예제 #1
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  /**
   * Returns if the classifier of the class is equal to the classifier given as a parameter.
   *
   * @param cl is a classifier.
   * @return a boolean indicating if they are equals.
   */
  public boolean equals(Classifier cl) {
    try {
      if (rep.getAction() != cl.rep.getAction()) return false;
      return rep.equals(cl.rep);

    } catch (Exception e) {
      return false;
    }
  } // end equals
예제 #2
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  /**
   * Returns if the classifier of the class subsumes the classifier passed as a parameter.
   *
   * @param cl is the subsumed classifier.
   * @return a boolean indicating if it subsumes
   */
  public boolean doesSubsume(Classifier cl) {

    if (rep.getAction() != cl.rep.getAction()) return false;

    if (parameters.couldSubsume()) {
      if (rep.isMoreGeneral(cl.rep)) {
        return true;
      }
    }
    return false;
  } // end doesSubsume
예제 #3
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  /**
   * Performs a test by sending HTTP Gets to the URL, and records the number of bytes returned. Each
   * test results are documented and displayed in standard out with the following information:
   *
   * <p>URL - The source URL of the test REQ CNT - How many times this test has run START - The
   * start time of the last test run STOP - The stop time of the last test run THREAD - The thread
   * id handling this test case RESULT - The result of the test. Either the number of bytes returned
   * or an error message.
   */
  private void doTest() {
    String result = "";
    this.reqCount++;

    // Connect and run test steps
    Date startTime = new Date();
    try {
      ClientResource client = new ClientResource(this.myURL);

      // place order
      JSONObject json = new JSONObject();
      json.put("payment", "quarter");
      json.put("action", "place-order");
      client.post(new JsonRepresentation(json), MediaType.APPLICATION_JSON);

      // Get Gumball Count
      Representation result_string = client.get();
      JSONObject json_count = new JSONObject(result_string.getText());
      result = Integer.toString((int) json_count.get("count"));
    } catch (Exception e) {
      result = e.toString();
    } finally {
      Date stopTime = new Date();
      // Print Report of Result:
      System.out.println(
          "======================================\n"
              + "URL     => "
              + this.myURL
              + "\n"
              + "REQ CNT => "
              + this.reqCount
              + "\n"
              + "START   => "
              + startTime
              + "\n"
              + "STOP    => "
              + stopTime
              + "\n"
              + "THREAD  => "
              + Thread.currentThread().getName()
              + "\n"
              + "RESULT  => "
              + result
              + "\n");
    }
  }
예제 #4
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  /**
   * Indicate if the current representation is more general than the representation passed as a
   * parameter.
   *
   * @param r is the representation to which the current representation is compared.
   * @return a boolean indicating if the current representation is more general.
   */
  public boolean isMoreGeneral(Representation r) {
    boolean ret = false;
    // We need to check the condition for the "insertInPSubsumingCl
    if (action != r.action) return false;

    if (numberOfDontCareSymbols() >= r.numberOfDontCareSymbols()) {
      for (int i = 0; i < rep.length; i++) {
        if (!rep[i].isMoreGeneral(r.rep[i])) return false;
      }
      return true;
    }

    return false;
  }
예제 #5
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 /**
  * Prints the desnormalized classifier to the specified file.
  *
  * @param fout is the file output where the classifier has to be printed.
  */
 public void printNotNorm(PrintWriter fout) {
   rep.printNotNorm(fout);
   if (parameters != null) parameters.print(fout);
 }
예제 #6
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 /** Prints the classifier. */
 public void print() {
   rep.print();
   if (parameters != null) parameters.print();
 }
예제 #7
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 /**
  * Indicates if the classifier is more general than the classifier passed as a parameter.
  *
  * @param cl is the classifier to which the current classifier is compared.
  * @return a boolean indicating if the current classifier is more general
  */
 public boolean isMoreGeneral(Classifier cl) {
   return rep.isMoreGeneral(cl.rep);
 }
예제 #8
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 /**
  * Returns the number of don't care symbols in the classifier. It is used by the action set
  * subsumption
  *
  * @return a double with the number of don't care symbols.
  */
 public double numberOfDontCareSymbols() {
   return rep.numberOfDontCareSymbols();
 }
예제 #9
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 /**
  * Changes all the don't care symbols by the state in the environment, with Pspecify probability
  *
  * @param env is the environment.
  */
 public void makeSpecify(double[] env) {
   rep.makeSpecify(env);
 }
예제 #10
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 /**
  * Indicates if the classifier matches with the environmental state
  *
  * @param envState is the environment state
  * @return a boolean indicating if the classifier matches.
  */
 public boolean match(double[] envState) {
   return rep.match(envState);
 } // end match
예제 #11
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 /**
  * Returns the action of the classifier
  *
  * @return an integer with the action of the classifier
  */
 public int getAction() {
   return rep.getAction();
 } // end getAction
예제 #12
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 /**
  * sets the allele value
  *
  * @param i is the position.
  * @param cl is the classifier that has to be copied.
  */
 public void setAllele(int i, Classifier cl) {
   rep.setAllele(i, cl.rep);
 } // end setAllele
예제 #13
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 /**
  * Sets the allele value
  *
  * @param i is the position.
  * @param lowerValue is the lower value that has to be set.
  * @param upperValue is the upper value that has to be set.
  */
 public void setAllele(int i, double lowerValue, double upperValue) {
   rep.setAllele(i, lowerValue, upperValue);
 } // end setAllele
예제 #14
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 /**
  * It crosses a real allele within two parents. If the representation is a ternary representation,
  * a crossover within intervals is not possible because there is only one gene in each position.
  * So, in this case, the gene of the second parent will be copied. In case of being a real
  * representation, a random number is generated to decide where to cross the interval. It it's
  * crossed within the inteval, the crossAllele method will do it.
  *
  * @param parent1 is the first parent classifier.
  * @param parent2 is the second parent classifier.
  */
 public void crossAllele(int i, Classifier parent1, Classifier parent2) {
   rep.crossAllele(i, parent1.rep, parent2.rep);
 } // end crossAllele
예제 #15
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 /**
  * It draws the population to a file. A character allele is drawn as 1 o 0. Otherwise, a real
  * allele is drawn in ten points, which represent the interval [0..1] divided in ten fragments. In
  * each fragment, there can be three types of symbols: . --> The fragment is not covered by the
  * classifier. o --> The fragment is partially covered by the classifier. O --> The fragment is
  * totally covered by the classifier.
  *
  * <p>This notation has been got from Wilson2000 XCSR
  *
  * @param fout is the file where the population has to be drawn.
  */
 public void draw(PrintWriter fout) {
   rep.draw(fout);
 } // end draw
예제 #16
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 /**
  * It constructs a classifier with the condition and the action specified. It's used by the
  * covering operator.
  *
  * <p>
  *
  * @param condition is the environtment state
  * @param action is the action chosen
  * @param size is the size of the set.
  * @param tStamp is the time
  */
 public Classifier(double[] condition, int action, int size, int tStamp) {
   rep = new Representation(condition, action);
   parameters = new Parameters(tStamp, size, rep.getGenerality());
 } // end Classifier
예제 #17
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 /**
  * Sets the action passed to the classifier
  *
  * @param act is the action to be set.
  */
 public void setAction(int act) {
   rep.setAction(act);
 } // end setAction
예제 #18
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 /**
  * Computes the generality of the classifier. Its result is stored in the generality parameter.
  */
 public void calculateGenerality() {
   parameters.setGenerality(rep.getGenerality());
 } // end calculateGenerality
예제 #19
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 /**
  * Mutates the classifier. It mutates the action and the condition.
  *
  * @param envState is the current environtment state. It is necessary for the niched mutation.
  * @return a boolean indicating if the action has been mutated.
  */
 public boolean mutate(double[] envState) {
   return rep.mutate(envState);
 } // end mutate