/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2017 CERN * Copyright (C) 2021-2023 KiCad Developers, see AUTHORS.txt for contributors. * * @author Alejandro GarcĂ­a Montoro * @author Maciej Suminski * @author Russell Oliver * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 3 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ #ifndef _SCH_EAGLE_PLUGIN_H_ #define _SCH_EAGLE_PLUGIN_H_ #include #include #include #include #include #include class EDA_TEXT; class KIWAY; class LINE_READER; class SCH_SCREEN; class SCH_SHEET; class SCH_BITMAP; class SCH_JUNCTION; class SCH_NO_CONNECT; class SCH_SHAPE; class SCH_LINE; class SCH_BUS_ENTRY_BASE; class SCH_TEXT; class SCH_GLOBALLABEL; class SCH_SYMBOL; class SCH_FIELD; class STRING_UTF8_MAP; class SCH_EAGLE_PLUGIN_CACHE; class LIB_SYMBOL; class SYMBOL_LIB; class LIB_SHAPE; class LIB_FIELD; class LIB_RECTANGLE; class LIB_POLYLINE; class LIB_PIN; class LIB_TEXT; class wxXmlNode; struct EAGLE_LIBRARY { wxString name; boost::ptr_map KiCadSymbols; std::unordered_map SymbolNodes; std::unordered_map GateUnit; std::unordered_map package; }; typedef boost::ptr_map EPART_LIST; /** * A #SCH_PLUGIN derivation for loading 6.x+ Eagle schematic files. * * As with all SCH_PLUGINs there is no UI dependencies i.e. windowing calls allowed. */ class SCH_EAGLE_PLUGIN : public SCH_PLUGIN { public: const double ARC_ACCURACY = SCH_IU_PER_MM * 0.01; // 0.01mm SCH_EAGLE_PLUGIN(); ~SCH_EAGLE_PLUGIN(); const wxString GetName() const override; void SetReporter( REPORTER* aReporter ) override { m_reporter = aReporter; } void SetProgressReporter( PROGRESS_REPORTER* aReporter ) override { m_progressReporter = aReporter; } const PLUGIN_FILE_DESC GetSchematicFileDesc() const override { return PLUGIN_FILE_DESC( _HKI( "Eagle XML schematic files" ), { "sch" } ); } /*const PLUGIN_FILE_DESC GetLibraryFileDesc() const override { return PLUGIN_FILE_DESC( _HKI( "Eagle XML library files" ), { "lbr" } ); }*/ bool CanReadSchematicFile( const wxString& aFileName ) const override; bool CanReadLibrary( const wxString& aFileName ) const override; int GetModifyHash() const override; SCH_SHEET* LoadSchematicFile( const wxString& aFileName, SCHEMATIC* aSchematic, SCH_SHEET* aAppendToMe = nullptr, const STRING_UTF8_MAP* aProperties = nullptr ) override; private: void checkpoint(); bool checkHeader( const wxString& aFileName ) const; void loadDrawing( wxXmlNode* aDrawingNode ); void loadLayerDefs( wxXmlNode* aLayers ); void loadSchematic( wxXmlNode* aSchematicNode ); void loadSheet( wxXmlNode* aSheetNode, int sheetcount ); void loadInstance( wxXmlNode* aInstanceNode ); EAGLE_LIBRARY* loadLibrary( wxXmlNode* aLibraryNode, EAGLE_LIBRARY* aEagleLib ); void countNets( wxXmlNode* aSchematicNode ); /// Move any labels on the wire to the new end point of the wire. void moveLabels( SCH_LINE* aWire, const VECTOR2I& aNewEndPoint ); /// This function finds best way to place a bus entry symbol for when an Eagle wire segment /// ends on an Eagle bus segment. void addBusEntries(); /// Return the matching layer or return LAYER_NOTES SCH_LAYER_ID kiCadLayer( int aEagleLayer ); std::pair findNearestLinePoint( const VECTOR2I& aPoint, const std::vector& aLines ) const; void loadSegments( wxXmlNode* aSegmentsNode, const wxString& aNetName, const wxString& aNetClass ); SCH_SHAPE* loadPolyLine( wxXmlNode* aPolygonNode ); SCH_ITEM* loadWire( wxXmlNode* aWireNode, SEG& endpoints ); SCH_SHAPE* loadCircle( wxXmlNode* aCircleNode ); SCH_SHAPE* loadRectangle( wxXmlNode* aRectNode ); SCH_TEXT* loadLabel( wxXmlNode* aLabelNode, const wxString& aNetName ); SCH_JUNCTION* loadJunction( wxXmlNode* aJunction ); SCH_TEXT* loadPlainText( wxXmlNode* aSchText ); void loadFrame( wxXmlNode* aFrameNode, std::vector& aItems ); bool loadSymbol( wxXmlNode* aSymbolNode, std::unique_ptr& aSymbol, EDEVICE* aDevice, int aGateNumber, const wxString& aGateName ); LIB_SHAPE* loadSymbolCircle( std::unique_ptr& aSymbol, wxXmlNode* aCircleNode, int aGateNumber ); LIB_SHAPE* loadSymbolRectangle( std::unique_ptr& aSymbol, wxXmlNode* aRectNode, int aGateNumber ); LIB_SHAPE* loadSymbolPolyLine( std::unique_ptr& aSymbol, wxXmlNode* aPolygonNode, int aGateNumber ); LIB_ITEM* loadSymbolWire( std::unique_ptr& aSymbol, wxXmlNode* aWireNode, int aGateNumber ); LIB_PIN* loadPin( std::unique_ptr& aSymbol, wxXmlNode*, EPIN* epin, int aGateNumber ); LIB_TEXT* loadSymbolText( std::unique_ptr& aSymbol, wxXmlNode* aLibText, int aGateNumber ); void loadFrame( wxXmlNode* aFrameNode, std::vector& aLines ); void loadTextAttributes( EDA_TEXT* aText, const ETEXT& aAttribs ) const; void loadFieldAttributes( LIB_FIELD* aField, const LIB_TEXT* aText ) const; ///< Move net labels that are detached from any wire to the nearest wire void adjustNetLabels(); /** * Translate an Eagle-style bus name into one that is KiCad-compatible. * * For vector buses such as A[7..0] this has no impact. For group buses, we translate from * Eagle-style to KiCad-style. * * @param aEagleName is the name of the bus from the Eagle schematic */ wxString translateEagleBusName( const wxString& aEagleName ) const; wxString getLibName(); wxFileName getLibFileName(); ///< Checks if there are other wires or pins at the position of the tested pin bool checkConnections( const SCH_SYMBOL* aSymbol, const LIB_PIN* aPin ) const; /** * Create net labels to emulate implicit connections in Eagle. * * Each named power input pin creates an implicit connection in Eagle. To emulate this behavior * one needs to attach global net labels to the mentioned pins. This is is also expected for the * units that are not instantiated in the schematics, therefore such units need to be stored * in order to create them at later stage. * * @param aSymbol is the symbol to process. * @param aScreen is the screen where net labels should be added. * @param aUpdateSet decides whether the missing units data should be updated. */ void addImplicitConnections( SCH_SYMBOL* aSymbol, SCH_SCREEN* aScreen, bool aUpdateSet ); bool netHasPowerDriver( SCH_LINE* aLine, const wxString& aNetName ) const; SCH_SHEET* getCurrentSheet(); SCH_SCREEN* getCurrentScreen(); // Describe missing units containing pins creating implicit connections // (named power pins in Eagle). struct EAGLE_MISSING_CMP { EAGLE_MISSING_CMP( const SCH_SYMBOL* aSymbol = nullptr ) : cmp( aSymbol ) { } ///< Link to the parent symbol const SCH_SYMBOL* cmp; /* Map of the symbol units: for each unit there is a flag saying * whether the unit needs to be instantiated with appropriate net labels to * emulate implicit connections as is done in Eagle. */ std::map units; }; REPORTER* m_reporter; ///< Reporter for warnings/errors ///< Map references to missing symbol units data std::map m_missingCmps; SCH_SHEET* m_rootSheet; ///< The root sheet of the schematic being loaded SCH_SHEET_PATH m_sheetPath; ///< The current sheet path of the schematic being loaded. wxString m_version; ///< Eagle file version. wxFileName m_filename; wxString m_libName; ///< Library name to save symbols SCHEMATIC* m_schematic; ///< Passed to Load(), the schematic object being loaded EPART_MAP m_partlist; std::map m_eagleLibs; std::unordered_map m_userValue; ///< deviceset/@uservalue for device. SCH_PLUGIN::SCH_PLUGIN_RELEASER m_pi; ///< PI to create KiCad symbol library. std::unique_ptr m_properties; ///< Library plugin properties. PROGRESS_REPORTER* m_progressReporter; ///< optional; may be nullptr unsigned m_doneCount; unsigned m_lastProgressCount; unsigned m_totalCount; ///< for progress reporting std::map m_netCounts; std::map m_layerMap; std::map m_powerPorts; ///< map from symbol reference to global ///< label equivalent ///< Wire intersection points, used for quick checks whether placing a net label in a particular ///< place would short two nets. std::vector m_wireIntersections; ///< Wires and labels of a single connection (segment in Eagle nomenclature) struct SEG_DESC { ///< Test if a particular label is attached to any of the stored segments const SEG* LabelAttached( const SCH_TEXT* aLabel ) const; std::vector labels; std::vector segs; }; ///< Segments representing wires for intersection checking std::vector m_segments; ///< Nets as defined in the sections of an Eagle schematic file. std::map m_nets; ///< Positions of pins and wire endings mapped to its parent std::map> m_connPoints; }; #endif // _SCH_EAGLE_PLUGIN_H_