Esempio n. 1
0
  /** This method detects cycles and stores the last operator of a cycle in the loop head. */
  public void detectCycles() {
    final SimpleOperatorGraphVisitor deleteOldDetectedCycles =
        new SimpleOperatorGraphVisitor() {
          /** */
          private static final long serialVersionUID = 5010278675133006511L;

          @Override
          public Object visit(final BasicOperator basicOperator) {
            basicOperator.cycleOperands.clear();
            return null;
          }
        };
    visit(deleteOldDetectedCycles);
    detectCycles(new LinkedList<BasicOperator>(), new HashSet<BasicOperator>());
  }
  /** {@inheritDoc} */
  @Override
  public Tuple<Collection<BasicOperator>, Collection<BasicOperator>> transformOperatorGraph(
      final Map<String, BasicOperator> mso, final BasicOperator rootOperator) {
    final Collection<BasicOperator> deleted = new LinkedList<BasicOperator>();
    final Collection<BasicOperator> added = new LinkedList<BasicOperator>();
    final ReplaceVar replaceVar = (ReplaceVar) mso.get("replaceVar");

    final LinkedList<BasicOperator> pres =
        (LinkedList<BasicOperator>) replaceVar.getPrecedingOperators();
    final LinkedList<OperatorIDTuple> succs =
        (LinkedList<OperatorIDTuple>) replaceVar.getSucceedingOperators();

    BasicOperator pre;
    OperatorIDTuple idTuple;
    // Connect all precessors to all successors
    for (int i = 0; i < pres.size(); i++) {
      for (int a = 0; a < succs.size(); a++) {
        idTuple = succs.get(a);
        pre = pres.get(i);
        pre.addSucceedingOperator(new OperatorIDTuple(idTuple.getOperator(), idTuple.getId()));
        pre.removeSucceedingOperator(replaceVar);
      }
    }

    BasicOperator succ;
    // And all successors to all precessors
    for (int i = 0; i < succs.size(); i++) {
      for (int a = 0; a < pres.size(); a++) {
        succ = succs.get(i).getOperator();
        succ.addPrecedingOperator(pres.get(a));
        succ.removePrecedingOperator(replaceVar);
      }
    }

    rootOperator.deleteParents();
    rootOperator.setParents();
    rootOperator.detectCycles();
    // should have been done manually: rootOperator.sendMessage(new
    // BoundVariablesMessage());
    deleted.add(replaceVar);
    if (deleted.size() > 0 || added.size() > 0)
      return new Tuple<Collection<BasicOperator>, Collection<BasicOperator>>(added, deleted);
    else return null;
  }
  @Override
  public Tuple<Collection<BasicOperator>, Collection<BasicOperator>> transformOperatorGraph(
      final Map<String, BasicOperator> mso, final BasicOperator rootOperator) {
    final GenerateAddEnv genAdd = (GenerateAddEnv) mso.get("genAdd");
    final Optional optional = (Optional) mso.get("optional");

    final LinkedList<BasicOperator> pres =
        (LinkedList<BasicOperator>) genAdd.getPrecedingOperators();
    final LinkedList<OperatorIDTuple> succs =
        (LinkedList<OperatorIDTuple>) optional.getSucceedingOperators();

    BasicOperator pre;
    for (int i = 0; i < pres.size(); i++) {
      pre = pres.get(i);
      pre.addSucceedingOperator(new OperatorIDTuple(optional, 0));
      pre.removeSucceedingOperator(genAdd);
      optional.addPrecedingOperator(pre);
    }

    optional.removePrecedingOperator(genAdd);
    optional.setSucceedingOperator(new OperatorIDTuple(genAdd, 0));

    genAdd.setPrecedingOperator(optional);
    genAdd.setSucceedingOperators(succs);

    BasicOperator succ;
    for (int i = 0; i < succs.size(); i++) {
      succ = succs.get(i).getOperator();
      succ.addPrecedingOperator(genAdd);
      succ.removePrecedingOperator(optional);
    }

    rootOperator.deleteParents();
    rootOperator.setParents();
    rootOperator.detectCycles();
    rootOperator.sendMessage(new BoundVariablesMessage());
    return null;
  }