/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2007 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com * Copyright (C) 1992-2017 KiCad Developers, see AUTHORS.txt for contributors. * * 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 */ /** * @file class_board.h * @brief Class BOARD to handle a board. */ #ifndef CLASS_BOARD_H_ #define CLASS_BOARD_H_ #include #include #include // PAGE_INFO #include #include #include #include #include #include #include #include #include #include using std::unique_ptr; class PCB_BASE_FRAME; class PCB_EDIT_FRAME; class PICKED_ITEMS_LIST; class BOARD; class ZONE_CONTAINER; class SEGZONE; class TRACK; class D_PAD; class MARKER_PCB; class MSG_PANEL_ITEM; class NETLIST; class REPORTER; class SHAPE_POLY_SET; class CONNECTIVITY_DATA; /** * Enum LAYER_T * gives the allowed types of layers, same as Specctra DSN spec. */ enum LAYER_T { LT_UNDEFINED = -1, LT_SIGNAL, LT_POWER, LT_MIXED, LT_JUMPER }; /** * Class LAYER * holds information pertinent to a layer of a BOARD. */ struct LAYER { LAYER() { clear(); } void clear() { m_type = LT_SIGNAL; m_visible = true; m_number = 0; m_name.clear(); } /* LAYER( const wxString& aName = wxEmptyString, LAYER_T aType = LT_SIGNAL, bool aVisible = true, int aNumber = -1 ) : m_name( aName ), m_type( aType ), m_visible( aVisible ), m_number( aNumber ) { } */ wxString m_name; ///< The name of the layer, there should be no spaces in this name. LAYER_T m_type; ///< The type of the layer bool m_visible; int m_number; /** * Function ShowType * converts a LAYER_T enum to a const char* * @param aType The LAYER_T to convert * @return const char* - The string representation of the layer type. */ static const char* ShowType( LAYER_T aType ); /** * Function ParseType * converts a string to a LAYER_T * @param aType The const char* to convert * @return LAYER_T - The binary representation of the layer type, or * LAYER_T(-1) if the string is invalid */ static LAYER_T ParseType( const char* aType ); }; // Helper class to handle high light nets class HIGH_LIGHT_INFO { friend class BOARD; protected: int m_netCode; // net selected for highlight (-1 when no net selected ) bool m_highLightOn; // highlight active void Clear() { m_netCode = -1; m_highLightOn = false; } HIGH_LIGHT_INFO() { Clear(); } }; DECL_VEC_FOR_SWIG(MARKERS, MARKER_PCB*) DECL_VEC_FOR_SWIG(ZONE_CONTAINERS, ZONE_CONTAINER*) DECL_VEC_FOR_SWIG(TRACKS, TRACK*) /** * Class BOARD * holds information pertinent to a Pcbnew printed circuit board. */ class BOARD : public BOARD_ITEM_CONTAINER { friend class PCB_EDIT_FRAME; private: /// the board filename wxString m_fileName; /// MARKER_PCBs for clearance problems, owned by pointer. MARKERS m_markers; /// edge zone descriptors, owned by pointer. ZONE_CONTAINERS m_ZoneDescriptorList; LAYER m_Layer[PCB_LAYER_ID_COUNT]; // if true m_highLight_NetCode is used HIGH_LIGHT_INFO m_highLight; // current high light data HIGH_LIGHT_INFO m_highLightPrevious; // a previously stored high light data int m_fileFormatVersionAtLoad; ///< the version loaded from the file std::shared_ptr m_connectivity; BOARD_DESIGN_SETTINGS m_designSettings; ZONE_SETTINGS m_zoneSettings; COLORS_DESIGN_SETTINGS* m_colorsSettings; PAGE_INFO m_paper; TITLE_BLOCK m_titles; ///< text in lower right of screen and plots PCB_PLOT_PARAMS m_plotOptions; NETINFO_LIST m_NetInfo; ///< net info list (name, design constraints .. /** * Function chainMarkedSegments * is used by MarkTrace() to set the BUSY flag of connected segments of the trace * segment located at \a aPosition on aLayerMask. * Vias are put in list but their flags BUSY is not set * @param aPosition A wxPoint object containing the position of the starting search. * @param aLayerSet The allowed layers for segments to search. * @param aList The track list to fill with points of flagged segments. */ void chainMarkedSegments( wxPoint aPosition, const LSET& aLayerSet, TRACKS* aList ); // The default copy constructor & operator= are inadequate, // either write one or do not use it at all BOARD( const BOARD& aOther ) : BOARD_ITEM_CONTAINER( aOther ), m_NetInfo( this ) { assert( false ); } BOARD& operator=( const BOARD& aOther ) { assert( false ); return *this; // just to mute warning } public: static inline bool ClassOf( const EDA_ITEM* aItem ) { return aItem && PCB_T == aItem->Type(); } void SetFileName( const wxString& aFileName ) { m_fileName = aFileName; } const wxString &GetFileName() const { return m_fileName; } /// Flags used in ratsnest calculation and update. int m_Status_Pcb; private: DLIST m_Drawings; // linked list of lines & texts public: DLIST m_Modules; // linked list of MODULEs DLIST m_Track; // linked list of TRACKs and VIAs DLIST m_Zone; // linked list of SEGZONEs DLIST_ITERATOR_WRAPPER Tracks() { return DLIST_ITERATOR_WRAPPER(m_Track); } DLIST_ITERATOR_WRAPPER Modules() { return DLIST_ITERATOR_WRAPPER(m_Modules); } DLIST_ITERATOR_WRAPPER Drawings() { return DLIST_ITERATOR_WRAPPER(m_Drawings); } ZONE_CONTAINERS& Zones() { return m_ZoneDescriptorList; } // will be deprecated as soon as append board functionality is fixed DLIST& DrawingsList() { return m_Drawings; } /// zone contour currently in progress ZONE_CONTAINER* m_CurrentZoneContour; BOARD(); ~BOARD(); virtual const wxPoint GetPosition() const override; virtual void SetPosition( const wxPoint& aPos ) override; bool IsEmpty() const { return m_Drawings.GetCount() == 0 && m_Modules.GetCount() == 0 && m_Track.GetCount() == 0 && m_Zone.GetCount() == 0; } void Move( const wxPoint& aMoveVector ) override; void SetFileFormatVersionAtLoad( int aVersion ) { m_fileFormatVersionAtLoad = aVersion; } int GetFileFormatVersionAtLoad() const { return m_fileFormatVersionAtLoad; } void Add( BOARD_ITEM* aItem, ADD_MODE aMode = ADD_INSERT ) override; void Remove( BOARD_ITEM* aBoardItem ) override; BOARD_ITEM* Duplicate( const BOARD_ITEM* aItem, bool aAddToBoard = false ); /** * Function GetConnectivity() * returns list of missing connections between components/tracks. * @return an object that contains informations about missing connections. */ std::shared_ptr GetConnectivity() const { return m_connectivity; } /** * Builds or rebuilds the board connectivity database for the board, * especially the list of connected items, list of nets and rastnest data * Needed after loading a board to have the connectivity database updated. */ void BuildConnectivity(); /** * Function DeleteMARKERs * deletes ALL MARKERS from the board. */ void DeleteMARKERs(); /** * Function DeleteZONEOutlines * deletes ALL zone outlines from the board. */ void DeleteZONEOutlines(); /** * Function GetMARKER * returns the MARKER at a given index. * @param index The array type index into a collection of MARKER_PCBS. * @return MARKER_PCB* - a pointer to the MARKER_PCB or NULL if index out of range. */ MARKER_PCB* GetMARKER( int index ) const { if( (unsigned) index < m_markers.size() ) return m_markers[index]; return NULL; } /** * Function GetMARKERCount * @return int - The number of MARKER_PCBS. */ int GetMARKERCount() const { return (int) m_markers.size(); } /** * Function SetAuxOrigin * sets the origin point used for plotting. */ void SetAuxOrigin( const wxPoint& aPoint ) { m_designSettings.m_AuxOrigin = aPoint; } const wxPoint& GetAuxOrigin() const { return m_designSettings.m_AuxOrigin; } /** * Function SetGridOrigin * sets the origin point of the grid. */ void SetGridOrigin( const wxPoint& aPoint ) { m_designSettings.m_GridOrigin = aPoint; } const wxPoint& GetGridOrigin() const { return m_designSettings.m_GridOrigin; } /** * Function ResetHighLight * Reset all high light data to the init state */ void ResetHighLight() { m_highLight.Clear(); m_highLightPrevious.Clear(); } /** * Function GetHighLightNetCode * @return netcode of net to highlight (-1 when no net selected) */ int GetHighLightNetCode() const { return m_highLight.m_netCode; } /** * Function SetHighLightNet * @param aNetCode = netcode of net to highlight */ void SetHighLightNet( int aNetCode) { m_highLight.m_netCode = aNetCode; } /** * Function IsHighLightNetON * @return true if a net is currently highlighted */ bool IsHighLightNetON() const { return m_highLight.m_highLightOn; } /** * Function HighLightOFF * Disable highlight. */ void HighLightOFF() { m_highLight.m_highLightOn = false; } /** * Function HighLightON * Enable highlight. * if m_highLight_NetCode >= 0, this net will be highlighted */ void HighLightON() { m_highLight.m_highLightOn = true; } /** * Function PushHighLight * save current high light info for later use */ void PushHighLight(); /** * Function PopHighLight * retrieve a previously saved high light info */ void PopHighLight(); /** * Function GetCopperLayerCount * @return int - The number of copper layers in the BOARD. */ int GetCopperLayerCount() const; void SetCopperLayerCount( int aCount ); /** * Function GetEnabledLayers * is a proxy function that calls the corresponding function in m_BoardSettings * Returns a bit-mask of all the layers that are enabled * @return int - the enabled layers in bit-mapped form. */ LSET GetEnabledLayers() const; /** * Function SetEnabledLayers * is a proxy function that calls the correspondent function in m_BoardSettings * Changes the bit-mask of enabled layers * @param aLayerMask = The new bit-mask of enabled layers */ void SetEnabledLayers( LSET aLayerMask ); /** * Function IsLayerEnabled * is a proxy function that calls the correspondent function in m_BoardSettings * tests whether a given layer is enabled * @param aLayer = The layer to be tested * @return bool - true if the layer is visible. */ bool IsLayerEnabled( PCB_LAYER_ID aLayer ) const { return m_designSettings.IsLayerEnabled( aLayer ); } /** * Function IsLayerVisible * is a proxy function that calls the correspondent function in m_BoardSettings * tests whether a given layer is visible * @param aLayer = The layer to be tested * @return bool - true if the layer is visible. */ bool IsLayerVisible( PCB_LAYER_ID aLayer ) const { return m_designSettings.IsLayerVisible( aLayer ); } /** * Function GetVisibleLayers * is a proxy function that calls the correspondent function in m_BoardSettings * Returns a bit-mask of all the layers that are visible * @return int - the visible layers in bit-mapped form. */ LSET GetVisibleLayers() const; /** * Function SetVisibleLayers * is a proxy function that calls the correspondent function in m_BoardSettings * changes the bit-mask of visible layers * @param aLayerMask = The new bit-mask of visible layers */ void SetVisibleLayers( LSET aLayerMask ); // these 2 functions are not tidy at this time, since there are PCB_LAYER_IDs that // are not stored in the bitmap. /** * Function GetVisibleElements * is a proxy function that calls the correspondent function in m_BoardSettings * returns a bit-mask of all the element categories that are visible * @return int - the visible element bitmap or-ed from enum GAL_LAYER_ID * @see enum GAL_LAYER_ID */ int GetVisibleElements() const; /** * Function SetVisibleElements * is a proxy function that calls the correspondent function in m_BoardSettings * changes the bit-mask of visible element categories * @param aMask = The new bit-mask of visible element bitmap or-ed from enum GAL_LAYER_ID * @see enum GAL_LAYER_ID */ void SetVisibleElements( int aMask ); /** * Function SetVisibleAlls * changes the bit-mask of visible element categories and layers * @see enum GAL_LAYER_ID */ void SetVisibleAlls(); /** * Function IsElementVisible * tests whether a given element category is visible. Keep this as an * inline function. * @param aLayer is from the enum by the same name * @return bool - true if the element is visible. * @see enum GAL_LAYER_ID */ bool IsElementVisible( GAL_LAYER_ID aLayer ) const; /** * Function SetElementVisibility * changes the visibility of an element category * @param aLayer is from the enum by the same name * @param aNewState = The new visibility state of the element category * @see enum GAL_LAYER_ID */ void SetElementVisibility( GAL_LAYER_ID aLayer, bool aNewState ); /** * Function IsModuleLayerVisible * expects either of the two layers on which a module can reside, and returns * whether that layer is visible. * @param aLayer One of the two allowed layers for modules: F_Cu or B_Cu * @return bool - true if the layer is visible, else false. */ bool IsModuleLayerVisible( PCB_LAYER_ID aLayer ); /** * Function GetDesignSettings * @return the BOARD_DESIGN_SETTINGS for this BOARD */ BOARD_DESIGN_SETTINGS& GetDesignSettings() const { // remove const-ness with cast. return (BOARD_DESIGN_SETTINGS&) m_designSettings; } /** * Function SetDesignSettings * @param aDesignSettings the new BOARD_DESIGN_SETTINGS to use */ void SetDesignSettings( const BOARD_DESIGN_SETTINGS& aDesignSettings ) { m_designSettings = aDesignSettings; } const PAGE_INFO& GetPageSettings() const { return m_paper; } void SetPageSettings( const PAGE_INFO& aPageSettings ) { m_paper = aPageSettings; } const PCB_PLOT_PARAMS& GetPlotOptions() const { return m_plotOptions; } void SetPlotOptions( const PCB_PLOT_PARAMS& aOptions ) { m_plotOptions = aOptions; } TITLE_BLOCK& GetTitleBlock() { return m_titles; } void SetTitleBlock( const TITLE_BLOCK& aTitleBlock ) { m_titles = aTitleBlock; } const ZONE_SETTINGS& GetZoneSettings() const { return m_zoneSettings; } void SetZoneSettings( const ZONE_SETTINGS& aSettings ) { m_zoneSettings = aSettings; } /** * Function GetColorSettings * @return the current COLORS_DESIGN_SETTINGS in use */ const COLORS_DESIGN_SETTINGS& Colors() const { return *m_colorsSettings; } /** * Function SetColorsSettings * @param aColorsSettings = the new COLORS_DESIGN_SETTINGS to use */ void SetColorsSettings( COLORS_DESIGN_SETTINGS* aColorsSettings ) { m_colorsSettings = aColorsSettings; } /** * Function GetBoardPolygonOutlines * Extracts the board outlines and build a closed polygon * from lines, arcs and circle items on edge cut layer * Any closed outline inside the main outline is a hole * All contours should be closed, i.e. have valid vertices to build a closed polygon * @param aOutlines The SHAPE_POLY_SET to fill in with outlines/holes. * @param aErrorText = a wxString reference to display an error message * with the coordinate of the point which creates the error * (default = NULL , no message returned on error) * @return true if success, false if a contour is not valid */ bool GetBoardPolygonOutlines( SHAPE_POLY_SET& aOutlines, wxString* aErrorText = NULL ); /** * Function ConvertBrdLayerToPolygonalContours * Build a set of polygons which are the outlines of copper items * (pads, tracks, vias, texts, zones) * Holes in vias or pads are ignored * Usefull to export the shape of copper layers to dxf polygons * or 3D viewer * the polygons are not merged. * @param aLayer = A copper layer, like B_Cu, etc. * @param aOutlines The SHAPE_POLY_SET to fill in with items outline. */ void ConvertBrdLayerToPolygonalContours( PCB_LAYER_ID aLayer, SHAPE_POLY_SET& aOutlines ); /** * Function GetLayerID * returns the ID of a layer given by aLayerName. Copper layers may * have custom names. * * @param aLayerName = A layer name, like wxT("B.Cu"), etc. * * @return PCB_LAYER_ID - the layer id, which for copper layers may * be custom, else standard. */ const PCB_LAYER_ID GetLayerID( const wxString& aLayerName ) const; /** * Function GetLayerName * returns the name of a layer given by aLayer. Copper layers may * have custom names. * * @param aLayer = A layer, like B_Cu, etc. * * @return wxString - the layer name, which for copper layers may * be custom, else standard. */ const wxString GetLayerName( PCB_LAYER_ID aLayer ) const; /** * Function SetLayerName * changes the name of the layer given by aLayer. * * @param aLayer A layer, like B_Cu, etc. * @param aLayerName The new layer name * @return bool - true if aLayerName was legal and unique among other * layer names at other layer indices and aLayer was within range, else false. */ bool SetLayerName( PCB_LAYER_ID aLayer, const wxString& aLayerName ); /** * Function GetStandardLayerName * returns an "English Standard" name of a PCB layer when given \a aLayerNumber. * This function is static so it can be called without a BOARD instance. Use * GetLayerName() if want the layer names of a specific BOARD, which could * be different than the default if the user has renamed any copper layers. * * @param aLayerId is the layer identifier (index) to fetch * @return const wxString - containing the layer name or "BAD INDEX" if aLayerId * is not legal */ static wxString GetStandardLayerName( PCB_LAYER_ID aLayerId ) { // a BOARD's standard layer name is the PCB_LAYER_ID fixed name return LSET::Name( aLayerId ); } /** * Function SetLayerDescr * returns the type of the copper layer given by aLayer. * * @param aIndex A layer index in m_Layer * @param aLayer A reference to a LAYER description. * @return false if the index was out of range. */ bool SetLayerDescr( PCB_LAYER_ID aIndex, const LAYER& aLayer ); /** * Function GetLayerType * returns the type of the copper layer given by aLayer. * * @param aLayer A layer index, like B_Cu, etc. * @return LAYER_T - the layer type, or LAYER_T(-1) if the * index was out of range. */ LAYER_T GetLayerType( PCB_LAYER_ID aLayer ) const; /** * Function SetLayerType * changes the type of the layer given by aLayer. * * @param aLayer A layer index, like B_Cu, etc. * @param aLayerType The new layer type. * @return bool - true if aLayerType was legal and aLayer was within range, else false. */ bool SetLayerType( PCB_LAYER_ID aLayer, LAYER_T aLayerType ); /** Functions to get some items count */ int GetNumSegmTrack() const; /** Calculate the zone segment count */ int GetNumSegmZone() const; /** * Function GetNodesCount * @return the number of pads members of nets (i.e. with netcode > 0) */ unsigned GetNodesCount() const; /** * Function GetUnconnectedNetCount * @return the number of unconnected nets in the current ratsnest. */ unsigned GetUnconnectedNetCount() const; /** * Function GetPadCount * @return the number of pads in board */ unsigned GetPadCount() const; /** * Function GetPad * @return D_PAD* - at the \a aIndex */ D_PAD* GetPad( unsigned aIndex ) const; /** * Function GetPads * returns a reference to a list of all the pads. The returned list is not * sorted and contains pointers to PADS, but those pointers do not convey * ownership of the respective PADs. * @return D_PADS - a full list of pads */ const std::vector GetPads(); void BuildListOfNets() { m_NetInfo.buildListOfNets(); } /** * Function FindNet * searches for a net with the given netcode. * @param aNetcode A netcode to search for. * @return NETINFO_ITEM_ITEM* - the net or NULL if not found. */ NETINFO_ITEM* FindNet( int aNetcode ) const; /** * Function FindNet overloaded * searches for a net with the given name. * @param aNetname A Netname to search for. * @return NETINFO_ITEM* - the net or NULL if not found. */ NETINFO_ITEM* FindNet( const wxString& aNetname ) const; NETINFO_LIST& GetNetInfo() { return m_NetInfo; } #ifndef SWIG /** * Function BeginNets * @return iterator to the first element of the NETINFO_ITEMs list */ NETINFO_LIST::iterator BeginNets() const { return m_NetInfo.begin(); } /** * Function EndNets * @return iterator to the last element of the NETINFO_ITEMs list */ NETINFO_LIST::iterator EndNets() const { return m_NetInfo.end(); } #endif /** * Function GetNetCount * @return the number of nets (NETINFO_ITEM) */ unsigned GetNetCount() const { return m_NetInfo.GetNetCount(); } /** * Function ComputeBoundingBox * calculates the bounding box containing all board items (or board edge segments). * @param aBoardEdgesOnly is true if we are interested in board edge segments only. * @return EDA_RECT - the board's bounding box */ EDA_RECT ComputeBoundingBox( bool aBoardEdgesOnly = false ) const; const EDA_RECT GetBoundingBox() const override { return ComputeBoundingBox( false ); } /** * Function GetBoardEdgesBoundingBox * Returns the board bounding box calculated using exclusively the board edges (graphics * on Edge.Cuts layer). If there are items outside of the area limited by Edge.Cuts graphics, * the items will not be taken into account. * @return bounding box calculated using exclusively the board edges. */ const EDA_RECT GetBoardEdgesBoundingBox() const { return ComputeBoundingBox( true ); } void GetMsgPanelInfo( std::vector< MSG_PANEL_ITEM >& aList ) override; /** * Function Draw. * Redraw the BOARD items but not cursors, axis or grid. * @param aPanel = the panel relative to the board * @param aDC = the current device context * @param aDrawMode = GR_COPY, GR_OR ... (not always used) * @param aOffset = an draw offset value (default = 0,0) */ void Draw( EDA_DRAW_PANEL* aPanel, wxDC* aDC, GR_DRAWMODE aDrawMode, const wxPoint& aOffset = ZeroOffset ) override; /** * Function DrawHighLight * redraws the objects in the board that are associated with the given aNetCode * and turns on or off the brilliance associated with that net according to the * current value of global g_HighLight_Status * @param aDrawPanel is needed for the clipping support. * @param aDC = the current device context * @param aNetCode is the net number to highlight or to dim. */ void DrawHighLight( EDA_DRAW_PANEL* aDrawPanel, wxDC* aDC, int aNetCode ); /** * Function Visit * may be re-implemented for each derived class in order to handle * all the types given by its member data. Implementations should call * inspector->Inspect() on types in scanTypes[], and may use IterateForward() * to do so on lists of such data. * @param inspector An INSPECTOR instance to use in the inspection. * @param testData Arbitrary data used by the inspector. * @param scanTypes Which KICAD_T types are of interest and the order * is significant too, terminated by EOT. * @return SEARCH_RESULT - SEARCH_QUIT if the Iterator is to stop the scan, * else SCAN_CONTINUE, and determined by the inspector. */ SEARCH_RESULT Visit( INSPECTOR inspector, void* testData, const KICAD_T scanTypes[] ) override; /** * Function FindModuleByReference * searches for a MODULE within this board with the given * reference designator. Finds only the first one, if there * is more than one such MODULE. * @param aReference The reference designator of the MODULE to find. * @return MODULE* - If found, the MODULE having the given reference * designator, else NULL. */ MODULE* FindModuleByReference( const wxString& aReference ) const; /** * Function FindModule * searches for a module matching \a aRefOrTimeStamp depending on the state of * \a aSearchByTimeStamp. * @param aRefOrTimeStamp is the search string. * @param aSearchByTimeStamp searches by the module time stamp value if true. Otherwise * search by reference designator. * @return MODULE* - If found, the module meeting the search criteria, else NULL. */ MODULE* FindModule( const wxString& aRefOrTimeStamp, bool aSearchByTimeStamp = false ) const; /** * Function ReplaceNetlist * updates the #BOARD according to \a aNetlist. * * The changes are made to the board are as follows they are not disabled in the status * settings in the #NETLIST: * - If a new component is found in the #NETLIST and not in the #BOARD, it is added * to the #BOARD. * - If a the component in the #NETLIST is already on the #BOARD, then one or more of the * following actions can occur: * + If the footprint name in the #NETLIST does not match the footprint name on the * #BOARD, the footprint on the #BOARD is replaced with the footprint specified in * the #NETLIST and the proper parameters are copied from the existing footprint. * + If the reference designator in the #NETLIST does not match the reference designator * on the #BOARD, the reference designator is updated from the #NETLIST. * + If the value field in the #NETLIST does not match the value field on the #BOARD, * the value field is updated from the #NETLIST. * + If the time stamp in the #NETLIST does not match the time stamp on the #BOARD, * the time stamp is updated from the #NETLIST. * - After each footprint is added or update as described above, each footprint pad net * name is compared and updated to the value defined in the #NETLIST. * - After all of the footprints have been added, updated, and net names properly set, * any extra unlock footprints are removed from the #BOARD. * * @param aNetlist is the new netlist to revise the contents of the #BOARD with. * @param aDeleteSinglePadNets if true, remove nets counting only one pad * and set net code to 0 for these pads * @param aNewFootprints is a pointer the to a list of new footprints used when updating * the netlist. * @param aReporter is a #REPORTER object to report the changes \a aNetlist makes to * the #BOARD. If NULL, no change reporting occurs. */ void ReplaceNetlist( NETLIST& aNetlist, bool aDeleteSinglePadNets, std::vector* aNewFootprints, REPORTER* aReporter = NULL ); /** * Function SortedNetnamesList * @param aNames An array string to fill with net names. * @param aSortbyPadsCount true = sort by active pads count, false = no sort (i.e. * leave the sort by net names) * @return int - net names count. */ int SortedNetnamesList( wxArrayString& aNames, bool aSortbyPadsCount ); /** * Function SynchronizeNetsAndNetClasses * copies NETCLASS info to each NET, based on NET membership in a NETCLASS. * Must be called after a Design Rules edition, or after reading a netlist (or editing * the list of nets) Also this function removes the non existing nets in netclasses * and add net nets in default netclass (this happens after reading a netlist) */ void SynchronizeNetsAndNetClasses(); /***************************************************************************/ wxString GetClass() const override { return wxT( "BOARD" ); } #if defined(DEBUG) void Show( int nestLevel, std::ostream& os ) const override { ShowDummy( os ); } #endif /*************************/ /* Copper Areas handling */ /*************************/ /** * Function HitTestForAnyFilledArea * tests if the given wxPoint is within the bounds of a filled area of this zone. * the test is made on zones on layer from aStartLayer to aEndLayer * Note: if a zone has its flag BUSY (in .m_State) is set, it is ignored. * @param aRefPos A wxPoint to test * @param aStartLayer the first layer to test * @param aEndLayer the last layer to test * @param aNetCode = the netcode used to filter zones (-1 to to test all zones) * @return ZONE_CONTAINER* return a pointer to the ZONE_CONTAINER found, else NULL */ ZONE_CONTAINER* HitTestForAnyFilledArea( const wxPoint& aRefPos, PCB_LAYER_ID aStartLayer, PCB_LAYER_ID aEndLayer, int aNetCode ); /** * Function RedrawAreasOutlines * Redraw all areas outlines on layer aLayer ( redraw all if aLayer < 0 ) */ void RedrawAreasOutlines( EDA_DRAW_PANEL* aPanel, wxDC* aDC, GR_DRAWMODE aDrawMode, PCB_LAYER_ID aLayer ); /** * Function RedrawFilledAreas * Redraw all filled areas on layer aLayer ( redraw all if aLayer < 0 ) */ void RedrawFilledAreas( EDA_DRAW_PANEL* aPanel, wxDC* aDC, GR_DRAWMODE aDrawMode, PCB_LAYER_ID aLayer ); /** * Function SetAreasNetCodesFromNetNames * Set the .m_NetCode member of all copper areas, according to the area Net Name * The SetNetCodesFromNetNames is an equivalent to net name, for fast comparisons. * However the Netcode is an arbitrary equivalence, it must be set after each netlist read * or net change * Must be called after pad netcodes are calculated * @return : error count * For non copper areas, netcode is set to 0 */ int SetAreasNetCodesFromNetNames( void ); /** * Function GetArea * returns the Area (Zone Container) at a given index. * @param index The array type index into a collection of ZONE_CONTAINER *. * @return ZONE_CONTAINER* - a pointer to the Area or NULL if index out of range. */ ZONE_CONTAINER* GetArea( int index ) const { if( (unsigned) index < m_ZoneDescriptorList.size() ) return m_ZoneDescriptorList[index]; return NULL; } /** * Function GetAreaIndex * returns the Area Index for the given Zone Container. * @param aArea :The ZONE_CONTAINER to find. * @return an Area Index in m_ZoneDescriptorList or -1 if non found. */ int GetAreaIndex( const ZONE_CONTAINER* aArea ) const { for( int ii = 0; ii < GetAreaCount(); ii++ ) // Search for aArea in list { if( aArea == GetArea( ii ) ) // Found ! return ii; } return -1; } /** * Function GetAreaCount * @return int - The number of Areas or ZONE_CONTAINER. */ int GetAreaCount() const { return (int) m_ZoneDescriptorList.size(); } /* Functions used in test, merge and cut outlines */ /** * Function AddArea * Add an empty copper area to board areas list * @param aNewZonesList = a PICKED_ITEMS_LIST * where to store new areas pickers (useful * in undo commands) can be NULL * @param aNetcode = the netcode of the copper area (0 = no net) * @param aLayer = the layer of area * @param aStartPointPosition = position of the first point of the polygon outline of this area * @param aHatch = hatch option * @return a reference to the new area */ ZONE_CONTAINER* AddArea( PICKED_ITEMS_LIST* aNewZonesList, int aNetcode, PCB_LAYER_ID aLayer, wxPoint aStartPointPosition, int aHatch ); /** * Add a copper area to net, inserting after m_ZoneDescriptorList[aAreaIdx] * @param aNetcode is the netcode of the new copper zone * @param aAreaIdx is the netcode of the new copper zone * @param aLayer is the copper layer id of the new copper zone * @param aCornerX,aCornerY is the coordinate of the first corner * (a zone cannot have a empty outline) * @param aHatch is the hatch option * @return pointer to the new area */ ZONE_CONTAINER* InsertArea( int aNetcode, int aAreaIdx, PCB_LAYER_ID aLayer, int aCornerX, int aCornerY, int aHatch ); /** * Function NormalizeAreaPolygon * Process an area that has been modified, by normalizing its polygon against itself. * i.e. convert a self-intersecting polygon to one (or more) non self-intersecting polygon(s) * This may change the number and order of copper areas in the net. * @param aNewZonesList = a PICKED_ITEMS_LIST * where to store new created areas pickers * @param aCurrArea = the zone to process * @return true if changes are made */ bool NormalizeAreaPolygon( PICKED_ITEMS_LIST* aNewZonesList, ZONE_CONTAINER* aCurrArea ); /** * Function OnAreaPolygonModified * Process an area that has been modified, by normalizing its polygon * and merging the intersecting polygons for any other areas on the same net. * This may change the number and order of copper areas in the net. * @param aModifiedZonesList = a PICKED_ITEMS_LIST * where to store deleted or added areas * (useful in undo commands can be NULL * @param modified_area = area to test * @return true if some areas modified */ bool OnAreaPolygonModified( PICKED_ITEMS_LIST* aModifiedZonesList, ZONE_CONTAINER* modified_area ); /** * Function CombineAllAreasInNet * Checks all copper areas in net for intersections, combining them if found * @param aDeletedList = a PICKED_ITEMS_LIST * where to store deleted areas (useful * in undo commands can be NULL * @param aNetCode = net to consider * @param aUseLocalFlags : if true, don't check areas if both local flags are 0 * Sets local flag = 1 for any areas modified * @return true if some areas modified */ bool CombineAllAreasInNet( PICKED_ITEMS_LIST* aDeletedList, int aNetCode, bool aUseLocalFlags ); /** * Function RemoveArea * remove copper area from net, and put it in a deleted list (if exists) * @param aDeletedList = a PICKED_ITEMS_LIST * where to store deleted areas (useful * in undo commands can be NULL * @param area_to_remove = area to delete or put in deleted list */ void RemoveArea( PICKED_ITEMS_LIST* aDeletedList, ZONE_CONTAINER* area_to_remove ); /** * Function TestAreaIntersections * Check for intersection of a given copper area with other areas in same net * @param area_to_test = area to compare to all other areas in the same net */ bool TestAreaIntersections( ZONE_CONTAINER* area_to_test ); /** * Function TestAreaIntersection * Test for intersection of 2 copper areas * area_to_test must be after area_ref in m_ZoneDescriptorList * @param area_ref = area reference * @param area_to_test = area to compare for intersection calculations * @return : false if no intersection, true if intersection */ bool TestAreaIntersection( ZONE_CONTAINER* area_ref, ZONE_CONTAINER* area_to_test ); /** * Function CombineAreas * If possible, combine 2 copper areas * @param aDeletedList = a PICKED_ITEMS_LIST * where to store deleted areas * (useful for undo). * @param area_ref = the main area (zone) * @param area_to_combine = the zone that can be merged with area_ref * area_ref must be BEFORE area_to_combine * area_to_combine will be deleted, if areas are combined * @return : true if area_to_combine is combined with area_ref (and therefore be deleted) */ bool CombineAreas( PICKED_ITEMS_LIST* aDeletedList, ZONE_CONTAINER* area_ref, ZONE_CONTAINER* area_to_combine ); /** * Function GetViaByPosition * finds the first via at \a aPosition on \a aLayer. *

* This function does not use the normal hit test to locate a via which which tests * if a position is within the via's bounding box. It tests for the actual locate * of the via. *

* @param aPosition The wxPoint to HitTest() against. * @param aLayer The layer to search. Use -1 (PCB_LAYER_ID::UNDEFINED_LAYER) for a don't care. * @return VIA* A point a to the VIA object if found, else NULL. */ VIA* GetViaByPosition( const wxPoint& aPosition, PCB_LAYER_ID aLayer = PCB_LAYER_ID( -1 ) ) const; /** * Function GetTracksByPosition * finds the list of tracks that starts or ends at \a aPosition on \a aLayer. * * @param aPosition The wxPoint to check start agains against. * @param aLayer The layer to search. Use -1 (::UNDEFINED_LAYER) for a don't care. * @return std::list A list of TRACK* items that can be zero if no track is found. */ std::list GetTracksByPosition( const wxPoint& aPosition, PCB_LAYER_ID aLayer = PCB_LAYER_ID( -1 ) ) const; /** * Function GetPad * finds a pad \a aPosition on \a aLayer. * * @param aPosition A wxPoint object containing the position to hit test. * @param aLayerMask A layer or layers to mask the hit test. * @return A pointer to a D_PAD object if found or NULL if not found. */ D_PAD* GetPad( const wxPoint& aPosition, LSET aLayerMask ); D_PAD* GetPad( const wxPoint& aPosition ) { return GetPad( aPosition, LSET().set() ); } /** * Function GetPad * finds a pad connected to \a aEndPoint of \a aTrace. * * @param aTrace A pointer to a TRACK object to hit test against. * @param aEndPoint The end point of \a aTrace the hit test against. * @return A pointer to a D_PAD object if found or NULL if not found. */ D_PAD* GetPad( TRACK* aTrace, ENDPOINT_T aEndPoint ); /** * Function GetPadFast * return pad found at \a aPosition on \a aLayerMask using the fast search method. *

* The fast search method only works if the pad list has already been built. *

* @param aPosition A wxPoint object containing the position to hit test. * @param aLayerMask A layer or layers to mask the hit test. * @return A pointer to a D_PAD object if found or NULL if not found. */ D_PAD* GetPadFast( const wxPoint& aPosition, LSET aLayerMask ); /** * Function GetPad * locates the pad connected at \a aPosition on \a aLayer starting at list position * \a aPad *

* This function uses a fast search in this sorted pad list and it is faster than * GetPadFast(). This list is a sorted pad list must be built before calling this * function. *

* @note The normal pad list is sorted by increasing netcodes. * @param aPadList = the list of pads candidates (a std::vector) * @param aPosition A wxPoint object containing the position to test. * @param aLayerMask A layer or layers to mask the hit test. * @return a D_PAD object pointer to the connected pad. */ D_PAD* GetPad( std::vector& aPadList, const wxPoint& aPosition, LSET aLayerMask ); /** * Function PadDelete * deletes a given bad from the BOARD by removing it from its module and * from the m_NetInfo. Makes no UI calls. * @param aPad is the pad to delete. */ void PadDelete( D_PAD* aPad ); /** * Function GetSortedPadListByXthenYCoord * first empties then fills the vector with all pads and sorts them by * increasing x coordinate, and for increasing y coordinate for same values of x coordinates. * The vector only holds pointers to the pads and * those pointers are only references to pads which are owned by the BOARD * through other links. * @param aVector Where to put the pad pointers. * @param aNetCode = the netcode filter: * = -1 to build the full pad list. * = a given netcode to build the pad list relative to the given net */ void GetSortedPadListByXthenYCoord( std::vector& aVector, int aNetCode = -1 ); /** * Function GetVisibleTrack * finds the neighboring visible segment of \a aTrace at \a aPosition that is * on a layer in \a aLayerSet. * Traces that are flagged as deleted or busy are ignored. * * @param aStartingTrace is the first TRACK to test, testing continues to end of m_Track list from * this starting point. * @param aPosition A wxPoint object containing the position to test. * @param aLayerSet A set of layers; returned TRACK must be on one of these. * May pass a full set to request any layer. * @return A TRACK object pointer if found otherwise NULL. */ TRACK* GetVisibleTrack( TRACK* aStartingTrace, const wxPoint& aPosition, LSET aLayerSet ) const; /** * Function MarkTrace * marks a chain of trace segments, connected to \a aTrace. *

* Each segment is marked by setting the BUSY bit into m_Flags. Electrical * continuity is detected by walking each segment, and finally the segments * are rearranged into a contiguous chain within the given list. *

* * @param aTrace The segment within a list of trace segments to test. * @param aCount A pointer to an integer where to return the number of * marked segments (can be NULL). * @param aTraceLength A pointer to an double where to return the length of the * trace (can be NULL). * @param aInPackageLength A pointer to an double where to return the extra lengths inside * integrated circuits from the pads connected to this track to the * die (if any) (can be NULL). * @param aReorder true for reorder the interesting segments (useful for * track edition/deletion) in this case the flag BUSY is * set (the user is responsible of flag clearing). False * for no reorder : useful when we want just calculate the * track length in this case, flags are reset * @return TRACK* - The first in the chain of interesting segments. */ TRACK* MarkTrace( TRACK* aTrace, int* aCount, double* aTraceLength, double* aInPackageLength, bool aReorder ); /** * Function TrackInNet * collects all the TRACKs and VIAs that are members of a net given by aNetCode. * Used from python. * @param aNetCode gives the id of the net. * @return TRACKS - which are in the net identified by @a aNetCode. */ TRACKS TracksInNet( int aNetCode ); /** * Function TrackInNetBetweenPoints * collects all the TRACKs and VIAs that are members of a net given by aNetCode and that * make up a path between two end points. The end points must be carefully chosen, * and are typically the locations of two neighboring pads. The function fails if there * is an intervening pad or a 3 way intersection at a track or via. The seeking starts * at @a aStartPos and strives to travel to @a aGoalPos. * Used from python. * @param aStartPos must correspond to a point on the BOARD which has a TRACK end or start, * typically the location of either a via or pad. * @param aGoalPos must correspond to a point on the BOARD which has a TRACK end or start, * typically the location of either a via or pad. * @param aNetCode gives the id of the net. * @return TRACKS - non empty if success, empty if your aStartPos or aEndPos are bad or * the net is interrupted along the way by an intervening D_PAD or a 3 way path. * @throw IO_ERROR in order to convey detailed error reason upon failure. */ TRACKS TracksInNetBetweenPoints( const wxPoint& aStartPos, const wxPoint& aGoalPos, int aNetCode ); /** * Function GetFootprint * get a footprint by its bounding rectangle at \a aPosition on \a aLayer. *

* If more than one footprint is at \a aPosition, then the closest footprint on the * active layer is returned. The distance is calculated via manhattan distance from * the center of the bounding rectangle to \a aPosition. * * @param aPosition A wxPoint object containing the position to test. * @param aActiveLayer Layer to test. * @param aVisibleOnly Search only the visible layers if true. * @param aIgnoreLocked Ignore locked modules when true. * @return MODULE* The best module or NULL if none. */ MODULE* GetFootprint( const wxPoint& aPosition, PCB_LAYER_ID aActiveLayer, bool aVisibleOnly, bool aIgnoreLocked = false ); /** * Function GetLockPoint * returns the item at the "attachment" point at the end of a trace at \a aPosition * on \a aLayerMask. *

* This may be a PAD or another trace segment. *

* * @param aPosition A wxPoint object containing the position to test. * @param aLayerMask A layer or layers to mask the hit test. Use -1 to ignore * layer mask. * @return A pointer to a BOARD_ITEM object if found otherwise NULL. */ BOARD_CONNECTED_ITEM* GetLockPoint( const wxPoint& aPosition, LSET aLayerMask ); /** * Function CreateLockPoint * creates an intermediate point on \a aSegment and break it into two segments * at \a aPosition. *

* The new segment starts from \a aPosition and ends at the end point of \a * aSegment. The original segment now ends at \a aPosition. *

* * @param aPosition A wxPoint object containing the position to test and the new * segment start position if the return value is not NULL. * @param aSegment The trace segment to create the lock point on. * @param aList The pick list to add the created items to. * @return NULL if no new point was created or a pointer to a TRACK object of the * created segment. If \a aSegment points to a via the exact value of \a * aPosition and a pointer to the via are returned. */ TRACK* CreateLockPoint( wxPoint& aPosition, TRACK* aSegment, PICKED_ITEMS_LIST* aList ); /** * Function ClearAllNetCodes() * Resets all items' netcodes to 0 (no net). */ void ClearAllNetCodes(); }; #endif // CLASS_BOARD_H_