/* * 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) 2004-2023 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 */ #ifndef SCH_EDIT_FRAME_H #define SCH_EDIT_FRAME_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include class SCH_ITEM; class EDA_ITEM; class SCH_LINE; class SCH_TEXT; class SCH_BITMAP; class SCH_SHEET; class SCH_SHEET_PATH; class SCH_SHEET_PIN; class SCH_SYMBOL; class SCH_FIELD; class SCH_JUNCTION; class SCHEMATIC; class SCH_COMMIT; class DIALOG_BOOK_REPORTER; class DIALOG_ERC; class DIALOG_SYMBOL_FIELDS_TABLE; class DIALOG_SCH_FIND; class RESCUER; class HIERARCHY_PANE; // @todo Move this to transform alone with all of the transform manipulation code. /// enum used in RotationMiroir() enum SYMBOL_ORIENTATION_T { SYM_NORMAL, // Normal orientation, no rotation or mirror SYM_ROTATE_CLOCKWISE, // Rotate -90 SYM_ROTATE_COUNTERCLOCKWISE, // Rotate +90 SYM_ORIENT_0, // No rotation and no mirror id SYM_NORMAL SYM_ORIENT_90, // Rotate 90, no mirror SYM_ORIENT_180, // Rotate 180, no mirror SYM_ORIENT_270, // Rotate -90, no mirror SYM_MIRROR_X = 0x100, // Mirror around X axis SYM_MIRROR_Y = 0x200 // Mirror around Y axis }; /// Schematic search type used by the socket link with Pcbnew enum SCH_SEARCH_T { HIGHLIGHT_PIN, HIGHLIGHT_SYMBOL }; enum SCH_CLEANUP_FLAGS { NO_CLEANUP, LOCAL_CLEANUP, GLOBAL_CLEANUP }; wxDECLARE_EVENT( EDA_EVT_SCHEMATIC_CHANGED, wxCommandEvent ); /** * Tree view item data for the net navigator. */ class NET_NAVIGATOR_ITEM_DATA : public wxTreeItemData { public: NET_NAVIGATOR_ITEM_DATA( const SCH_SHEET_PATH& aSheetPath, const SCH_ITEM* aItem ) : m_sheetPath( aSheetPath ), m_item( aItem ) { } NET_NAVIGATOR_ITEM_DATA() : m_item( nullptr ) { } SCH_SHEET_PATH& GetSheetPath() { return m_sheetPath; } const SCH_ITEM* GetItem() const { return m_item; } bool operator==( const NET_NAVIGATOR_ITEM_DATA& aRhs ) const { return ( m_sheetPath == aRhs.m_sheetPath ) && ( m_item == aRhs.m_item ); } NET_NAVIGATOR_ITEM_DATA& operator=( const NET_NAVIGATOR_ITEM_DATA& aItemData ) { if( this == &aItemData ) return *this; m_sheetPath = aItemData.m_sheetPath; m_item = aItemData.m_item; return *this; } private: SCH_SHEET_PATH m_sheetPath; const SCH_ITEM* m_item; }; /** * Schematic editor (Eeschema) main window. */ class SCH_EDIT_FRAME : public SCH_BASE_FRAME { public: SCH_EDIT_FRAME( KIWAY* aKiway, wxWindow* aParent ); ~SCH_EDIT_FRAME() override; SCH_SCREEN* GetScreen() const override; SELECTION& GetCurrentSelection() override; SCHEMATIC& Schematic() const; /** * Allow edit frame to show/hide hidden pins. */ bool GetShowAllPins() const override; /** * Save changes to the project settings to the project (.pro) file. */ void SaveProjectLocalSettings() override; /** * Load the KiCad project file (*.pro) settings specific to Eeschema. * * @return True if the project file was loaded correctly. */ bool LoadProjectSettings(); void ShowSchematicSetupDialog( const wxString& aInitialPage = wxEmptyString ); void LoadSettings( APP_SETTINGS_BASE* aCfg ) override; void SaveSettings( APP_SETTINGS_BASE* aCfg ) override; void CreateScreens(); void ReCreateHToolbar() override; void ReCreateVToolbar() override; void ReCreateOptToolbar() override; void setupUIConditions() override; /** * Get if the current schematic has been modified but not saved. * * @return true if the any changes have not been saved */ bool IsContentModified() const override; /** * Must be called after a schematic change in order to set the "modify" flag and update other * data structures and GUI elements. */ void OnModify() override; SEVERITY GetSeverity( int aErrorCode ) const override; /** * Return a human-readable description of the current screen. */ wxString GetScreenDesc() const override; wxString GetFullScreenDesc() const override; /** * Execute a remote command sent via a socket on port KICAD_SCH_PORT_SERVICE_NUMBER (which * defaults to 4243). * * When user selects a footprint or pin in Pcbnew, Eeschema shows that same symbol or pin * and moves cursor on the item. * * Valid commands are: * \li \c \$PART: \c "reference" Put cursor on symbol. * \li \c \$PART: \c "reference" \c \$REF: \c "ref" Put cursor on symbol reference. * \li \c \$PART: \c "reference" \c \$VAL: \c "value" Put cursor on symbol value. * \li \c \$PART: \c "reference" \c \$PAD: \c "pin name" Put cursor on the symbol pin. * \li \c \$NET: \c "netname" Highlight a specified net * \li \c \$CLEAR: \c "HIGHLIGHTED" Clear symbols highlight *

* They are a keyword followed by a quoted string. * @param cmdline is the command received from Pcbnew. */ void ExecuteRemoteCommand( const char* cmdline ) override; void KiwayMailIn( KIWAY_EXPRESS& aEvent ) override; /** * Refresh the display of any operaintg points. Called after a .op simulation completes. */ void RefreshOperatingPointDisplay(); /** * Automatically set the rotation of an item (if the item supports it) */ void AutoRotateItem( SCH_SCREEN* aScreen, SCH_ITEM* aItem ); /** * Run the Find or Find & Replace dialog. */ void ShowFindReplaceDialog( bool aReplace ); /** * Update the hierarchy navigation tree and history */ void UpdateHierarchyNavigator(); /** * Update the hierarchy navigation tree selection (cross-probe from schematic to hierarchy * pane). */ void UpdateHierarchySelection(); void ShowFindReplaceStatus( const wxString& aMsg, int aStatusTime ); void ClearFindReplaceStatus(); /** * Notification that the Find dialog has closed. */ void OnFindDialogClose(); /** * Break a single segment into two at the specified point. * @param aCommit Transaction container used to record changes for undo/redo * @param aSegment Line segment to break * @param aPoint Point at which to break the segment * @param aNewSegment Pointer to the newly created segment (if created) * @param aScreen is the screen to examine */ void BreakSegment( SCH_COMMIT* aCommit, SCH_LINE* aSegment, const VECTOR2I& aPoint, SCH_LINE** aNewSegment, SCH_SCREEN* aScreen ); /** * Check every wire and bus for a intersection at \a aPoint and break into two segments * at \a aPoint if an intersection is found. * @param aCommit Transaction container used to record changes for undo/redo * @param aPoint Test this point for an intersection. * @param aScreen is the screen to examine. * @return True if any wires or buses were broken. */ bool BreakSegments( SCH_COMMIT* aCommit, const VECTOR2I& aPoint, SCH_SCREEN* aScreen ); /** * Test all junctions and bus entries in the schematic for intersections with wires and * buses and breaks any intersections into multiple segments. * @param aCommit Transaction container used to record changes for undo/redo * @param aScreen is the screen to examine. * @return True if any wires or buses were broken. */ bool BreakSegmentsOnJunctions( SCH_COMMIT* aCommit, SCH_SCREEN* aScreen ); /** * Test all of the connectable objects in the schematic for unused connection points. * @return True if any connection state changes were made. */ void TestDanglingEnds(); /** * Send items to board editor for selection. * * This is used for when the eeschema user is using the cross-probe tool. * * @param aItems are the items to select * @param aForce select the element in pcbnew whether or not the user has the select option * chosen */ void SendSelectItemsToPcb( const std::vector& aItems, bool aForce ); /** * Send 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 ); /** * Send a connection (net or bus) to Pcbnew for highlighting. * * @param aConnection is the connection to highlight */ void SetCrossProbeConnection( const SCH_CONNECTION* aConnection ); /** * Tell Pcbnew to clear the existing highlighted net, if one exists */ void SendCrossProbeClearHighlight(); const wxString& GetHighlightedConnection() const { return m_highlightedConn; } void SetHighlightedConnection( const wxString& aConnection, const NET_NAVIGATOR_ITEM_DATA* aSelection = nullptr ); /** * Check if we are ready to write a netlist file for the current schematic. * * Test for some issues (missing or duplicate references and sheet names). * * @param aAnnotateMessage a message to put up in case annotation needs to be performed. * @return true if all is well (i.e. you can call WriteNetListFile next). */ bool ReadyToNetlist( const wxString& aAnnotateMessage ); /** * Create a netlist file. * * @param aFormat is the netlist format (NET_TYPE_PCBNEW ...). * @param aFullFileName is the full netlist file name. * @param aNetlistOptions is the 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 is a #REPORTER to report error messages, can be a nullptr. * @return true if success. */ bool WriteNetListFile( int aFormat, const wxString& aFullFileName, unsigned aNetlistOptions, REPORTER* aReporter = nullptr ); /** * Clear the current symbol annotation. * * @param aCurrentSheetOnly Where to clear the annotation. See #ANNOTATE_SCOPE_T */ void DeleteAnnotation( ANNOTATE_SCOPE_T aAnnotateScope, bool aRecursive ); /** * Annotate the symbols in the schematic that are not currently annotated. Multi-unit symbols * are annotated together. E.g. if two symbols were R8A and R8B, they may become R3A and * R3B, but not R3A and R3C or R3C and R4D. * @param aCommit Transaction container used to record changes for undo/redo * @param aAnnotateScope See #ANNOTATE_SCOPE_T * @param aSortOption Define the annotation order. See #ANNOTATE_ORDER_T. * @param aAlgoOption Define the annotation style. See #ANNOTATE_ALGO_T. * @param aRecursive Annotation should descend into and annotate subsheets * @param aStartNumber The start number for non-sheet-based annotation styles. * @param aResetAnnotation Clear any previous annotation if true. Otherwise, keep the * existing symbol 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 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 AnnotateSymbols( SCH_COMMIT* aCommit, ANNOTATE_SCOPE_T aAnnotateScope, ANNOTATE_ORDER_T aSortOption, ANNOTATE_ALGO_T aAlgoOption, bool aRecursive, int aStartNumber, bool aResetAnnotation, bool aRepairTimestamps, REPORTER& aReporter ); /** * Check for annotation errors. * * The following list of items are checked: * - Symbols that are not annotated. * - Duplicate symbol references. * - Multiple part per package symbols where the part number is greater number of parts in * the package. * - Multiple part per package symbols where the reference designator is different between * parts. * * @return Number of annotation errors found. * @param aReporter A handler for error reporting. * @param aAnnotateScope See #ANNOTATE_SCOPE_T Check the current sheet only if true. * Otherwise check the entire schematic. */ int CheckAnnotate( ANNOTATION_ERROR_HANDLER aErrorHandler, ANNOTATE_SCOPE_T aAnnotateScope = ANNOTATE_ALL, bool aRecursive = true ); /** * 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() const; void SetCurrentSheet( const SCH_SHEET_PATH& aSheet ); void UpdateItem( EDA_ITEM* aItem, bool isAddOrDelete = false, bool aUpdateRtree = false ) override; /** * Rebuild the GAL and redraw the screen. Call when something went wrong. */ void HardRedraw() override; /** * Draw the current sheet on the display. */ void DisplayCurrentSheet(); /** * Use the wxWidgets print code to draw an image of the current sheet onto the clipboard. */ void DrawCurrentSheetToClipboard(); /** * 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; /** * 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(); wxPageSetupDialogData& GetPageSetupData() { return m_pageSetupData; } void NewProject(); void LoadProject(); /** * Save the currently-open schematic (including its hierarchy) and associated project. * * @param aSaveAs is true to perform a Save As operation (rename the schematic and project). * This may only be done in standalone mode. * @return true if the schematic was saved */ bool SaveProject( bool aSaveAs = false ); bool OpenProjectFiles( const std::vector& aFileSet, int aCtl = 0 ) override; wxString GetCurrentFileName() const override; /** * Import a KiCad schematic into the current sheet. * * @return True if the schematic was imported properly. */ bool AppendSchematic(); /** * Add a sheet file into the current sheet and updates display * * @note Used in AppendSchematic() and SCH_EDIT_TOOL::ddAppendFile() (so it is public) * * @param aFullFileName Path and name of sheet * @return True if the sheet was properly added */ bool AddSheetAndUpdateDisplay( const wxString aFullFileName ); /** * Check 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(); SCH_JUNCTION* AddJunction( SCH_COMMIT* aCommit, SCH_SCREEN* aScreen, const VECTOR2I& aPos ); /** * Perform routine schematic cleaning including breaking wire and buses and deleting * identical objects superimposed on top of each other. * @param aCommit Transaction container used to record changes for undo/redo * @param aScreen is the screen to examine, or nullptr to examine the current screen */ void SchematicCleanUp( SCH_COMMIT* aCommit, 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 aCommit Transaction container used to record changes for undo/redo * @param aStart The starting point for trimmming * @param aEnd The ending point for trimming * @return True if any wires were changed by this operation */ bool TrimWire( SCH_COMMIT* aCommit, const VECTOR2I& aStart, const VECTOR2I& aEnd ); void OnOpenPcbnew( wxCommandEvent& event ); void OnOpenCvpcb( wxCommandEvent& event ); void OnUpdatePCB( wxCommandEvent& event ); void OnAnnotate( wxCommandEvent& event ); /** * Verify that \a aSheet will not cause a recursion error in \a aHierarchy. * * @param aSheet is the #SCH_SHEET object to test. * @param aHierarchy is the #SCH_SHEET_PATH where \a aSheet is going to reside. * @return true if \a aSheet will cause a recursion error in \a aHierarchy. */ bool CheckSheetForRecursion( SCH_SHEET* aSheet, SCH_SHEET_PATH* aHierarchy ); /** * Check \a aSchematicFileName for a potential file name case sensitivity clashes. * * On platforms where file names are case sensitive, it is possible to schematic sheet * file names that would cause issues on platforms where file name are case insensitive. * File names foo.sch and Foo.sch are unique files on Linux and MacOS but on Windows * this would result in a broken schematic. * * @param aSchematicFileName is the absolute path and file name of the file to test. * @return true if the user accepts the potential file name clash risk. */ bool AllowCaseSensitiveFileNameClashes( const wxString& aSchematicFileName ); /** * 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 existing file, or becomes a new instance * of a already existing sheet. */ bool EditSheetProperties( SCH_SHEET* aSheet, SCH_SHEET_PATH* aHierarchy, bool* aClearAnnotationNewItems ); void InitSheet( SCH_SHEET* aSheet, const wxString& aNewFilename ); /** * Load a the KiCad schematic file \a aFileName into the sheet \a aSheet. * * If \a aSheet does not have a valid #SCH_SCREEN object, the schematic is loaded into * \a Sheet. Otherwise, it is appended to the current #SCH_SCREEN object. * * 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 all of the possible combinations that could cause broken symbol library links * and give the user the option to cancel the append process. The following conditions * are check but they still do not guarantee that there will not be any broken symbol * library links: * - The source schematic is in the current project path and contains symbol library * nicknames not found in the project symbol library table. This can happen if the * schematic is copied to the current project path from another project. * - The source schematic is in a different path and there are symbol library link nicknames * that do not exist in either the current symbol library table or the source project * symbol library table if it exists in the source path. * - The source schematic is in a different path and contains duplicate symbol library * nicknames that point to different libraries. * - 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. * - 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. * * @param aSheet is the sheet to either append or load the schematic. * @param aHierarchy is the current position in the schematic hierarchy used to test for * possible file recursion issues. * @param aFileName is the file name to load. The file name is expected to have an absolute * path. * * @return True if the schematic was imported properly. */ bool LoadSheetFromFile( SCH_SHEET* aSheet, SCH_SHEET_PATH* aHierarchy, const wxString& aFileName ); /** * Removes a given junction and heals any wire segments under the junction * * @param aItem The junction to delete */ void DeleteJunction( SCH_COMMIT* aCommit, SCH_ITEM* aItem ); void ConvertPart( SCH_SYMBOL* aSymbol ); void SelectUnit( SCH_SYMBOL* aSymbol, int aUnit ); void SetAltPinFunction( SCH_PIN* aPin, const wxString& aFunction ); /* Undo - redo */ /** * Create a copy of the current schematic item, and put it in the undo list. * * aTypeCommand = * CHANGED * NEWITEM * DELETED * * If it is a delete command, items are put on list with the .Flags member * set to DELETED. * * @param aItemToCopy is the schematic item modified by the command to undo. * @param aTypeCommand is the command type (see enum UNDO_REDO). * @param aAppend set to true to add the item to the previous undo list. * @param aDirtyConnectivity set to true if the change can affect connectivity. */ void SaveCopyInUndoList( SCH_SCREEN* aScreen, SCH_ITEM* aItemToCopy, UNDO_REDO aTypeCommand, bool aAppend, bool aDirtyConnectivity = true ); /** * Create a new entry in undo list of commands. * * @param aItemsList is the list of items modified by the command to undo/ * @param aTypeCommand is the command type (see enum UNDO_REDO). * @param aAppend set to true to add the item to the previous undo list. * @param aDirtyConnectivity set to true if the change can affect connectivity. */ void SaveCopyInUndoList( const PICKED_ITEMS_LIST& aItemsList, UNDO_REDO aTypeCommand, bool aAppend, bool aDirtyConnectivity = true ); /** * 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 */ void PutDataInPreviousState( PICKED_ITEMS_LIST* aList ); /** * Free the undo or redo list from \a aList element. * * - Wrappers are deleted. * - data pointed by wrappers are deleted if not in use in schematic * i.e. when they are copy of a schematic item or they are no more in use (DELETED) * * @param whichList is the UNDO_REDO_CONTAINER to clear * @param aItemCount is the count of items to remove. Use < 0 to remove all items from * the beginning of the list. */ void ClearUndoORRedoList( UNDO_REDO_LIST whichList, int aItemCount = -1 ) override; /** * Clone \a aItem and owns that clone in this container. */ void SaveCopyForRepeatItem( const SCH_ITEM* aItem ); void AddCopyForRepeatItem( const SCH_ITEM* aItem ); /** * Return the items which are to be repeated with the insert key. Such objects are owned by * this container, and must be cloned. */ const std::vector>& GetRepeatItems() const { return m_items_to_repeat; } EDA_ITEM* GetItem( const KIID& aId ) const override; /** * Perform an undo of the last edit WITHOUT logging a corresponding redo. Used to cancel * an in-progress operation. */ void RollbackSchematicFromUndo(); /** * Create a library \a aFileName that contains all symbols 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 ); /** * Plot or print the current sheet to the clipboard. */ virtual void PrintPage( const RENDER_SETTINGS* aSettings ) override; 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 is the wxEXEC_* flags, see wxExecute documentation. */ 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 is the wxEXEC_* flags, see wxExecute documentation. */ void ClearExecFlags( const int aFlags ) { m_exec_flags &= ~( aFlags ); } wxString GetNetListerCommand() const { return m_netListerCommand; } /** * Generate the connection data for the entire schematic hierarchy. */ void RecalculateConnections( SCH_COMMIT* aCommit, SCH_CLEANUP_FLAGS aCleanupFlags ); /** * Called after the preferences dialog is run. */ void CommonSettingsChanged( bool aEnvVarsChanged, bool aTextVarsChanged ) override; void UpdateNetHighlightStatus(); void ShowChangedLanguage() override; void SetScreen( BASE_SCREEN* aScreen ) override; const BOX2I GetDocumentExtents( bool aIncludeAllVisible = true ) const override; int GetSchematicJunctionSize(); void FocusOnItem( SCH_ITEM* aItem ); bool IsSyncingSelection() { return m_syncingPcbToSchSelection; } /** * Update a schematic symbol from a LIB_SYMBOL. * * This is typically called from the symbol editor when editing symbols in place. * * @param aSymbol is the new symbol data. * @param aSchematicSymbolUUID refers to the schematic symbol to update. */ void SaveSymbolToSchematic( const LIB_SYMBOL& aSymbol, const KIID& aSchematicSymbolUUID ); /** * Update the schematic's page reference map for all global labels, and refresh the labels * so that they are redrawn with up-to-date references. */ void RecomputeIntersheetRefs(); void ShowAllIntersheetRefs( bool aShow ); /** * This overloaded version checks if the auto save master file "#auto_saved_files#" exists * and recovers all of the schematic files listed in it. * * @param aFileName is the project auto save master file name. */ virtual void CheckForAutoSaveFile( const wxFileName& aFileName ) override; /** * Toggle the show/hide state of the left side schematic navigation panel */ void ToggleSchematicHierarchy(); /** * Toggle the show/hide state of Search pane */ void ToggleSearch(); void ToggleProperties() override; DIALOG_BOOK_REPORTER* GetSymbolDiffDialog(); DIALOG_ERC* GetErcDialog(); DIALOG_SYMBOL_FIELDS_TABLE* GetSymbolFieldsTableDialog(); wxTreeCtrl* GetNetNavigator() { return m_netNavigator; } const SCH_ITEM* GetSelectedNetNavigatorItem() const; /** * @return the name of the wxAuiPaneInfo managing the Hierarchy Navigator panel */ static const wxString SchematicHierarchyPaneName() { return wxT( "SchematicHierarchy" ); } /** * @return the name of the wxAuiPaneInfo managing the Search panel */ static const wxString SearchPaneName() { return wxT( "Search" ); } /** * Add \a aListener to post #EDA_EVT_SCHEMATIC_CHANGED command events to. * * @warning The caller is reponsible for removing any listeners that are no long valid. * * @note This only gets called when the schematic editor is in stand alone mode. Changing * projects in the project manager closes the schematic editor when a new project is * loaded. */ void AddSchematicChangeListener( wxEvtHandler* aListener ); /** * Remove \a aListener to from the schematic changed listener list. */ void RemoveSchematicChangeListener( wxEvtHandler* aListener ); static const wxString NetNavigatorPaneName() { return wxS( "NetNavigator" ); } void RefreshNetNavigator( const NET_NAVIGATOR_ITEM_DATA* aSelection = nullptr ); void MakeNetNavigatorNode( const wxString& aNetName, wxTreeItemId aParentId, const NET_NAVIGATOR_ITEM_DATA* aSelection = nullptr ); void SelectNetNavigatorItem( const NET_NAVIGATOR_ITEM_DATA* aSelection = nullptr ); void ToggleNetNavigator(); DECLARE_EVENT_TABLE() protected: /** * Save the schematic files that have been modified and not yet saved. * * @return true if the auto save was successful otherwise false. */ bool doAutoSave() override; void doReCreateMenuBar() override; /** * Send the KiCad netlist over to CVPCB. */ void sendNetlistToCvpcb(); void onSize( wxSizeEvent& aEvent ); void saveProjectSettings() override; void onCloseSymbolDiffDialog( wxCommandEvent& aEvent ); void onCloseErcDialog( wxCommandEvent& aEvent ); void onCloseSymbolFieldsTableDialog( wxCommandEvent& aEvent ); void unitsChangeRefresh() override; private: // Called when resizing the Hierarchy Navigator panel void OnResizeHierarchyNavigator( wxSizeEvent& aEvent ); void onResizeNetNavigator( wxSizeEvent& aEvent ); // Sets up the tool framework void setupTools(); void OnExit( wxCommandEvent& event ); void OnLoadFile( wxCommandEvent& event ); void OnAppendProject( wxCommandEvent& event ); void OnImportProject( wxCommandEvent& event ); void OnClearFileHistory( wxCommandEvent& aEvent ); bool canCloseWindow( wxCloseEvent& aCloseEvent ) override; void doCloseWindow() override; /** * 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(); /** * Initialize the zoom value of the current screen and mark the screen as zoom-initialized. */ void initScreenZoom(); /** * Verify that the symbol library links \a aSheet and all of its child sheets have * been remapped to the symbol library table. * * @param aSheet is the #SCH_SHEET object to test. * * @return true if \a aSheet and its child sheets have not been remapped. */ bool checkForNoFullyDefinedLibIds( SCH_SHEET* aSheet ); /** * 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 */ void importFile( const wxString& aFileName, int aFileType ); /** * Save \a aSheet to a schematic file. * * @param aSheet is the #SCH_SHEET object to save. * @param aSavePath is the full path of the destination file * @return True if the file has been saved. */ bool saveSchematicFile( SCH_SHEET* aSheet, const wxString& aSavePath ); /** * Fill a map of uuid -> reference from the currently loaded schematic. * * @param aMap is a map to fill */ void mapExistingAnnotation( std::map& aMap ); bool updateAutoSaveFile(); const wxString& getAutoSaveFileName() const; wxTreeCtrl* createHighlightedNetNavigator(); void onNetNavigatorSelection( wxTreeEvent& aEvent ); void onNetNavigatorSelChanging( wxTreeEvent& aEvent ); private: // The schematic editor control class should be able to access some internal // functions of the editor frame. friend class SCH_EDITOR_CONTROL; friend class SCH_FIND_REPLACE_TOOL; SCHEMATIC* m_schematic; ///< The currently loaded schematic wxString m_highlightedConn; ///< The highlighted net or bus or empty string. wxPageSetupDialogData m_pageSetupData; std::vector> m_items_to_repeat; ///< For the repeat-last-item cmd 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. DIALOG_SCH_FIND* m_findReplaceDialog; DIALOG_ERC* m_ercDialog; DIALOG_BOOK_REPORTER* m_diffSymbolDialog; HIERARCHY_PANE* m_hierarchy; DIALOG_SYMBOL_FIELDS_TABLE* m_symbolFieldsTableDialog; wxTreeCtrl* m_netNavigator; bool m_syncingPcbToSchSelection; // Recursion guard when synchronizing selection from PCB bool m_show_search; bool m_highlightedConnChanged; std::vector m_schematicChangeListeners; }; #endif // SCH_EDIT_FRAME_H