/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020-2023 KiCad Developers. * * 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 */ // WARNING - this Tom's crappy PNS hack tool code. Please don't complain about its quality // (unless you want to improve it). #include "pns_log_file.h" #include #include #include #include #include #include #include <../../tests/common/console_log.h> BOARD_CONNECTED_ITEM* PNS_LOG_FILE::ItemById( const PNS::LOGGER::EVENT_ENTRY& evt ) { BOARD_CONNECTED_ITEM* parent = nullptr; for( BOARD_CONNECTED_ITEM* item : m_board->AllConnectedItems() ) { if( item->m_Uuid == evt.uuid ) { parent = item; break; }; } return parent; } static const wxString readLine( FILE* f ) { char str[16384]; fgets( str, sizeof( str ) - 1, f ); return wxString( str ); } PNS_LOG_FILE::PNS_LOG_FILE() : m_mode( PNS::ROUTER_MODE::PNS_MODE_ROUTE_SINGLE ) { m_routerSettings.reset( new PNS::ROUTING_SETTINGS( nullptr, "" ) ); } std::shared_ptr parseShape( SHAPE_TYPE expectedType, wxStringTokenizer& aTokens ) { SHAPE_TYPE type = static_cast ( wxAtoi( aTokens.GetNextToken() ) ); if( type == SHAPE_TYPE::SH_SEGMENT ) { std::shared_ptr sh( new SHAPE_SEGMENT ); VECTOR2I a, b; a.x = wxAtoi( aTokens.GetNextToken() ); a.y = wxAtoi( aTokens.GetNextToken() ); b.x = wxAtoi( aTokens.GetNextToken() ); b.y = wxAtoi( aTokens.GetNextToken() ); int width = wxAtoi( aTokens.GetNextToken() ); sh->SetSeg( SEG( a, b )); sh->SetWidth( width ); return sh; } else if( type == SHAPE_TYPE::SH_CIRCLE ) { std::shared_ptr sh( new SHAPE_CIRCLE ); VECTOR2I a; a.x = wxAtoi( aTokens.GetNextToken() ); a.y = wxAtoi( aTokens.GetNextToken() ); int radius = wxAtoi( aTokens.GetNextToken() ); sh->SetCenter( a ); sh->SetRadius( radius ); return sh; } return nullptr; } bool PNS_LOG_FILE::parseCommonPnsProps( PNS::ITEM* aItem, const wxString& cmd, wxStringTokenizer& aTokens ) { if( cmd == wxS( "net" ) ) { aItem->SetNet( m_board->FindNet( aTokens.GetNextToken() ) ); return true; } else if( cmd == wxS( "layers" ) ) { int start = wxAtoi( aTokens.GetNextToken() ); int end = wxAtoi( aTokens.GetNextToken() ); aItem->SetLayers( LAYER_RANGE( start, end ) ); return true; } return false; } PNS::SEGMENT* PNS_LOG_FILE::parsePnsSegmentFromString( wxStringTokenizer& aTokens ) { PNS::SEGMENT* seg = new PNS::SEGMENT(); while( aTokens.CountTokens() ) { wxString cmd = aTokens.GetNextToken(); if( !parseCommonPnsProps( seg, cmd, aTokens ) ) { if( cmd == wxS( "shape" ) ) { std::shared_ptr sh = parseShape( SH_SEGMENT, aTokens ); if( !sh ) return nullptr; seg->SetShape( *static_cast( sh.get() ) ); } } } return seg; } PNS::VIA* PNS_LOG_FILE::parsePnsViaFromString( wxStringTokenizer& aTokens ) { PNS::VIA* via = new PNS::VIA(); while( aTokens.CountTokens() ) { wxString cmd = aTokens.GetNextToken(); if( !parseCommonPnsProps( via, cmd, aTokens ) ) { if( cmd == wxS( "shape" ) ) { std::shared_ptr sh = parseShape( SH_CIRCLE, aTokens ); if( !sh ) return nullptr; SHAPE_CIRCLE* sc = static_cast( sh.get() ); via->SetPos( sc->GetCenter() ); via->SetDiameter( 2 * sc->GetRadius() ); } else if( cmd == wxS( "drill" ) ) { via->SetDrill( wxAtoi( aTokens.GetNextToken() ) ); } } } return via; } PNS::ITEM* PNS_LOG_FILE::parseItemFromString( wxStringTokenizer& aTokens ) { wxString type = aTokens.GetNextToken(); if( type == wxS( "segment" ) ) return parsePnsSegmentFromString( aTokens ); else if( type == wxS( "via" ) ) return parsePnsViaFromString( aTokens ); return nullptr; } bool comparePnsItems( const PNS::ITEM* a , const PNS::ITEM* b ) { if( a->Kind() != b->Kind() ) return false; if( a->Net() != b->Net() ) return false; if( a->Layers() != b->Layers() ) return false; if( a->Kind() == PNS::ITEM::VIA_T ) { const PNS::VIA* va = static_cast(a); const PNS::VIA* vb = static_cast(b); if( va->Diameter() != vb->Diameter() ) return false; if( va->Drill() != vb->Drill() ) return false; if( va->Pos() != vb->Pos() ) return false; } else if ( a->Kind() == PNS::ITEM::SEGMENT_T ) { const PNS::SEGMENT* sa = static_cast(a); const PNS::SEGMENT* sb = static_cast(b); if( sa->Seg() != sb->Seg() ) return false; if( sa->Width() != sb->Width() ) return false; } return true; } const std::set deduplicate( const std::vector& items ) { std::set rv; for( PNS::ITEM* item : items ) { bool isDuplicate = false; for( PNS::ITEM* ritem : rv ) { if( comparePnsItems( ritem, item) ) { isDuplicate = true; break; } if( !isDuplicate ) rv.insert( item ); } } return rv; } bool PNS_LOG_FILE::COMMIT_STATE::Compare( const PNS_LOG_FILE::COMMIT_STATE& aOther ) { COMMIT_STATE check( aOther ); //printf("pre-compare: %d/%d\n", check.m_addedItems.size(), check.m_removedIds.size() ); //printf("pre-compare (log): %d/%d\n", m_addedItems.size(), m_removedIds.size() ); for( const KIID& uuid : m_removedIds ) { if( check.m_removedIds.find( uuid ) != check.m_removedIds.end() ) check.m_removedIds.erase( uuid ); else return false; // removed twice? wtf } std::set addedItems = deduplicate( m_addedItems ); std::set chkAddedItems = deduplicate( check.m_addedItems ); for( PNS::ITEM* item : addedItems ) { for( PNS::ITEM* chk : chkAddedItems ) { if( comparePnsItems( item, chk ) ) { chkAddedItems.erase( chk ); break; } } } //printf("post-compare: %d/%d\n", chkAddedItems.size(), check.m_removedIds.size() ); if( chkAddedItems.empty() && check.m_removedIds.empty() ) return true; else return false; // Set breakpoint here to trap failing tests } bool PNS_LOG_FILE::SaveLog( const wxFileName& logFileName, REPORTER* aRpt ) { std::vector dummyHeads; // todo - save heads when we support it in QA FILE* log_f = wxFopen( logFileName.GetFullPath(), "wb" ); wxString logString = PNS::LOGGER::FormatLogFileAsString( m_mode, m_commitState.m_addedItems, m_commitState.m_removedIds, dummyHeads, m_events ); fprintf( log_f, "%s\n", logString.c_str().AsChar() ); fclose( log_f ); return true; } bool PNS_LOG_FILE::Load( const wxFileName& logFileName, REPORTER* aRpt ) { wxFileName fname_log( logFileName ); fname_log.SetExt( wxT( "log" ) ); wxFileName fname_dump( logFileName ); fname_dump.SetExt( wxT( "dump" ) ); wxFileName fname_project( logFileName ); fname_project.SetExt( wxT( "kicad_pro" ) ); fname_project.MakeAbsolute(); wxFileName fname_settings( logFileName ); fname_settings.SetExt( wxT( "settings" ) ); aRpt->Report( wxString::Format( wxT( "Loading router settings from '%s'" ), fname_settings.GetFullPath() ) ); bool ok = m_routerSettings->LoadFromRawFile( fname_settings.GetFullPath() ); if( !ok ) { aRpt->Report( wxT( "Failed to load routing settings. Using defaults." ), RPT_SEVERITY_WARNING ); } aRpt->Report( wxString::Format( wxT( "Loading project settings from '%s'" ), fname_settings.GetFullPath() ) ); m_settingsMgr.reset( new SETTINGS_MANAGER ( true ) ); m_settingsMgr->LoadProject( fname_project.GetFullPath() ); PROJECT* project = m_settingsMgr->GetProject( fname_project.GetFullPath() ); project->SetReadOnly(); try { PCB_PLUGIN io; aRpt->Report( wxString::Format( wxT("Loading board snapshot from '%s'"), fname_dump.GetFullPath() ) ); m_board.reset( io.LoadBoard( fname_dump.GetFullPath(), nullptr, nullptr ) ); m_board->SetProject( project ); std::shared_ptr drcEngine( new DRC_ENGINE ); CONSOLE_LOG consoleLog; BOARD_DESIGN_SETTINGS& bds = m_board->GetDesignSettings(); bds.m_DRCEngine = drcEngine; bds.m_UseConnectedTrackWidth = project->GetLocalSettings().m_AutoTrackWidth; m_board->SynchronizeNetsAndNetClasses( true ); drcEngine->SetBoard( m_board.get() ); drcEngine->SetDesignSettings( &bds ); drcEngine->SetLogReporter( new CONSOLE_MSG_REPORTER( &consoleLog ) ); drcEngine->InitEngine( wxFileName() ); } catch( const PARSE_ERROR& parse_error ) { aRpt->Report( wxString::Format( "parse error : %s (%s)\n", parse_error.Problem(), parse_error.What() ), RPT_SEVERITY_ERROR ); return false; } FILE* f = fopen( fname_log.GetFullPath().c_str(), "rb" ); aRpt->Report( wxString::Format( "Loading log from '%s'", fname_log.GetFullPath() ) ); if( !f ) { aRpt->Report( wxT( "Failed to load log" ), RPT_SEVERITY_ERROR ); return false; } while( !feof( f ) ) { wxString line = readLine( f ); wxStringTokenizer tokens( line ); if( !tokens.CountTokens() ) continue; wxString cmd = tokens.GetNextToken(); if( cmd == wxT( "mode" ) ) { m_mode = static_cast( wxAtoi( tokens.GetNextToken() ) ); } else if( cmd == wxT( "event" ) ) { m_events.push_back( PNS::LOGGER::ParseEvent( line ) ); } else if ( cmd == wxT( "added" ) ) { PNS::ITEM* item = parseItemFromString( tokens ); m_commitState.m_addedItems.push_back( item ); } else if ( cmd == wxT( "removed" ) ) { m_commitState.m_removedIds.insert( KIID( tokens.GetNextToken() ) ); } } fclose( f ); return true; }