Ejemplo n.º 1
0
  /** @param f */
  void loadParameters(File f) {
    try {
      parameters = new ParameterDatabase(f, clArgs);
    } catch (FileNotFoundException ex) {
      Output.initialError(
          "A File Not Found Exception was generated upon "
              + "reading the parameter file \""
              + f.getPath()
              + "\".\nHere it is:\n"
              + ex);
    } catch (IOException ex) {
      Output.initialError(
          "An IO Exception was generated upon reading the "
              + "parameter file \""
              + f.getPath()
              + "\".\nHere it is:\n"
              + ex);
    }

    if (parameters == null) {
      Output.initialError("No parameter file was loaded");
    } else {
      paramPanel.loadParameters();
      conPanel.loadParameters();
    }
  }
Ejemplo n.º 2
0
 void restoreFromCheckpoint(File checkpoint) {
   try {
     state = Checkpoint.restoreFromCheckpoint(checkpoint.getCanonicalPath());
     parameters = state.parameters;
     paramPanel.loadParameters();
     conPanel.loadParameters();
     paused = true;
     setStep(false);
     spawnPlayThread(true);
     stopButton.setEnabled(true);
   } catch (OptionalDataException e) {
     Output.initialError(
         "A ClassNotFoundException was generated upon"
             + "starting up from a checkpoint."
             + "\nHere it is:\n"
             + e);
   } catch (ClassNotFoundException e) {
     Output.initialError(
         "A ClassNotFoundException was generated upon"
             + "starting up from a checkpoint."
             + "\nHere it is:\n"
             + e);
   } catch (IOException e) {
     Output.initialError(
         "An IO Exception was generated upon"
             + "starting up, probably in setting up a log"
             + "\nHere it is:\n"
             + e);
   }
 }
Ejemplo n.º 3
0
  /**
   * @return
   * @throws BadParameterException
   */
  Output initializeOutput() throws BadParameterException {
    // 1. create the output
    // boolean store = parameters.getBoolean(new Parameter(Evolve.P_STORE),null,false);

    int verbosity = parameters.getInt(new Parameter(Evolve.P_VERBOSITY), null, 0);
    if (verbosity < 0)
      Output.initialError(
          "Verbosity should be an integer >= 0.\n", new Parameter(Evolve.P_VERBOSITY));

    Output output = new Output(true, verbosity);
    // output.setFlush(
    //    parameters.getBoolean(new Parameter(Evolve.P_FLUSH),null,false));

    // stdout is always log #0.  stderr is always log #1.
    // stderr accepts announcements, and both are fully verbose
    // by default.
    output.addLog(ec.util.Log.D_STDOUT, Output.V_VERBOSE, false);
    output.addLog(ec.util.Log.D_STDERR, Output.V_VERBOSE, true);
    output.systemMessage(Version.message());
    return output;
  }
Ejemplo n.º 4
0
  public static void main(ParameterDatabase parameters) {
    EvolutionState state;
    // ParameterDatabase parameters;

    ParameterDatabase original = (ParameterDatabase) deepClone(parameters);

    int currentJob = 0; // the next job number (0 by default)
    // parameters = loadParameterDatabase(args);

    if (currentJob == 0) // no current job number yet
    currentJob = parameters.getIntWithDefault(new Parameter("current-job"), null, 0);
    if (currentJob < 0)
      Output.initialError(
          "The 'current-job' parameter must be >= 0 (or not exist, which defaults to 0)");

    int numJobs = parameters.getIntWithDefault(new Parameter("jobs"), null, 1);
    if (numJobs < 1)
      Output.initialError("The 'jobs' parameter must be >= 1 (or not exist, which defaults to 1)");

    // Now we know how many jobs remain.  Let's loop for that many jobs.  Each time we'll
    // load the parameter database scratch (except the first time where we reuse the one we
    // just loaded a second ago).  The reason we reload from scratch each time is that the
    // experimenter is free to scribble all over the parameter database and it'd be nice to
    // have everything fresh and clean.  It doesn't take long to load the database anyway,
    // it's usually small.
    for (int job = currentJob; job < numJobs; job++) {
      // We used to have a try/catch here to catch errors thrown by this job and continue to the
      // next.
      // But the most common error is an OutOfMemoryException, and printing its stack trace would
      // just create another OutOfMemoryException!  Which dies anyway and has a worthless stack
      // trace as a result.

      // try
      {
        // load the parameter database (reusing the very first if it exists)
        if (parameters == null) parameters = (ParameterDatabase) deepClone(original);
        //	   parameters = loadParameterDatabase(args);

        // Initialize the EvolutionState, then set its job variables
        state = initialize(parameters, job); // pass in job# as the seed increment
        state.output.systemMessage("Job: " + job);
        state.job = new Object[1]; // make the job argument storage
        state.job[0] = Integer.valueOf(job); // stick the current job in our job storage
        // state.runtimeArguments = args;                              // stick the runtime
        // arguments in our storage
        if (numJobs > 1) // only if iterating (so we can be backwards-compatible),
        {
          String jobFilePrefix = "job." + job + ".";
          state.output.setFilePrefix(jobFilePrefix); // add a prefix for checkpoint/output files
          state.checkpointPrefix =
              jobFilePrefix + state.checkpointPrefix; // also set up checkpoint prefix
        }

        // Here you can set up the EvolutionState's parameters further before it's setup(...).
        // This includes replacing the random number generators, changing values in
        // state.parameters,
        // changing instance variables (except for job and runtimeArguments, please), etc.

        // now we let it go
        state.run(EvolutionState.C_STARTED_FRESH);
        cleanup(state); // flush and close various streams, print out parameters if necessary
        parameters = null; // so we load a fresh database next time around
      }
    }

    System.exit(0);
  }