/** ****************************************************************************** * * @file main.cpp * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief UAVObjectGenerator main. * * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * 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, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include "generators/java/uavobjectgeneratorjava.h" #include "generators/flight/uavobjectgeneratorflight.h" #include "generators/gcs/uavobjectgeneratorgcs.h" #include "generators/matlab/uavobjectgeneratormatlab.h" #include "generators/python/uavobjectgeneratorpython.h" #define RETURN_ERR_USAGE 1 #define RETURN_ERR_XML 2 #define RETURN_OK 0 using namespace std; /** * print usage info */ void usage() { cout << "Usage: uavobjectgenerator [-gcs] [-flight] [-java] [-python] [-matlab] [-none] [-v] xml_path template_base" << endl; cout << "Languages: "<< endl; cout << "\t-gcs build groundstation code" << endl; cout << "\t-flight build flight code" << endl; cout << "\t-java build java code" << endl; cout << "\t-python build python code" << endl; cout << "\t-matlab build matlab code" << endl; cout << "\tIf no language is specified ( and not -none ) -> all are built." << endl; cout << "Misc: "<< endl; cout << "\t-none build no language - just parse xml's" << endl; cout << "\t-h this help" << endl; cout << "\t-v verbose" << endl; cout << "\tinput_path path to UAVObject definition (.xml) files." << endl; cout << "\ttemplate_path path to the root of the OpenPilot source tree." << endl; } /** * inform user of invalid usage */ int usage_err() { cout << "Invalid usage!" << endl; usage(); return RETURN_ERR_USAGE; } /** * entrance */ int main(int argc, char *argv[]) { QCoreApplication a(argc, argv); cout << "- OpenPilot UAVObject Generator -" << endl; QString inputpath; QString templatepath; QString outputpath; QStringList arguments_stringlist; // process arguments for (int argi=1;argi0)||(arguments_stringlist.removeAll("-h")>0)) { usage(); return RETURN_OK; } bool verbose=(arguments_stringlist.removeAll("-v")>0); bool do_gcs=(arguments_stringlist.removeAll("-gcs")>0); bool do_flight=(arguments_stringlist.removeAll("-flight")>0); bool do_java=(arguments_stringlist.removeAll("-java")>0); bool do_python=(arguments_stringlist.removeAll("-python")>0); bool do_matlab=(arguments_stringlist.removeAll("-matlab")>0); bool do_none=(arguments_stringlist.removeAll("-none")>0); // bool do_all=((do_gcs||do_flight||do_java||do_python||do_matlab)==false); if (arguments_stringlist.length() == 2) { inputpath = arguments_stringlist.at(0); templatepath = arguments_stringlist.at(1); } else { // wrong number of arguments return usage_err(); } if (!inputpath.endsWith("/")) inputpath.append("/"); // append a slash if it is not there if (!templatepath.endsWith("/")) templatepath.append("/"); // append a slash if it is not there // put all output files in the current directory outputpath = QString("./"); QDir xmlPath = QDir(inputpath); UAVObjectParser* parser = new UAVObjectParser(); QStringList filters=QStringList("*.xml"); xmlPath.setNameFilters(filters); QFileInfoList xmlList = xmlPath.entryInfoList(); // Read in each XML file and parse object(s) in them for (int n = 0; n < xmlList.length(); ++n) { QFileInfo fileinfo = xmlList[n]; if (verbose) cout << "Parsing XML file: " << fileinfo.fileName().toStdString() << endl; QString filename = fileinfo.fileName(); QString xmlstr = readFile(fileinfo.absoluteFilePath()); QString res = parser->parseXML(xmlstr, filename); if (!res.isNull()) { cout << "Error parsing " << res.toStdString() << endl; return RETURN_ERR_XML; } } // check for duplicate object ID's QList objIDList; int numBytesTotal=0; for (int objidx = 0; objidx < parser->getNumObjects(); ++objidx) { quint32 id = parser->getObjectID(objidx); numBytesTotal+=parser->getNumBytes(objidx); if (verbose) cout << "Checking object " << parser->getObjectName(objidx).toStdString() << " (" << parser->getNumBytes(objidx) << " bytes)" << endl; if ( objIDList.contains(id) || id == 0 ) { cout << "Error: Object ID collision found in object " << parser->getObjectName(objidx).toStdString() << ", modify object name" << endl; return RETURN_ERR_XML; } objIDList.append(id); } // done parsing and checking cout << "Done: processed " << xmlList.length() << " XML files and generated " << objIDList.length() << " objects with no ID collisions. Total size of the data fields is " << numBytesTotal << " bytes." << endl; if (verbose) cout << "used units: " << parser->all_units.join(",").toStdString() << endl; if (do_none) return RETURN_OK; // generate flight code if wanted if (do_flight|do_all) { cout << "generating flight code" << endl ; UAVObjectGeneratorFlight flightgen; flightgen.generate(parser,templatepath,outputpath); } // generate gcs code if wanted if (do_gcs|do_all) { cout << "generating gcs code" << endl ; UAVObjectGeneratorGCS gcsgen; gcsgen.generate(parser,templatepath,outputpath); } // generate java code if wanted if (do_java|do_all) { cout << "generating java code" << endl ; UAVObjectGeneratorJava javagen; javagen.generate(parser,templatepath,outputpath); } // generate python code if wanted if (do_python|do_all) { cout << "generating python code" << endl ; UAVObjectGeneratorPython pygen; pygen.generate(parser,templatepath,outputpath); } // generate matlab code if wanted if (do_matlab|do_all) { cout << "generating matlab code" << endl ; UAVObjectGeneratorMatlab matlabgen; matlabgen.generate(parser,templatepath,outputpath); } return RETURN_OK; }