/** ****************************************************************************** * * @file uavobjectgeneratormatlab.cpp * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief produce matlab code for uavobjects * * @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 "uavobjectgeneratormatlab.h" using namespace std; bool UAVObjectGeneratorMatlab::generate(UAVObjectParser* parser,QString templatepath,QString outputpath) { fieldTypeStrMatlab << "int8" << "int16" << "int32" << "uint8" << "uint16" << "uint32" << "single" << "uint8"; fieldSizeStrMatlab << "1" << "2" << "4" << "1" << "2" << "4" << "4" << "1"; QDir matlabTemplatePath = QDir( templatepath + QString(MATLAB_CODE_DIR)); QDir matlabOutputPath = QDir( outputpath + QString("matlab") ); matlabOutputPath.mkpath(matlabOutputPath.absolutePath()); QString matlabCodeTemplate = readFile( matlabTemplatePath.absoluteFilePath( "uavobject.m.template") ); if (matlabCodeTemplate.isEmpty() ) { std::cerr << "Problem reading matlab templates" << endl; return false; } for (int objidx = 0; objidx < parser->getNumObjects(); ++objidx) { ObjectInfo* info=parser->getObjectByIndex(objidx); int numBytes=parser->getNumBytes(objidx); process_object(info, numBytes); } matlabCodeTemplate.replace( QString("$(INSTANTIATIONCODE)"), matlabInstantiationCode); matlabCodeTemplate.replace( QString("$(SWITCHCODE)"), matlabSwitchCode); matlabCodeTemplate.replace( QString("$(CLEANUPCODE)"), matlabCleanupCode); matlabCodeTemplate.replace( QString("$(SAVEOBJECTSCODE)"), matlabSaveObjectsCode); matlabCodeTemplate.replace( QString("$(ALLOCATIONCODE)"), matlabAllocationCode); matlabCodeTemplate.replace( QString("$(EXPORTCSVCODE)"), matlabExportCsvCode); bool res = writeFile( matlabOutputPath.absolutePath() + "/OPLogConvert.m", matlabCodeTemplate ); if (!res) { cout << "Error: Could not write output files" << endl; return false; } return true; // if we come here everything should be fine } /** * Generate the matlab object files */ bool UAVObjectGeneratorMatlab::process_object(ObjectInfo* info, int numBytes) { if (info == NULL) return false; //Declare variables QString objectName(info->name); // QString objectTableName(objectName + "Objects"); QString objectTableName(objectName); QString tableIdxName(objectName.toLower() + "Idx"); QString objectID(QString().setNum(info->id)); QString numBytesString=QString("%1").arg(numBytes); //=========================================================================// // Generate instantiation code (will replace the $(INSTANTIATIONCODE) tag) // //=========================================================================// QString type; QString instantiationFields; matlabInstantiationCode.append("\n\t" + tableIdxName + " = 0;\n"); matlabInstantiationCode.append("\t" + objectTableName + "=struct('timestamp', 0"); if (!info->isSingleInst) { instantiationFields.append(",...\n\t\t 'instanceID', 0"); } for (int n = 0; n < info->fields.length(); ++n) { // Determine type type = fieldTypeStrMatlab[info->fields[n]->type]; // Append field if ( info->fields[n]->numElements > 1 ) instantiationFields.append(",...\n\t\t '" + info->fields[n]->name + "', zeros(" + QString::number(info->fields[n]->numElements, 10) + ",1)"); else instantiationFields.append(",...\n\t\t '" + info->fields[n]->name + "', 0"); } instantiationFields.append(");\n"); matlabInstantiationCode.append(instantiationFields); matlabInstantiationCode.append("\t" + objectTableName.toUpper() + "_OBJID=" + objectID + ";\n"); matlabInstantiationCode.append("\t" + objectTableName.toUpper() + "_NUMBYTES=" + numBytesString + ";\n"); matlabInstantiationCode.append("\t" + objectName + "FidIdx = [];\n"); //==============================================================// // Generate 'Switch:' code (will replace the $(SWITCHCODE) tag) // //==============================================================// matlabSwitchCode.append("\t\tcase " + objectTableName.toUpper() + "_OBJID\n"); matlabSwitchCode.append("\t\t\t" + tableIdxName + " = " + tableIdxName +" + 1;\n"); matlabSwitchCode.append("\t\t\t" + objectTableName + "FidIdx(" + tableIdxName + ") = bufferIdx; %#ok<*AGROW>\n"); matlabSwitchCode.append("\t\t\tbufferIdx=bufferIdx + " + objectTableName.toUpper() + "_NUMBYTES+1; %+1 is for CRC\n"); if(!info->isSingleInst){ matlabSwitchCode.append("\t\t\tbufferIdx = bufferIdx + 2; %An extra two bytes for the instance ID\n"); } matlabSwitchCode.append("\t\t\tif " + tableIdxName + " >= length(" + objectTableName +"FidIdx) %Check to see if pre-allocated memory is exhausted\n"); matlabSwitchCode.append("\t\t\t\t" + objectTableName + "FidIdx(" + tableIdxName + "*2) = 0;\n"); matlabSwitchCode.append("\t\t\tend\n"); //============================================================// // Generate 'Cleanup:' code (will replace the $(CLEANUP) tag) // //============================================================// matlabCleanupCode.append(objectTableName + "FidIdx =" + objectTableName + "FidIdx(1:" + tableIdxName +");\n" ); //=================================================================// // Generate functions code (will replace the $(ALLOCATIONCODE) tag) // //=================================================================// //Generate function description comment matlabAllocationCode.append("% " + objectName + " typecasting\n"); QString allocationFields; //Add timestamp allocationFields.append("\t" + objectName + ".timestamp = " + "double(typecast(buffer(mcolon(" + objectName + "FidIdx " "- 20, " + objectName + "FidIdx + 4-1 -20)), 'uint32'))';\n"); int currentIdx=0; //Add Instance ID, if necessary if(!info->isSingleInst){ allocationFields.append("\t" + objectName + ".instanceID = " + "double(typecast(buffer(mcolon(" + objectName + "FidIdx " ", " + objectName + "FidIdx + 2-1)), 'uint16'))';\n"); currentIdx+=2; } for (int n = 0; n < info->fields.length(); ++n) { // Determine variabel type type = fieldTypeStrMatlab[info->fields[n]->type]; //Determine variable type length QString size = fieldSizeStrMatlab[info->fields[n]->type]; // Append field if ( info->fields[n]->numElements > 1 ){ allocationFields.append("\t" + objectName + "." + info->fields[n]->name + " = " + "reshape(double(typecast(buffer(mcolon(" + objectName + "FidIdx + " + QString("%1").arg(currentIdx) + ", " + objectName + "FidIdx + " + QString("%1").arg(currentIdx + size.toInt()*info->fields[n]->numElements - 1) + ")), '" + type + "')), "+ QString::number(info->fields[n]->numElements, 10) + ", [] );\n"); } else{ allocationFields.append("\t" + objectName + "." + info->fields[n]->name + " = " + "double(typecast(buffer(mcolon(" + objectName + "FidIdx + " + QString("%1").arg(currentIdx) + ", " + objectName + "FidIdx + " + QString("%1").arg(currentIdx + size.toInt() - 1) + ")), '" + type + "'))';\n"); } currentIdx+=size.toInt()*info->fields[n]->numElements; } matlabAllocationCode.append(allocationFields); matlabAllocationCode.append("\n"); //========================================================================// // Generate objects saving code (will replace the $(SAVEOBJECTSCODE) tag) // //========================================================================// matlabSaveObjectsCode.append(",'"+objectTableName+"'"); //==========================================================================// // Generate objects csv export code (will replace the $(EXPORTCSVCODE) tag) // //==========================================================================// matlabExportCsvCode.append("\tOPLog2csv(" + objectTableName + ", '"+objectTableName+"', logfile);\n"); // OPLog2csv(ActuatorCommand, 'ActuatorCommand', logfile) return true; }