Exemplo n.º 1
0
  private void handleStepOutOfLoop(
      @NotNull final Instruction prevInstruction,
      @NotNull Instruction nextInstruction,
      @NotNull final int[] loopNumber,
      @NotNull MultiMap<BranchingInstruction, DfaMemoryState> processedStates,
      @NotNull MultiMap<BranchingInstruction, DfaMemoryState> incomingStates,
      @NotNull List<DfaInstructionState> inFlightStates,
      @NotNull DfaInstructionState[] afterStates,
      @NotNull StateQueue queue) {
    if (loopNumber[prevInstruction.getIndex()] == 0
        || inSameLoop(prevInstruction, nextInstruction, loopNumber)) {
      return;
    }
    // stepped out of loop. destroy all memory states from the loop, we don't need them anymore

    // but do not touch yet states being handled right now
    for (DfaInstructionState state : inFlightStates) {
      Instruction instruction = state.getInstruction();
      if (inSameLoop(prevInstruction, instruction, loopNumber)) {
        return;
      }
    }
    for (DfaInstructionState state : afterStates) {
      Instruction instruction = state.getInstruction();
      if (inSameLoop(prevInstruction, instruction, loopNumber)) {
        return;
      }
    }
    // and still in queue
    if (!queue.processAll(
        new Processor<DfaInstructionState>() {
          @Override
          public boolean process(DfaInstructionState state) {
            Instruction instruction = state.getInstruction();
            return !inSameLoop(prevInstruction, instruction, loopNumber);
          }
        })) return;

    // now remove obsolete memory states
    final Set<BranchingInstruction> mayRemoveStatesFor = new THashSet<BranchingInstruction>();
    for (Instruction instruction : myInstructions) {
      if (inSameLoop(prevInstruction, instruction, loopNumber)
          && instruction instanceof BranchingInstruction) {
        mayRemoveStatesFor.add((BranchingInstruction) instruction);
      }
    }

    for (Instruction instruction : mayRemoveStatesFor) {
      processedStates.remove((BranchingInstruction) instruction);
      incomingStates.remove((BranchingInstruction) instruction);
    }
  }
Exemplo n.º 2
0
  @NotNull
  protected DfaInstructionState[] acceptInstruction(
      @NotNull InstructionVisitor visitor, @NotNull DfaInstructionState instructionState) {
    Instruction instruction = instructionState.getInstruction();
    PsiElement closure = DfaUtil.getClosureInside(instruction);
    if (closure instanceof PsiClass) {
      registerNestedClosures(instructionState, (PsiClass) closure);
    } else if (closure instanceof PsiLambdaExpression) {
      registerNestedClosures(instructionState, (PsiLambdaExpression) closure);
    }

    return instruction.accept(this, instructionState.getMemoryState(), visitor);
  }
Exemplo n.º 3
0
  @NotNull
  final RunnerResult analyzeMethod(
      @NotNull PsiElement psiBlock,
      @NotNull InstructionVisitor visitor,
      boolean ignoreAssertions,
      @NotNull Collection<DfaMemoryState> initialStates) {
    if (PsiTreeUtil.findChildOfType(psiBlock, OuterLanguageElement.class) != null)
      return RunnerResult.NOT_APPLICABLE;

    try {
      final ControlFlow flow =
          new ControlFlowAnalyzer(myValueFactory, psiBlock, ignoreAssertions).buildControlFlow();
      if (flow == null) return RunnerResult.NOT_APPLICABLE;
      int[] loopNumber = LoopAnalyzer.calcInLoop(flow);

      int endOffset = flow.getInstructionCount();
      myInstructions = flow.getInstructions();
      myNestedClosures.clear();

      Set<Instruction> joinInstructions = ContainerUtil.newHashSet();
      for (int index = 0; index < myInstructions.length; index++) {
        Instruction instruction = myInstructions[index];
        if (instruction instanceof GotoInstruction) {
          joinInstructions.add(myInstructions[((GotoInstruction) instruction).getOffset()]);
        } else if (instruction instanceof ConditionalGotoInstruction) {
          joinInstructions.add(
              myInstructions[((ConditionalGotoInstruction) instruction).getOffset()]);
        } else if (instruction instanceof MethodCallInstruction
            && !((MethodCallInstruction) instruction).getContracts().isEmpty()) {
          joinInstructions.add(myInstructions[index + 1]);
        }
      }

      if (LOG.isDebugEnabled()) {
        LOG.debug("Analyzing code block: " + psiBlock.getText());
        for (int i = 0; i < myInstructions.length; i++) {
          LOG.debug(i + ": " + myInstructions[i]);
        }
      }
      // for (int i = 0; i < myInstructions.length; i++) System.out.println(i + ": " +
      // myInstructions[i].toString());

      Integer tooExpensiveHash = psiBlock.getUserData(TOO_EXPENSIVE_HASH);
      if (tooExpensiveHash != null && tooExpensiveHash == psiBlock.getText().hashCode()) {
        LOG.debug("Too complex because hasn't changed since being too complex already");
        return RunnerResult.TOO_COMPLEX;
      }

      final StateQueue queue = new StateQueue();
      for (final DfaMemoryState initialState : initialStates) {
        queue.offer(new DfaInstructionState(myInstructions[0], initialState));
      }

      MultiMap<BranchingInstruction, DfaMemoryState> processedStates = MultiMap.createSet();
      MultiMap<BranchingInstruction, DfaMemoryState> incomingStates = MultiMap.createSet();

      long msLimit =
          shouldCheckTimeLimit()
              ? Registry.intValue("ide.dfa.time.limit.online")
              : Registry.intValue("ide.dfa.time.limit.offline");
      WorkingTimeMeasurer measurer = new WorkingTimeMeasurer(msLimit * 1000 * 1000);
      int count = 0;
      while (!queue.isEmpty()) {
        List<DfaInstructionState> states = queue.getNextInstructionStates(joinInstructions);
        for (DfaInstructionState instructionState : states) {
          if (count++ % 1024 == 0 && measurer.isTimeOver()) {
            LOG.debug("Too complex because the analysis took too long");
            psiBlock.putUserData(TOO_EXPENSIVE_HASH, psiBlock.getText().hashCode());
            return RunnerResult.TOO_COMPLEX;
          }
          ProgressManager.checkCanceled();

          if (LOG.isDebugEnabled()) {
            LOG.debug(instructionState.toString());
          }
          // System.out.println(instructionState.toString());

          Instruction instruction = instructionState.getInstruction();

          if (instruction instanceof BranchingInstruction) {
            BranchingInstruction branching = (BranchingInstruction) instruction;
            Collection<DfaMemoryState> processed = processedStates.get(branching);
            if (processed.contains(instructionState.getMemoryState())) {
              continue;
            }
            if (processed.size() > MAX_STATES_PER_BRANCH) {
              LOG.debug("Too complex because too many different possible states");
              return RunnerResult.TOO_COMPLEX; // Too complex :(
            }
            if (loopNumber[branching.getIndex()] != 0) {
              processedStates.putValue(branching, instructionState.getMemoryState().createCopy());
            }
          }

          DfaInstructionState[] after = acceptInstruction(visitor, instructionState);
          for (DfaInstructionState state : after) {
            Instruction nextInstruction = state.getInstruction();
            if (nextInstruction.getIndex() >= endOffset) {
              continue;
            }
            handleStepOutOfLoop(
                instruction,
                nextInstruction,
                loopNumber,
                processedStates,
                incomingStates,
                states,
                after,
                queue);
            if (nextInstruction instanceof BranchingInstruction) {
              BranchingInstruction branching = (BranchingInstruction) nextInstruction;
              if (processedStates.get(branching).contains(state.getMemoryState())
                  || incomingStates.get(branching).contains(state.getMemoryState())) {
                continue;
              }
              if (loopNumber[branching.getIndex()] != 0) {
                incomingStates.putValue(branching, state.getMemoryState().createCopy());
              }
            }
            queue.offer(state);
          }
        }
      }

      psiBlock.putUserData(TOO_EXPENSIVE_HASH, null);
      LOG.debug("Analysis ok");
      return RunnerResult.OK;
    } catch (ArrayIndexOutOfBoundsException e) {
      LOG.error(psiBlock.getText(), e);
      return RunnerResult.ABORTED;
    } catch (EmptyStackException e) {
      LOG.error(psiBlock.getText(), e);
      return RunnerResult.ABORTED;
    }
  }