/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2011 Jean-Pierre Charras, * Copyright (C) 2013-2016 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 1992-2018 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 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 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void FOOTPRINT_INFO_IMPL::load() { FP_LIB_TABLE* fptable = m_owner->GetTable(); wxASSERT( fptable ); const MODULE* footprint = fptable->GetEnumeratedFootprint( m_nickname, m_fpname ); if( footprint == NULL ) // Should happen only with malformed/broken libraries { m_pad_count = 0; m_unique_pad_count = 0; } else { m_pad_count = footprint->GetPadCount( DO_NOT_INCLUDE_NPTH ); m_unique_pad_count = footprint->GetUniquePadCount( DO_NOT_INCLUDE_NPTH ); m_keywords = footprint->GetKeywords(); m_doc = footprint->GetDescription(); } m_loaded = true; } bool FOOTPRINT_LIST_IMPL::CatchErrors( const std::function& aFunc ) { try { aFunc(); } catch( const IO_ERROR& ioe ) { m_errors.move_push( std::make_unique( ioe ) ); return false; } catch( const std::exception& se ) { // This is a round about way to do this, but who knows what THROW_IO_ERROR() // may be tricked out to do someday, keep it in the game. try { THROW_IO_ERROR( se.what() ); } catch( const IO_ERROR& ioe ) { m_errors.move_push( std::make_unique( ioe ) ); } return false; } return true; } void FOOTPRINT_LIST_IMPL::loader_job() { wxString nickname; while( m_queue_in.pop( nickname ) && !m_cancelled ) { CatchErrors( [this, &nickname]() { m_lib_table->PrefetchLib( nickname ); m_queue_out.push( nickname ); } ); m_count_finished.fetch_add( 1 ); if( m_progress_reporter ) m_progress_reporter->AdvanceProgress(); } } bool FOOTPRINT_LIST_IMPL::ReadFootprintFiles( FP_LIB_TABLE* aTable, const wxString* aNickname, PROGRESS_REPORTER* aProgressReporter ) { long long int generatedTimestamp = aTable->GenerateTimestamp( aNickname ); if( generatedTimestamp == m_list_timestamp ) return true; m_progress_reporter = aProgressReporter; m_cancelled = false; FOOTPRINT_ASYNC_LOADER loader; loader.SetList( this ); loader.Start( aTable, aNickname ); if( m_progress_reporter ) { m_progress_reporter->SetMaxProgress( m_queue_in.size() ); m_progress_reporter->Report( _( "Fetching Footprint Libraries" ) ); } while( !m_cancelled && (int)m_count_finished.load() < m_loader->m_total_libs ) { if( m_progress_reporter && !m_progress_reporter->KeepRefreshing() ) m_cancelled = true; wxMilliSleep( 20 ); } if( m_cancelled ) { loader.Abort(); } else { if( m_progress_reporter ) { m_progress_reporter->AdvancePhase(); m_progress_reporter->SetMaxProgress( m_queue_out.size() ); m_progress_reporter->Report( _( "Loading Footprints" ) ); } loader.Join(); if( m_progress_reporter ) m_progress_reporter->AdvancePhase(); } if( m_cancelled ) m_list_timestamp = 0; // God knows what we got before we were cancelled else m_list_timestamp = generatedTimestamp; return m_errors.empty(); } void FOOTPRINT_LIST_IMPL::StartWorkers( FP_LIB_TABLE* aTable, wxString const* aNickname, FOOTPRINT_ASYNC_LOADER* aLoader, unsigned aNThreads ) { m_loader = aLoader; m_lib_table = aTable; // Clear data before reading files m_count_finished.store( 0 ); m_errors.clear(); m_list.clear(); m_threads.clear(); m_queue_in.clear(); m_queue_out.clear(); if( aNickname ) m_queue_in.push( *aNickname ); else { for( auto const& nickname : aTable->GetLogicalLibs() ) m_queue_in.push( nickname ); } m_loader->m_total_libs = m_queue_in.size(); for( unsigned i = 0; i < aNThreads; ++i ) { m_threads.push_back( std::thread( &FOOTPRINT_LIST_IMPL::loader_job, this ) ); } } void FOOTPRINT_LIST_IMPL::StopWorkers() { std::lock_guard lock1( m_join ); // To safely stop our workers, we set the cancellation flag (they will each // exit on their next safe loop location when this is set). Then we need to wait // for all threads to finish as closing the implementation will free the queues // that the threads write to. for( auto& i : m_threads ) i.join(); m_threads.clear(); m_queue_in.clear(); m_count_finished.store( 0 ); // If we have cancelled in the middle of a load, clear our timestamp to re-load next time if( m_cancelled ) m_list_timestamp = 0; } bool FOOTPRINT_LIST_IMPL::JoinWorkers() { { std::lock_guard lock1( m_join ); for( auto& i : m_threads ) i.join(); m_threads.clear(); m_queue_in.clear(); m_count_finished.store( 0 ); } size_t total_count = m_queue_out.size(); LOCALE_IO toggle_locale; // Parse the footprints in parallel. WARNING! This requires changing the locale, which is // GLOBAL. It is only threadsafe to construct the LOCALE_IO before the threads are created, // destroy it after they finish, and block the main (GUI) thread while they work. Any deviation // from this will cause nasal demons. // // TODO: blast LOCALE_IO into the sun SYNC_QUEUE> queue_parsed; std::vector threads; for( size_t ii = 0; ii < std::thread::hardware_concurrency() + 1; ++ii ) { threads.push_back( std::thread( [this, &queue_parsed]() { wxString nickname; while( this->m_queue_out.pop( nickname ) && !m_cancelled ) { wxArrayString fpnames; try { m_lib_table->FootprintEnumerate( fpnames, nickname, false ); } catch( const IO_ERROR& ioe ) { m_errors.move_push( std::make_unique( ioe ) ); } catch( const std::exception& se ) { // This is a round about way to do this, but who knows what THROW_IO_ERROR() // may be tricked out to do someday, keep it in the game. try { THROW_IO_ERROR( se.what() ); } catch( const IO_ERROR& ioe ) { m_errors.move_push( std::make_unique( ioe ) ); } } for( unsigned jj = 0; jj < fpnames.size() && !m_cancelled; ++jj ) { wxString fpname = fpnames[jj]; FOOTPRINT_INFO* fpinfo = new FOOTPRINT_INFO_IMPL( this, nickname, fpname ); queue_parsed.move_push( std::unique_ptr( fpinfo ) ); } if( m_progress_reporter ) m_progress_reporter->AdvanceProgress(); m_count_finished.fetch_add( 1 ); } } ) ); } while( !m_cancelled && (size_t)m_count_finished.load() < total_count ) { if( m_progress_reporter && !m_progress_reporter->KeepRefreshing() ) m_cancelled = true; wxMilliSleep( 30 ); } for( auto& thr : threads ) thr.join(); std::unique_ptr fpi; while( queue_parsed.pop( fpi ) ) m_list.push_back( std::move( fpi ) ); std::sort( m_list.begin(), m_list.end(), []( std::unique_ptr const& lhs, std::unique_ptr const& rhs ) -> bool { return *lhs < *rhs; } ); return m_errors.empty(); } FOOTPRINT_LIST_IMPL::FOOTPRINT_LIST_IMPL() : m_loader( nullptr ), m_count_finished( 0 ), m_list_timestamp( 0 ), m_progress_reporter( nullptr ), m_cancelled( false ) { } FOOTPRINT_LIST_IMPL::~FOOTPRINT_LIST_IMPL() { StopWorkers(); } void FOOTPRINT_LIST_IMPL::WriteCacheToFile( wxTextFile* aCacheFile ) { if( aCacheFile->Exists() ) { aCacheFile->Open(); aCacheFile->Clear(); } else { aCacheFile->Create(); } aCacheFile->AddLine( wxString::Format( "%lld", m_list_timestamp ) ); for( auto& fpinfo : m_list ) { aCacheFile->AddLine( fpinfo->GetLibNickname() ); aCacheFile->AddLine( fpinfo->GetName() ); aCacheFile->AddLine( EscapeString( fpinfo->GetDescription() ) ); aCacheFile->AddLine( EscapeString( fpinfo->GetKeywords() ) ); aCacheFile->AddLine( wxString::Format( "%d", fpinfo->GetOrderNum() ) ); aCacheFile->AddLine( wxString::Format( "%u", fpinfo->GetPadCount() ) ); aCacheFile->AddLine( wxString::Format( "%u", fpinfo->GetUniquePadCount() ) ); } aCacheFile->Write(); aCacheFile->Close(); } void FOOTPRINT_LIST_IMPL::ReadCacheFromFile( wxTextFile* aCacheFile ) { m_list_timestamp = 0; m_list.clear(); try { if( aCacheFile->Exists() ) { aCacheFile->Open(); aCacheFile->GetFirstLine().ToLongLong( &m_list_timestamp ); while( aCacheFile->GetCurrentLine() + 6 < aCacheFile->GetLineCount() ) { wxString libNickname = aCacheFile->GetNextLine(); wxString name = aCacheFile->GetNextLine(); wxString description = UnescapeString( aCacheFile->GetNextLine() ); wxString keywords = UnescapeString( aCacheFile->GetNextLine() ); int orderNum = wxAtoi( aCacheFile->GetNextLine() ); unsigned int padCount = (unsigned) wxAtoi( aCacheFile->GetNextLine() ); unsigned int uniquePadCount = (unsigned) wxAtoi( aCacheFile->GetNextLine() ); auto* fpinfo = new FOOTPRINT_INFO_IMPL( libNickname, name, description, keywords, orderNum, padCount, uniquePadCount ); m_list.emplace_back( std::unique_ptr( fpinfo ) ); } } } catch( ... ) { // whatever went wrong, invalidate the cache m_list_timestamp = 0; } // Sanity check: an empty list is very unlikely to be correct. if( m_list.size() == 0 ) m_list_timestamp = 0; if( aCacheFile->IsOpened() ) aCacheFile->Close(); }