// Copyright 2018, University of Freiburg, // Chair of Algorithms and Data Structures. // Authors: Patrick Brosi #include #include #include #include #include #include "ad/cppgtfs/Parser.h" #include "ad/cppgtfs/Writer.h" #include "ad/cppgtfs/gtfs/flat/Agency.h" #include "ad/util/CsvWriter.h" #include "pfaedle/gtfs/Writer.h" using ad::util::CsvWriter; using ad::cppgtfs::Parser; using pfaedle::gtfs::Writer; // ____________________________________________________________________________ bool Writer::write(gtfs::Feed* sourceFeed, const std::string& path) const { std::ofstream fs; std::ifstream is; std::string gtfsPath(path); std::string curFile; std::string curFileTg; curFile = gtfsPath + "/.agency.txt"; curFileTg = gtfsPath + "/agency.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeAgency(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); curFile = gtfsPath + "/.stops.txt"; curFileTg = gtfsPath + "/stops.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeStops(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); curFile = gtfsPath + "/.routes.txt"; curFileTg = gtfsPath + "/routes.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeRoutes(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); is.open((sourceFeed->getPath() + "/calendar.txt").c_str()); if (is.good()) { is.close(); curFile = gtfsPath + "/.calendar.txt"; curFileTg = gtfsPath + "/calendar.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeCalendar(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.open((sourceFeed->getPath() + "/calendar_dates.txt").c_str()); if (is.good()) { is.close(); curFile = gtfsPath + "/.calendar_dates.txt"; curFileTg = gtfsPath + "/calendar_dates.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeCalendarDates(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.open((sourceFeed->getPath() + "/transfers.txt").c_str()); if (is.good()) { is.close(); curFile = gtfsPath + "/.transfers.txt"; curFileTg = gtfsPath + "/transfers.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeTransfers(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.open((sourceFeed->getPath() + "/fare_attributes.txt").c_str()); if (is.good()) { is.close(); curFile = gtfsPath + "/.fare_attributes.txt"; curFileTg = gtfsPath + "/fare_attributes.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeFares(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.open((sourceFeed->getPath() + "/fare_rules.txt").c_str()); if (is.good()) { is.close(); curFile = gtfsPath + "/.fare_rules.txt"; curFileTg = gtfsPath + "/fare_rules.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeFareRules(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.close(); curFile = gtfsPath + "/.shapes.txt"; curFileTg = gtfsPath + "/shapes.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeShapes(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); is.close(); curFile = gtfsPath + "/.trips.txt"; curFileTg = gtfsPath + "/trips.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); bool hasFreqs = writeTrips(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); is.open((sourceFeed->getPath() + "/frequencies.txt").c_str()); if (hasFreqs && is.good()) { is.close(); curFile = gtfsPath + "/.frequencies.txt"; curFileTg = gtfsPath + "/frequencies.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeFrequencies(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } is.close(); curFile = gtfsPath + "/.stop_times.txt"; curFileTg = gtfsPath + "/stop_times.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeStopTimes(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); if (!sourceFeed->getPublisherUrl().empty() && !sourceFeed->getPublisherName().empty()) { curFile = gtfsPath + "/.feed_info.txt"; curFileTg = gtfsPath + "/feed_info.txt"; fs.open(curFile.c_str()); if (!fs.good()) cannotWrite(curFile, curFileTg); writeFeedInfo(sourceFeed, &fs); fs.close(); std::rename(curFile.c_str(), curFileTg.c_str()); } return true; } // ____________________________________________________________________________ bool Writer::writeFeedInfo(gtfs::Feed* f, std::ostream* os) const { auto csvw = ad::cppgtfs::Writer::getFeedInfoCsvw(os); csvw.flushLine(); csvw.writeString(f->getPublisherName()); csvw.writeString(f->getPublisherUrl()); csvw.writeString(f->getLang()); if (!f->getStartDate().empty()) csvw.writeInt(f->getStartDate().getYYYYMMDD()); else csvw.skip(); if (!f->getEndDate().empty()) csvw.writeInt(f->getEndDate().getYYYYMMDD()); else csvw.skip(); csvw.writeString(f->getVersion()); csvw.flushLine(); return true; } // ____________________________________________________________________________ bool Writer::writeAgency(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/agency.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getAgencyCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Agency fa; auto flds = Parser::getAgencyFlds(&csvp); while (p.nextAgency(&csvp, &fa, flds)) { w.writeAgency(fa, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeStops(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/stops.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getStopsCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Stop s; auto flds = Parser::getStopFlds(&csvp); while (p.nextStop(&csvp, &s, flds)) { w.writeStop(s, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeRoutes(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/routes.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getRoutesCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Route s; auto flds = Parser::getRouteFlds(&csvp); while (p.nextRoute(&csvp, &s, flds)) { w.writeRoute(s, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeCalendar(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/calendar.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getCalendarCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Calendar c; auto flds = Parser::getCalendarFlds(&csvp); while (p.nextCalendar(&csvp, &c, flds)) { w.writeCalendar(c, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeCalendarDates(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/calendar_dates.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getCalendarDatesCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::CalendarDate c; auto flds = Parser::getCalendarDateFlds(&csvp); while (p.nextCalendarDate(&csvp, &c, flds)) { w.writeCalendarDate(c, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeFrequencies(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/frequencies.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getFrequencyCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Frequency f; auto flds = Parser::getFrequencyFlds(&csvp); while (p.nextFrequency(&csvp, &f, flds)) { w.writeFrequency(f, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeTransfers(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/transfers.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getTransfersCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Transfer t; auto flds = Parser::getTransfersFlds(&csvp); while (p.nextTransfer(&csvp, &t, flds)) { w.writeTransfer(t, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeFares(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/fare_attributes.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getFaresCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::Fare f; auto flds = Parser::getFareFlds(&csvp); while (p.nextFare(&csvp, &f, flds)) { w.writeFare(f, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeFareRules(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/fare_rules.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getFareRulesCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::FareRule f; auto flds = Parser::getFareRuleFlds(&csvp); while (p.nextFareRule(&csvp, &f, flds)) { w.writeFareRule(f, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeShapes(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/shapes.txt").c_str()); CsvWriter csvw = ad::cppgtfs::Writer::getShapesCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::ShapePoint sp; ad::cppgtfs::Writer w; if (fs.good()) { CsvParser csvp(&fs); Parser p; auto flds = Parser::getShapeFlds(&csvp); std::string curShapeId; std::string curSkipShapeId; while (p.nextShapePoint(&csvp, &sp, flds)) { if (sp.id == curSkipShapeId) continue; if (sp.id != curShapeId) { if (sourceFeed->getShapes().has(sp.id)) { curShapeId = sp.id; } else { curSkipShapeId = sp.id; continue; } } w.writeShapePoint(sp, &csvw); } } sourceFeed->getShapes().open(); while (sourceFeed->getShapes().nextStoragePt(&sp)) { w.writeShapePoint(sp, &csvw); } fs.close(); return true; } // ____________________________________________________________________________ bool Writer::writeTrips(gtfs::Feed* sourceFeed, std::ostream* os) const { ad::cppgtfs::Writer w; bool hasFreqs = false; CsvWriter csvw = ad::cppgtfs::Writer::getTripsCsvw(os); csvw.flushLine(); for (auto t : sourceFeed->getTrips()) { if (t.getFrequencies().size()) hasFreqs = true; w.writeTrip(t.getFlat(), &csvw); } return hasFreqs; } // ____________________________________________________________________________ bool Writer::writeStopTimes(gtfs::Feed* sourceFeed, std::ostream* os) const { std::ifstream fs; fs.open((sourceFeed->getPath() + "/stop_times.txt").c_str()); CsvParser csvp(&fs); Parser p; ad::cppgtfs::Writer w; CsvWriter csvw = ad::cppgtfs::Writer::getStopTimesCsvw(os); csvw.flushLine(); ad::cppgtfs::gtfs::flat::StopTime st; auto flds = Parser::getStopTimeFlds(&csvp); std::string curTripId; Trip* cur = 0; while (p.nextStopTime(&csvp, &st, flds)) { // we may have changed to distance field if (curTripId != st.trip) { cur = sourceFeed->getTrips().get(st.trip); curTripId = st.trip; } for (const auto& stN : cur->getStopTimes()) { if (stN.getSeq() == st.sequence) st.shapeDistTravelled = stN.getShapeDistanceTravelled(); } w.writeStopTime(st, &csvw); } fs.close(); return true; } // ___________________________________________________________________________ void Writer::cannotWrite(const std::string& file, const std::string& file2) { std::stringstream ss; ss << "(temporary file for " << file2 << ") Could not write to file"; throw ad::cppgtfs::WriterException(ss.str(), file); }