public void doParsingTest() throws IOException { // the actual test... Env.loadModule(filename); String[] names = TestCaseUtil.sortStringSet(Env.getModuleNames()); for (String key : names) { System.out.println("========================================="); Module m = Env.getModule(key); if (m instanceof SMVModule) ((SMVModule) m).setFullPrintingMode(true); System.out.println(Env.getModule(key)); } }
/** * @param args * @throws Exception */ public static void main(String[] args) throws Exception { // uncomment to use a C BDD package // System.setProperty("bdd", "buddy"); GROneParser.just_initial = true; // GRParser.just_safety = true; // Check that we have enough arguments if (args.length < 2) { System.err.println("Usage: java GROneMain <smv_file> <ltl_file> [--fastslow] [--safety]"); System.exit(1); } // Load SMV and LTL files Env.loadModule(args[0]); Spec[] spcs = Env.loadSpecFile(args[1]); // Parse extra command-line switches boolean fs = false; boolean gen_safety = false; for (int i = 2; i < args.length; i++) { if (args[i].equals("--fastslow")) { fs = true; } else if (args[i].equals("--safety")) { gen_safety = true; } else { System.err.println("Unknown option: " + args[i]); System.err.println("Usage: java GROneMain <smv_file> <ltl_file> [--fastslow] [--safety]"); System.exit(1); } } // Figure out the name of our output file by stripping the spec filename extension and adding // .aut String out_filename = args[1].replaceAll("\\.[^\\.]+$", ".aut"); // constructing the environment module. SMVModule env = (SMVModule) Env.getModule("main.e"); Spec[] env_conjuncts = GROneParser.parseConjuncts(spcs[0]); GROneParser.addReactiveBehavior(env, env_conjuncts); // GRParser.addPureReactiveBehavior(env, env_conjuncts); // constructing the system module. SMVModule sys = (SMVModule) Env.getModule("main.s"); Spec[] sys_conjuncts = GROneParser.parseConjuncts(spcs[1]); GROneParser.addReactiveBehavior(sys, sys_conjuncts); // GROneParser.addPureReactiveBehavior(sys, sys_conjuncts); // env.setFullPrintingMode(true); // System.out.println(env); // sys.setFullPrintingMode(true); // System.out.println(sys); // ***** playing the game System.out.print("==== Constructing and playing the game ======\n"); long time = System.currentTimeMillis(); GROneGame g; BDD all_init, counter_exmple; // If the option is enabled, first try fastslow if (fs) { g = new GROneGame(env, sys, true); long t1 = (System.currentTimeMillis() - time); System.out.println("Games time: " + t1); // Check that every initial system state is winning for every initial environment state all_init = g.getSysPlayer().initial().and(g.getEnvPlayer().initial()); counter_exmple = g.envWinningStates().and(all_init); if (counter_exmple.isZero()) { System.out.println("Specification is realizable with slow and fast actions..."); System.out.println("==== Building an implementation ========="); System.out.println("-----------------------------------------"); PrintStream orig_out = System.out; System.setOut(new PrintStream(new File(out_filename))); // writing the output to a file g.printWinningStrategy(all_init); System.setOut(orig_out); // restore STDOUT System.out.print("-----------------------------------------\n"); long t2 = (System.currentTimeMillis() - time); System.out.println("Strategy time: " + t2); System.out.println("===== Done =============================="); System.exit(0); } else { System.out.println("Specification is unsynthesizable for slow and fast actions..."); System.out.println("The env player can win from states:"); System.out.println("\t" + counter_exmple); } } g = new GROneGame(env, sys); long t3 = (System.currentTimeMillis() - time); System.out.println("Games time: " + t3); // ** Export safety automaton for counterstrategy visualization if (gen_safety) { System.out.println("Exporting safety constraints automaton..."); PrintStream orig_out = System.out; String safety_filename = args[1].replaceAll("\\.[^\\.]+$", "_safety.aut"); System.setOut(new PrintStream(new File(safety_filename))); // writing the output to a file g.generate_safety_aut(g.getEnvPlayer().initial().and(g.getSysPlayer().initial())); System.setOut(orig_out); // restore STDOUT // return; } /////////////////////////////////////////////// // Check that every initial system state is winning for every initial environment state all_init = g.getSysPlayer().initial().and(g.getEnvPlayer().initial()); counter_exmple = g.envWinningStates().and(all_init); BDDVarSet all_vars = sys.moduleUnprimeVars().union(env.moduleUnprimeVars()); if (!counter_exmple.isZero()) { System.out.println("Specification is unsynthesizable even assuming instantaneous actions..."); System.out.println( "The env player can win from " + (int) counter_exmple.satCount(all_vars) + " of " + (int) all_init.satCount(all_vars) + " initial state(s)."); String counter_state = counter_exmple.satOne().toString(); counter_state = counter_state.replaceAll("and", "&"); counter_state = counter_state.replaceAll("[()]", ""); counter_state = counter_state.replaceAll("main\\.([\\w.]+)=0", "!$1"); counter_state = counter_state.replaceAll("main\\.([\\w.]+)=1", "$1"); System.out.println("\tFor example: \t" + counter_state); // If you only care about the existence of a winning initial system state for every initial // environment state // (vs. every initial system state being winning for every initial environment state) /* BDD env_ini = g.getEnvPlayer().initial(); BDDVarSet env_vars = g.getEnvPlayer().moduleUnprimeVars(); for (BDDIterator it = env_ini.iterator(env_vars); it.hasNext();) { BDD eini = (BDD) it.next(); BDD sys_response = eini.and(g.getSysPlayer().initial()).and( g.sysWinningStates()); System.out.println("---------------"); sys_response.printSet(); if (sys_response.isZero()) { System.out.println("Specification is unrealizable..."); System.out.println("The env player can win from states:"); System.out.println("\t" + eini); System.out.println("===== Done =============================="); return; } }*/ System.out.println("==== Computing counterstrategy ========="); System.out.println("-----------------------------------------"); PrintStream orig_out = System.out; System.setOut(new PrintStream(new File(out_filename))); // writing the output to a file g.printLosingStrategy(counter_exmple); System.setOut(orig_out); // restore STDOUT System.out.print("-----------------------------------------\n"); long t2 = (System.currentTimeMillis() - time); System.out.println("Strategy time: " + t2); System.out.println("===== Done =============================="); // Error code = 1 on exit System.exit(1); } System.out.println("Specification is realizable assuming instantaneous actions..."); System.out.println("==== Building an implementation ========="); System.out.println("-----------------------------------------"); PrintStream orig_out = System.out; System.setOut(new PrintStream(new File(out_filename))); // writing the output to a file boolean falsifyEnv = g.printWinningStrategy(all_init); System.setOut(orig_out); // restore STDOUT System.out.print("-----------------------------------------\n"); long t2 = (System.currentTimeMillis() - time); System.out.println("Strategy time: " + t2); if (falsifyEnv) { System.out.println("Environment liveness falsified"); } System.out.println("===== Done =============================="); // ** Analysis calls String debugFile = args[1].replaceAll("\\.[^\\.]+$", ".debug"); GROneDebug.analyze(env, sys); System.exit(0); }