/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2009 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com * Copyright (C) 1992-2011 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 wxPcbStruct.h */ #ifndef WXPCB_STRUCT_H #define WXPCB_STRUCT_H #include #include #include #include #include /* Forward declarations of classes. */ class PCB_SCREEN; class BOARD; class TEXTE_PCB; class MODULE; class TRACK; class SEGZONE; class SEGVIA; class D_PAD; class TEXTE_MODULE; class PCB_TARGET; class DIMENSION; class EDGE_MODULE; class DRC; class ZONE_CONTAINER; class DRAWSEGMENT; class GENERAL_COLLECTOR; class GENERAL_COLLECTORS_GUIDE; class PCB_LAYER_WIDGET; class MARKER_PCB; class BOARD_ITEM; class PCB_LAYER_BOX_SELECTOR; /** * class PCB_EDIT_FRAME * the main frame for Pcbnew * * See also class PCB_BASE_FRAME(): Basic class for Pcbnew and GerbView. */ class PCB_EDIT_FRAME : public PCB_BASE_FRAME { friend class PCB_LAYER_WIDGET; void updateTraceWidthSelectBox(); void updateViaSizeSelectBox(); int m_RecordingMacros; MACROS_RECORDED m_Macros[10]; /// The command ID of the current auto place mode which will be set for either /// automatic placement of tracks or modules. int m_autoPlaceModeId; /// The auxiliary right vertical tool bar used to access the microwave tools. wxAuiToolBar* m_microWaveToolBar; protected: PCB_LAYER_WIDGET* m_Layers; DRC* m_drc; ///< the DRC controller, see drc.cpp PARAM_CFG_ARRAY m_configSettings; ///< List of Pcbnew configuration settings. wxString m_lastNetListRead; ///< Last net list read with relative path. // we'll use lower case function names for private member functions. void createPopUpMenuForZones( ZONE_CONTAINER* edge_zone, wxMenu* aPopMenu ); void createPopUpMenuForFootprints( MODULE* aModule, wxMenu* aPopMenu ); void createPopUpMenuForFpTexts( TEXTE_MODULE* aText, wxMenu* aPopMenu ); void createPopUpMenuForFpPads( D_PAD* aPad, wxMenu* aPopMenu ); void createPopupMenuForTracks( TRACK* aTrack, wxMenu* aPopMenu ); void createPopUpMenuForTexts( TEXTE_PCB* Text, wxMenu* menu ); void createPopUpBlockMenu( wxMenu* menu ); void createPopUpMenuForMarkers( MARKER_PCB* aMarker, wxMenu* aPopMenu ); /** * Function setActiveLayer * will change the currently active layer to \a aLayer and also * update the PCB_LAYER_WIDGET. */ void setActiveLayer( int aLayer, bool doLayerWidgetUpdate = true ) { ( (PCB_SCREEN*) GetScreen() )->m_Active_Layer = aLayer; if( doLayerWidgetUpdate ) syncLayerWidgetLayer(); } /** * Function getActiveLayer * returns the active layer */ int getActiveLayer() { return ( (PCB_SCREEN*) GetScreen() )->m_Active_Layer; } /** * Function syncLayerWidgetLayer * updates the currently layer "selection" within the PCB_LAYER_WIDGET. * The currently selected layer is defined by the return value of getActiveLayer(). *

* This function cannot be inline without including layer_widget.h in * here and we do not want to do that. *

*/ void syncLayerWidgetLayer(); /** * Function syncRenderStates * updates the "Render" checkboxes in the layer widget according * to current toggle values determined by IsElementVisible(), and is helpful * immediately after loading a BOARD which may have state information in it. */ void syncRenderStates(); /** * Function syncLayerVisibilities * updates each "Layer" checkbox in the layer widget according * to each layer's current visibility determined by IsLayerVisible(), and is * helpful immediately after loading a BOARD which may have state information in it. */ void syncLayerVisibilities(); virtual void unitsChangeRefresh(); /** * Function doAutoSave * performs auto save when the board has been modified and not saved within the * auto save interval. * * @return true if the auto save was successful. */ virtual bool doAutoSave(); /** * Function isautoSaveRequired * returns true if the board has been modified. */ virtual bool isAutoSaveRequired() const; /** * Function duplicateZone * duplicates the given zone. * @param aDC is the current Device Context. * @param aZone is the zone to duplicate */ void duplicateZone( wxDC* aDC, ZONE_CONTAINER* aZone ); public: PCB_LAYER_BOX_SELECTOR* m_SelLayerBox; // a combo box to display and select active layer wxComboBox* m_SelTrackWidthBox; // a combo box to display and select current track width wxComboBox* m_SelViaSizeBox; // a combo box to display and select current via diameter bool m_show_microwave_tools; bool m_show_layer_manager_tools; public: PCB_EDIT_FRAME( wxWindow* father, const wxString& title, const wxPoint& pos, const wxSize& size, long style = KICAD_DEFAULT_DRAWFRAME_STYLE ); ~PCB_EDIT_FRAME(); void OnQuit( wxCommandEvent& event ); /** * Function ToPlotter * Open a dialog frame to create plot and drill files * relative to the current board */ void ToPlotter( wxCommandEvent& event ); /** * Function ToPrinter * Install the print dialog */ void ToPrinter( wxCommandEvent& event ); /** * Function SVG_Print * shows the print SVG file dialog. */ void SVG_Print( wxCommandEvent& event ); // User interface update command event handlers. void OnUpdateSave( wxUpdateUIEvent& aEvent ); void OnUpdateLayerPair( wxUpdateUIEvent& aEvent ); void OnUpdateLayerSelectBox( wxUpdateUIEvent& aEvent ); void OnUpdateDrcEnable( wxUpdateUIEvent& aEvent ); void OnUpdateShowBoardRatsnest( wxUpdateUIEvent& aEvent ); void OnUpdateShowModuleRatsnest( wxUpdateUIEvent& aEvent ); void OnUpdateAutoDeleteTrack( wxUpdateUIEvent& aEvent ); void OnUpdateViaDrawMode( wxUpdateUIEvent& aEvent ); void OnUpdateTraceDrawMode( wxUpdateUIEvent& aEvent ); void OnUpdateHighContrastDisplayMode( wxUpdateUIEvent& aEvent ); void OnUpdateShowLayerManager( wxUpdateUIEvent& aEvent ); void OnUpdateShowMicrowaveToolbar( wxUpdateUIEvent& aEvent ); void OnUpdateVerticalToolbar( wxUpdateUIEvent& aEvent ); void OnUpdateSelectViaSize( wxUpdateUIEvent& aEvent ); void OnUpdateZoneDisplayStyle( wxUpdateUIEvent& aEvent ); void OnUpdateSelectTrackWidth( wxUpdateUIEvent& aEvent ); void OnUpdateSelectAutoTrackWidth( wxUpdateUIEvent& aEvent ); void OnUpdateAutoPlaceModulesMode( wxUpdateUIEvent& aEvent ); void OnUpdateAutoPlaceTracksMode( wxUpdateUIEvent& aEvent ); /** * Function RecordMacros. * records sequence of hotkeys and cursor positions to a macro. * @param aDC = current device context * @param aNumber The current number macros. */ void RecordMacros( wxDC* aDC, int aNumber ); /** * Function CallMacros * play hotkeys and cursor position from a recorded macro. * @param aDC = current device context * @param aPosition The current cursor position in logical (drawing) units. * @param aNumber The current number macros. */ void CallMacros( wxDC* aDC, const wxPoint& aPosition, int aNumber ); void SaveMacros(); void ReadMacros(); /** * Function PrintPage , virtual * used to print a page * Print the page pointed by the current screen, set by the calling print function * @param aDC = wxDC given by the calling print function * @param aPrintMaskLayer = a 32 bits mask: bit n = 1 -> layer n is printed * @param aPrintMirrorMode = true to plot mirrored * @param aData = a pointer on an auxiliary data (NULL if not used) */ virtual void PrintPage( wxDC* aDC, int aPrintMaskLayer, bool aPrintMirrorMode, void * aData = NULL ); void GetKicadAbout( wxCommandEvent& event ); /** * Function IsGridVisible() , virtual * @return true if the grid must be shown */ virtual bool IsGridVisible(); /** * Function SetGridVisibility() , virtual * It may be overloaded by derived classes * if you want to store/retrieve the grid visibility in configuration. * @param aVisible = true if the grid must be shown */ virtual void SetGridVisibility( bool aVisible ); /** * Function GetGridColor() , virtual * @return the color of the grid */ virtual int GetGridColor(); /** * Function SetGridColor() , virtual * @param aColor = the new color of the grid */ virtual void SetGridColor(int aColor); // Configurations: void InstallConfigFrame(); void Process_Config( wxCommandEvent& event ); /** * Function GetProjectFileParameters * returns a project file parameter list for Pcbnew. *

* Populate a project file parameter array specific to Pcbnew. * Creating the parameter list at run time has the advantage of being able * to define local variables. The old method of statically building the array * at compile time requiring global variable definitions by design. *

* @return PARAM_CFG_ARRAY - it is only good until SetBoard() is called, so * don't keep it around past that event. */ PARAM_CFG_ARRAY GetProjectFileParameters(); void SaveProjectSettings(); /** * Load the project file configuration settings. * * @param aProjectFileName = The project filename. * if not found use kicad.pro and initialize default values * @return always returns true. */ bool LoadProjectSettings( const wxString& aProjectFileName ); /** * Function GetConfigurationSettings * returns the Pcbnew applications settings list. * * This replaces the old statically defined list that had the project * file settings and the application settings mixed together. This * was confusing and caused some settings to get saved and loaded * incorrectly. Currently, only the settings that are needed at start * up by the main window are defined here. There are other locally used * settings that are scattered throughout the Pcbnew source code. If you need * to define a configuration setting that needs to be loaded at run time, * this is the place to define it. * * @todo: Define the configuration variables as member variables instead of * global variables or move them to the object class where they are * used. * @return - Reference to the list of applications settings. */ PARAM_CFG_ARRAY& GetConfigurationSettings(); /** * Function LoadSettings * loads applications settings specific to Pcbnew. * * This overrides the base class PCB_BASE_FRAME::LoadSettings() to * handle settings specific common to the PCB layout application. It * calls down to the base class to load settings common to all PCB type * drawing frames. Please put your application settings for Pcbnew here * to avoid having application settings loaded all over the place. */ virtual void LoadSettings(); /** * Function SaveSettings * saves applications settings common to Pcbnew. * * This overrides the base class PCB_BASE_FRAME::SaveSettings() to * save settings specific to the PCB layout application main window. It * calls down to the base class to save settings common to all PCB type * drawing frames. Please put your application settings for Pcbnew here * to avoid having application settings saved all over the place. */ virtual void SaveSettings(); /** * Get the last net list read with the net list dialog box. * * @return - Absolute path and file name of the last net list file successfully read. */ wxString GetLastNetListRead(); /** * Set the last net list successfully read by the net list dialog box. * * Note: the file path is converted to a path relative to the project file path. If * the path cannot be made relative, than m_lastNetListRead is set to and empty * string. This could happen when the net list file is on a different drive than * the project file. The advantage of relative paths is that is more likely to * work when opening the same project from both Windows and Linux. * * @param aNetListFile - The last net list file with full path successfully read. */ void SetLastNetListRead( const wxString& aNetListFile ); /** * Function Test_Duplicate_Missing_And_Extra_Footprints * Build a list of duplicate, missing and extra footprints * from the current board and a netlist netlist : * Shows 3 lists: * 1 - duplicate footprints on board * 2 - missing footprints (found in netlist but not on board) * 3 - footprints not in netlist but on board * @param aNetlistFullFilename = the full filename netlist */ void Test_Duplicate_Missing_And_Extra_Footprints( const wxString& aNetlistFullFilename ); /** * Function OnHotKey. * ** Commands are case insensitive ** * Some commands are relatives to the item under the mouse cursor * @param aDC = current device context * @param aHotkeyCode = hotkey code (ascii or wxWidget code for special keys) * @param aPosition The cursor position in logical (drawing) units. * @param aItem = NULL or pointer on a EDA_ITEM under the mouse cursor */ void OnHotKey( wxDC* aDC, int aHotkeyCode, const wxPoint& aPosition, EDA_ITEM* aItem = NULL ); /** * Function OnHotkeyDeleteItem * Delete the item found under the mouse cursor * Depending on the current active tool:: * Tool track * if a track is in progress: Delete the last segment * else delete the entire track * Tool module (footprint): * Delete the module. * @param aDC = current device context * @return true if an item was deleted */ bool OnHotkeyDeleteItem( wxDC* aDC ); /** * Function OnHotkeyPlaceItem * Place the item (footprint, track, text .. ) found under the mouse cursor * An item can be placed only if there is this item currently edited * Only a footprint, a pad or a track can be placed * @param aDC = current device context * @return true if an item was placed */ bool OnHotkeyPlaceItem( wxDC* aDC ); bool OnHotkeyEditItem( int aIdCommand ); /** * Function OnHotkeyMoveItem * Moves or drag the item (footprint, track, text .. ) found under the mouse cursor * Only a footprint or a track can be dragged * @param aIdCommand = the hotkey command id * @return true if an item was moved */ bool OnHotkeyMoveItem( int aIdCommand ); /** * Function OnHotkeyRotateItem * Rotate the item (text or footprint) found under the mouse cursor * @note This command can be used with an item currently in edit. * Only some items can be rotated (footprints and texts). * @param aIdCommand = the hotkey command id * @return true if an item was moved */ bool OnHotkeyRotateItem( int aIdCommand ); void OnCloseWindow( wxCloseEvent& Event ); void Process_Special_Functions( wxCommandEvent& event ); void Tracks_and_Vias_Size_Event( wxCommandEvent& event ); void OnSelectTool( wxCommandEvent& aEvent ); /** * Function OnResetModuleTextSizes * resets text size and width of all module text fields of given field * type to current settings in Preferences */ void OnResetModuleTextSizes( wxCommandEvent& event ); void ProcessMuWaveFunctions( wxCommandEvent& event ); void MuWaveCommand( wxDC* DC, const wxPoint& MousePos ); void RedrawActiveWindow( wxDC* DC, bool EraseBg ); void ReCreateHToolbar(); void ReCreateAuxiliaryToolbar(); void ReCreateVToolbar(); void ReCreateMicrowaveVToolbar(); void ReCreateOptToolbar(); void ReCreateMenuBar(); PCB_LAYER_BOX_SELECTOR* ReCreateLayerBox( wxAuiToolBar* parent ); /** * Function OnModify * must be called after a board change to set the modified flag. *

* Reloads the 3D view if required and calls the base PCB_BASE_FRAME::OnModify function * to update auxiliary information. *

*/ virtual void OnModify(); /** * Function IsElementVisible * tests whether a given element category is visible. Keep this as an * inline function. * @param aElement is from the enum by the same name * @return bool - true if the element is visible. * @see enum PCB_VISIBLE */ bool IsElementVisible( int aElement ); /** * Function SetElementVisibility * changes the visibility of an element category * @param aElement is from the enum by the same name * @param aNewState = The new visibility state of the element category * @see enum PCB_VISIBLE */ void SetElementVisibility( int aElement, bool aNewState ); /** * Function SetVisibleAlls * Set the status of all visible element categories and layers to VISIBLE */ void SetVisibleAlls(); /** * Function ReFillLayerWidget * changes out all the layers in m_Layers and may be called upon * loading a new BOARD. */ void ReFillLayerWidget(); /** * Function Show3D_Frame * displays the 3D view of current printed circuit board. */ void Show3D_Frame( wxCommandEvent& event ); void GeneralControl( wxDC* aDC, const wxPoint& aPosition, int aHotKey = 0 ); /** * Function ShowDesignRulesEditor * displays the Design Rules Editor. */ void ShowDesignRulesEditor( wxCommandEvent& event ); /* toolbars update UI functions: */ void PrepareLayerIndicator(); /* mouse functions events: */ void OnLeftClick( wxDC* DC, const wxPoint& MousePos ); void OnLeftDClick( wxDC* DC, const wxPoint& MousePos ); /** * Function OnRightClick * populates a popup menu with the choices appropriate for the current context. * The caller will add the ZOOM menu choices afterward. * @param aMousePos The current mouse position * @param aPopMenu The menu to add to. */ bool OnRightClick( const wxPoint& aMousePos, wxMenu* aPopMenu ); void OnSelectOptionToolbar( wxCommandEvent& event ); void ToolOnRightClick( wxCommandEvent& event ); /** * Function SaveCopyInUndoList. * Creates a new entry in undo list of commands. * add a picker to handle aItemToCopy * @param aItemToCopy = the board item modified by the command to undo * @param aTypeCommand = command type (see enum UNDO_REDO_T) * @param aTransformPoint = the reference point of the transformation, for * commands like move */ virtual void SaveCopyInUndoList( BOARD_ITEM* aItemToCopy, UNDO_REDO_T aTypeCommand, const wxPoint& aTransformPoint = wxPoint( 0, 0 ) ); /** * Function SaveCopyInUndoList (overloaded). * Creates a new entry in undo list of commands. * add a list of pickers to handle a list of items * @param aItemsList = the list of items modified by the command to undo * @param aTypeCommand = command type (see enum UNDO_REDO_T) * @param aTransformPoint = the reference point of the transformation, for * commands like move */ virtual void SaveCopyInUndoList( PICKED_ITEMS_LIST& aItemsList, UNDO_REDO_T aTypeCommand, const wxPoint& aTransformPoint = wxPoint( 0, 0 ) ); /** * Function PutDataInPreviousState * Used in undo or redo command. * Put data pointed by List in the previous state, i.e. the state memorized by List * @param aList = a PICKED_ITEMS_LIST pointer to the list of items to undo/redo * @param aRedoCommand = a bool: true for redo, false for undo * @param aRebuildRatsnet = a bool: true to rebuild ratsnest (normal use), false * to just retrieve last state (used in abort commands that do not need to * rebuild ratsnest) */ void PutDataInPreviousState( PICKED_ITEMS_LIST* aList, bool aRedoCommand, bool aRebuildRatsnet = true ); /** * Function GetBoardFromRedoList * Redo the last edition: * - Save the current board in Undo list * - Get an old version of the board from Redo list * @return none */ void GetBoardFromRedoList( wxCommandEvent& event ); /** * Function GetBoardFromUndoList * Undo the last edition: * - Save the current board in Redo list * - Get an old version of the board from Undo list * @return none */ void GetBoardFromUndoList( wxCommandEvent& event ); /* Block operations: */ /** * Function ReturnBlockCommand * Returns the block command internat code (BLOCK_MOVE, BLOCK_COPY...) * corresponding to the keys pressed (ALT, SHIFT, SHIFT ALT ..) when * block command is started by dragging the mouse. * @param aKey = the key modifiers (Alt, Shift ...) * @return the block command id (BLOCK_MOVE, BLOCK_COPY...) */ virtual int ReturnBlockCommand( int aKey ); /** * Function HandleBlockPlace() * Called after HandleBlockEnd, when a block command needs to be * executed after the block is moved to its new place * (bloc move, drag, copy .. ) * Parameters must be initialized in GetScreen()->m_BlockLocate */ virtual void HandleBlockPlace( wxDC* DC ); /** * Function HandleBlockEnd() * Handle the "end" of a block command, * i.e. is called at the end of the definition of the area of a block. * depending on the current block command, this command is executed * or parameters are initialized to prepare a call to HandleBlockPlace * in GetScreen()->m_BlockLocate * @return false if no item selected, or command finished, * true if some items found and HandleBlockPlace must be called later */ virtual bool HandleBlockEnd( wxDC* DC ); /** * Function Block_SelectItems * Uses GetScreen()->m_BlockLocate * select items within the selected block. * selected items are put in the pick list */ void Block_SelectItems(); /** * Function Block_Delete * deletes all items within the selected block. */ void Block_Delete(); /** * Function Block_Rotate * Rotate all items within the selected block. * The rotation center is the center of the block */ void Block_Rotate(); /** * Function Block_Flip * Flip items within the selected block. * The flip center is the center of the block */ void Block_Flip(); /** * Function Block_Move * move all items within the selected block. * New location is determined by the current offset from the selected * block's original location. */ void Block_Move(); /** * Function Block_Mirror_X * mirrors all items within the currently selected block in the X axis. */ void Block_Mirror_X(); /** * Function Block_Duplicate * Duplicate all items within the selected block. * New location is determined by the current offset from the selected * block's original location. */ void Block_Duplicate(); void Process_Settings( wxCommandEvent& event ); void OnConfigurePcbOptions( wxCommandEvent& aEvent ); void InstallDisplayOptionsDialog( wxCommandEvent& aEvent ); void InstallPcbGlobalDeleteFrame( const wxPoint& pos ); void InstallDialogLayerSetup(); /** * Function GenFootprintsPositionFile * Calls DoGenFootprintsPositionFile to create a footprint position file * See DoGenFootprintsPositionFile for options and file format */ void GenFootprintsPositionFile( wxCommandEvent& event ); /** * Function DoGenFootprintsPositionFile * Creates an ascii footprint position file * @param aFullFileName = the full file name of the file to create * @param aUnitsMM = false to use inches, true to use mm in coordinates * @param aForceSmdItems = true to force all footprints with smd pads in list * = false to put only footprints with option "INSERT" in list * @param aSide = 0 to list footprints on BACK side, * 1 to list footprints on FRONT side * 2 to list footprints on both sides * @return the number of footprints found on aSide side, * or -1 if the file could not be created */ int DoGenFootprintsPositionFile( const wxString& aFullFileName, bool aUnitsMM, bool aForceSmdItems, int aSide ); /** * Function GenFootprintsReport * Calls DoGenFootprintsReport to create a footprint reprot file * See DoGenFootprintsReport for file format */ void GenFootprintsReport( wxCommandEvent& event ); /** * Function DoGenFootprintsReport * Creates an ascii footprint report file giving some infos on footprints * and board outlines * @param aFullFilename = the full file name of the file to create * @param aUnitsMM = false to use inches, true to use mm in coordinates * @return true if OK, false if error */ bool DoGenFootprintsReport( const wxString& aFullFilename, bool aUnitsMM ); void InstallDrillFrame( wxCommandEvent& event ); void ToPostProcess( wxCommandEvent& event ); void OnFileHistory( wxCommandEvent& event ); /** * Function Files_io * is the command event handler for read and write file commands. */ void Files_io( wxCommandEvent& event ); /** * Function LoadOnePcbFile * loads a KiCad board (.brd) from \a aFileName. * * @param aFileName - File name including path. If empty, a file dialog will * be displayed. * @param aAppend - Append board file aFileName to the currently loaded file if true. * Default = false. * @param aForceFileDialog - Display the file open dialog even if aFullFileName is * valid if true; Default = false. * * @return False if file load fails or is canceled by the user, otherwise true. */ bool LoadOnePcbFile( const wxString& aFileName, bool aAppend = false, bool aForceFileDialog = false ); /** * Function ReadPcbFile * reads a board file <file>.brd * @param aReader The line reader object to read from. * @param Append if 0: a previously loaded board is deleted before loading * the file else all items of the board file are added to the * existing board */ int ReadPcbFile( LINE_READER* aReader, bool Append ); /** * Function SavePcbFile * writes the board data structures to \a a aFileName * * @param aFileName The file name to write or wxEmptyString to prompt user for * file name. * @param aCreateBackupFile Creates a back of \a aFileName if true. Helper * definitions #CREATE_BACKUP_FILE and #NO_BACKUP_FILE * are defined for improved code readability. * @return True if file was saved successfully. */ bool SavePcbFile( const wxString& aFileName, bool aCreateBackupFile = CREATE_BACKUP_FILE ); int SavePcbFormatAscii( FILE* File ); bool WriteGeneralDescrPcb( FILE* File ); // BOARD handling /** * Function Clear_Pcb * delete all and reinitialize the current board * @param aQuery = true to prompt user for confirmation, false to initialize silently */ bool Clear_Pcb( bool aQuery ); // Drc control /* function GetDrcController * @return the DRC controller */ DRC* GetDrcController() { return m_drc; } /** * Function RecreateBOMFileFromBoard * Recreates a .cmp file from the current loaded board * this is the same as created by CvPcb. * can be used if this file is lost */ void RecreateCmpFileFromBoard( wxCommandEvent& aEvent ); /** * Function ArchiveModulesOnBoard * Save modules in a library: * @param aLibName: the full filename of the library to create or modify * @param aNewModulesOnly: * true : save modules not already existing in this lib * false: save all modules */ void ArchiveModulesOnBoard( const wxString& aLibName, bool aNewModulesOnly ); /** * Function RecreateBOMFileFromBoard * Creates a BOM file from the current loaded board */ void RecreateBOMFileFromBoard( wxCommandEvent& aEvent ); /** * Function ExportToGenCAD * creates a file in GenCAD 1.4 format from the current board. */ void ExportToGenCAD( wxCommandEvent& event ); /** * Function OnExportVRML * will export the current BOARD to a VRML file. */ void OnExportVRML( wxCommandEvent& event ); /** * Function ExportVRML_File * Creates the file(s) exporting current BOARD to a VRML file. * @param aFullFileName = the full filename of the file to create * @param aScale = the general scaling factor. 1.0 to export in inches * @param aExport3DFiles = true to copy 3D shapes in the subir a3D_Subdir * @param a3D_Subdir = sub directory where 3D shapes files are copied * used only when aExport3DFiles == true * @return true if Ok. */ bool ExportVRML_File( const wxString & aFullFileName, double aScale, bool aExport3DFiles, const wxString & a3D_Subdir ); /** * Function ExporttoSPECCTRA * will export the current BOARD to a specctra dsn file. See * See http://www.autotraxeda.com/docs/SPECCTRA/SPECCTRA.pdf for the * specification. */ void ExportToSpecctra( wxCommandEvent& event ); /** * Function ImportSpecctraSession * will import a specctra *.ses file and use it to relocate MODULEs and * to replace all vias and tracks in an existing and loaded BOARD. * See http://www.autotraxeda.com/docs/SPECCTRA/SPECCTRA.pdf for the * specification. */ void ImportSpecctraSession( wxCommandEvent& event ); /** * Function ImportSpecctraDesign * will import a specctra *.dsn file and use it to replace an entire BOARD. * The new board will not have any graphics, only components, tracks and * vias. * See http://www.autotraxeda.com/docs/SPECCTRA/SPECCTRA.pdf for the * specification. */ void ImportSpecctraDesign( wxCommandEvent& event ); /** * Function Access_to_External_Tool * Run an external tool (like freeroute ) */ void Access_to_External_Tool( wxCommandEvent& event ); MODULE* ListAndSelectModuleName(); /** * Function ListNetsAndSelect * called by a command event * displays the sorted list of nets in a dialog frame * If a net is selected, it is highlighted */ void ListNetsAndSelect( wxCommandEvent& event ); void Swap_Layers( wxCommandEvent& event ); // Handling texts on the board void Rotate_Texte_Pcb( TEXTE_PCB* TextePcb, wxDC* DC ); void FlipTextePcb( TEXTE_PCB* aTextePcb, wxDC* aDC ); TEXTE_PCB* Create_Texte_Pcb( wxDC* DC ); void Delete_Texte_Pcb( TEXTE_PCB* TextePcb, wxDC* DC ); void StartMoveTextePcb( TEXTE_PCB* TextePcb, wxDC* DC ); void Place_Texte_Pcb( TEXTE_PCB* TextePcb, wxDC* DC ); void InstallTextPCBOptionsFrame( TEXTE_PCB* TextPCB, wxDC* DC ); // Graphic Segments type DRAWSEGMENT void Start_Move_DrawItem( DRAWSEGMENT* drawitem, wxDC* DC ); void Place_DrawItem( DRAWSEGMENT* drawitem, wxDC* DC ); void InstallGraphicItemPropertiesDialog( DRAWSEGMENT* aItem, wxDC* aDC ); // Footprint edition (see also PCB_BASE_FRAME) void InstallModuleOptionsFrame( MODULE* Module, wxDC* DC ); void StartMove_Module( MODULE* module, wxDC* DC ); /** * Function DlgGlobalChange_PadSettings * Function to change pad caracteristics for the given footprint * or all footprints which look like the given footprint * Options are set by the opened dialog. * @param aPad is the pattern. The given footprint is the parent of this pad * @param aRedraw: if true: redraws the footprint */ void DlgGlobalChange_PadSettings( D_PAD* aPad, bool aRedraw ); /** * Function Delete Module * Remove a footprint from m_Modules linked list and put it in undelete buffer * The ratsnest and pad list are recalculated * @param aModule = footprint to delete * @param aDC = currentDevice Context. if NULL: do not redraw new ratsnest * @param aAskBeforeDeleting : if true: ask for confirmation before deleting */ bool Delete_Module( MODULE* aModule, wxDC* aDC, bool aAskBeforeDeleting ); /** * Function Change_Side_Module * Flip a footprint (switch layer from component or component to copper) * The mirroring is made from X axis * if a footprint is not on copper or component layer it is not flipped * (it could be on an adhesive layer, not supported at this time) * @param Module the footprint to flip * @param DC Current Device Context. if NULL, no redraw */ void Change_Side_Module( MODULE* Module, wxDC* DC ); void InstallExchangeModuleFrame( MODULE* ExchangeModuleModule ); /** * Function Exchange_Module * Replaces OldModule by NewModule, using OldModule settings: * position, orientation, pad netnames ...) * OldModule is deleted or put in undo list. * @param aOldModule = footprint to replace * @param aNewModule = footprint to put * @param aUndoPickList = the undo list used to save OldModule. If null, * OldModule is deleted */ void Exchange_Module( MODULE* aOldModule, MODULE* aNewModule, PICKED_ITEMS_LIST* aUndoPickList ); // loading modules: see PCB_BASE_FRAME // Board handling void RemoveStruct( BOARD_ITEM* Item, wxDC* DC ); /** * Function OnEditItemRequest * Install the corresponding dialog editor for the given item * @param aDC = the current device context * @param aItem = a pointer to the BOARD_ITEM to edit */ void OnEditItemRequest( wxDC* aDC, BOARD_ITEM* aItem ); /** * Locate track or pad and highlight the corresponding net. * @return The Netcode, or -1 if no net located. */ int SelectHighLight( wxDC* DC ); /** * Function HighLight. * highlights the net at the current cursor position. */ void HighLight( wxDC* DC ); // Track and via edition: void Via_Edit_Control( wxCommandEvent& event ); /** * Function IsMicroViaAcceptable * return true if a microvia can be placed on the board. *

* A microvia is a small via restricted to 2 near neighbor layers * because its is hole is made by laser which can penetrate only one layer * It is mainly used to connect BGA to the first inner layer * And it is allowed from an external layer to the first inner layer *

*/ bool IsMicroViaAcceptable( void ); /** * Function Other_Layer_Route * operates in one of two ways. If argument track is NULL, then swap the * active layer between m_Route_Layer_TOP and m_Route_Layer_BOTTOM. If a * track is in progress (track is not NULL), and if DRC allows it, place * a via on the end of the current track, and then swap the current active * layer and start a new segment on the new layer. * @param track A TRACK* to append the via to or NULL. * @param DC A device context to draw on. * @return bool - true if the operation was successful, else false such as * the case where DRC would not allow a via. */ bool Other_Layer_Route( TRACK* track, wxDC* DC ); void HighlightUnconnectedPads( wxDC* DC ); /** * Function Delete_Segment * removes a track segment. * If a new track is in progress: delete the current new segment. * Otherwise, delete segment under the mouse cursor. */ TRACK* Delete_Segment( wxDC* DC, TRACK* Track ); void Delete_Track( wxDC* DC, TRACK* Track ); void Delete_net( wxDC* DC, TRACK* Track ); /** * Function Remove_One_Track * removes 1 track/ * The leading segment is removed and all adjacent segments * until a pad or a junction point of more than 2 segments is found */ void Remove_One_Track( wxDC* DC, TRACK* pt_segm ); /** * Function Reset_All_Tracks_And_Vias_To_Netclass_Values * Reset all tracks width and/or vias diameters and drill * to their default Netclass value * @param aTrack : bool true to modify tracks * @param aVia : bool true to modify vias */ bool Reset_All_Tracks_And_Vias_To_Netclass_Values( bool aTrack, bool aVia ); /** * Function Change_Net_Tracks_And_Vias_Sizes * Reset all tracks width and vias diameters and drill * to their default Netclass value or current values * @param aNetcode : the netcode of the net to edit * @param aUseNetclassValue : bool. True to use netclass values, false to * use current values */ bool Change_Net_Tracks_And_Vias_Sizes( int aNetcode, bool aUseNetclassValue ); /** * Function Edit_Track_Width * Modify a full track width (using DRC control). * a full track is the set of track segments between 2 ends: pads or a * point that has more than 2 segments ends connected * @param aDC = the curred device context (can be NULL) * @param aTrackSegment = a segment or via on the track to change */ void Edit_Track_Width( wxDC* aDC, TRACK* aTrackSegment ); /** * Function Edit_TrackSegm_Width * Modify one track segment width or one via diameter (using DRC control). * @param aDC = the current device context (can be NULL) * @param aTrackItem = the track segment or via to modify */ void Edit_TrackSegm_Width( wxDC* aDC, TRACK* aTrackItem ); /** * Function Begin_Route * Starts a new track and/or establish of a new track point. * * For a new track: * - Search the netname of the new track from the starting point * if it is on a pad or an existing track * - Highlight all this net * If a track is in progress: * - Call DRC * - If DRC is OK: finish the track segment and starts a new one. * @param aTrack = the current track segment, or NULL to start a new track * @param aDC = the current device context * @return a pointer to the new track segment or null if not created (DRC error) */ TRACK* Begin_Route( TRACK* aTrack, wxDC* aDC ); /** * Function End_Route * Terminates a track currently being created * @param aTrack = the current track segment in progress * @param aDC = the current device context * @return true if the track was created, false if not (due to a DRC error) */ bool End_Route( TRACK* aTrack, wxDC* aDC ); void Attribut_Segment( TRACK* track, wxDC* DC, bool Flag_On ); void Attribut_Track( TRACK* track, wxDC* DC, bool Flag_On ); void Attribut_net( wxDC* DC, int net_code, bool Flag_On ); /** * Function StartMoveOneNodeOrSegment * initializes the parameters to move one via or/and a terminal point of a track segment * The terminal point of other connected segments (if any) are moved too. */ void StartMoveOneNodeOrSegment( TRACK* aTrack, wxDC* aDC, int aCommand ); bool PlaceDraggedOrMovedTrackSegment( TRACK* Track, wxDC* DC ); /** * @todo This function is broken, because it merge segments having different * widths or without any connectivity test. * 2 collinear segments can be merged only if no other segment or via is * connected to the common point and if they have the same width. See * cleanup.cpp for merge functions and consider MarkTrace() to locate segments * that can be merged */ bool MergeCollinearTracks( TRACK* track, wxDC* DC, int end ); void Start_DragTrackSegmentAndKeepSlope( TRACK* track, wxDC* DC ); void SwitchLayer( wxDC* DC, int layer ); /** * Function Add45DegreeSegment * adds a track segment between 2 tracks segments if these 2 segments * make a 90 deg angle, in order to have 45 deg track segments * Its only works on horizontal or vertical segments. * * @param aDC The wxDC device context to draw on. * @return A bool value true if ok or false if not. */ bool Add45DegreeSegment( wxDC* aDC ); /** * Function EraseRedundantTrack * Called after creating a track * Remove (if exists) the old track that have the same starting and the * same ending point as the new created track * (this is the redunding track) * @param aDC = the current device context (can be NULL) * @param aNewTrack = the new created track (a pointer to a segment of the * track list) * @param aNewTrackSegmentsCount = number of segments in this new track * @param aItemsListPicker = the list picker to use for an undo command * (can be NULL) */ int EraseRedundantTrack( wxDC* aDC, TRACK* aNewTrack, int aNewTrackSegmentsCount, PICKED_ITEMS_LIST* aItemsListPicker ); /** * Function SetTrackSegmentWidth * Modify one track segment width or one via diameter (using DRC control). * Basic routine used by other routines when editing tracks or vias * @param aTrackItem = the track segment or via to modify * @param aItemsListPicker = the list picker to use for an undo command * (can be NULL) * @param aUseNetclassValue = true to use NetClass value, false to use * current designSettings value * @return true if done, false if no not change (because DRC error) */ bool SetTrackSegmentWidth( TRACK* aTrackItem, PICKED_ITEMS_LIST* aItemsListPicker, bool aUseNetclassValue ); // zone handling /** * Function Delete_OldZone_Fill (obsolete) * Used for compatibility with old boards * Remove the zone filling which include the segment aZone, or the zone * which have the given time stamp. * For old boards, a zone is a group of SEGZONE segments which have the same TimeStamp * @param aZone = zone segment within the zone to delete. Can be NULL * @param aTimestamp = Timestamp for the zone to delete, used if aZone == * NULL */ void Delete_OldZone_Fill( SEGZONE* aZone, time_t aTimestamp = 0 ); /** * Function Delete_LastCreatedCorner * Used only while creating a new zone outline * Remove and delete the current outline segment in progress * @return 0 if no corner in list, or corner number */ int Delete_LastCreatedCorner( wxDC* DC ); /** * Function Begin_Zone * either initializes the first segment of a new zone, or adds an * intermediate segment. * A new zone can be: * created from scratch: the user will be prompted to define parameters (layer, clearence ...) * created from a similar zone (s_CurrentZone is used): parameters are copied from * s_CurrentZone * created as a cutout (an hole) inside s_CurrentZone */ int Begin_Zone( wxDC* DC ); /** * Function End_Zone * terminates (if no DRC error ) the zone edge creation process * @param DC = current Device Context * @return true if Ok, false if DRC error */ bool End_Zone( wxDC* DC ); /** * Function Fill_Zone * Calculate the zone filling for the outline zone_container * The zone outline is a frontier, and can be complex (with holes) * The filling starts from starting points like pads, tracks. * If exists the old filling is removed * @param aZone = zone to fill * @return error level (0 = no error) */ int Fill_Zone( ZONE_CONTAINER* aZone ); /** * Function Fill_All_Zones * Fill all zones on the board * The old fillings are removed * @param aActiveWindow = the current active window, if a progress bar is shown * = NULL to do not display a progress bar * @param aVerbose = true to show error messages */ int Fill_All_Zones( wxWindow * aActiveWindow, bool aVerbose = true ); /** * Function Add_Zone_Cutout * Add a cutout zone to a given zone outline * @param DC = current Device Context * @param zone_container = parent zone outline */ void Add_Zone_Cutout( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function Add_Similar_Zone * Add a zone to a given zone outline. * if the zones are overlapping they will be merged * @param DC = current Device Context * @param zone_container = parent zone outline */ void Add_Similar_Zone( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function Edit_Zone_Params * Edit params (layer, clearance, ...) for a zone outline */ void Edit_Zone_Params( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function Start_Move_Zone_Corner * Prepares a move corner in a zone outline, * called from a move corner command (IsNewCorner = false), * or a create new cornet command (IsNewCorner = true ) */ void Start_Move_Zone_Corner( wxDC* DC, ZONE_CONTAINER* zone_container, int corner_id, bool IsNewCorner ); /** * Function Start_Move_Zone_Corner * Prepares a drag edge in an existing zone outline, */ void Start_Move_Zone_Drag_Outline_Edge( wxDC* DC, ZONE_CONTAINER* zone_container, int corner_id ); /** * Function End_Move_Zone_Corner_Or_Outlines * Terminates a move corner in a zone outline, or a move zone outlines * @param DC = current Device Context (can be NULL) * @param zone_container: the given zone */ void End_Move_Zone_Corner_Or_Outlines( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function End_Move_Zone_Corner_Or_Outlines * Remove the currently selected corner in a zone outline * the .m_CornerSelection is used as corner selection */ void Remove_Zone_Corner( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function Delete_Zone * Remove the zone which include the segment aZone, or the zone which have * the given time stamp. A zone is a group of segments which have the * same TimeStamp * @param DC = current Device Context (can be NULL) * @param zone_container = zone to modify * the member .m_CornerSelection is used to find the outline to remove. * if the outline is the main outline, all the zone is removed * otherwise, the hole is deleted */ void Delete_Zone_Contour( wxDC* DC, ZONE_CONTAINER* zone_container ); /** * Function Start_Move_Zone_Outlines * Initialize parameters to move an existing zone outlines. * @param DC = current Device Context (can be NULL) * @param zone_container: the given zone to move */ void Start_Move_Zone_Outlines( wxDC* DC, ZONE_CONTAINER* zone_container ); // Target handling PCB_TARGET* CreateTarget( wxDC* DC ); void DeleteTarget( PCB_TARGET* aTarget, wxDC* DC ); void BeginMoveTarget( PCB_TARGET* aTarget, wxDC* DC ); void PlaceTarget( PCB_TARGET* aTarget, wxDC* DC ); void ShowTargetOptionsDialog( PCB_TARGET* aTarget, wxDC* DC ); // Graphic segments type DRAWSEGMENT handling: DRAWSEGMENT* Begin_DrawSegment( DRAWSEGMENT* Segment, STROKE_T shape, wxDC* DC ); void End_Edge( DRAWSEGMENT* Segment, wxDC* DC ); void Delete_Segment_Edge( DRAWSEGMENT* Segment, wxDC* DC ); void Delete_Drawings_All_Layer( int aLayer ); // Dimension handling: void ShowDimensionPropertyDialog( DIMENSION* aDimension, wxDC* aDC ); DIMENSION* EditDimension( DIMENSION* aDimension, wxDC* aDC ); void DeleteDimension( DIMENSION* aDimension, wxDC* aDC ); void BeginMoveDimensionText( DIMENSION* aItem, wxDC* DC ); void PlaceDimensionText( DIMENSION* aItem, wxDC* DC ); // netlist handling: void InstallNetlistFrame( wxDC* DC ); /** * Function ReadPcbNetlist * Update footprints (load missing footprints and delete on demand extra * footprints) * Update connectivity info, references, values and "TIME STAMP" * @param aNetlistFullFilename = netlist file name (*.net) * @param aCmpFullFileName = cmp/footprint link file name (*.cmp). * if not found, only the netlist will be used * @param aMessageWindow = a reference to a wxTextCtrl where to display messages. * can be NULL * @param aChangeFootprint if true, footprints that have changed in netlist will be changed * @param aDeleteBadTracks if true, erroneous tracks will be deleted * @param aDeleteExtraFootprints if true, remove unlocked footprints that are not in netlist * @param aSelect_By_Timestamp if true, use timestamp instead of reference to identify * footprints from components (use after reannotation of the * schematic) * @return true if Ok */ bool ReadPcbNetlist( const wxString& aNetlistFullFilename, const wxString& aCmpFullFileName, wxTextCtrl* aMessageWindow, bool aChangeFootprint, bool aDeleteBadTracks, bool aDeleteExtraFootprints, bool aSelect_By_Timestamp ); /** * Function RemoveMisConnectedTracks * finds all track segments which are mis-connected (to more than one net). * When such a bad segment is found, it is flagged to be removed. * All tracks having at least one flagged segment are removed. * @return true if any change is made */ bool RemoveMisConnectedTracks(); // Autoplacement: void AutoPlace( wxCommandEvent& event ); void OnSelectAutoPlaceMode( wxCommandEvent& aEvent ); /** * Function OnOrientFootprints * install the dialog box for the common Orient Footprints */ void OnOrientFootprints( wxCommandEvent& event ); /** * Function ReOrientModules * Set the orientation of footprints * @param ModuleMask = mask (wildcard allowed) selection * @param Orient = new orientation * @param include_fixe = true to orient locked footprints * @return true if some footprints modified, false if no change */ bool ReOrientModules( const wxString& ModuleMask, int Orient, bool include_fixe ); void LockModule( MODULE* aModule, bool aLocked ); void AutoMoveModulesOnPcb( bool PlaceModulesHorsPcb ); /** * Function AutoPlaceModule * automatically places footprints within the confines of the PCB edges. * The components with the FIXED status are not moved. If the menu is * calling the placement of 1 module, it will be replaced. */ void AutoPlaceModule( MODULE* Module, int place_mode, wxDC* DC ); /** * Function GetOptimalModulePlacement * searches for the optimal position of the \a aModule. * * @param aModule A pointer to the MODULE object to get the optimal placement. * @param aDC The device context to draw on. * @return 1 if placement impossible or 0 if OK. */ int GetOptimalModulePlacement( MODULE* aModule, wxDC* aDC ); void GenModuleOnBoard( MODULE* Module ); /** * Function Compute_Ratsnest_PlaceModule * displays the module's ratsnest during displacement, and assess the "cost" * of the position. * * The cost is the longest ratsnest distance with penalty for connections * approaching 45 degrees. */ double Compute_Ratsnest_PlaceModule( wxDC* DC ); /** * Function GenPlaceBoard * generates board board (component side copper + rating): * Allocate the memory needed to represent in "bitmap" on the grid * Current: * - The size of clearance area of component (the board) * - The bitmap PENALTIES * And initialize the cells of the board has * - Hole in the cells occupied by a segment EDGE * - CELL_is_ZONE for cell internal contour EDGE (if closed) * * Placement surface (board) gives the cells internal to the contour * PCB, and among the latter the free cells and cells already occupied * * The bitmap PENALTIES give cells occupied by the modules, * Plus a surface penalty related to the number of pads of the module * * Bitmap of the penalty is set to 0 * Occupation cell is a 0 leaves */ int GenPlaceBoard(); void DrawInfoPlace( wxDC* DC ); // Autorouting: int Solve( wxDC* DC, int two_sides ); void Reset_Noroutable( wxDC* DC ); void Autoroute( wxDC* DC, int mode ); void ReadAutoroutedTracks( wxDC* DC ); void GlobalRoute( wxDC* DC ); /** * Function Show_1_Ratsnest * draw ratsnest. * * The net edge pad with mouse or module locates the mouse. * Delete the ratsnest if no module or pad is selected. */ void Show_1_Ratsnest( EDA_ITEM* item, wxDC* DC ); void Clean_Pcb( wxDC* DC ); void InstallFindFrame(); /** * Function SendMessageToEESCHEMA * sends a message to the schematic editor so that it may move its cursor * to a part with the same reference as the objectToSync * @param objectToSync The object whose reference is used to synchronize Eeschema. */ void SendMessageToEESCHEMA( BOARD_ITEM* objectToSync ); /** * Function Edit_Gap * edits the GAP module if it has changed the position and/or size of the pads that * form the gap get a new value. */ void Edit_Gap( wxDC* DC, MODULE* Module ); /** * Function Create_MuWaveBasicShape * create a footprint with pad_count pads for micro wave applications. * This footprint has pad_count pads: * PAD_SMD, rectangular, H size = V size = current track width. */ MODULE* Create_MuWaveBasicShape( const wxString& name, int pad_count ); /** * Create_MuWaveComponent * creates a module "GAP" or "STUB" used in micro wave designs. * This module has 2 pads: * PAD_SMD, rectangular, H size = V size = current track width. * the "gap" is isolation created between this 2 pads */ MODULE* Create_MuWaveComponent( int shape_type ); MODULE* Create_MuWavePolygonShape(); void Begin_Self( wxDC* DC ); /** * Function Genre_Self * creates a self-shaped coil for microwave applications. * - Length Mself.lng * - Extremities Mself.m_Start and Mself.m_End * * We must determine: * Mself.nbrin = number of segments perpendicular to the direction * (The coil nbrin will demicercles + 1 + 2 1 / 4 circle) * Mself.lbrin = length of a strand * Mself.radius = radius of rounded parts of the coil * Mself.delta = segments extremities connection between him and the coil even * * The equations are * Mself.m_Size.x = 2 * Mself.radius + Mself.lbrin * Mself.m_Size.y * Mself.delta = 2 + 2 * Mself.nbrin * Mself.radius * Mself.lng = 2 * Mself.delta / / connections to the coil + (Mself.nbrin-2) * Mself.lbrin / / length of the strands except 1st and last + (Mself.nbrin 1) * (PI * Mself.radius) / / length of rounded * Mself.lbrin + / 2 - Melf.radius * 2) / / length of 1st and last bit * * The constraints are: * Nbrin >= 2 * Mself.radius < Mself.m_Size.x * Mself.m_Size.y = Mself.radius * 4 + 2 * Mself.raccord * Mself.lbrin> Mself.radius * 2 * * The calculation is conducted in the following way: * Initially: * Nbrin = 2 * Radius = 4 * m_Size.x (arbitrarily fixed value) * Then: * Increasing the number of segments to the desired length * (Radius decreases if necessary) * */ MODULE* Genere_Self( wxDC* DC ); /** * Function SetLanguage * called on a language menu selection */ virtual void SetLanguage( wxCommandEvent& event ); /** * Function UpdateTitle * sets the main window title bar text. *

* If file name defined by PCB_SCREEN::m_FileName is not set, the title is set to the * application name appended with no file. Otherwise, the title is set to the full path * and file name and read only is appended to the title if the user does not have write * access to the file. *

*/ void UpdateTitle(); DECLARE_EVENT_TABLE() }; #endif /* WXPCB_STRUCT_H */