int main() { int counter = 0; while (counter != 2) { std::unique_ptr<Automat> device_ptr(new Automat); vector<Automat> Vdevice(2); Automat device; // Initialisieren device_ptr->init(10000, "Bonn, Hauptstraße 123"); Vdevice[0].init(20000, "Augsburg, Fuggerweg 345"); Vdevice[1].set_geld(25000); Vdevice[1].set_standort("Berlin, Berliner Allee 567"); device.init(123456, "Frankfurt, Goethestraße 123"); // Ausgabe cout << device_ptr->get_geld() << endl; cout << device_ptr->get_standort() << endl; for (size_t i = 0; i < Vdevice.size(); i++) { cout << Vdevice[i].get_geld() << endl; cout << Vdevice[i].get_standort() << endl; } cout << device.get_geld() << endl; cout << device.get_standort() << endl; counter++; } return 0; }
int main (int argc, char* argv[]){ Automat* automat = new Automat(); Buffer* inBuffer = new Buffer("../readFile.txt"); Buffer* outBuffer = new Buffer("../wirteFile.txt"); autoContainer* con = new autoContainer(); while(inBuffer->hasNext()){ if(automat->hasToken()){ con = automat->getCurrentContainer(); if(con->getType() != 0){ inBuffer->ungetChar(); } for(int i = 0; i < con->getLength(); i++){ inBuffer->ungetChar(); } for(int i = 0; i < con->getLength(); i++){ outBuffer->putChar(inBuffer->getChar()); } outBuffer->putChar('\n'); } automat->read(inBuffer->getChar()); } }
// Funktionsdefinition bool diffAutomat(const Automat &a1, const Automat &a2) { if( a1.get_standort() == a2.get_standort() ) { return true; } else { return false; } }
// Funktionsdefinition bool diffAutomat(Automat a1, Automat a2) { if( a1.get_standort() == a2.get_standort() ) { return true; } else { return false; } }
// Funktionsdefinition bool Automat::diffAutomat(const Automat &a1) { if( get_standort() == a1.get_standort() ) { return true; } else { return false; } }
Automat Automat::diffGeld(const Automat& a1) { if( get_geld() > a1.get_geld() ) { return *this; } else { return a1; } }
Automat diffGeld(const Automat& a1, const Automat& a2) { if( a1.get_geld() > a2.get_geld() ) { return a1; } else { return a2; } }
int main(int argc, char** argv) { full_argc(argc); Automat a; int c; Lexeme_list *list; c = getchar(); try { for (;;) { if (c==EOF) break; a.feed_char(c); a.run(); if (a.full_lex()) a.add_new_elem(); if (a.use_prev==0) { if (c=='\n') a.inc_nstr(); c = getchar(); } if (a.is_long()) throw "too long name"; } } catch (const char *s) { printf("Error: %s\n", s); return 1; } a.print_list(); if (a.is_any_errors()) { printf("Some lexical errors detected!\n"); return 1; } list = a.get_list(); PolizItem *lst; LabelTable *lable_lst; VarTable *var_lst; SyntaxAnalyzer s; s.set_list(list); try { s.analyze(); printf("SUCCESSFULL ANALYZATION!!!\n\n"); lst = s.poliz_list; lable_lst = s.label_list; } catch (const Exeption &ex) { printf("Error: %s\nbut found %s\nstr# %d\n", ex.GetComment(), ex.GetLexeme(), ex.GetNstr()); return 1; } lprint(lst); server.set(atoi(argv[2]), argv[1]); server.connection(); robot.set(argv, server); robot.readnsend_name(); robot.join_or_create(); printf("start playing\n"); robot.start_easy_game(lst); var_lst = PolizElem::Get_var_table(); delete_var_list(var_lst); delete_label_list(lable_lst); delete_poliz_list(lst); return 0; }