap ) { m_snapToPads = aSnap; } bool GetSnapToTracks() const { return m_snapToTracks; } bool GetSnapToPads() const { return m_snapToPads; } CORNER_MODE GetCornerMode() const { return m_cornerMode; } void SetCornerMode( CORNER_MODE aMode ) { m_cornerMode = aMode; } bool GetOptimizeDraggedTrack() const { return m_optimizeDraggedTrack; } void SetOptimizeDraggedTrack( bool aEnable ) { m_optimizeDraggedTrack = aEnable; } bool GetAutoPosture() const { return m_autoPosture; } void SetAutoPosture( bool aEnable ) { m_autoPosture = aEnable; } bool GetFixAllSegments() const { return m_fixAllSegments; } void SetFixAllSegments( bool aEnable ) { m_fixAllSegments = aEnable; } private: bool m_shoveVias; bool m_startDiagonal; bool m_removeLoops; bool m_smartPads; bool m_suggestFinish; bool m_followMouse; bool m_jumpOverObstacles; bool m_smoothDraggedSegments; bool m_canViolateDRC; bool m_freeAngleMode; bool m_inlineDragEnabled; bool m_snapToTracks; bool m_snapToPads; bool m_optimizeDraggedTrack; bool m_autoPosture; bool m_fixAllSegments; CORNER_MODE m_cornerMode; PNS_MODE m_routingMode; PNS_OPTIMIZATION_EFFORT m_optimizerEffort; int m_walkaroundIterationLimit; int m_shoveIterationLimit; TIME_LIMIT m_shoveTimeLimit; TIME_LIMIT m_walkaroundTimeLimit; }; } #endif