public void visitAssertStatement(GrAssertStatement assertStatement) {
    final InstructionImpl assertInstruction = startNode(assertStatement);

    final GrExpression assertion = assertStatement.getAssertion();
    if (assertion != null) {
      assertion.accept(this);

      InstructionImpl positiveHead = myHead;

      List<GotoInstruction> negations = collectAndRemoveAllPendingNegations(assertStatement);
      if (!negations.isEmpty()) {
        interruptFlow();
        reduceAllNegationsIntoInstruction(assertStatement, negations);
      }

      GrExpression errorMessage = assertStatement.getErrorMessage();
      if (errorMessage != null) {
        errorMessage.accept(this);
      }
      addNode(new ThrowingInstruction(assertStatement));

      final PsiType type =
          TypesUtil.createTypeByFQClassName(
              CommonClassNames.JAVA_LANG_ASSERTION_ERROR, assertStatement);
      ExceptionInfo info = findCatch(type);
      if (info != null) {
        info.myThrowers.add(myHead);
      } else {
        addPendingEdge(null, myHead);
      }

      myHead = positiveHead;
    }
    finishNode(assertInstruction);
  }
  @Override
  public void visitCaseSection(GrCaseSection caseSection) {
    for (GrCaseLabel label : caseSection.getCaseLabels()) {
      GrExpression value = label.getValue();
      if (value != null) {
        value.accept(this);
      }
    }

    final GrStatement[] statements = caseSection.getStatements();

    // infer 'may be return' position
    int i;
    for (i = statements.length - 1; i >= 0 && statements[i] instanceof GrBreakStatement; i--) {}

    for (int j = 0; j < statements.length; j++) {
      GrStatement statement = statements[j];
      statement.accept(this);
      if (j == i) handlePossibleReturn(statement);
    }

    if (myHead != null) {
      addPendingEdge(caseSection, myHead);
    }
  }
  @Override
  public void visitUnaryExpression(GrUnaryExpression expression) {
    final GrExpression operand = expression.getOperand();
    if (operand == null) return;

    if (expression.getOperationTokenType() != mLNOT) {
      operand.accept(this);
      visitCall(expression);
      return;
    }

    ConditionInstruction cond = new ConditionInstruction(expression);
    addNodeAndCheckPending(cond);
    registerCondition(cond);

    operand.accept(this);
    visitCall(expression);

    myConditions.removeFirstOccurrence(cond);

    List<GotoInstruction> negations = collectAndRemoveAllPendingNegations(expression);

    InstructionImpl head = myHead;
    addNodeAndCheckPending(new PositiveGotoInstruction(expression, cond));
    handlePossibleReturn(expression);
    addPendingEdge(expression, myHead);

    if (negations.isEmpty()) {
      myHead = head;
    } else {
      myHead = reduceAllNegationsIntoInstruction(expression, negations);
    }
  }
 private void addForLoopBreakingEdge(GrForStatement forStatement, @Nullable GrForClause clause) {
   if (clause instanceof GrTraditionalForClause) {
     final GrExpression condition = ((GrTraditionalForClause) clause).getCondition();
     if (condition != null) {
       condition.accept(this);
       if (!alwaysTrue(condition)) {
         addPendingEdge(forStatement, myHead); // break cycle
       }
     }
   } else {
     addPendingEdge(forStatement, myHead); // break cycle
   }
 }
  public void visitReturnStatement(GrReturnStatement returnStatement) {
    boolean isNodeNeeded = myHead == null || myHead.getElement() != returnStatement;
    final GrExpression value = returnStatement.getReturnValue();
    if (value != null) value.accept(this);

    if (isNodeNeeded) {
      InstructionImpl returnInstruction = startNode(returnStatement);
      addPendingEdge(null, myHead);
      finishNode(returnInstruction);
    } else {
      addPendingEdge(null, myHead);
    }
    interruptFlow();
  }
  public void visitAssignmentExpression(GrAssignmentExpression expression) {
    GrExpression lValue = expression.getLValue();
    if (expression.getOperationTokenType() != mASSIGN) {
      if (lValue instanceof GrReferenceExpression
          && myPolicy.isReferenceAccepted((GrReferenceExpression) lValue)) {
        String referenceName = ((GrReferenceExpression) lValue).getReferenceName();
        if (referenceName != null) {
          addNodeAndCheckPending(new ReadWriteVariableInstruction(referenceName, lValue, READ));
        }
      }
    }

    GrExpression rValue = expression.getRValue();
    if (rValue != null) {
      rValue.accept(this);
      lValue.accept(this);
    }
  }
 @Nullable
 private static PsiType getNominalTypeNoRecursion(@NotNull final GrExpression expression) {
   if (expression instanceof GrNewExpression) {
     return expression.getType();
   } else if (expression instanceof GrReferenceExpression
       && ((GrReferenceExpression) expression).getQualifier() == null) {
     return getTypeByRef((GrReferenceExpression) expression);
   }
   return null;
 }
  @Override
  public void visitElvisExpression(GrElvisExpression expression) {
    GrExpression condition = expression.getCondition();
    GrExpression elseBranch = expression.getElseBranch();

    condition.accept(this);
    List<GotoInstruction> negations = collectAndRemoveAllPendingNegations(expression);

    InstructionImpl head = myHead;
    handlePossibleReturn(condition);
    addPendingEdge(expression, myHead);
    myHead = head;

    if (elseBranch != null) {
      head = reduceAllNegationsIntoInstruction(expression, negations);
      if (head != null) myHead = head;
      elseBranch.accept(this);
      handlePossibleReturn(elseBranch);
    }
  }
  public void visitThrowStatement(GrThrowStatement throwStatement) {
    final GrExpression exception = throwStatement.getException();
    if (exception == null) return;

    exception.accept(this);
    final InstructionImpl throwInstruction = new ThrowingInstruction(throwStatement);
    addNodeAndCheckPending(throwInstruction);

    interruptFlow();
    final PsiType type = getNominalTypeNoRecursion(exception);
    if (type != null) {
      ExceptionInfo info = findCatch(type);
      if (info != null) {
        info.myThrowers.add(throwInstruction);
      } else {
        addPendingEdge(null, throwInstruction);
      }
    } else {
      addPendingEdge(null, throwInstruction);
    }
  }
  @Override
  public void visitBinaryExpression(GrBinaryExpression expression) {
    final GrExpression left = expression.getLeftOperand();
    final GrExpression right = expression.getRightOperand();
    final IElementType opType = expression.getOperationTokenType();

    if (ControlFlowBuilderUtil.isInstanceOfBinary(expression)) {
      expression.getLeftOperand().accept(this);
      processInstanceOf(expression);
      return;
    }

    if (opType != mLOR && opType != mLAND && opType != kIN) {
      left.accept(this);
      if (right != null) {
        right.accept(this);
      }
      visitCall(expression);
      return;
    }

    ConditionInstruction condition = new ConditionInstruction(expression);
    addNodeAndCheckPending(condition);
    registerCondition(condition);

    left.accept(this);

    if (right == null) return;

    final List<GotoInstruction> negations = collectAndRemoveAllPendingNegations(expression);

    visitCall(expression);

    if (opType == mLAND) {
      InstructionImpl head = myHead;
      if (negations.isEmpty()) {
        addNode(new NegatingGotoInstruction(expression, condition));
        handlePossibleReturn(expression);
        addPendingEdge(expression, myHead);
      } else {
        for (GotoInstruction negation : negations) {
          myHead = negation;
          handlePossibleReturn(expression);
          addPendingEdge(expression, myHead);
        }
      }
      myHead = head;
    } else /*if (opType == mLOR)*/ {
      final InstructionImpl instruction =
          addNodeAndCheckPending(
              new InstructionImpl(expression)); // collect all pending edges from left argument
      handlePossibleReturn(expression);
      addPendingEdge(expression, myHead);
      myHead = instruction;

      InstructionImpl head = reduceAllNegationsIntoInstruction(expression, negations);
      if (head != null) myHead = head;
      // addNode(new NegatingGotoInstruction(expression, myInstructionNumber++, condition));
    }
    myConditions.removeFirstOccurrence(condition);

    right.accept(this);
  }
 @Override
 public void visitParenthesizedExpression(GrParenthesizedExpression expression) {
   final GrExpression operand = expression.getOperand();
   if (operand != null) operand.accept(this);
 }