/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2010-12 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2012 Wayne Stambaugh * Copyright (C) 2012 KiCad Developers, see change_log.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 */ #include // wxExpandEnvVars() #include #include #include #include #include #include #include #include #include #include #include #include using namespace FP_LIB_TABLE_T; /** * Definition for enabling and disabling footprint library trace output. See the * wxWidgets documentation on using the WXTRACE environment variable. */ static const wxString traceFpLibTable( wxT( "KicadFpLibTable" ) ); /// The footprint library table name used when no project file is passed to Pcbnew or CvPcb. /// This is used temporarily to store the project specific library table until the project /// file being edited is save. It is then moved to the file fp-lib-table in the folder where /// the project file is saved. static wxString defaultProjectFileName( wxT( "prj-fp-lib-table" ) ); static wxString defaultFileName( wxT( "fp-lib-table" ) ); void FP_LIB_TABLE::ROW::SetType( const wxString& aType ) { type = IO_MGR::EnumFromStr( aType ); if( IO_MGR::PCB_FILE_T( -1 ) == type ) type = IO_MGR::KICAD; } void FP_LIB_TABLE::ROW::SetFullURI( const wxString& aFullURI ) { uri_user = aFullURI; #if !FP_LATE_ENVVAR uri_expanded = FP_LIB_TABLE::ExpandSubstitutions( aFullURI ); #endif } const wxString FP_LIB_TABLE::ROW::GetFullURI( bool aSubstituted ) const { if( aSubstituted ) { #if !FP_LATE_ENVVAR // early expansion return uri_expanded; #else // late expansion return FP_LIB_TABLE::ExpandSubstitutions( uri_user ); #endif } else return uri_user; } FP_LIB_TABLE::ROW::ROW( const ROW& a ) : nickName( a.nickName ), type( a.type ), options( a.options ), description( a.description ), properties( 0 ) { // may call ExpandSubstitutions() SetFullURI( a.uri_user ); if( a.properties ) properties = new PROPERTIES( *a.properties ); } FP_LIB_TABLE::ROW& FP_LIB_TABLE::ROW::operator=( const ROW& r ) { nickName = r.nickName; type = r.type; options = r.options; description = r.description; properties = r.properties ? new PROPERTIES( *r.properties ) : NULL; // may call ExpandSubstitutions() SetFullURI( r.uri_user ); // Do not copy the PLUGIN, it is lazily created. Delete any existing // destination plugin. setPlugin( NULL ); return *this; } bool FP_LIB_TABLE::ROW::operator==( const ROW& r ) const { return nickName == r.nickName && uri_user == r.uri_user && type == r.type && options == r.options && description == r.description ; } FP_LIB_TABLE::FP_LIB_TABLE( FP_LIB_TABLE* aFallBackTable ) : fallBack( aFallBackTable ) { // not copying fall back, simply search aFallBackTable separately // if "nickName not found". } wxArrayString FP_LIB_TABLE::FootprintEnumerate( const wxString& aNickname ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); return row->plugin->FootprintEnumerate( row->GetFullURI( true ), row->GetProperties() ); } MODULE* FP_LIB_TABLE::FootprintLoad( const wxString& aNickname, const wxString& aFootprintName ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); MODULE* ret = row->plugin->FootprintLoad( row->GetFullURI( true ), aFootprintName, row->GetProperties() ); // The library cannot know its own name, because it might have been renamed or moved. // Therefore footprints cannot know their own library nickname when residing in // a footprint library. // Only at this API layer can we tell the footprint about its actual library nickname. if( ret ) { // remove "const"-ness, I really do want to set nickname without // having to copy the FPID and its two strings, twice each. FPID& fpid = (FPID&) ret->GetFPID(); // Catch any misbehaving plugin, which should be setting internal footprint name properly: wxASSERT( aFootprintName == FROM_UTF8( fpid.GetFootprintName().c_str() ) ); // and clearing nickname wxASSERT( !fpid.GetLibNickname().size() ); fpid.SetLibNickname( row->GetNickName() ); } return ret; } FP_LIB_TABLE::SAVE_T FP_LIB_TABLE::FootprintSave( const wxString& aNickname, const MODULE* aFootprint, bool aOverwrite ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); if( !aOverwrite ) { // Try loading the footprint to see if it already exists, caller wants overwrite // protection, which is atypical, not the default. wxString fpname = FROM_UTF8( aFootprint->GetFPID().GetFootprintName().c_str() ); std::auto_ptr m( row->plugin->FootprintLoad( row->GetFullURI( true ), fpname, row->GetProperties() ) ); if( m.get() ) return SAVE_SKIPPED; } row->plugin->FootprintSave( row->GetFullURI( true ), aFootprint, row->GetProperties() ); return SAVE_OK; } void FP_LIB_TABLE::FootprintDelete( const wxString& aNickname, const wxString& aFootprintName ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); return row->plugin->FootprintDelete( row->GetFullURI( true ), aFootprintName, row->GetProperties() ); } bool FP_LIB_TABLE::IsFootprintLibWritable( const wxString& aNickname ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); return row->plugin->IsFootprintLibWritable( row->GetFullURI( true ) ); } void FP_LIB_TABLE::FootprintLibDelete( const wxString& aNickname ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); row->plugin->FootprintLibDelete( row->GetFullURI( true ), row->GetProperties() ); } void FP_LIB_TABLE::FootprintLibCreate( const wxString& aNickname ) { const ROW* row = FindRow( aNickname ); wxASSERT( (PLUGIN*) row->plugin ); row->plugin->FootprintLibCreate( row->GetFullURI( true ), row->GetProperties() ); } const wxString FP_LIB_TABLE::GetDescription( const wxString& aNickname ) { // use "no exception" form of find row: const ROW* row = findRow( aNickname ); if( row ) return row->description; else return wxEmptyString; } void FP_LIB_TABLE::Parse( FP_LIB_TABLE_LEXER* in ) throw( IO_ERROR, PARSE_ERROR ) { /* (fp_lib_table (lib (name NICKNAME)(descr DESCRIPTION)(type TYPE)(full_uri FULL_URI)(options OPTIONS)) : ) Elements after (name) are order independent. */ T tok; // This table may be nested within a larger s-expression, or not. // Allow for parser of that optional containing s-epression to have looked ahead. if( in->CurTok() != T_fp_lib_table ) { in->NeedLEFT(); if( ( tok = in->NextTok() ) != T_fp_lib_table ) in->Expecting( T_fp_lib_table ); } while( ( tok = in->NextTok() ) != T_RIGHT ) { ROW row; // reconstructed for each row in input stream. if( tok == T_EOF ) in->Expecting( T_RIGHT ); if( tok != T_LEFT ) in->Expecting( T_LEFT ); // in case there is a "row integrity" error, tell where later. int lineNum = in->CurLineNumber(); int offset = in->CurOffset(); if( ( tok = in->NextTok() ) != T_lib ) in->Expecting( T_lib ); // (name NICKNAME) in->NeedLEFT(); if( ( tok = in->NextTok() ) != T_name ) in->Expecting( T_name ); in->NeedSYMBOLorNUMBER(); row.SetNickName( in->FromUTF8() ); in->NeedRIGHT(); // After (name), remaining (lib) elements are order independent, and in // some cases optional. bool sawType = false; bool sawOpts = false; bool sawDesc = false; bool sawUri = false; while( ( tok = in->NextTok() ) != T_RIGHT ) { if( tok == T_EOF ) in->Unexpected( T_EOF ); if( tok != T_LEFT ) in->Expecting( T_LEFT ); tok = in->NeedSYMBOLorNUMBER(); switch( tok ) { case T_uri: if( sawUri ) in->Duplicate( tok ); sawUri = true; in->NeedSYMBOLorNUMBER(); row.SetFullURI( in->FromUTF8() ); break; case T_type: if( sawType ) in->Duplicate( tok ); sawType = true; in->NeedSYMBOLorNUMBER(); row.SetType( in->FromUTF8() ); break; case T_options: if( sawOpts ) in->Duplicate( tok ); sawOpts = true; in->NeedSYMBOLorNUMBER(); row.SetOptions( in->FromUTF8() ); break; case T_descr: if( sawDesc ) in->Duplicate( tok ); sawDesc = true; in->NeedSYMBOLorNUMBER(); row.SetDescr( in->FromUTF8() ); break; default: in->Unexpected( tok ); } in->NeedRIGHT(); } if( !sawType ) in->Expecting( T_type ); if( !sawUri ) in->Expecting( T_uri ); // all nickNames within this table fragment must be unique, so we do not // use doReplace in InsertRow(). (However a fallBack table can have a // conflicting nickName and ours will supercede that one since in // FindLib() we search this table before any fall back.) if( !InsertRow( row ) ) { wxString msg = wxString::Format( _( "'%s' is a duplicate footprint library nickName" ), GetChars( row.nickName ) ); THROW_PARSE_ERROR( msg, in->CurSource(), in->CurLine(), lineNum, offset ); } } } void FP_LIB_TABLE::Format( OUTPUTFORMATTER* out, int nestLevel ) const throw( IO_ERROR ) { out->Print( nestLevel, "(fp_lib_table\n" ); for( ROWS_CITER it = rows.begin(); it != rows.end(); ++it ) it->Format( out, nestLevel+1 ); out->Print( nestLevel, ")\n" ); } void FP_LIB_TABLE::ROW::Format( OUTPUTFORMATTER* out, int nestLevel ) const throw( IO_ERROR ) { out->Print( nestLevel, "(lib (name %s)(type %s)(uri %s)(options %s)(descr %s))\n", out->Quotew( GetNickName() ).c_str(), out->Quotew( GetType() ).c_str(), out->Quotew( GetFullURI() ).c_str(), out->Quotew( GetOptions() ).c_str(), out->Quotew( GetDescr() ).c_str() ); } void FP_LIB_TABLE::Save( const wxFileName& aPath ) const throw( IO_ERROR ) { wxFileName fn = GetProjectFileName( aPath ); wxLogTrace( traceFpLibTable, wxT( "Saving footprint libary table <%s>." ), GetChars( fn.GetFullPath() ) ); FILE_OUTPUTFORMATTER sf( fn.GetFullPath() ); Format( &sf, 0 ); } #define OPT_SEP '|' ///< options separator character PROPERTIES* FP_LIB_TABLE::ParseOptions( const std::string& aOptionsList ) { if( aOptionsList.size() ) { const char* cp = &aOptionsList[0]; const char* end = cp + aOptionsList.size(); PROPERTIES props; std::string pair; // Parse all name=value pairs while( cp < end ) { pair.clear(); // Skip leading white space. while( cp < end && isspace( *cp ) ) ++cp; // Find the end of pair/field while( cp < end ) { if( *cp=='\\' && cp+1 FP_LIB_TABLE::GetLogicalLibs() { // Only return unique logical library names. Use std::set::insert() to // quietly reject any duplicates, which can happen when encountering a duplicate // nickname from one of the fall back table(s). std::set unique; std::vector ret; const FP_LIB_TABLE* cur = this; do { for( ROWS_CITER it = cur->rows.begin(); it!=cur->rows.end(); ++it ) { unique.insert( it->nickName ); } } while( ( cur = cur->fallBack ) != 0 ); // return a sorted, unique set of nicknames in a std::vector to caller for( std::set::const_iterator it = unique.begin(); it!=unique.end(); ++it ) ret.push_back( *it ); return ret; } FP_LIB_TABLE::ROW* FP_LIB_TABLE::findRow( const wxString& aNickName ) const { FP_LIB_TABLE* cur = (FP_LIB_TABLE*) this; do { cur->ensureIndex(); INDEX_CITER it = cur->nickIndex.find( aNickName ); if( it != cur->nickIndex.end() ) { return &cur->rows[it->second]; // found } // not found, search fall back table(s), if any } while( ( cur = cur->fallBack ) != 0 ); return 0; // not found } const FP_LIB_TABLE::ROW* FP_LIB_TABLE::FindRowByURI( const wxString& aURI ) { FP_LIB_TABLE* cur = this; do { cur->ensureIndex(); for( unsigned i = 0; i < cur->rows.size(); i++ ) { wxString uri = cur->rows[i].GetFullURI( true ); if( wxFileName::GetPathSeparator() == wxChar( '\\' ) && uri.Find( wxChar( '/' ) ) >= 0 ) uri.Replace( wxT( "/" ), wxT( "\\" ) ); if( (wxFileName::IsCaseSensitive() && uri == aURI) || (!wxFileName::IsCaseSensitive() && uri.Upper() == aURI.Upper() ) ) { return &cur->rows[i]; // found } } // not found, search fall back table(s), if any } while( ( cur = cur->fallBack ) != 0 ); return 0; // not found } bool FP_LIB_TABLE::InsertRow( const ROW& aRow, bool doReplace ) { ensureIndex(); INDEX_CITER it = nickIndex.find( aRow.nickName ); if( it == nickIndex.end() ) { rows.push_back( aRow ); nickIndex.insert( INDEX_VALUE( aRow.nickName, rows.size() - 1 ) ); return true; } if( doReplace ) { rows[it->second] = aRow; return true; } return false; } const FP_LIB_TABLE::ROW* FP_LIB_TABLE::FindRow( const wxString& aNickname ) throw( IO_ERROR ) { ROW* row = findRow( aNickname ); if( !row ) { wxString msg = wxString::Format( _( "lib table contains no logical lib '%s'" ), GetChars( aNickname ) ); THROW_IO_ERROR( msg ); } if( !row->plugin ) row->setPlugin( IO_MGR::PluginFind( row->type ) ); return row; } const wxString FP_LIB_TABLE::ExpandSubstitutions( const wxString& aString ) { // We reserve the right to do this another way, by providing our own member // function. return wxExpandEnvVars( aString ); } bool FP_LIB_TABLE::IsEmpty( bool aIncludeFallback ) { if( !aIncludeFallback || (fallBack == NULL) ) return rows.empty(); return fallBack->IsEmpty() && rows.empty(); } bool FP_LIB_TABLE::MissingLegacyLibs( const wxArrayString& aLibNames, wxString* aErrorMsg ) { bool retv = false; for( unsigned i = 0; i < aLibNames.GetCount(); i++ ) { wxFileName fn = wxFileName( wxEmptyString, aLibNames[i], LegacyFootprintLibPathExtension ); wxString legacyLibPath = wxGetApp().FindLibraryPath( fn ); if( legacyLibPath.IsEmpty() ) continue; if( FindRowByURI( legacyLibPath ) == 0 ) { retv = true; if( aErrorMsg ) *aErrorMsg += wxT( "\"" ) + legacyLibPath + wxT( "\"\n" ); } } return retv; } bool FP_LIB_TABLE::ConvertFromLegacy( NETLIST& aNetList, const wxArrayString& aLibNames, REPORTER* aReporter ) throw( IO_ERROR ) { wxString msg; FPID lastFPID; COMPONENT* component; MODULE* module = 0; bool retv = true; if( aNetList.IsEmpty() ) return true; aNetList.SortByFPID(); wxString libPath; wxFileName fn; PLUGIN::RELEASER pi( IO_MGR::PluginFind( IO_MGR::LEGACY ) ); for( unsigned ii = 0; ii < aNetList.GetCount(); ii++ ) { component = aNetList.GetComponent( ii ); // The footprint hasn't been assigned yet so ignore it. if( component->GetFPID().empty() ) continue; if( component->GetFPID() != lastFPID ) { module = NULL; for( unsigned ii = 0; ii < aLibNames.GetCount(); ii++ ) { fn = wxFileName( wxEmptyString, aLibNames[ii], LegacyFootprintLibPathExtension ); libPath = wxGetApp().FindLibraryPath( fn ); if( !libPath ) { if( aReporter ) { msg.Printf( _( "Cannot find footprint library file \"%s\" in any of the " "KiCad legacy library search paths.\n" ), GetChars( fn.GetFullPath() ) ); aReporter->Report( msg ); } retv = false; continue; } module = pi->FootprintLoad( libPath, FROM_UTF8( component->GetFPID().GetFootprintName().c_str() ) ); if( module ) { lastFPID = component->GetFPID(); break; } } } if( module == NULL ) { if( aReporter ) { msg.Printf( _( "Component `%s` footprint <%s> was not found in any legacy " "library.\n" ), GetChars( component->GetReference() ), GetChars( FROM_UTF8( component->GetFPID().Format().c_str() ) ) ); aReporter->Report( msg ); } // Clear the footprint assignment since the old library lookup method is no // longer valid. FPID emptyFPID; component->SetFPID( emptyFPID ); retv = false; continue; } else { wxString libNickname; FP_LIB_TABLE* cur = this; do { cur->ensureIndex(); for( unsigned i = 0; i < cur->rows.size(); i++ ) { wxString uri = cur->rows[i].GetFullURI( true ); if( wxFileName::GetPathSeparator() == wxChar( '\\' ) && uri.Find( wxChar( '/' ) ) >= 0 ) uri.Replace( wxT( "/"), wxT( "\\" ) ); if( uri == libPath ) { libNickname = cur->rows[i].GetNickName(); break; } } } while( ( cur = cur->fallBack ) != 0 && libNickname.IsEmpty() ); if( libNickname.IsEmpty() ) { if( aReporter ) { msg.Printf( _( "Component `%s` footprint <%s> legacy library path <%s > " "was not found in the footprint library table.\n" ), GetChars( component->GetReference() ), GetChars( FROM_UTF8( component->GetFPID().Format().c_str() ) ) ); aReporter->Report( msg ); } retv = false; } else { FPID newFPID = lastFPID; newFPID.SetLibNickname( libNickname ); if( !newFPID.IsValid() ) { msg.Printf( _( "Component `%s` FPID <%s> is not valid.\n" ), GetChars( component->GetReference() ), GetChars( FROM_UTF8( newFPID.Format().c_str() ) ) ); aReporter->Report( msg ); retv = false; } else { // The footprint name should already be set. component->SetFPID( newFPID ); } } } } return retv; } void FP_LIB_TABLE::SetProjectPathEnvVariable( const wxFileName& aPath ) { wxString path; if( !aPath.IsOk() || !aPath.DirExists() ) path = wxEmptyString; else path = aPath.GetPath(); wxLogTrace( traceFpLibTable, wxT( "Setting env %s to <%s>." ), GetChars( ProjectPathEnvVariableName() ), GetChars( path ) ); wxSetEnv( ProjectPathEnvVariableName(), path ); } const wxString FP_LIB_TABLE::ProjectPathEnvVariableName() { return wxT( "KIPRJMOD" ); } const wxString FP_LIB_TABLE::GlobalPathEnvVariableName() { return wxT( KISYSMOD ); } wxString FP_LIB_TABLE::GetProjectFileName( const wxFileName& aPath ) { wxFileName fn = aPath; // Set $KICAD_PRJ_PATH to user's configuration path if aPath is not set or does not exist. if( !aPath.IsOk() || !aPath.DirExists() ) { fn.AssignDir( wxStandardPaths::Get().GetUserConfigDir() ); #if defined( __WINDOWS__ ) fn.AppendDir( wxT( "kicad" ) ); #endif fn.SetName( defaultProjectFileName ); } else { fn.AssignDir( aPath.GetPath() ); fn.SetName( defaultFileName ); } wxLogTrace( traceFpLibTable, wxT( "Project specific footprint library table file <%s>." ), GetChars( fn.GetFullPath() ) ); return fn.GetFullPath(); } bool FP_LIB_TABLE::LoadGlobalTable( FP_LIB_TABLE& aTable ) throw (IO_ERROR, PARSE_ERROR ) { bool tableExists = true; wxFileName fn = GetGlobalTableFileName(); if( !fn.FileExists() ) { tableExists = false; if( !fn.DirExists() && !fn.Mkdir( 0x777, wxPATH_MKDIR_FULL ) ) { THROW_IO_ERROR( wxString::Format( _( "Cannot create global library table path <%s>." ), GetChars( fn.GetPath() ) ) ); } // Attempt to copy the default global file table from the KiCad template folder to // the users home configuration path. wxString fileName = wxGetApp().FindLibraryPath( defaultFileName ); // The fallback is to create an empty global footprint table for the user to populate. if( fileName.IsEmpty() || !::wxCopyFile( fileName, fn.GetFullPath(), false ) ) { FP_LIB_TABLE emptyTable; FILE_OUTPUTFORMATTER sf( fn.GetFullPath() ); emptyTable.Format( &sf, 0 ); } } FILE_LINE_READER reader( fn.GetFullPath() ); FP_LIB_TABLE_LEXER lexer( &reader ); aTable.Parse( &lexer ); return tableExists; } wxString FP_LIB_TABLE::GetGlobalTableFileName() { wxFileName fn; fn.SetPath( wxStandardPaths::Get().GetUserConfigDir() ); #if defined( __WINDOWS__ ) fn.AppendDir( wxT( "kicad" ) ); #endif fn.SetName( GetFileName() ); wxLogTrace( traceFpLibTable, wxT( "Global footprint library table file <%s>." ), GetChars( fn.GetFullPath() ) ); return fn.GetFullPath(); } const wxString& FP_LIB_TABLE::GetFileName() { return defaultFileName; } void FP_LIB_TABLE::Load( const wxFileName& aFileName, FP_LIB_TABLE* aFallBackTable ) throw( IO_ERROR ) { fallBack = aFallBackTable; // Empty footprint library tables are valid. if( aFileName.IsOk() && aFileName.FileExists() ) { FILE_LINE_READER reader( aFileName.GetFullPath() ); FP_LIB_TABLE_LEXER lexer( &reader ); Parse( &lexer ); } }