Esempio n. 1
0
    private static void sortIntoList(
        Node n,
        Block b,
        ArrayList<Node> result,
        NodeMap<Block> nodeMap,
        NodeBitMap unprocessed,
        Node excludeNode) {
      assert unprocessed.isMarked(n) : n;
      unprocessed.clear(n);

      assert nodeMap.get(n) == b;

      if (n instanceof PhiNode) {
        return;
      }

      for (Node input : n.inputs()) {
        if (nodeMap.get(input) == b && unprocessed.isMarked(input) && input != excludeNode) {
          sortIntoList(input, b, result, nodeMap, unprocessed, excludeNode);
        }
      }

      if (n instanceof ProxyNode) {
        // Skip proxy nodes.
      } else {
        result.add(n);
      }
    }
Esempio n. 2
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 private void visitForward(NodeBitMap visited, Node node) {
   if (node != null && !visited.isMarked(node)) {
     visited.mark(node);
     if (node.predecessor() != null) {
       visitForward(visited, node.predecessor());
     }
     if (node instanceof MergeNode) {
       // make sure that the cfg predecessors of a MergeNode are processed first
       MergeNode merge = (MergeNode) node;
       for (int i = 0; i < merge.forwardEndCount(); i++) {
         visitForward(visited, merge.forwardEndAt(i));
       }
     }
     for (Node input : node.inputs()) {
       visitForward(visited, input);
     }
     if (node instanceof LoopBeginNode) {
       LoopBeginNode loopBegin = (LoopBeginNode) node;
       for (LoopEndNode loopEnd : loopBegin.loopEnds()) {
         visitForward(visited, loopEnd);
       }
     }
     nodes.add(node);
   }
 }
Esempio n. 3
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 private static void checkWatchList(
     ArrayList<FloatingReadNode> watchList,
     LocationIdentity identity,
     Block b,
     ArrayList<Node> result,
     NodeMap<Block> nodeMap,
     NodeBitMap unprocessed) {
   assert identity.isMutable();
   if (identity.isAny()) {
     for (FloatingReadNode r : watchList) {
       if (unprocessed.isMarked(r)) {
         sortIntoList(r, b, result, nodeMap, unprocessed, null);
       }
     }
     watchList.clear();
   } else {
     int index = 0;
     while (index < watchList.size()) {
       FloatingReadNode r = watchList.get(index);
       LocationIdentity locationIdentity = r.getLocationIdentity();
       assert locationIdentity.isMutable();
       if (unprocessed.isMarked(r)) {
         if (identity.overlaps(locationIdentity)) {
           sortIntoList(r, b, result, nodeMap, unprocessed, null);
         } else {
           ++index;
           continue;
         }
       }
       int lastIndex = watchList.size() - 1;
       watchList.set(index, watchList.get(lastIndex));
       watchList.remove(lastIndex);
     }
   }
 }
Esempio n. 4
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 @Override
 public void postprocess() {
   if (anchor != null && OptEliminateGuards.getValue()) {
     for (GuardNode guard : anchor.asNode().usages().filter(GuardNode.class)) {
       if (activeGuards.isMarkedAndGrow(guard)) {
         activeGuards.clear(guard);
       }
     }
   }
 }
 private boolean accept(T n) {
   if (n == null) {
     return true;
   }
   if (visited == null) {
     visited = n.graph().createNodeBitMap();
   }
   boolean accept = !visited.isMarked(n);
   visited.mark(n);
   return accept;
 }
Esempio n. 6
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 private void visitBackward(NodeBitMap visited, Node node) {
   if (node != null && !visited.isMarked(node)) {
     visited.mark(node);
     for (Node successor : node.successors()) {
       visitBackward(visited, successor);
     }
     for (Node usage : node.usages()) {
       visitBackward(visited, usage);
     }
     nodes.add(node);
   }
 }
Esempio n. 7
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 @Override
 public GuardingNode createGuard(
     FixedNode before,
     LogicNode condition,
     DeoptimizationReason deoptReason,
     DeoptimizationAction action,
     JavaConstant speculation,
     boolean negated) {
   if (OptEliminateGuards.getValue()) {
     for (Node usage : condition.usages()) {
       if (!activeGuards.isNew(usage)
           && activeGuards.isMarked(usage)
           && ((GuardNode) usage).isNegated() == negated) {
         return (GuardNode) usage;
       }
     }
   }
   StructuredGraph graph = before.graph();
   if (!condition.graph().getGuardsStage().allowsFloatingGuards()) {
     FixedGuardNode fixedGuard =
         graph.add(new FixedGuardNode(condition, deoptReason, action, speculation, negated));
     graph.addBeforeFixed(before, fixedGuard);
     DummyGuardHandle handle = graph.add(new DummyGuardHandle(fixedGuard));
     fixedGuard.lower(this);
     GuardingNode result = handle.getGuard();
     handle.safeDelete();
     return result;
   } else {
     GuardNode newGuard =
         graph.unique(
             new GuardNode(condition, guardAnchor, deoptReason, action, negated, speculation));
     if (OptEliminateGuards.getValue()) {
       activeGuards.markAndGrow(newGuard);
     }
     return newGuard;
   }
 }
Esempio n. 8
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    protected void calcLatestBlock(
        Block earliestBlock,
        SchedulingStrategy strategy,
        Node currentNode,
        NodeMap<Block> currentNodeMap,
        LocationIdentity constrainingLocation,
        BlockMap<ArrayList<FloatingReadNode>> watchListMap,
        BlockMap<List<Node>> latestBlockToNodesMap,
        NodeBitMap visited,
        boolean immutableGraph) {
      Block latestBlock = null;
      assert currentNode.hasUsages();
      for (Node usage : currentNode.usages()) {
        if (immutableGraph && !visited.contains(usage)) {
          /*
           * Normally, dead nodes are deleted by the scheduler before we reach this point.
           * Only when the scheduler is asked to not modify a graph, we can see dead nodes
           * here.
           */
          continue;
        }
        latestBlock = calcBlockForUsage(currentNode, usage, latestBlock, currentNodeMap);
      }

      if (strategy == SchedulingStrategy.FINAL_SCHEDULE
          || strategy == SchedulingStrategy.LATEST_OUT_OF_LOOPS) {
        while (latestBlock.getLoopDepth() > earliestBlock.getLoopDepth()
            && latestBlock != earliestBlock.getDominator()) {
          latestBlock = latestBlock.getDominator();
        }
      }

      if (latestBlock != earliestBlock
          && latestBlock != earliestBlock.getDominator()
          && constrainingLocation != null) {
        latestBlock = checkKillsBetween(earliestBlock, latestBlock, constrainingLocation);
      }

      selectLatestBlock(
          currentNode,
          earliestBlock,
          latestBlock,
          currentNodeMap,
          watchListMap,
          constrainingLocation,
          latestBlockToNodesMap);
    }
Esempio n. 9
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    private static void processStack(
        ControlFlowGraph cfg,
        BlockMap<List<Node>> blockToNodes,
        NodeMap<Block> nodeToBlock,
        NodeBitMap visited,
        BitSet floatingReads,
        NodeStack stack) {
      Block startBlock = cfg.getStartBlock();
      while (!stack.isEmpty()) {
        Node current = stack.peek();
        if (visited.checkAndMarkInc(current)) {

          // Push inputs and predecessor.
          Node predecessor = current.predecessor();
          if (predecessor != null) {
            stack.push(predecessor);
          }

          if (current instanceof PhiNode) {
            processStackPhi(stack, (PhiNode) current);
          } else if (current instanceof ProxyNode) {
            processStackProxy(stack, (ProxyNode) current);
          } else if (current instanceof FrameState) {
            processStackFrameState(stack, current);
          } else {
            current.pushInputs(stack);
          }
        } else {
          stack.pop();
          if (nodeToBlock.get(current) == null) {
            Block curBlock = cfg.blockFor(current);
            if (curBlock == null) {
              assert current.predecessor() == null && !(current instanceof FixedNode)
                  : "The assignment of blocks to fixed nodes is already done when constructing the cfg.";
              Block earliest = startBlock;
              for (Node input : current.inputs()) {
                Block inputEarliest = nodeToBlock.get(input);
                if (inputEarliest == null) {
                  assert current instanceof FrameState
                          && input instanceof StateSplit
                          && ((StateSplit) input).stateAfter() == current
                      : current;
                } else {
                  assert inputEarliest != null;
                  if (inputEarliest.getEndNode() == input) {
                    // This is the last node of the block.
                    if (current instanceof FrameState
                        && input instanceof StateSplit
                        && ((StateSplit) input).stateAfter() == current) {
                      // Keep regular inputEarliest.
                    } else if (input instanceof ControlSplitNode) {
                      inputEarliest =
                          nodeToBlock.get(((ControlSplitNode) input).getPrimarySuccessor());
                    } else {
                      assert inputEarliest.getSuccessorCount() == 1;
                      assert !(input instanceof AbstractEndNode);
                      // Keep regular inputEarliest
                    }
                  }
                  if (earliest.getDominatorDepth() < inputEarliest.getDominatorDepth()) {
                    earliest = inputEarliest;
                  }
                }
              }
              curBlock = earliest;
            }
            assert curBlock != null;
            addNode(blockToNodes, curBlock, current);
            nodeToBlock.set(current, curBlock);
            if (current instanceof FloatingReadNode) {
              FloatingReadNode floatingReadNode = (FloatingReadNode) current;
              if (curBlock.canKill(floatingReadNode.getLocationIdentity())) {
                floatingReads.set(curBlock.getId());
              }
            }
          }
        }
      }
    }
Esempio n. 10
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    private static void resortEarliestWithinBlock(
        Block b,
        BlockMap<List<Node>> blockToNodes,
        NodeMap<Block> nodeToBlock,
        NodeBitMap unprocessed) {
      ArrayList<FloatingReadNode> watchList = new ArrayList<>();
      List<Node> oldList = blockToNodes.get(b);
      AbstractBeginNode beginNode = b.getBeginNode();
      for (Node n : oldList) {
        if (n instanceof FloatingReadNode) {
          FloatingReadNode floatingReadNode = (FloatingReadNode) n;
          LocationIdentity locationIdentity = floatingReadNode.getLocationIdentity();
          MemoryNode lastLocationAccess = floatingReadNode.getLastLocationAccess();
          if (locationIdentity.isMutable() && lastLocationAccess != null) {
            ValueNode lastAccessLocation = lastLocationAccess.asNode();
            if (nodeToBlock.get(lastAccessLocation) == b
                && lastAccessLocation != beginNode
                && !(lastAccessLocation instanceof MemoryPhiNode)) {
              // This node's last access location is within this block. Add to watch
              // list when processing the last access location.
            } else {
              watchList.add(floatingReadNode);
            }
          }
        }
      }

      ArrayList<Node> newList = new ArrayList<>(oldList.size());
      assert oldList.get(0) == beginNode;
      unprocessed.clear(beginNode);
      newList.add(beginNode);
      for (int i = 1; i < oldList.size(); ++i) {
        Node n = oldList.get(i);
        if (unprocessed.isMarked(n)) {
          if (n instanceof MemoryNode) {
            if (n instanceof MemoryCheckpoint) {
              assert n instanceof FixedNode;
              if (watchList.size() > 0) {
                // Check whether we need to commit reads from the watch list.
                checkWatchList(b, nodeToBlock, unprocessed, newList, watchList, n);
              }
            }
            // Add potential dependent reads to the watch list.
            for (Node usage : n.usages()) {
              if (usage instanceof FloatingReadNode) {
                FloatingReadNode floatingReadNode = (FloatingReadNode) usage;
                if (nodeToBlock.get(floatingReadNode) == b
                    && floatingReadNode.getLastLocationAccess() == n
                    && !(n instanceof MemoryPhiNode)) {
                  watchList.add(floatingReadNode);
                }
              }
            }
          }
          assert unprocessed.isMarked(n);
          unprocessed.clear(n);
          newList.add(n);
        } else {
          // This node was pulled up.
          assert !(n instanceof FixedNode) : n;
        }
      }

      for (Node n : newList) {
        unprocessed.mark(n);
      }

      assert newList.size() == oldList.size();
      blockToNodes.put(b, newList);
    }
Esempio n. 11
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    private void scheduleEarliestIterative(
        BlockMap<List<Node>> blockToNodes,
        NodeMap<Block> nodeToBlock,
        NodeBitMap visited,
        StructuredGraph graph,
        boolean immutableGraph) {

      BitSet floatingReads = new BitSet(cfg.getBlocks().length);

      // Add begin nodes as the first entry and set the block for phi nodes.
      for (Block b : cfg.getBlocks()) {
        AbstractBeginNode beginNode = b.getBeginNode();
        ArrayList<Node> nodes = new ArrayList<>();
        nodeToBlock.set(beginNode, b);
        nodes.add(beginNode);
        blockToNodes.put(b, nodes);

        if (beginNode instanceof AbstractMergeNode) {
          AbstractMergeNode mergeNode = (AbstractMergeNode) beginNode;
          for (PhiNode phi : mergeNode.phis()) {
            nodeToBlock.set(phi, b);
          }
        } else if (beginNode instanceof LoopExitNode) {
          LoopExitNode loopExitNode = (LoopExitNode) beginNode;
          for (ProxyNode proxy : loopExitNode.proxies()) {
            nodeToBlock.set(proxy, b);
          }
        }
      }

      NodeStack stack = new NodeStack();

      // Start analysis with control flow ends.
      Block[] reversePostOrder = cfg.reversePostOrder();
      for (int j = reversePostOrder.length - 1; j >= 0; --j) {
        Block b = reversePostOrder[j];
        FixedNode endNode = b.getEndNode();
        if (isFixedEnd(endNode)) {
          stack.push(endNode);
          nodeToBlock.set(endNode, b);
        }
      }

      processStack(cfg, blockToNodes, nodeToBlock, visited, floatingReads, stack);

      // Visit back input edges of loop phis.
      boolean changed;
      boolean unmarkedPhi;
      do {
        changed = false;
        unmarkedPhi = false;
        for (LoopBeginNode loopBegin : graph.getNodes(LoopBeginNode.TYPE)) {
          for (PhiNode phi : loopBegin.phis()) {
            if (visited.isMarked(phi)) {
              for (int i = 0; i < loopBegin.getLoopEndCount(); ++i) {
                Node node = phi.valueAt(i + loopBegin.forwardEndCount());
                if (node != null && !visited.isMarked(node)) {
                  changed = true;
                  stack.push(node);
                  processStack(cfg, blockToNodes, nodeToBlock, visited, floatingReads, stack);
                }
              }
            } else {
              unmarkedPhi = true;
            }
          }
        }

        /*
         * the processing of one loop phi could have marked a previously checked loop phi,
         * therefore this needs to be iterative.
         */
      } while (unmarkedPhi && changed);

      // Check for dead nodes.
      if (!immutableGraph && visited.getCounter() < graph.getNodeCount()) {
        for (Node n : graph.getNodes()) {
          if (!visited.isMarked(n)) {
            n.clearInputs();
            n.markDeleted();
          }
        }
      }

      // Add end nodes as the last nodes in each block.
      for (Block b : cfg.getBlocks()) {
        FixedNode endNode = b.getEndNode();
        if (isFixedEnd(endNode)) {
          if (endNode != b.getBeginNode()) {
            addNode(blockToNodes, b, endNode);
          }
        }
      }

      if (!floatingReads.isEmpty()) {
        for (Block b : cfg.getBlocks()) {
          if (floatingReads.get(b.getId())) {
            resortEarliestWithinBlock(b, blockToNodes, nodeToBlock, visited);
          }
        }
      }

      assert MemoryScheduleVerification.check(cfg.getStartBlock(), blockToNodes);
    }
Esempio n. 12
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    private static void sortNodesLatestWithinBlock(
        Block b,
        BlockMap<List<Node>> earliestBlockToNodesMap,
        BlockMap<List<Node>> latestBlockToNodesMap,
        NodeMap<Block> nodeMap,
        BlockMap<ArrayList<FloatingReadNode>> watchListMap,
        NodeBitMap unprocessed) {
      List<Node> earliestSorting = earliestBlockToNodesMap.get(b);
      ArrayList<Node> result = new ArrayList<>(earliestSorting.size());
      ArrayList<FloatingReadNode> watchList = null;
      if (watchListMap != null) {
        watchList = watchListMap.get(b);
        assert watchList == null || !b.getKillLocations().isEmpty();
      }
      AbstractBeginNode beginNode = b.getBeginNode();
      if (beginNode instanceof LoopExitNode) {
        LoopExitNode loopExitNode = (LoopExitNode) beginNode;
        for (ProxyNode proxy : loopExitNode.proxies()) {
          unprocessed.clear(proxy);
          ValueNode value = proxy.value();
          if (value != null && nodeMap.get(value) == b) {
            sortIntoList(value, b, result, nodeMap, unprocessed, null);
          }
        }
      }
      FixedNode endNode = b.getEndNode();
      FixedNode fixedEndNode = null;
      if (isFixedEnd(endNode)) {
        // Only if the end node is either a control split or an end node, we need to force
        // it to be the last node in the schedule.
        fixedEndNode = endNode;
      }
      for (Node n : earliestSorting) {
        if (n != fixedEndNode) {
          if (n instanceof FixedNode) {
            assert nodeMap.get(n) == b;
            checkWatchList(b, nodeMap, unprocessed, result, watchList, n);
            sortIntoList(n, b, result, nodeMap, unprocessed, null);
          } else if (nodeMap.get(n) == b && n instanceof FloatingReadNode) {
            FloatingReadNode floatingReadNode = (FloatingReadNode) n;
            LocationIdentity location = floatingReadNode.getLocationIdentity();
            if (b.canKill(location)) {
              // This read can be killed in this block, add to watch list.
              if (watchList == null) {
                watchList = new ArrayList<>();
              }
              watchList.add(floatingReadNode);
            }
          }
        }
      }

      for (Node n : latestBlockToNodesMap.get(b)) {
        assert nodeMap.get(n) == b : n;
        assert !(n instanceof FixedNode);
        if (unprocessed.isMarked(n)) {
          sortIntoList(n, b, result, nodeMap, unprocessed, fixedEndNode);
        }
      }

      if (endNode != null && unprocessed.isMarked(endNode)) {
        sortIntoList(endNode, b, result, nodeMap, unprocessed, null);
      }

      latestBlockToNodesMap.put(b, result);
    }
Esempio n. 13
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    @SuppressFBWarnings(
        value = "RCN_REDUNDANT_NULLCHECK_WOULD_HAVE_BEEN_A_NPE",
        justification = "false positive found by findbugs")
    private BlockMap<ArrayList<FloatingReadNode>> calcLatestBlocks(
        SchedulingStrategy strategy,
        NodeMap<Block> currentNodeMap,
        BlockMap<List<Node>> earliestBlockToNodesMap,
        NodeBitMap visited,
        BlockMap<List<Node>> latestBlockToNodesMap,
        boolean immutableGraph) {
      BlockMap<ArrayList<FloatingReadNode>> watchListMap = new BlockMap<>(cfg);
      Block[] reversePostOrder = cfg.reversePostOrder();
      for (int j = reversePostOrder.length - 1; j >= 0; --j) {
        Block currentBlock = reversePostOrder[j];
        List<Node> blockToNodes = earliestBlockToNodesMap.get(currentBlock);
        LocationSet killed = null;
        int previousIndex = blockToNodes.size();
        for (int i = blockToNodes.size() - 1; i >= 0; --i) {
          Node currentNode = blockToNodes.get(i);
          assert currentNodeMap.get(currentNode) == currentBlock;
          assert !(currentNode instanceof PhiNode) && !(currentNode instanceof ProxyNode);
          assert visited.isMarked(currentNode);
          if (currentNode instanceof FixedNode) {
            // For these nodes, the earliest is at the same time the latest block.
          } else {
            Block latestBlock = null;

            LocationIdentity constrainingLocation = null;
            if (currentNode instanceof FloatingReadNode) {
              // We are scheduling a floating read node => check memory
              // anti-dependencies.
              FloatingReadNode floatingReadNode = (FloatingReadNode) currentNode;
              LocationIdentity location = floatingReadNode.getLocationIdentity();
              if (location.isMutable()) {
                // Location can be killed.
                constrainingLocation = location;
                if (currentBlock.canKill(location)) {
                  if (killed == null) {
                    killed = new LocationSet();
                  }
                  fillKillSet(killed, blockToNodes.subList(i + 1, previousIndex));
                  previousIndex = i;
                  if (killed.contains(location)) {
                    // Earliest block kills location => we need to stay within
                    // earliest block.
                    latestBlock = currentBlock;
                  }
                }
              }
            }

            if (latestBlock == null) {
              // We are not constraint within earliest block => calculate optimized
              // schedule.
              calcLatestBlock(
                  currentBlock,
                  strategy,
                  currentNode,
                  currentNodeMap,
                  constrainingLocation,
                  watchListMap,
                  latestBlockToNodesMap,
                  visited,
                  immutableGraph);
            } else {
              selectLatestBlock(
                  currentNode,
                  currentBlock,
                  latestBlock,
                  currentNodeMap,
                  watchListMap,
                  constrainingLocation,
                  latestBlockToNodesMap);
            }
          }
        }
      }
      return watchListMap;
    }