Esempio n. 1
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  /** consume the data and return the number of items produced * */
  protected int fireMe(
      FlatNode fire, SimulationCounter counters, HashMap<FlatNode, Integer> executionCounts) {
    if (fire.contents instanceof SIRFilter) {
      // decrement the schedule execution counter
      decrementExecutionCounts(fire, executionCounts, counters);

      // consume the date from the buffer
      counters.decrementBufferCount(fire, consumedItems(fire, counters, executionCounts));

      // for a steady state execution return the normal push
      int ret = ((SIRFilter) fire.contents).getPushInt();

      // if the filter is a two stage, and it has not fired
      // return the initPush() unless the initWork does nothing
      if (initSimulation && !counters.hasFired(fire) && fire.contents instanceof SIRTwoStageFilter)
        ret = ((SIRTwoStageFilter) fire.contents).getInitPushInt();
      else if (!initSimulation && KjcOptions.ratematch) {
        // we are ratematching so produce all the data on the one firing.
        ret *= ssg.getMult(fire, false);
      }
      // now this node has fired
      counters.setFired(fire);
      return ret;
    } else if (fire.contents instanceof SIRJoiner) {
      return fireJoiner(fire, counters, executionCounts);
    }

    Utils.fail("Trying to fire a non-filter or joiner");
    return -1;
  }
Esempio n. 2
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 /**
  * return how many items a node consumes (pop's) for one firing given the current state of the
  * simulation *
  */
 protected int consumedItems(
     FlatNode fire, SimulationCounter counters, HashMap<FlatNode, Integer> executionCounts) {
   // if this is the first time a two stage fires consume initpop
   if (initSimulation && !counters.hasFired(fire) && fire.contents instanceof SIRTwoStageFilter)
     return ((SIRTwoStageFilter) fire.contents).getInitPopInt();
   else if (!initSimulation && KjcOptions.ratematch && fire.contents instanceof SIRFilter) {
     // we are ratematching on the filter
     // it consumes for the entire steady state
     return ((SIRFilter) fire.contents).getPopInt() * ssg.getMult(fire, false);
   }
   // otherwise just consume pop
   return ((SIRFilter) fire.contents).getPopInt();
 }
Esempio n. 3
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 /**
  * given a node
  *
  * <pre>fire</pre>
  *
  * and the current state of the simulation, return how many items are necessary for the node to
  * fire.
  */
 protected int itemsNeededToFire(
     FlatNode fire, SimulationCounter counters, HashMap<FlatNode, Integer> executionCounts) {
   // if this is the first time a two stage initpeek is needed to execute
   if (initSimulation && !counters.hasFired(fire) && fire.contents instanceof SIRTwoStageFilter) {
     return ((SIRTwoStageFilter) fire.contents).getInitPeekInt();
   } else if (!initSimulation && KjcOptions.ratematch && fire.contents instanceof SIRFilter) {
     // we are ratematching filters
     return (((SIRFilter) fire.contents).getPopInt() * ssg.getMult(fire, false)
         + (((SIRFilter) fire.contents).getPeekInt() - ((SIRFilter) fire.contents).getPopInt()));
   }
   // otherwise peek items are needed
   return ((SIRFilter) fire.contents).getPeekInt();
 }