GenericType OptionsFunctionalityNode::getOption(const string &name) const{ // Locate the option Dictionary::const_iterator it = dictionary_.find(name); // Check if found if(it == dictionary_.end()){ stringstream ss; if (allowed_options.find(name)!=allowed_options.end()) { ss << "Option: '" << name << "' has not been set." << endl; printOption(name,ss); } else { ss << "Option: '" << name << "' does not exist." << endl << endl; std::vector<std::string> suggestions; getBestMatches(name,suggestions,5); ss << "Did you mean one of the following?" << endl; for (int i=0;i<suggestions.size();++i) printOption(suggestions[i],ss); ss << "Use printOptions() to get a full list of options." << endl; } casadi_error(ss.str()); } // Return the option return GenericType(it->second); }
//! Parses a single string containing the contents of a $rem section. void RemSection::read(QString const& input) { init(); // Bit of a hack here. The file to be read in may not have GUI set, so we // clear it here to avoid including it prematurely. printOption("GUI",false); m_options["GUI"] = "0"; QStringList lines( input.trimmed().split("\n", QString::SkipEmptyParts) ); QStringList invalidLines; QStringList tokens; QString line; for (int i = 0; i < lines.count(); ++i) { line = lines[i].replace(QChar('='),QChar(' ')); tokens = line.split(QRegExp("\\s+"), QString::SkipEmptyParts); if (tokens.count() >= 2) { QString rem(tokens[0].toUpper()); QString value(tokens[1]); fixOptionForQui(rem, value); setOption(rem, value); printOption(rem, true); }else { invalidLines << lines[i]; } } if (invalidLines.count() > 0) { QString msg("An error occured when parsing the following options:\n"); msg += invalidLines.join("\n"); QMessageBox::warning(0, "Input File Error", msg); } }
void SsuRegClient::handleResponse() { QTextStream qout(stdout); if (_ssu.error()) { qout << printOption(_option) << " failed: " << _ssu.lastError() << endl; QCoreApplication::exit(1); } else { qout << printOption(_option) << " successful" << endl; QCoreApplication::exit(0); } }
int analyzeMobility(u_char *data, int size){ u_char *ptr; int lest; struct mobility_hdr *mob; ptr = data; lest = size; if(lest < sizeof(struct mobility_hdr)){ fprintf(stderr, "lest(%d)<sizeof(struct mobility_hdr)\n", lest); return -1; } mob = (struct mobility_hdr *)ptr; ptr += sizeof(struct mobility_hdr); lest -= sizeof(struct mobility_hdr); int moblen; moblen = printMobility(mob, stdout); int optlen; optlen = printBindingUpdate(mob, stdout); printOption(mob, optlen, stdout); //analyzeBindingUpdate(mob, lest); return 0; }
void OptionsFunctionalityNode::printOptions(ostream &stream) const{ stream << "\"Option name\" [type] = value" << endl; for(map<string, opt_type>::const_iterator it=allowed_options.begin(); it!=allowed_options.end(); ++it){ printOption(it->first,stream); } stream << endl; }
int main() { int keep = 1; while(keep) { switch(getOption()) { case '1': insertOption(); break; case '2': searchOption(); break; case '3': printOption(); break; case '0': keep = 0; break; } } return 0; }
QString RemSection::dump() { QString s("$rem\n"); std::map<QString,QString>::const_iterator iter; QString name, value; for (iter = m_options.begin(); iter != m_options.end(); ++iter) { name = iter->first; value = iter->second; if (printOption(name) && fixOptionForQChem(name, value)) { s += " " + name + " = " + value + "\n"; } } s += "$end\n"; return s; }
void OptionsFunctionalityNode::assert_exists(const std::string &name) const { // First check if the option exists map<string, opt_type>::const_iterator it = allowed_options.find(name); if(it == allowed_options.end()){ stringstream ss; ss << "Unknown option: " << name << endl; std::vector<std::string> suggestions; getBestMatches(name,suggestions,5); ss << endl; ss << "Did you mean one of the following?" << endl; for (int i=0;i<suggestions.size();++i) printOption(suggestions[i],ss); ss << "Use printOptions() to get a full list of options." << endl; casadi_error(ss.str()); } }
int main(int argc, char* argv[]) { QCoreApplication::setOrganizationName("rapcad"); QCoreApplication::setOrganizationDomain("rapcad.org"); QCoreApplication::setApplicationName("RapCAD"); QCoreApplication::setApplicationVersion(STRINGIFY(RAPCAD_VERSION)); QCoreApplication* a = new QCoreApplication(argc,argv); QCommandLineParser p; p.setApplicationDescription(QCoreApplication::translate("main","RapCAD the rapid prototyping IDE")); p.addHelpOption(); p.addVersionOption(); p.addPositionalArgument("filename", QCoreApplication::translate("main","File to open or process.")); QCommandLineOption testOption(QStringList() << "t" << "test", QCoreApplication::translate("main","Run through tests in working directory.")); p.addOption(testOption); QCommandLineOption compareOption(QStringList() << "c" << "compare", QCoreApplication::translate("main","Compare two files to see if they are identical."),"filename"); p.addOption(compareOption); QCommandLineOption printOption(QStringList() << "p" << "print", QCoreApplication::translate("main","Print debugging output.")); p.addOption(printOption); QCommandLineOption outputOption(QStringList() << "o" << "output",QCoreApplication::translate("main","Create output file <filename>."),"filename"); p.addOption(outputOption); #ifdef USE_READLINE QCommandLineOption interactOption(QStringList() << "i" << "interactive",QCoreApplication::translate("main","Start an interactive session")); p.addOption(interactOption); #endif p.process(*a); QStringList inputFiles=p.positionalArguments(); QString inputFile; if(!inputFiles.isEmpty()) inputFile=inputFiles.at(0); QString outputFile; if(p.isSet(outputOption)) outputFile=p.value(outputOption); else if(p.isSet(compareOption)) outputFile=p.value(compareOption); QTextStream output(stdout); Strategy* s=NULL; if(p.isSet(compareOption)) { Comparer* c=new Comparer(output); c->setup(inputFile,outputFile); s=c; } else if(p.isSet(testOption)) { s=new Tester(output); } else if(p.isSet(outputOption)||p.isSet(printOption)) { Worker* w=new Worker(output); bool print = p.isSet(printOption); w->setup(inputFile,outputFile,print,false); s=w; #ifdef USE_READLINE } else if(p.isSet(interactOption)) { showVersion(output); s=new Interactive(output); #endif } if(s) { int retcode=s->evaluate(); a->quit(); return retcode; } else { delete a; a=new QApplication(argc,argv); return showUi(a,inputFiles); } }
void CheckList::keyEvent(KEY_EVENT_RECORD keyEvent) { if (_isComponetVisible == true) { static int counter = 0; counter++; if (counter % 2 == 0) { return; } char c = keyEvent.uChar.AsciiChar; //move down DWORD textColor = _textColor | _backgroundColor; //green DWORD textColorSelect = FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_INTENSITY; switch (keyEvent.wVirtualKeyCode) { case VK_ESCAPE: cout << "esc"; break; case VK_RETURN: chooseOption(); break; case VK_UP: if (coordtemp.Y - _position.getStartCord().Y > 1) { //print the priviuse to green SetConsoleTextAttribute(_handle, textColor); coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); printOption(); coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); //going up coordtemp.Y--; SetConsoleCursorPosition(_handle, coordtemp); //setting to yellow SetConsoleTextAttribute(_handle, textColorSelect); //print the current coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); printOption(); coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); } else {//first line //print the priviuse to green DWORD wAttr = FOREGROUND_GREEN;//v SetConsoleTextAttribute(_handle, textColor);//v coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); printOption(); //return one right coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); //going to last row coordtemp.Y = _position.getStartCord().Y + _data.size() ;//going to last SetConsoleCursorPosition(_handle, coordtemp); //setting to yellow SetConsoleTextAttribute(_handle, textColorSelect); //print the current coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); printOption(); coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); } //printf("x\n"); SetConsoleCursorPosition(_handle, coordtemp); break; case VK_DOWN: if (coordtemp.Y - _position.getStartCord().Y < _data.size()) { //color the previous line from yellow to green SetConsoleTextAttribute(_handle, textColor); //move 1 place left coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); //print the priviouse line printOption(); //changing to yellow SetConsoleTextAttribute(_handle, textColorSelect); //going to next line coordtemp.Y = coordtemp.Y + 1; SetConsoleCursorPosition(_handle, coordtemp); //print the new current line printOption(); //move back one place right coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); } else { //coord2.Y == 4 ==last line //color the last line from yellow to green SetConsoleTextAttribute(_handle, textColor); //move one place left coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); //print the priviouse line printOption(); //return one place right coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); //color first LINE TO YELLOW SetConsoleTextAttribute(_handle, textColorSelect); //going to first line coordtemp.Y = _position.getStartCord().Y + 1; //go one left coordtemp.X--; SetConsoleCursorPosition(_handle, coordtemp); printOption(); //go beck one rigt coordtemp.X++; SetConsoleCursorPosition(_handle, coordtemp); } break; } if (c == 'f') { //finish- return chosing values vector <string> v = getChoosenData(); SetConsoleCursorPosition(_handle, COORD{ 30,40 }); for (int i = 0; i < v.size(); i++) { cout << v[i] << endl; } } } }
int main(int argc, char *argv[]) { int status = 0; int length = 0; networkAddress address = { { 0, 0, 0, 0, 0, 0 } }; networkFilter filter; unsigned char *buffer = NULL; int count, bytes; setlocale(LC_ALL, getenv(ENV_LANG)); textdomain("telnet"); if (argc != 2) { usage(argv[0]); return (status = ERR_ARGUMENTCOUNT); } // Parse the supplied network address into our networkAddress structure. length = strlen(argv[1]); // Replace dots ('.') with NULLS for (count = 0; count < length; count ++) if (argv[1][count] == '.') argv[1][count] = '\0'; // Get the decimal value of up to 4 numbers for (count = 0; count < 4; count ++) { status = atoi(argv[1]); if (status < 0) { usage(argv[0]); return (status = ERR_INVALID); } address.bytes[count] = status; argv[1] += (strlen(argv[1]) + 1); } buffer = malloc(NETWORK_PACKET_MAX_LENGTH); if (!buffer) { errno = ERR_MEMORY; perror(argv[0]); return (status); } // Clear out our filter and ask for the network the headers we want memset(&filter, 0, sizeof(networkFilter)); filter.transProtocol = NETWORK_TRANSPROTOCOL_TCP; filter.localPort = 12468; filter.remotePort = 23; printf("Telnet %d.%d.%d.%d\n", address.bytes[0], address.bytes[1], address.bytes[2], address.bytes[3]); // Open a connection on the adapter connection = networkOpen(NETWORK_MODE_READWRITE, &address, &filter); if (!connection) { errno = ERR_IO; perror(argv[0]); free(buffer); return (status = errno); } // Set up the signal handler for catching CTRL-C interrupt if (signal(SIGINT, &interrupt) == SIG_ERR) { errno = ERR_NOTINITIALIZED; perror(argv[0]); networkClose(connection); free(buffer); return (status); } //if (0) { // Send some commands //sendCommand(TELNET_COMMAND_DO, TELNET_OPTION_SUPGA); //sendCommand(TELNET_COMMAND_WILL, TELNET_OPTION_TTYPE); while (!stop) { bytes = networkCount(connection); if (bytes < 0) break; if (bytes) { bytes = networkRead(connection, buffer, NETWORK_PACKET_MAX_LENGTH); if (bytes < 0) break; for (count = 0 ; count < bytes; count ++) { if ((unsigned char) buffer[count] == TELNET_COMMAND_IAC) { count ++; printCommand(buffer[count]); switch ((unsigned char) buffer[count]) { case TELNET_COMMAND_WILL: case TELNET_COMMAND_WONT: case TELNET_COMMAND_DO: case TELNET_COMMAND_DONT: count ++; printOption(buffer[count]); printCommand(TELNET_COMMAND_WONT); printOption(buffer[count]); sendCommand(TELNET_COMMAND_WONT, buffer[count]); break; default: break; } } else printf("%c", buffer[count]); } } multitaskerYield(); } } free(buffer); status = networkClose(connection); if (status < 0) { errno = status; perror(argv[0]); return (status); } return (status = 0); }