コード例 #1
0
ファイル: PSDFScheduler.java プロジェクト: ptII/ptII
  /**
   * Return the parameterized scheduling sequence. An exception will be thrown if the graph is not
   * schedulable.
   *
   * @return A schedule of the deeply contained opaque entities in the firing order.
   * @exception NotSchedulableException If a parameterized schedule cannot be derived for the model.
   * @exception IllegalActionException If the rate parameters of the model are not correct, or the
   *     computed rates for external ports are not correct.
   */
  @SuppressWarnings("unused")
  protected Schedule _getSchedule() throws NotSchedulableException, IllegalActionException {
    PSDFDirector director = (PSDFDirector) getContainer();
    CompositeActor model = (CompositeActor) director.getContainer();

    // Get the vectorization factor.
    String vectorizationFactorExpression = "1";

    String vectorizationName = director.vectorizationFactor.getName(model);
    vectorizationFactorExpression = vectorizationName.replaceAll("\\.", "::");

    if (vectorizationFactorExpression.indexOf(" ") != -1) {
      throw new InternalErrorException(
          "The vectorizationFactor "
              + "PSDFDirector parameter must "
              + "not have spaces in its value.  The original value "
              + "was \""
              + vectorizationName
              + "\". Try changing the name of "
              + "director.");
    }

    PSDFGraphReader graphReader = new PSDFGraphReader();
    PSDFGraph graph = (PSDFGraph) graphReader.convert(model);
    _debug("PSDF graph = \n" + graph.toString());

    if (_debugFlag) {
      graph.printEdgeRateExpressions();
    }

    PSDFAPGANStrategy strategy = new PSDFAPGANStrategy(graph);
    ptolemy.graph.sched.Schedule graphSchedule = strategy.schedule();
    _debug("P-APGAN schedule = \n" + graphSchedule.toString());

    SymbolicScheduleElement resultSchedule =
        _expandAPGAN(graph, strategy.getClusterManager().getRootNode(), strategy);
    resultSchedule.setIterationCount(vectorizationFactorExpression);

    _debug("Final schedule = \n" + resultSchedule.toString());

    if (_debugging) {
      _debug("The buffer size map:\n");

      Iterator relations = _bufferSizeMap.keySet().iterator();

      while (relations.hasNext()) {
        Relation relation = (Relation) relations.next();
        _debug(relation.getName() + ": " + _bufferSizeMap.get(relation) + "\n");
      }
    }

    _saveBufferSizes(_bufferSizeMap);

    // Crazy hack to infer firing counts for each actor.
    try {
      _inferFiringCounts(resultSchedule, null);
    } catch (NameDuplicationException ex) {
      throw new NotSchedulableException(new LinkedList(), ex, "Error recording firing counts");
    }

    // Crazy hack to Infer port production: FIXME: This should be
    // done as part of the APGAN expansion where the rates of
    // external ports are unknown The reason is that it will make
    // rate information propagate from an actor input port to
    // another actors input port that are connected on the inside
    // to the same external input port.  See
    // BaseSDFScheduler.setContainerRates.
    Iterator ports = model.portList().iterator();

    while (ports.hasNext()) {
      IOPort port = (IOPort) ports.next();

      if (_debugging && VERBOSE) {
        _debug("External Port " + port.getName());
      }

      if (port.isInput() && port.isOutput()) {
        throw new NotSchedulableException(
            port,
            "External port is both an input and an output, " + "which is not allowed in SDF.");
      } else if (port.isInput()) {
        List sinks = port.insideSinkPortList();

        if (sinks.size() > 0) {
          IOPort connectedPort = (IOPort) sinks.get(0);
          Entity entity = (Entity) connectedPort.getContainer();
          String name = connectedPort.getName(model);
          String identifier = name.replaceAll("\\.", "::");

          String sinkExpression;
          Variable sinkRateVariable =
              DFUtilities.getRateVariable(connectedPort, "tokenConsumptionRate");

          if (sinkRateVariable == null) {
            sinkExpression = "1";
          } else {
            sinkExpression = identifier + "::" + sinkRateVariable.getName();
          }

          String expression = sinkExpression + " * " + entity.getName() + "::firingsPerIteration";

          DFUtilities.setExpressionIfNotDefined(port, "tokenConsumptionRate", expression);

          if (_debugging && VERBOSE) {
            _debug("Setting tokenConsumptionRate to " + expression);
          }
        }
      } else if (port.isOutput()) {
        List sources = port.insideSourcePortList();

        if (sources.size() > 0) {
          IOPort connectedPort = (IOPort) sources.get(0);
          Entity entity = (Entity) connectedPort.getContainer();
          String name = connectedPort.getName(model);
          String identifier = name.replaceAll("\\.", "::");
          Variable sourceRateVariable =
              DFUtilities.getRateVariable(connectedPort, "tokenProductionRate");
          String sourceExpression;

          if (sourceRateVariable == null) {
            sourceExpression = "1";
          } else {
            sourceExpression = identifier + "::" + sourceRateVariable.getName();
          }

          String expression = sourceExpression + " * " + entity.getName() + "::firingsPerIteration";

          DFUtilities.setExpressionIfNotDefined(port, "tokenProductionRate", expression);

          if (_debugging && VERBOSE) {
            _debug("Setting tokenProductionRate to " + expression);
          }
        }

        // Infer init production.
        // Note that this is a very simple type of inference...
        // However, in general, we don't want to try to
        // flatten this model...
        //  Iterator connectedPorts =
        //                     port.insideSourcePortList().iterator();
        //                 IOPort foundOutputPort = null;
        //                 int inferredRate = 0;
        //                 while (connectedPorts.hasNext()) {
        //                     IOPort connectedPort = (IOPort) connectedPorts.next();
        //                     int newRate;
        //                     if (connectedPort.isOutput()) {
        //                         newRate =
        //                             DFUtilities.getTokenInitProduction(connectedPort);
        //                     } else {
        //                         newRate = 0;
        //                     }
        //                     // If we've already set the rate, then check that the
        //                     // rate for any other internal port is correct.
        //                     if (foundOutputPort != null &&
        //                             newRate != inferredRate) {
        //                         throw new NotSchedulableException(
        //                                 "External output port " + port
        //                                 + " is connected on the inside to ports "
        //                                 + "with different initial production: "
        //                                 + foundOutputPort + " and "
        //                                 + connectedPort);
        //                     }
        //                     foundOutputPort = connectedPort;
        //                     inferredRate = newRate;
        //                 }
        //                 DFUtilities._setIfNotDefined(
        //                         port, "tokenInitProduction", inferredRate);
        //                 if (_debugging && VERBOSE) {
        //                     _debug("Setting tokenInitProduction to "
        //                             + inferredRate);
        //                 }
      } else {
        throw new NotSchedulableException(
            port,
            "External port is neither an input and an output, " + "which is not allowed in SDF.");
      }
    }

    // Set the schedule to be valid.
    setValid(true);

    if (resultSchedule instanceof Schedule) {
      return (Schedule) resultSchedule;
    } else {
      // Must be ScheduleElement.
      Schedule schedule = new Schedule();
      schedule.add((ScheduleElement) resultSchedule);
      return schedule;
    }
  }
コード例 #2
0
ファイル: SDFDirector.java プロジェクト: sf577/Project
  /**
   * Check to see if variables are needed to represent read and write offsets for the given port.
   *
   * @return Code that declares the read and write offset variables.
   * @exception IllegalActionException If getting the rate or reading parameters throws it.
   */
  protected String _createOffsetVariablesIfNeeded() throws IllegalActionException {
    StringBuffer code = new StringBuffer();
    CompositeActor container = (CompositeActor) getComponent().getContainer();

    boolean inline = ((BooleanToken) _codeGenerator.inline.getToken()).booleanValue();

    StringBuffer tempCode = new StringBuffer();
    Iterator outputPorts = container.outputPortList().iterator();
    while (outputPorts.hasNext()) {

      IOPort outputPort = (IOPort) outputPorts.next();
      for (int i = 0; i < outputPort.getWidthInside(); i++) {
        int readTokens = 0;
        int writeTokens = 0;
        // If each actor firing is inlined in the code, then read
        // and write positions in the buffer must return to the
        // previous values after one iteration of the container actor
        // in order to avoid using read and write offset variables.
        if (inline) {
          readTokens = DFUtilities.getRate(outputPort);
          writeTokens = readTokens;
          // If each actor firing is wrapped in a function, then read
          // and write positions in the buffer must return to the
          // previous values after one firing of this actor or one
          // firing of the actor that produces tokens consumed by the
          // inside receiver of this actor in order to avoid using
          // read and write offset variables.
        } else {
          readTokens = DFUtilities.getRate(outputPort);
          Iterator sourcePorts = outputPort.insideSourcePortList().iterator();
          label1:
          while (sourcePorts.hasNext()) {
            IOPort sourcePort = (IOPort) sourcePorts.next();
            CodeGeneratorHelper helper =
                (CodeGeneratorHelper) _getHelper(sourcePort.getContainer());
            int width;
            if (sourcePort.isInput()) {
              width = sourcePort.getWidthInside();
            } else {
              width = sourcePort.getWidth();
            }
            for (int j = 0; j < width; j++) {
              Iterator channels = helper.getSinkChannels(sourcePort, j).iterator();
              while (channels.hasNext()) {
                Channel channel = (Channel) channels.next();
                if (channel.port == outputPort && channel.channelNumber == i) {
                  writeTokens = DFUtilities.getRate(sourcePort);
                  break label1;
                }
              }
            }
          }
        }
        tempCode.append(_createOffsetVariablesIfNeeded(outputPort, i, readTokens, writeTokens));
      }
    }
    if (tempCode.length() > 0) {
      code.append("\n" + _codeGenerator.comment(container.getName() + "'s offset variables"));
      code.append(tempCode);
    }

    Iterator actors = container.deepEntityList().iterator();
    while (actors.hasNext()) {
      StringBuffer tempCode2 = new StringBuffer();
      Actor actor = (Actor) actors.next();
      Iterator inputPorts = actor.inputPortList().iterator();
      while (inputPorts.hasNext()) {
        IOPort inputPort = (IOPort) inputPorts.next();
        for (int i = 0; i < inputPort.getWidth(); i++) {
          int readTokens = 0;
          int writeTokens = 0;
          // If each actor firing is inlined in the code,
          // then read and write positions in the buffer
          // must return to the previous values after one
          // iteration of the container actor in order to
          // avoid using read and write offset variables.
          if (inline) {
            Variable firings = (Variable) ((NamedObj) actor).getAttribute("firingsPerIteration");
            int firingsPerIteration = ((IntToken) firings.getToken()).intValue();
            readTokens = DFUtilities.getRate(inputPort) * firingsPerIteration;
            writeTokens = readTokens;

            // If each actor firing is wrapped in a
            // function, then read and write positions in
            // the buffer must return to the previous
            // values after one firing of this actor or
            // one firing of the actor that produces
            // tokens consumed by this actor in order to
            // avoid using read and write offset
            // variables.
          } else {
            readTokens = DFUtilities.getRate(inputPort);
            Iterator sourcePorts = inputPort.sourcePortList().iterator();
            label2:
            while (sourcePorts.hasNext()) {
              IOPort sourcePort = (IOPort) sourcePorts.next();
              CodeGeneratorHelper helper =
                  (CodeGeneratorHelper) _getHelper(sourcePort.getContainer());
              int width;
              if (sourcePort.isInput()) {
                width = sourcePort.getWidthInside();
              } else {
                width = sourcePort.getWidth();
              }
              for (int j = 0; j < width; j++) {
                Iterator channels = helper.getSinkChannels(sourcePort, j).iterator();
                while (channels.hasNext()) {
                  Channel channel = (Channel) channels.next();
                  if (channel.port == inputPort && channel.channelNumber == i) {
                    writeTokens = DFUtilities.getRate(sourcePort);
                    break label2;
                  }
                }
              }
            }
          }
          tempCode2.append(_createOffsetVariablesIfNeeded(inputPort, i, readTokens, writeTokens));
        }
      }
      if (tempCode2.length() > 0) {
        code.append("\n" + _codeGenerator.comment(actor.getName() + "'s offset variables"));
        code.append(tempCode2);
      }
    }
    return code.toString();
  }