/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2015 Jean-Pierre Charras, jp.charras wanadoo.fr * Copyright (C) 2008 Wayne Stambaugh * Copyright (C) 2004-2018 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 sch_edit_frame.h */ #ifndef SCH_EDIT_FRAME_H #define SCH_EDIT_FRAME_H #include #include #include #include #include #include #include #include // enum PINSHEETLABEL_SHAPE #include class LIB_EDIT_FRAME; class LIB_VIEW_FRAME; class DRAWSEGMENT; class SCH_ITEM; class SCH_NO_CONNECT; class EDA_ITEM; class SCH_BUS_ENTRY_BASE; class SCH_BUS_WIRE_ENTRY; class SCH_BUS_BUS_ENTRY; class SCH_GLOBALLABEL; class SCH_TEXT; class SCH_BITMAP; class SCH_SHEET; class SCH_SHEET_PATH; class SCH_SHEET_PIN; class SCH_COMPONENT; class SCH_FIELD; class LIB_PIN; class SCH_JUNCTION; class DIALOG_SCH_FIND; class DIALOG_ANNOTATE; class wxFindDialogEvent; class wxFindReplaceData; class SCHLIB_FILTER; class RESCUER; class CONNECTION_GRAPH; /// enum used in RotationMiroir() enum COMPONENT_ORIENTATION_T { CMP_NORMAL, // Normal orientation, no rotation or mirror CMP_ROTATE_CLOCKWISE, // Rotate -90 CMP_ROTATE_COUNTERCLOCKWISE, // Rotate +90 CMP_ORIENT_0, // No rotation and no mirror id CMP_NORMAL CMP_ORIENT_90, // Rotate 90, no mirror CMP_ORIENT_180, // Rotate 180, no mirror CMP_ORIENT_270, // Rotate -90, no mirror CMP_MIRROR_X = 0x100, // Mirror around X axis CMP_MIRROR_Y = 0x200 // Mirror around Y axis }; /** Schematic annotation order options. */ enum ANNOTATE_ORDER_T { SORT_BY_X_POSITION, ///< Annotate by X position from left to right. SORT_BY_Y_POSITION, ///< Annotate by Y position from top to bottom. UNSORTED, ///< Annotate by position of component in the schematic sheet ///< object list. }; /** Schematic annotation type options. */ enum ANNOTATE_OPTION_T { INCREMENTAL_BY_REF, ///< Annotate incrementally using the first free reference number. SHEET_NUMBER_X_100, ///< Annotate using the first free reference number starting at ///< the sheet number * 100. SHEET_NUMBER_X_1000, ///< Annotate using the first free reference number starting at ///< the sheet number * 1000. }; /// Schematic search type used by the socket link with Pcbnew enum SCH_SEARCH_T { FIND_COMPONENT_ONLY, ///< Find a component in the schematic. FIND_PIN, ///< Find a component pin in the schematic. FIND_REFERENCE, ///< Find an item by it's reference designator. FIND_VALUE, ///< Find an item by it's value field. FIND_FIELD ///< Find a component field. }; /// Collection of data related to the bus unfolding tool struct BUS_UNFOLDING_T { bool in_progress; ///< True if bus unfold operation is running bool offset; ///< True if the bus entry should be offset from origin bool label_placed; ///< True if user has placed the net label wxPoint origin; ///< Origin (on the bus) of the unfold wxString net_name; ///< Net label for the unfolding operation SCH_BUS_WIRE_ENTRY* entry; SCH_LABEL* label; }; /** * Schematic editor (Eeschema) main window. */ class SCH_EDIT_FRAME : public SCH_BASE_FRAME { private: wxString m_DefaultSchematicFileName; wxString m_SelectedNetName; PARAM_CFG_ARRAY m_projectFileParams; PARAM_CFG_ARRAY m_configSettings; ERC_SETTINGS m_ercSettings; wxPageSetupDialogData m_pageSetupData; wxFindReplaceData* m_findReplaceData; wxString* m_findReplaceStatus; bool m_printMonochrome; ///< Print monochrome instead of grey scale. bool m_printSheetReference; DIALOG_SCH_FIND* m_dlgFindReplace; wxArrayString m_findStringHistoryList; wxArrayString m_replaceStringHistoryList; BLOCK_SELECTOR m_blockItems; ///< List of selected items. SCH_ITEM* m_item_to_repeat; ///< Last item to insert by the repeat command. int m_repeatLabelDelta; ///< Repeat label number increment step. SCH_COLLECTOR m_collectedItems; ///< List of collected items. SCH_FIND_COLLECTOR m_foundItems; ///< List of find/replace items. SCH_ITEM* m_undoItem; ///< Copy of the current item being edited. wxString m_simulatorCommand; ///< Command line used to call the circuit ///< simulator (gnucap, spice, ...) wxString m_netListerCommand; ///< Command line to call a custom net list ///< generator. int m_exec_flags; ///< Flags of the wxExecute() function ///< to call a custom net list generator. bool m_forceHVLines; ///< force H or V directions for wires, bus, line bool m_autoplaceFields; ///< automatically place component fields bool m_autoplaceJustify; ///< allow autoplace to change justification bool m_autoplaceAlign; ///< align autoplaced fields to the grid bool m_footprintPreview; ///< whether to show footprint previews /// An index to the last find item in the found items list #m_foundItems. int m_foundItemIndex; /// Flag to indicate show hidden pins. bool m_showAllPins; /// The name of the destination directory to use when generating plot files. wxString m_plotDirectoryName; /// The name of the format to use when generating a net list. wxString m_netListFormat; /// Use netcodes (net number) as net names when generating spice net lists. bool m_spiceAjustPassiveValues; public: // TODO(JE) Make private /// Data related to bus unfolding tool BUS_UNFOLDING_T m_busUnfold; private: /* these are PROJECT specific, not schematic editor specific wxString m_userLibraryPath; wxArrayString m_componentLibFiles; */ static PINSHEETLABEL_SHAPE m_lastSheetPinType; ///< Last sheet pin type. static wxSize m_lastSheetPinTextSize; ///< Last sheet pin text size. static wxPoint m_lastSheetPinPosition; ///< Last sheet pin position. protected: /** * Initializing accessor for the pin text size */ const wxSize &GetLastSheetPinTextSize(); /** * Save the schematic files that have been modified and not yet saved. * * @return true if the auto save was successful otherwise false. */ virtual bool doAutoSave() override; /** * Returns true if the schematic has been modified. */ virtual bool isAutoSaveRequired() const override; /** * Add the item currently being edited to the schematic and adds the changes to * the undo/redo container. */ void addCurrentItemToScreen(); void updateFindReplaceView( wxFindDialogEvent& aEvent ); void backAnnotateFootprints( const std::string& aChangedSetOfReferences ); /** * Verify that annotation is complete so that a proper netlist is even * possible. If not, asks the user if annotation should be done. * * @return bool - true if annotation is complete, else false. */ bool prepareForNetlist(); /** * Send the kicad netlist over to CVPCB. */ void sendNetlistToCvpcb(); public: SCH_EDIT_FRAME( KIWAY* aKiway, wxWindow* aParent ); ~SCH_EDIT_FRAME(); SCH_SCREEN* GetScreen() const override; void OnCloseWindow( wxCloseEvent& Event ); bool GetForceHVLines() const { return m_forceHVLines; } void SetForceHVLines( bool aForceHVdirection ) { m_forceHVLines = aForceHVdirection; } bool GetShowAllPins() const { return m_showAllPins; } void SetShowAllPins( bool aEnable ) { m_showAllPins = aEnable; } bool GetFootprintPreview() const { return m_footprintPreview; } void SetFootprintPreview( bool aEnable ) { m_footprintPreview = aEnable; } bool GetAutoplaceFields() const { return m_autoplaceFields; } void SetAutoplaceFields( bool aEnable ) { m_autoplaceFields = aEnable; } bool GetAutoplaceAlign() const { return m_autoplaceAlign; } void SetAutoplaceAlign( bool aEnable ) { m_autoplaceAlign = aEnable; } bool GetAutoplaceJustify() const { return m_autoplaceJustify; } void SetAutoplaceJustify( bool aEnable ) { m_autoplaceJustify = aEnable; } const wxString GetNetListFormatName() const { return m_netListFormat; } void SetNetListFormatName( const wxString& aFormat ) { m_netListFormat = aFormat; } bool GetSpiceAjustPassiveValues() const { return m_spiceAjustPassiveValues; } void SetSpiceAjustPassiveValues( bool aEnable ) { m_spiceAjustPassiveValues = aEnable; } /// accessor to the destination directory to use when generating plot files. const wxString& GetPlotDirectoryName() const { return m_plotDirectoryName; } void SetPlotDirectoryName( const wxString& aDirName ) { m_plotDirectoryName = aDirName; } void Process_Special_Functions( wxCommandEvent& event ); void Process_Config( wxCommandEvent& event ); void OnSelectTool( wxCommandEvent& aEvent ); /** * Processes an "Unfold Bus" command from the right-click menu. * Depending on what the user clicked, this can result in the creation * of one or more new objects. */ void OnUnfoldBus( wxCommandEvent& event ); bool GeneralControl( wxDC* aDC, const wxPoint& aPosition, EDA_KEY aHotKey ) override; /** * Return the project file parameter list for Eeschema. * *

* Populate the project file parameter array specific to Eeschema if it hasn't * already been populated and return a reference to the array to the caller. *

*/ PARAM_CFG_ARRAY& GetProjectFileParameters(); /** * Save changes to the project settings to the project (.pro) file. * * @param aAskForSave = true to open a dialog before saving the settings */ void SaveProjectSettings( bool aAskForSave ) override; /** * Loads the KiCad project file (*.pro) settings specific to Eeschema. * * @return True if the project file was loaded correctly. */ bool LoadProjectFile(); const ERC_SETTINGS& GetErcSettings() { return m_ercSettings; } void UpdateErcSettings( const ERC_SETTINGS& aSettings ) { m_ercSettings = aSettings; } /** * Return a default symbol field name for field \a aFieldNdx for all components. * * These field names are not modifiable, but template field names are. * * @param aFieldNdx The field number index */ static wxString GetDefaultFieldName( int aFieldNdx ); /** * Insert or append a wanted symbol field name into the field names template. * * Should be used for any symbol property editor. If the name already exists, it * overwrites the same name. * * @param aFieldName is a full description of the wanted field, and it must not match * any of the default field names. * @return int - the index within the config container at which aFieldName was * added, or -1 if the name is illegal because it matches a default field name. */ int AddTemplateFieldName( const TEMPLATE_FIELDNAME& aFieldName ) { return m_templateFieldNames.AddTemplateFieldName( aFieldName ); } /** * Remove all template field names. */ void DeleteAllTemplateFieldNames() { m_templateFieldNames.DeleteAllTemplateFieldNames(); } /** * Return the Eeschema applications settings. *

* This replaces the old statically define 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 * scattered throughout the Eeschema source code. If you need to define a configuration * setting that need to be loaded at run time, this is the place to define it. *

*/ PARAM_CFG_ARRAY& GetConfigurationSettings(); void LoadSettings( wxConfigBase* aCfg ) override; void SaveSettings( wxConfigBase* aCfg ) override; void RedrawActiveWindow( wxDC* DC, bool EraseBg ) override; void CreateScreens(); void ReCreateHToolbar() override; void ReCreateVToolbar() override; void ReCreateOptToolbar(); void ReCreateMenuBar() override; ///> @copydoc EDA_DRAW_FRAME::GetHotKeyDescription() EDA_HOTKEY* GetHotKeyDescription( int aCommand ) const override; bool OnHotKey( wxDC* aDC, int aHotKey, const wxPoint& aPosition, EDA_ITEM* aItem ) override; /** * Must be called after a schematic change in order to set the "modify" flag of the * current screen* and update the date in frame reference. */ void OnModify(); virtual wxString GetScreenDesc() const override; /** * Execute a remote command send by Pcbnew via a socket, * port KICAD_SCH_PORT_SERVICE_NUMBER (currently 4243) * this is a virtual function called by EDA_DRAW_FRAME::OnSockRequest(). * @param cmdline = received command from socket */ virtual void ExecuteRemoteCommand( const char* cmdline ) override; void KiwayMailIn( KIWAY_EXPRESS& aEvent ) override; void OnLeftClick( wxDC* aDC, const wxPoint& aPosition ) override; void OnLeftDClick( wxDC* aDC, const wxPoint& aPosition ) override; bool OnRightClick( const wxPoint& aPosition, wxMenu* PopMenu ) override; void OnSelectOptionToolbar( wxCommandEvent& event ); double BestZoom() override; /** * Check the schematic at \a aPosition in logical (drawing) units for a item * matching the types in \a aFilterList. *

* The search is first performed at the nearest grid position to \a aPosition. If no * item if found on grid, then \a aPosition is tested for any items. If the item found * can be cross probed, a message is send to Pcbnew and the selected item is highlighted * in PCB editor. *

* * @param aPosition The wxPoint on the schematic to search. * @param aFilterList A list of #KICAD_T types to to filter. * @param aHotKeyCommandId A hot key command ID for performing additional tests when * multiple items are found at \a aPosition. * @param aClarifySelectionMenuCancelled is a pointer to a bool to handle a cancel command * from user when the user cancels the locate menu disambiguation (selection between located items) * @return A SCH_ITEM pointer of the item found or NULL if no item found */ SCH_ITEM* LocateAndShowItem( const wxPoint& aPosition, const KICAD_T aFilterList[] = SCH_COLLECTOR::AllItems, int aHotKeyCommandId = 0, bool* aClarifySelectionMenuCancelled = nullptr ); /** * Check for items at \a aPosition matching the types in \a aFilterList. *

* If multiple items are located at \a aPosition, a context menu is displayed to clarify * which item the user intended to select. If the user aborts the context menu, NULL is * returned and the abort request flag will be set to true. Make sure to clear this flag * before attempting to display any other context menus. *

* * @param aPosition The wxPoint location where to search. * @param aFilterList A list of #KICAD_T types to to filter. * @param aHotKeyCommandId A hot key command ID for performing additional tests when * multiple items are found at \a aPosition. * @return The SCH_ITEM pointer of the item found or NULL if no item found. */ SCH_ITEM* LocateItem( const wxPoint& aPosition, const KICAD_T aFilterList[] = SCH_COLLECTOR::AllItems, int aHotKeyCommandId = 0 ); /** * Delete the item found under the cross hair. If multiple items are found at the * cross hair position, a context menu is displayed to clarify which item to delete. * See LocateItem() for more information on locating multiple items. * * @return True if an item was deleted. */ bool DeleteItemAtCrossHair(); /** * Finds a component in the schematic and an item in this component. * * @param aReference The component reference designator to find. * @param aSearchHierarchy If false, search the current sheet only. Otherwise, * the entire hierarchy * @param aSearchType A #SCH_SEARCH_T value used to determine what to search for. * @param aSearchText The text to search for, either in value, reference or elsewhere. */ SCH_ITEM* FindComponentAndItem( const wxString& aReference, bool aSearchHierarchy, SCH_SEARCH_T aSearchType, const wxString& aSearchText ); /** * Breaks a single segment into two at the specified point * * @param aSegment Line segment to break * @param aPoint Point at which to break the segment * @param aAppend Add the changes to the previous undo state * @param aNewSegment Pointer to the newly created segment (if given and created) * @param aScreen is the screen to examine, or nullptr to examine the current screen * @return True if any wires or buses were broken. */ bool BreakSegment( SCH_LINE* aSegment, const wxPoint& aPoint, bool aAppend = false, SCH_LINE** aNewSegment = NULL, SCH_SCREEN* aScreen = nullptr ); /** * Checks every wire and bus for a intersection at \a aPoint and break into two segments * at \a aPoint if an intersection is found. * * @param aPoint Test this point for an intersection. * @param aAppend Add the changes to the previous undo state * @param aScreen is the screen to examine, or nullptr to examine the current screen * @return True if any wires or buses were broken. */ bool BreakSegments( const wxPoint& aPoint, bool aAppend = false, SCH_SCREEN* aScreen = nullptr ); /** * Tests all junctions and bus entries in the schematic for intersections with wires and * buses and breaks any intersections into multiple segments. * * @param aAppend Add the changes to the previous undo state * @param aScreen is the screen to examine, or nullptr to examine the current screen * @return True if any wires or buses were broken. */ bool BreakSegmentsOnJunctions( bool aAppend = false, SCH_SCREEN* aScreen = nullptr ); /** * Test all of the connectable objects in the schematic for unused connection points. * @return True if any connection state changes were made. */ bool TestDanglingEnds(); /** * Send a message to Pcbnew via a socket connection. * * Commands are: * - $PART: reference put cursor on footprint anchor * - $PIN: number $PART: reference put cursor on the footprint pad * - $SHEET: time_stamp select all footprints of components is the schematic sheet path * * @param aObjectToSync = item to be located on board * (footprint, pad, text or schematic sheet) * @param aPart = component if objectToSync is a sub item of a symbol (like a pin) */ void SendMessageToPCBNEW( EDA_ITEM* aObjectToSync, SCH_COMPONENT* aPart ); /** * Sends a net name to pcbnew for highlighting * * @param aNetName is the name of a net, or empty string to clear highlight */ void SendCrossProbeNetName( const wxString& aNetName ); const wxString& GetSelectedNetName() const { return m_SelectedNetName; } void SetSelectedNetName( const wxString& aNetName ) { m_SelectedNetName = aNetName; } /** * Create a flat list which stores all connected objects. * * @param updateStatusText decides if window StatusText should be modified. * @return NETLIST_OBJECT_LIST* - caller owns the object. */ NETLIST_OBJECT_LIST* BuildNetListBase( bool updateStatusText = true ); /** * Create a netlist for the current schematic. * * - Test for some issues (missing or duplicate references and sheet names) * - Build netlist info * - Create the netlist file (different formats) * * @param aSilent is true if annotation error dialog should be skipped * @param aSilentAnnotate is true if components should be reannotated silently * @returns a unique_ptr to the netlist */ NETLIST_OBJECT_LIST* CreateNetlist( bool aSilent = false, bool aSilentAnnotate = false ); /** * Create a netlist file. * * @param aConnectedItemsList = the initialized list of connected items, take ownership. * @param aFormat = netlist format (NET_TYPE_PCBNEW ...) * @param aFullFileName = full netlist file name * @param aNetlistOptions = netlist options using OR'ed bits. *

* For SPICE netlist only: * if NET_USE_NETNAMES is set, use net names from labels in schematic * else use net numbers (net codes) * if NET_USE_X_PREFIX is set : change "U" and "IC" reference prefix to "X" *

* @param aReporter = a REPORTER to report error messages, * mainly if a command line must be run (can be NULL * @return true if success. */ bool WriteNetListFile( NETLIST_OBJECT_LIST* aConnectedItemsList, int aFormat, const wxString& aFullFileName, unsigned aNetlistOptions, REPORTER* aReporter = NULL ); /** * Clear the current component annotation. * * @param aCurrentSheetOnly Clear only the annotation for the current sheet if true. * Otherwise clear the entire schematic annotation. */ void DeleteAnnotation( bool aCurrentSheetOnly ); /** * Annotate the components in the schematic that are not currently annotated. * * @param aAnnotateSchematic Annotate the entire schematic if true. Otherwise annotate * the current sheet only. * @param aSortOption Define the annotation order. See #ANNOTATE_ORDER_T. * @param aAlgoOption Define the annotation style. See #ANNOTATE_OPTION_T. * @param aStartNumber The start number for non-sheet-based annotation styles. * @param aResetAnnotation Clear any previous annotation if true. Otherwise, keep the * existing component annotation. * @param aRepairTimestamps Test for and repair any duplicate time stamps if true. * Otherwise, keep the existing time stamps. This option * could change previous annotation because time stamps are * used to handle annotation in complex hierarchies. * @param aLockUnits When both aLockUnits and aResetAnnotation are true, all unit * associations should be kept when reannotating. That is, if * two components were R8A and R8B, they may become R3A and R3B, * but not R3A and R3C or R3C and R4D. * When aResetAnnotation is true but aLockUnits is false, the * usual behavior of annotating each part individually is * performed. * When aResetAnnotation is false, this option has no effect. * @param aReporter A sink for error messages. Use NULL_REPORTER if you don't need errors. * * When the sheet number is used in annotation, each sheet annotation starts from sheet * number * 100. In other words the first sheet uses 100 to 199, the second sheet uses * 200 to 299, and so on. */ void AnnotateComponents( bool aAnnotateSchematic, ANNOTATE_ORDER_T aSortOption, ANNOTATE_OPTION_T aAlgoOption, int aStartNumber, bool aResetAnnotation, bool aRepairTimestamps, bool aLockUnits, REPORTER& aReporter ); /** * Check for annotation errors. * * The following list of items are checked: * - Components that are not annotated. * - Duplicate component references. * - Multiple part per package components where the part number is greater number of parts * in the package. * - Multiple part per package components where the reference designator is different * between parts. * * @return Number of annotation errors found. * @param aReporter A sink for error messages. Use NULL_REPORTER if you don't need errors. * @param aOneSheetOnly Check the current sheet only if true. Otherwise check * the entire schematic. */ int CheckAnnotate( REPORTER& aReporter, bool aOneSheetOnly ); /** * Run a modal version of the Annotate dialog for a specific purpose. * @param aMessage A user message indicating the purpose. * @return the result of ShowModal() */ int ModalAnnotate( const wxString& aMessage ); // Functions used for hierarchy handling SCH_SHEET_PATH& GetCurrentSheet(); void SetCurrentSheet( const SCH_SHEET_PATH& aSheet ); /** * Rebuild the GAL and redraw the screen. Call when something went wrong. */ void HardRedraw() override; /** * Draw the current sheet on the display. */ void DisplayCurrentSheet(); /** * Called when modifying the page settings. * In derived classes it can be used to modify parameters like draw area size, * and any other local parameter related to the page settings. */ void OnPageSettingsChange() override; /** * @return a filename that can be used in plot and print functions * for the current screen and sheet path. * This filename is unique and must be used instead of the screen filename * (or screen filename) when one must creates file for each sheet in the * hierarchy. because in complex hierarchies a sheet and a SCH_SCREEN is * used more than once * Name is <root sheet filename>-<sheet path> and has no extension. * However if filename is too long name is <sheet filename>-<sheet number> */ wxString GetUniqueFilenameForCurrentSheet(); /** * Set the m_ScreenNumber and m_NumberOfScreens members for screens. * * @note This must be called after deleting or adding a sheet and when entering a sheet. */ void SetSheetNumberAndCount(); /** * Show the print dialog. */ void OnPrint( wxCommandEvent& event ); wxPageSetupDialogData& GetPageSetupData() { return m_pageSetupData; } bool GetPrintMonochrome() { return m_printMonochrome; } void SetPrintMonochrome( bool aMonochrome ) { m_printMonochrome = aMonochrome; } bool GetPrintSheetReference() { return m_printSheetReference; } void SetPrintSheetReference( bool aShow ) { m_printSheetReference = aShow; } // Plot functions: void PlotSchematic( wxCommandEvent& event ); // read and save files void Save_File( wxCommandEvent& event ); /** * Command event handler to save the entire project and create a component library archive. * * The component library archive name is <root_name>-cache.lib */ void OnSaveProject( wxCommandEvent& aEvent ); bool SaveProject(); bool OpenProjectFiles( const std::vector& aFileSet, int aCtl = 0 ) override; /** * Import a KiCad schematic into the current page. * * In order to import a schematic a lot of things have to happen to before the contents * of the imported schematic can be appended to the current page. The following list * describes this process: * * - Load the schematic into a temporary SCH_SHEET object. * - Make sure the imported schematic does not cause any hierarchy recursion issues. * - Verify the imported schematic uses fully qualified #LIB_ID objects (symbol library table). * - Check to see if any symbol libraries need to be added to the current project's symbol * library table. This includes: * - Check if the symbol library already exists in the project or global symbol library * table. * - Convert symbol library URLS that use the ${KIPRJMOD} environment variable to absolute * paths. ${KIPRJMOD} will not be the same for this project. * - Check for duplicate symbol library nicknames and change the new symbol library nickname * to prevent library name clashes. * - Update all schematic symbol LIB_ID object library nicknames when the library nickname * was changed to prevent clashes. * - Check for duplicate sheet names which is illegal and automatically rename any duplicate * sheets in the imported schematic. * - Clear all of the annotation in the imported schematic to prevent clashes. * - Append the objects from the temporary sheet to the current page. * - Replace any duplicate time stamps. * - Refresh the symbol library links. * * @return True if the project was imported properly. */ bool AppendSchematic(); /** * Loads a .cmp file from CvPcb and update the footprint field of components. * * Prepares parameters and calls ProcessCmpToFootprintLinkFileto actually read the file and * update the footprint fields */ bool LoadCmpToFootprintLinkFile(); /** * Read the footprint info from each line in the stuff file by reference designator. * * The footprint link file (.cmp) entries created by CvPcb: * * BeginCmp * TimeStamp = /32307DE2/AA450F67; * Reference = C1; * ValeurCmp = 47uF; * IdModule = CP6; * EndCmp * * @param aFullFilename = the full filename to read * @param aForceVisibilityState = Set to true to change the footprint field visibility * state to \a aVisibilityState. False retains the * current footprint field visibility state. * @param aVisibilityState True to show the footprint field or false to hide the footprint * field if \a aForceVisibilityState is true. * @return bool = true if success. */ bool ProcessCmpToFootprintLinkFile( const wxString& aFullFilename, bool aForceVisibilityState, bool aVisibilityState ); /** * Save \a aScreen to a schematic file. * * @param aScreen A pointer to the SCH_SCREEN object to save. A NULL pointer saves * the current screen. * @param aSaveUnderNewName Controls how the file is to be saved;: using previous name * or under a new name . * @param aCreateBackupFile Creates a back of the file associated with \a aScreen * if true. * Helper definitions #CREATE_BACKUP_FILE and * #NO_BACKUP_FILE are defined for improved code readability. * @return True if the file has been saved. */ bool SaveEEFile( SCH_SCREEN* aScreen, bool aSaveUnderNewName = false, bool aCreateBackupFile = CREATE_BACKUP_FILE ); // General search: bool IsSearchCacheObsolete( const SCH_FIND_REPLACE_DATA& aSearchCriteria ); /** * Checks if any of the screens has unsaved changes and asks the user whether to save or * drop them. * * @return True if user decided to save or drop changes, false if the * operation should be canceled. */ bool AskToSaveChanges(); /** * Checks if a bus unfolding operation is in progress, so that it can be * properly canceled / commited along with the wire draw operation. */ bool IsBusUnfoldInProgress() { return m_busUnfold.in_progress; } /** * Cancels a bus unfolding operation, cleaning up the bus entry and label * that were created */ void CancelBusUnfold(); /** * Completes a bus unfolding operation after the user finishes drawing the * unfolded wire */ void FinishBusUnfold(); private: /** * Handle the #ID_AUTOPLACE_FIELDS event. */ void OnAutoplaceFields( wxCommandEvent& aEvent ); /** * Handle the #ID_SCH_MOVE_ITEM event used to move schematic items. */ void OnMoveItem( wxCommandEvent& aEvent ); /** * Handle the #ID_SCH_ROTATE_CLOCKWISE and #ID_SCH_ROTATE_COUNTERCLOCKWISE events * used to rotate schematic items and blocks. */ void OnRotate( wxCommandEvent& aEvent ); /** * Handle the #ID_SCH_EDIT_ITEM event used to edit schematic items. */ void OnEditItem( wxCommandEvent& aEvent ); /** * Handle the #ID_POPUP_SCH_SELECT_ON_PCB event used to select items in Pcbnew * based on the sheet they are placed on. */ void SelectAllFromSheet( wxCommandEvent& aEvent ); /** * Handle the #ID_SCH_DRAG_ITEM event used to drag schematic items. */ void OnDragItem( wxCommandEvent& aEvent ); /** * Handle the #ID_SCH_MIRROR_X, #ID_SCH_MIRROR_Y, and #ID_SCH_ORIENT_NORMAL events * used to orient schematic items and blocks. */ void OnOrient( wxCommandEvent& aEvent ); /** * Handles the keyboard hotkey for unfolding a bus */ void OnUnfoldBusHotkey( wxCommandEvent& event ); void OnExit( wxCommandEvent& event ); void OnAnnotate( wxCommandEvent& event ); void OnErc( wxCommandEvent& event ); void OnCreateNetlist( wxCommandEvent& event ); void OnUpdatePCB( wxCommandEvent& event ); void OnSimulate( wxCommandEvent& event ); void OnCreateBillOfMaterials( wxCommandEvent& event ); void OnLaunchBomManager( wxCommandEvent& event ); void OnLaunchBusManager( wxCommandEvent& event ); void OnFindItems( wxCommandEvent& event ); void OnFindDialogClose( wxFindDialogEvent& event ); void OnFindDrcMarker( wxFindDialogEvent& event ); void OnFindCompnentInLib( wxFindDialogEvent& event ); /** * Find an item in the schematic matching the search criteria in \a aEvent. * * @param aEvent - Find dialog event containing the find parameters. */ void OnFindSchematicItem( wxFindDialogEvent& aEvent ); /** * Perform a search and replace of text in an item in the schematic matching the * search and replace criteria in \a aEvent. * * @param aEvent - Find dialog event containing the search and replace parameters. */ void OnFindReplace( wxFindDialogEvent& aEvent ); void OnLoadFile( wxCommandEvent& event ); void OnLoadCmpToFootprintLinkFile( wxCommandEvent& event ); void OnUpdateFields( wxCommandEvent& event ); void OnNewProject( wxCommandEvent& event ); void OnLoadProject( wxCommandEvent& event ); void OnAppendProject( wxCommandEvent& event ); void OnImportProject( wxCommandEvent& event ); void OnOpenPcbnew( wxCommandEvent& event ); void OnOpenPcbModuleEditor( wxCommandEvent& event ); void OnOpenCvpcb( wxCommandEvent& event ); void OnOpenLibraryEditor( wxCommandEvent& event ); void OnRescueProject( wxCommandEvent& event ); void OnRemapSymbols( wxCommandEvent& aEvent ); // a helper function to run the dialog that allows to rename the symbol library Id of // groups of components, for instance after a symbol has moved from a library to // another library void OnEditComponentSymbolsId( wxCommandEvent& aEvent ); void OnPreferencesOptions( wxCommandEvent& event ); void OnCancelCurrentCommand( wxCommandEvent& aEvent ); void OnSelectItem( wxCommandEvent& aEvent ); /** * Command event handler for duplicating the item at the current location. */ void OnDuplicateItem( wxCommandEvent& event ); /* User interface update event handlers. */ void OnUpdatePaste( wxUpdateUIEvent& event ); void OnUpdateHiddenPins( wxUpdateUIEvent& event ); void OnUpdateBusOrientation( wxUpdateUIEvent& event ); void OnUpdateSelectTool( wxUpdateUIEvent& aEvent ); void OnUpdateSave( wxUpdateUIEvent& aEvent ); void OnUpdateSaveSheet( wxUpdateUIEvent& aEvent ); void OnUpdateHierarchySheet( wxUpdateUIEvent& aEvent ); void OnUpdateRemapSymbols( wxUpdateUIEvent& aEvent ); /** * Close the ERC dialog if it is open. */ void CloseErc(); /** * Set the main window title bar text. * * If file name defined by SCH_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 hierarchical sheet path and the full file name, * and read only is appended to the title if the user does not have write * access to the file. */ void UpdateTitle(); // Bus Entry SCH_BUS_WIRE_ENTRY* CreateBusWireEntry(); SCH_BUS_BUS_ENTRY* CreateBusBusEntry(); void SetBusEntryShape( wxDC* DC, SCH_BUS_ENTRY_BASE* BusEntry, char entry_shape ); /** * Add no connect item to the current schematic sheet at \a aPosition. * * @param aPosition The position in logical (drawing) units to add the no connect. * @return The no connect item added. */ SCH_NO_CONNECT* AddNoConnect( const wxPoint& aPosition ); /** * Add a new junction at \a aPosition. */ SCH_JUNCTION* AddJunction( const wxPoint& aPosition, bool aAppendToUndo = false, bool aFinal = true ); /** * Collects a unique list of all possible connection points in the schematic. * * @param aConnections vector of connections */ void GetSchematicConnections( std::vector< wxPoint >& aConnections ); /** * Performs routine schematic cleaning including breaking wire and buses and * deleting identical objects superimposed on top of each other. * * @param aAppend The changes to the schematic should be appended to the previous undo * @param aScreen is the screen to examine, or nullptr to examine the current screen * @return True if any schematic clean up was performed. */ bool SchematicCleanUp( bool aAppend = false, SCH_SCREEN* aScreen = nullptr ); /** * If any single wire passes through _both points_, remove the portion between the two points, * potentially splitting the wire into two. * * @param aStart The starting point for trimmming * @param aEnd The ending point for trimming * @param aAppend Should the line changes be appended to a previous undo state * @return True if any wires were changed by this operation */ bool TrimWire( const wxPoint& aStart, const wxPoint& aEnd, bool aAppend = true ); /** * Checks all wires and adds any junctions that are missing * (Intended to be called only on file load) */ bool AddMissingJunctions( SCH_SCREEN* aScreen ); /** * Perform all cleanup and normalization steps so that the whole schematic * is in a good state. This should only be called when loading a file. */ void NormalizeSchematicOnFirstLoad(); /** * Start moving \a aItem using the mouse. * * @param aItem A pointer to an SCH_ITEM to move. * @param aDC The device context to draw \a aItem. */ void PrepareMoveItem( SCH_ITEM* aItem ); // Text, label, glabel SCH_TEXT* CreateNewText( int aType ); void EditSchematicText( SCH_TEXT* TextStruct ); void ChangeTextOrient( SCH_TEXT* aTextItem ); /** * Command event handler to change a text type to another one. * * The new text, label, hierarchical label, or global label is created from the old text * and the old text object is deleted. */ void OnConvertTextType( wxCommandEvent& aEvent ); /** * Creates a new segment ( WIRE, BUS ) or terminates the current segment in progress. * * If the end of the current segment is on a different segment, place a junction if needed * and terminates the command. If the end of the current segment is on a pin, terminate * the command. In all other cases starts a new segment. */ void BeginSegment( int type ); /** * Terminate a bus, wire, or line creation. */ void EndSegment(); /** * Erase the last segment at the current mouse position. */ void DeleteCurrentSegment(); void DeleteConnection( bool DeleteFullConnection ); // Images: SCH_BITMAP* CreateNewImage( wxDC* aDC ); void RotateImage( SCH_BITMAP* aItem ); /** * Mirror a bitmap. * * @param aItem = the SCH_BITMAP item to mirror * @param Is_X_axis = true to mirror relative to Horizontal axis * false to mirror relative to vertical axis */ void MirrorImage( SCH_BITMAP* aItem, bool Is_X_axis ); /** * Launches the "Edit Image" dialog to modify an image * @param aItem Pointer to the image item to modify * @return true if the image was modified, false if the user canceled */ bool EditImage( SCH_BITMAP* aItem ); // Hierarchical Sheet & PinSheet void InstallHierarchyFrame( wxPoint& pos ); SCH_SHEET* CreateSheet( wxDC* DC ); void ReSizeSheet( SCH_SHEET* Sheet, wxDC* DC ); /** * Rotate a sheet object. * * Sheets do not have a anchor point. Because rotating it from its origin or its end is * not friendly, the rotation is made around its center. * * @param aSheet the hierarchical sheet to rotate * @param aRotCCW = true to rotate CCW, false to rotate CW */ void RotateHierarchicalSheet( SCH_SHEET* aSheet, bool aRotCCW ); /** * Mirror a hierarchical sheet. * * Mirroring is performed around its center. * * @param aSheet = the SCH_SHEET to mirror * @param aFromXaxis = true to mirror relative to Horizontal axis * false to mirror relative to vertical axis */ void MirrorSheet( SCH_SHEET* aSheet, bool aFromXaxis ); /** * Function EditLine * displays the dialog for editing the parameters of \a aLine. * @param aLine The Line/Wire/Bus to edit. * @param aRedraw = true to refresh the screen * @return The user response from the edit dialog. */ int EditLine( SCH_LINE* aLine, bool aRedraw ); public: /** * Edit an existing sheet or add a new sheet to the schematic. * * When \a aSheet is a new sheet: * - and the file name already exists in the schematic hierarchy, the screen associated * with the sheet found in the hierarchy is associated with \a aSheet. * - and the file name already exists on the system, then \a aSheet is loaded with the * existing file. * - and the file name does not exist in the schematic hierarchy or on the file system, * then a new screen is created and associated with \a aSheet. * * When \a aSheet is an existing sheet: * - and the file name already exists in the schematic hierarchy, the current associated * screen is replace by the one found in the hierarchy. * - and the file name already exists on the system, the current associated screen file * name is changed and the file is loaded. * - and the file name does not exist in the schematic hierarchy or on the file system, * the current associated screen file name is changed and saved to disk. * * Note: the screen is not refresh. The caller is responsible to do that * * @param aSheet is the sheet to edit * @param aHierarchy is the current hierarchy containing aSheet * @param aClearAnnotationNewItems is a reference to a bool to know if the items managed by * this sheet need to have their annotation cleared i.e. when an existing item list is used. * it can happens when the edited sheet used an existying file, or becomes a new instance * of a already existing sheet. */ bool EditSheet( SCH_SHEET* aSheet, SCH_SHEET_PATH* aHierarchy, bool* aClearAnnotationNewItems ); wxPoint GetLastSheetPinPosition() const { return m_lastSheetPinPosition; } private: /** * Load the given filename but sets the path to the current project path. * * @param full filepath of file to be imported. * @param aFileType SCH_FILE_T value for file type */ bool importFile( const wxString& aFileName, int aFileType ); bool validateSheet( SCH_SHEET* aSheet, SCH_SHEET_PATH* aHierarchy ); /** * Create a new SCH_SHEET_PIN object and add it to \a aSheet at the current cursor position. * * @param aSheet The sheet to add the new sheet pin to. * @return The new sheet pin object created or NULL if the task was aborted by the user. */ SCH_SHEET_PIN* CreateSheetPin( SCH_SHEET* aSheet ); /** * Display the dialog for editing the parameters of \a aSheetPin. * * @param aSheetPin The sheet pin item to edit. * @param aRedraw = true to refresh the screen * @return The user response from the edit dialog. */ int EditSheetPin( SCH_SHEET_PIN* aSheetPin, bool aRedraw ); /** * Automatically create a sheet pin from the hierarchical labels in the schematic * referenced by \a aSheet. * * @param aSheet The sheet to import the new sheet pin to. * @return The new sheet pin object imported or NULL if the task was aborted by the user. */ SCH_SHEET_PIN* ImportSheetPin( SCH_SHEET* aSheet ); public: /** * Remove \a aItem from the current screen and saves it in the undo list. * * @param aItem The item to remove from the current screen. * @param aAppend True if we are updating a previous Undo state */ void DeleteItem( SCH_ITEM* aItem, bool aAppend = false ); /** * Removes all items (and unused junctions that connect to them) and saves * each in the undo list * * @param aItemsList The list of items to delete * @param aAppend True if we are updating a previous commit */ void DeleteItemsInList( PICKED_ITEMS_LIST& aItemsList, bool aAppend = false ); /** * Removes a given junction and heals any wire segments under the junction * * @param aItem The junction to delete * @param aAppend True if we are updating an ongoing commit */ void DeleteJunction( SCH_ITEM* aItem, bool aAppend = false ); /** * Adds junctions if needed to each item in the list after they have been * moved. * * @param aItemsList The list of items to check * @param aAppend True if we are updating a previous commit */ void CheckListConnections( PICKED_ITEMS_LIST& aItemsList, bool aAppend = false ); int GetLabelIncrement() const { return m_repeatLabelDelta; } private: /** * Load a symbol library and places it on the current schematic. *. * if libname != "", search in lib "libname" * else search in all loaded libs * * @param aFilter is a filter to pass the allowed lib names list, or library name * to load the component from and/or some other filters * if NULL, no filtering. * @param aHistoryList list remembering recently used component names. * @param aUseLibBrowser is the flag to determine if the library browser should be launched. * @return a pointer the SCH_COMPONENT object selected or NULL if no component was selected. * (TODO(hzeller): This really should be a class doing history, but didn't * want to change too much while other refactoring is going on) */ SCH_COMPONENT* Load_Component( const SCHLIB_FILTER* aFilter, SCH_BASE_FRAME::HISTORY_LIST& aHistoryList, bool aUseLibBrowser ); /** * Display the edit component dialog to edit the parameters of \a aComponent. * * @param aComponent is a pointer to the SCH_COMPONENT object to be edited. */ void EditComponent( SCH_COMPONENT* aComponent ); public: /** * Rotate and mirror a component. */ void OrientComponent( COMPONENT_ORIENTATION_T aOrientation = CMP_NORMAL ); private: void OnSelectUnit( wxCommandEvent& aEvent ); void ConvertPart( SCH_COMPONENT* DrawComponent ); /** * Display the edit field dialog to edit the parameters of \a aField. * * @param aField is a pointer to the SCH_FIELD object to be edited. */ void EditComponentFieldText( SCH_FIELD* aField ); void RotateField( SCH_FIELD* aField ); /** * Paste a list of items from the block stack. */ void PasteListOfItems( wxDC* DC ); /* Undo - redo */ public: /** * Create a copy of the current schematic item, and put it in the undo list. * * flag_type_command = * UR_CHANGED * UR_NEW * UR_DELETED * UR_WIRE_IMAGE * UR_MOVED * * If it is a delete command, items are put on list with the .Flags member * set to UR_DELETED. When it will be really deleted, the GetDrawItems() and the * sub-hierarchy will be deleted. If it is only a copy, the GetDrawItems() and the * sub-hierarchy must NOT be deleted. * * @note * Edit wires and buses is a bit complex. * because when a new wire is added, a lot of modifications in wire list is made * (wire concatenation): modified items, deleted items and new items * so flag_type_command is UR_WIRE_IMAGE: the struct ItemToCopy is a list of * wires saved in Undo List (for Undo or Redo commands, saved wires will be * exchanged with current wire list * * @param aItemToCopy = the schematic item modified by the command to undo * @param aTypeCommand = command type (see enum UNDO_REDO_T) * @param aAppend = add the item to the previous undo list * @param aTransformPoint = the reference point of the transformation, * for commands like move */ void SaveCopyInUndoList( SCH_ITEM* aItemToCopy, UNDO_REDO_T aTypeCommand, bool aAppend = false, const wxPoint& aTransformPoint = wxPoint( 0, 0 ) ); /** * Create a new entry in undo list of commands. * * @param aItemsList = the list of items modified by the command to undo * @param aTypeCommand = command type (see enum UNDO_REDO_T) * @param aAppend = add the item to the previous undo list * @param aTransformPoint = the reference point of the transformation, * for commands like move */ void SaveCopyInUndoList( const PICKED_ITEMS_LIST& aItemsList, UNDO_REDO_T aTypeCommand, bool aAppend = false, const wxPoint& aTransformPoint = wxPoint( 0, 0 ) ); private: /** * Restore an undo or redo command to put data pointed by \a aList in the previous state. * * @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 */ void PutDataInPreviousState( PICKED_ITEMS_LIST* aList, bool aRedoCommand ); /** * Redo the last edit. * * - Save the current schematic in Undo list * - Get an old version of the schematic from Redo list * * @return none */ void GetSchematicFromRedoList( wxCommandEvent& event ); /** * Perform an undo the last edit. * * - Save the current schematic in Redo list * - Get an old version of the schematic from Undo list */ void GetSchematicFromUndoList( wxCommandEvent& event ); /** * Copy the list of block item. * * @sa m_blockItems * @param aItemsList List to copy the block select items into. */ void copyBlockItems( PICKED_ITEMS_LIST& aItemsList, const wxPoint& aMoveVector ); /** * Add the context menu items to \a aMenu for \a aJunction. * * @param aMenu The menu to add the items to. * @param aJunction The SCH_JUNCTION object selected. */ void addJunctionMenuEntries( wxMenu* aMenu, SCH_JUNCTION* aJunction ); public: void Key( wxDC* DC, int hotkey, EDA_ITEM* DrawStruct ); /** * Initialize the parameters used by the block paste command. */ void InitBlockPasteInfos() override; /** * Return the block command internal code (BLOCK_MOVE, BLOCK_DUPLICATE...) * 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_DUPLICATE...) */ virtual int BlockCommand( EDA_KEY aKey ) override; /** * Call after HandleBlockEnd, when a block command needs to be executed after the block * is moved to its new place. * * Parameters must be initialized in GetScreen()->m_BlockLocate */ virtual void HandleBlockPlace( wxDC* DC ) override; /** * 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 * * @param aDC is a device context to draw on. * @return false if no item selected, or command finished, * true if some items found and HandleBlockPlace must be called later */ virtual bool HandleBlockEnd( wxDC* aDC ) override; /** * Repeat the last item placement if the last item was a bus, bus entry, * label, or component. * * Labels that end with a number will be incremented. */ void RepeatDrawItem(); /** * Clone \a aItem and owns that clone in this container. */ void SetRepeatItem( SCH_ITEM* aItem ); /** * Return the item which is to be repeated with the insert key. * * Such object is owned by this container, and must be cloned. */ SCH_ITEM* GetRepeatItem() const { return m_item_to_repeat; } /** * Clone \a aItem which can be used to restore the state of the item being edited * when the user cancels the editing in progress. * * @param aItem The item to make a clone of for undoing the last change. Set to * NULL to free the current undo item. */ void SetUndoItem( const SCH_ITEM* aItem ); SCH_ITEM* GetUndoItem() const { return m_undoItem; } /** * Swap the cloned item in member variable m_undoItem with \a aItem and saves it to * the undo list then swap the data back. * * This swaps the internal structure of the item with the cloned item. It does not * swap the actual item pointers themselves. * * @param aItem The item to swap with the current undo item. */ void SaveUndoItemInUndoList( SCH_ITEM* aItem ); /** * Create a symbol library file with the name of the root document plus the '-cache' suffix, * * This file will contain all components used in the current schematic. * * @param aUseCurrentSheetFilename = false to use the root sheet filename * (default) or true to use the currently opened sheet. * @return true if the file was written successfully. */ bool CreateArchiveLibraryCacheFile( bool aUseCurrentSheetFilename = false ); /** * Create a library \a aFileName that contains all components used in the current schematic. * * @param aFileName The full path and file name of the archive library. * @return True if \a aFileName was written successfully. */ bool CreateArchiveLibrary( const wxString& aFileName ); /** * Perform rescue operations to recover old projects from before certain changes were made. * * - Exports cached symbols that conflict with new symbols to a separate library. * - Exports cached symbols not found in any symbol library. * - Renames symbols named before libraries were case sensitive. * * @param aRunningOnDemand - indicates whether the tool has been called up by the user * (as opposed to being run automatically). If true, an information dialog is * displayed if there are no components to rescue. If false, the tool is silent * if there are no components to rescue, and a "Never Show Again" button is * displayed. */ bool rescueProject( RESCUER& aRescuer, bool aRunningOnDemand ); bool RescueLegacyProject( bool aRunningOnDemand ); bool RescueSymbolLibTableProject( bool aRunningOnDemand ); /** * Plot or print the current sheet to the clipboard. * * @param aDC = wxDC given by the calling print function * @param aPrintMask = not used here * @param aPrintMirrorMode = not used here (Set when printing in mirror mode) * @param aData = a pointer on an auxiliary data (not always used, NULL if not used) */ virtual void PrintPage( wxDC* aDC, LSET aPrintMask, bool aPrintMirrorMode, void* aData = NULL ) override; void SetSimulatorCommand( const wxString& aCommand ) { m_simulatorCommand = aCommand; } wxString GetSimulatorCommand() const { return m_simulatorCommand; } void SetNetListerCommand( const wxString& aCommand ) { m_netListerCommand = aCommand; } /** * Reset the execution flags to defaults for external netlist and bom generators. */ void DefaultExecFlags() { m_exec_flags = wxEXEC_SYNC; } /** * Set (adds) specified flags for next execution of external generator of the netlist or bom. * * @param aFlags = wxEXEC_* flags, see wxExecute docs. */ void SetExecFlags( const int aFlags ) { m_exec_flags |= aFlags; } /** * Clear (removes) specified flags that not needed for next execution of external generator * of the netlist or bom. * * @param aFlags = wxEXEC_* flags, see wxExecute docs. */ void ClearExecFlags( const int aFlags ) { m_exec_flags &= ~( aFlags ); } wxString GetNetListerCommand() const { return m_netListerCommand; } /** * Generates the connection data for the entire schematic hierarchy. */ void RecalculateConnections( bool aDoCleanup = true ); void SetCurrentSheet( SCH_SHEET_PATH *aSheet ); /** * Allows Eeschema to install its preferences panels into the preferences dialog. */ void InstallPreferences( PAGED_DIALOG* aParent ) override; /** * Called after the preferences dialog is run. */ void CommonSettingsChanged() override; void ShowChangedLanguage() override; void DuplicateItemsInList( SCH_SCREEN* screen, PICKED_ITEMS_LIST& aItemsList, const wxPoint& aMoveVector ); virtual void SetScreen( BASE_SCREEN* aScreen ) override; virtual const BOX2I GetDocumentExtents() const override; DECLARE_EVENT_TABLE() }; #endif // SCH_EDIT_FRAME_H