Java Code Examples for com.google.javascript.rhino.Token#COMMA

/**
 * Apply the supplied predicate against
 * all possible result Nodes of the expression.
 */
static boolean anyResultsMatch(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return anyResultsMatch(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return anyResultsMatch(n.getFirstChild(), p)
          || anyResultsMatch(n.getLastChild(), p);
    case Token.HOOK:
      return anyResultsMatch(n.getFirstChild().getNext(), p)
          || anyResultsMatch(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * Apply the supplied predicate against the potential
 * all possible result of the expression.
 */
static boolean valueCheck(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return valueCheck(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return valueCheck(n.getFirstChild(), p)
          && valueCheck(n.getLastChild(), p);
    case Token.HOOK:
      return valueCheck(n.getFirstChild().getNext(), p)
          && valueCheck(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * Apply the supplied predicate against the potential
 * all possible result of the expression.
 */
static boolean valueCheck(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return valueCheck(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return valueCheck(n.getFirstChild(), p)
          && valueCheck(n.getLastChild(), p);
    case Token.HOOK:
      return valueCheck(n.getFirstChild().getNext(), p)
          && valueCheck(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * Apply the supplied predicate against the potential
 * all possible result of the expression.
 */
static boolean valueCheck(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return valueCheck(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return valueCheck(n.getFirstChild(), p)
          && valueCheck(n.getLastChild(), p);
    case Token.HOOK:
      return valueCheck(n.getFirstChild().getNext(), p)
          && valueCheck(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * Apply the supplied predicate against
 * all possible result Nodes of the expression.
 */
static boolean allResultsMatch(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return allResultsMatch(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return allResultsMatch(n.getFirstChild(), p)
          && allResultsMatch(n.getLastChild(), p);
    case Token.HOOK:
      return allResultsMatch(n.getFirstChild().getNext(), p)
          && allResultsMatch(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * Apply the supplied predicate against
 * all possible result Nodes of the expression.
 */
static boolean anyResultsMatch(Node n, Predicate<Node> p) {
  switch (n.getType()) {
    case Token.ASSIGN:
    case Token.COMMA:
      return anyResultsMatch(n.getLastChild(), p);
    case Token.AND:
    case Token.OR:
      return anyResultsMatch(n.getFirstChild(), p)
          || anyResultsMatch(n.getLastChild(), p);
    case Token.HOOK:
      return anyResultsMatch(n.getFirstChild().getNext(), p)
          || anyResultsMatch(n.getLastChild(), p);
    default:
      return p.apply(n);
  }
}
 

/**
 * A "simple" operator is one whose children are expressions,
 * has no direct side-effects (unlike '+='), and has no
 * conditional aspects (unlike '||').
 */
static boolean isSimpleOperatorType(int type) {
  switch (type) {
    case Token.ADD:
    case Token.BITAND:
    case Token.BITNOT:
    case Token.BITOR:
    case Token.BITXOR:
    case Token.COMMA:
    case Token.DIV:
    case Token.EQ:
    case Token.GE:
    case Token.GETELEM:
    case Token.GETPROP:
    case Token.GT:
    case Token.INSTANCEOF:
    case Token.LE:
    case Token.LSH:
    case Token.LT:
    case Token.MOD:
    case Token.MUL:
    case Token.NE:
    case Token.NOT:
    case Token.RSH:
    case Token.SHEQ:
    case Token.SHNE:
    case Token.SUB:
    case Token.TYPEOF:
    case Token.VOID:
    case Token.POS:
    case Token.NEG:
    case Token.URSH:
      return true;

    default:
      return false;
  }
}
 

/**
 * A "simple" operator is one whose children are expressions,
 * has no direct side-effects (unlike '+='), and has no
 * conditional aspects (unlike '||').
 */
static boolean isSimpleOperatorType(int type) {
  switch (type) {
    case Token.ADD:
    case Token.BITAND:
    case Token.BITNOT:
    case Token.BITOR:
    case Token.BITXOR:
    case Token.COMMA:
    case Token.DIV:
    case Token.EQ:
    case Token.GE:
    case Token.GETELEM:
    case Token.GETPROP:
    case Token.GT:
    case Token.INSTANCEOF:
    case Token.LE:
    case Token.LSH:
    case Token.LT:
    case Token.MOD:
    case Token.MUL:
    case Token.NE:
    case Token.NOT:
    case Token.RSH:
    case Token.SHEQ:
    case Token.SHNE:
    case Token.SUB:
    case Token.TYPEOF:
    case Token.VOID:
    case Token.POS:
    case Token.NEG:
    case Token.URSH:
      return true;

    default:
      return false;
  }
}
 

@Override
public void visit(NodeTraversal t, Node n, Node parent) {
  // VOID nodes appear when there are extra semicolons at the BLOCK level.
  // I've been unable to think of any cases where this indicates a bug,
  // and apparently some people like keeping these semicolons around,
  // so we'll allow it.
  if (n.isEmpty() ||
      n.isComma()) {
    return;
  }

  if (parent == null) {
    return;
  }

  // Do not try to remove a block or an expr result. We already handle
  // these cases when we visit the child, and the peephole passes will
  // fix up the tree in more clever ways when these are removed.
  if (parent.getType() == Token.COMMA) {
    Node gramps = parent.getParent();
    if (gramps.isCall() && parent == gramps.getFirstChild()) {
      if (n == parent.getFirstChild() && parent.getChildCount() == 2 && n.getNext().isName() && "eval".equals(n.getNext().getString())) {
    return;
      }
  }

  // This no-op statement was there so that JSDoc information could
  // be attached to the name. This check should not complain about it.
    if (n == parent.getLastChild()) {
      for (Node an : parent.getAncestors()) {
        int ancestorType = an.getType();
        if (ancestorType == Token.COMMA)
          continue;
        if (ancestorType != Token.EXPR_RESULT && ancestorType != Token.BLOCK)
          return;
        else
          break;
      }
    }
  } else if (parent.getType() != Token.EXPR_RESULT && parent.getType() != Token.BLOCK) {
    if (parent.getType() == Token.FOR && parent.getChildCount() == 4 && (n == parent.getFirstChild() ||
         n == parent.getFirstChild().getNext().getNext())) {
    } else {
    return;
    }
  }

  boolean isResultUsed = NodeUtil.isExpressionResultUsed(n);
  boolean isSimpleOp = NodeUtil.isSimpleOperatorType(n.getType());
  if (!isResultUsed &&
      (isSimpleOp || !NodeUtil.mayHaveSideEffects(n, t.getCompiler()))) {
    if (n.isQualifiedName() && n.getJSDocInfo() != null) {
      return;
    } else if (n.isExprResult()) {
      return;
    }
    String msg = "This code lacks side-effects. Is there a bug?";
    if (n.isString()) {
      msg = "Is there a missing '+' on the previous line?";
    } else if (isSimpleOp) {
      msg = "The result of the '" + Token.name(n.getType()).toLowerCase() +
          "' operator is not being used.";
    }

    t.getCompiler().report(
        t.makeError(n, level, USELESS_CODE_ERROR, msg));
    // TODO(johnlenz): determine if it is necessary to
    // try to protect side-effect free statements as well.
    if (!NodeUtil.isStatement(n)) {
      problemNodes.add(n);
    }
  }
}
 

/**
 * @returns false iff the result of the expression is not consumed.
 */
static boolean isExpressionResultUsed(Node expr) {
  // TODO(johnlenz): consider sharing some code with trySimpleUnusedResult.
  Node parent = expr.getParent();
  switch (parent.getType()) {
    case Token.BLOCK:
    case Token.EXPR_RESULT:
      return false;
    case Token.HOOK:
    case Token.AND:
    case Token.OR:
      return (expr == parent.getFirstChild())
          ? true : isExpressionResultUsed(parent);
    case Token.COMMA:
      Node gramps = parent.getParent();
      if (gramps.isCall() &&
          parent == gramps.getFirstChild()) {
        // Semantically, a direct call to eval is different from an indirect
        // call to an eval. See ECMA-262 S15.1.2.1. So it's OK for the first
        // expression to a comma to be a no-op if it's used to indirect
        // an eval. This we pretend that this is "used".
        if (expr == parent.getFirstChild() &&
            parent.getChildCount() == 2 &&
            expr.getNext().isName() &&
            "eval".equals(expr.getNext().getString())) {
          return true;
        }
      }

      return (expr == parent.getFirstChild())
          ? false : isExpressionResultUsed(parent);
    case Token.FOR:
      if (!NodeUtil.isForIn(parent)) {
        // Only an expression whose result is in the condition part of the
        // expression is used.
        return (parent.getChildAtIndex(1) == expr);
      }
      break;
  }
  return true;
}
 

/**
 * @param locals A predicate to apply to unknown local values.
 * @return Whether the node is known to be a value that is not a reference
 *     outside the expression scope.
 */
static boolean evaluatesToLocalValue(Node value, Predicate<Node> locals) {
  switch (value.getType()) {
    case Token.ASSIGN:
      // A result that is aliased by a non-local name, is the effectively the
      // same as returning a non-local name, but this doesn't matter if the
      // value is immutable.
      return NodeUtil.isImmutableValue(value.getLastChild())
          || (locals.apply(value)
              && evaluatesToLocalValue(value.getLastChild(), locals));
    case Token.COMMA:
      return evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.AND:
    case Token.OR:
      return evaluatesToLocalValue(value.getFirstChild(), locals)
         && evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.HOOK:
      return evaluatesToLocalValue(value.getFirstChild().getNext(), locals)
         && evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.INC:
    case Token.DEC:
      if (value.getBooleanProp(Node.INCRDECR_PROP)) {
        return evaluatesToLocalValue(value.getFirstChild(), locals);
      } else {
        return true;
      }
    case Token.THIS:
      return locals.apply(value);
    case Token.NAME:
      return isImmutableValue(value) || locals.apply(value);
    case Token.GETELEM:
    case Token.GETPROP:
      // There is no information about the locality of object properties.
      return locals.apply(value);
    case Token.CALL:
      return callHasLocalResult(value)
          || isToStringMethodCall(value)
          || locals.apply(value);
    case Token.NEW:
      return newHasLocalResult(value)
             || locals.apply(value);
    case Token.FUNCTION:
    case Token.REGEXP:
    case Token.ARRAYLIT:
    case Token.OBJECTLIT:
      // Literals objects with non-literal children are allowed.
      return true;
    case Token.DELPROP:
    case Token.IN:
      // TODO(johnlenz): should IN operator be included in #isSimpleOperator?
      return true;
    default:
      // Other op force a local value:
      //  x = '' + g (x is now an local string)
      //  x -= g (x is now an local number)
      if (isAssignmentOp(value)
          || isSimpleOperator(value)
          || isImmutableValue(value)) {
        return true;
      }

      throw new IllegalStateException(
          "Unexpected expression node" + value +
          "\n parent:" + value.getParent());
  }
}
 

static int precedence(int type) {
  switch (type) {
    case Token.COMMA:  return 0;
    case Token.ASSIGN_BITOR:
    case Token.ASSIGN_BITXOR:
    case Token.ASSIGN_BITAND:
    case Token.ASSIGN_LSH:
    case Token.ASSIGN_RSH:
    case Token.ASSIGN_URSH:
    case Token.ASSIGN_ADD:
    case Token.ASSIGN_SUB:
    case Token.ASSIGN_MUL:
    case Token.ASSIGN_DIV:
    case Token.ASSIGN_MOD:
    case Token.ASSIGN: return 1;
    case Token.HOOK:   return 2;  // ?: operator
    case Token.OR:     return 3;
    case Token.AND:    return 4;
    case Token.BITOR:  return 5;
    case Token.BITXOR: return 6;
    case Token.BITAND: return 7;
    case Token.EQ:
    case Token.NE:
    case Token.SHEQ:
    case Token.SHNE:   return 8;
    case Token.LT:
    case Token.GT:
    case Token.LE:
    case Token.GE:
    case Token.INSTANCEOF:
    case Token.IN:     return 9;
    case Token.LSH:
    case Token.RSH:
    case Token.URSH:   return 10;
    case Token.SUB:
    case Token.ADD:    return 11;
    case Token.MUL:
    case Token.MOD:
    case Token.DIV:    return 12;
    case Token.INC:
    case Token.DEC:
    case Token.NEW:
    case Token.DELPROP:
    case Token.TYPEOF:
    case Token.VOID:
    case Token.NOT:
    case Token.BITNOT:
    case Token.POS:
    case Token.NEG:    return 13;

    case Token.CALL:
    case Token.GETELEM:
    case Token.GETPROP:
    // Data values
    case Token.ARRAYLIT:
    case Token.EMPTY:  // TODO(johnlenz): remove this.
    case Token.FALSE:
    case Token.FUNCTION:
    case Token.NAME:
    case Token.NULL:
    case Token.NUMBER:
    case Token.OBJECTLIT:
    case Token.REGEXP:
    case Token.STRING:
    case Token.STRING_KEY:
    case Token.THIS:
    case Token.TRUE:
      return 15;

    default: throw new Error("Unknown precedence for " +
                             Token.name(type) +
                             " (type " + type + ")");
  }
}
 

static int precedence(int type) {
  switch (type) {
    case Token.COMMA:  return 0;
    case Token.ASSIGN_BITOR:
    case Token.ASSIGN_BITXOR:
    case Token.ASSIGN_BITAND:
    case Token.ASSIGN_LSH:
    case Token.ASSIGN_RSH:
    case Token.ASSIGN_URSH:
    case Token.ASSIGN_ADD:
    case Token.ASSIGN_SUB:
    case Token.ASSIGN_MUL:
    case Token.ASSIGN_DIV:
    case Token.ASSIGN_MOD:
    case Token.ASSIGN: return 1;
    case Token.HOOK:   return 2;  // ?: operator
    case Token.OR:     return 3;
    case Token.AND:    return 4;
    case Token.BITOR:  return 5;
    case Token.BITXOR: return 6;
    case Token.BITAND: return 7;
    case Token.EQ:
    case Token.NE:
    case Token.SHEQ:
    case Token.SHNE:   return 8;
    case Token.LT:
    case Token.GT:
    case Token.LE:
    case Token.GE:
    case Token.INSTANCEOF:
    case Token.IN:     return 9;
    case Token.LSH:
    case Token.RSH:
    case Token.URSH:   return 10;
    case Token.SUB:
    case Token.ADD:    return 11;
    case Token.MUL:
    case Token.MOD:
    case Token.DIV:    return 12;
    case Token.INC:
    case Token.DEC:
    case Token.NEW:
    case Token.DELPROP:
    case Token.TYPEOF:
    case Token.VOID:
    case Token.NOT:
    case Token.BITNOT:
    case Token.POS:
    case Token.NEG:    return 13;

    case Token.CALL:
    case Token.GETELEM:
    case Token.GETPROP:
    // Data values
    case Token.ARRAYLIT:
    case Token.EMPTY:  // TODO(johnlenz): remove this.
    case Token.FALSE:
    case Token.FUNCTION:
    case Token.NAME:
    case Token.NULL:
    case Token.NUMBER:
    case Token.OBJECTLIT:
    case Token.REGEXP:
    case Token.STRING:
    case Token.STRING_KEY:
    case Token.THIS:
    case Token.TRUE:
      return 15;

    default: throw new Error("Unknown precedence for " +
                             Token.name(type) +
                             " (type " + type + ")");
  }
}
 

@Override
public void visit(NodeTraversal t, Node n, Node parent) {
  // VOID nodes appear when there are extra semicolons at the BLOCK level.
  // I've been unable to think of any cases where this indicates a bug,
  // and apparently some people like keeping these semicolons around,
  // so we'll allow it.
  if (n.isEmpty() ||
      n.isComma()) {
    return;
  }

  if (parent == null) {
    return;
  }

  // Do not try to remove a block or an expr result. We already handle
  // these cases when we visit the child, and the peephole passes will
  // fix up the tree in more clever ways when these are removed.
  if (n.isExprResult()) {
    return;
  }

  // This no-op statement was there so that JSDoc information could
  // be attached to the name. This check should not complain about it.
  if (n.isQualifiedName() && n.getJSDocInfo() != null) {
    return;
  }

  boolean isResultUsed = NodeUtil.isExpressionResultUsed(n);
  boolean isSimpleOp = NodeUtil.isSimpleOperatorType(n.getType());
  if (parent.getType() == Token.COMMA) {
    if (isResultUsed) {
      return;
    }
    if (n == parent.getLastChild()) {
      for (Node an : parent.getAncestors()) {
        int ancestorType = an.getType();
        if (ancestorType == Token.COMMA) continue;
        if (ancestorType != Token.EXPR_RESULT && ancestorType != Token.BLOCK) return;
        else break;
      }
    }
  } else if (parent.getType() != Token.EXPR_RESULT && parent.getType() != Token.BLOCK) {
    if (! (parent.getType() == Token.FOR && parent.getChildCount() == 4 && (n == parent.getFirstChild() || n == parent.getFirstChild().getNext().getNext()))) {
      return;
    }
  }
  if (
      (isSimpleOp || !NodeUtil.mayHaveSideEffects(n, t.getCompiler()))) {
    String msg = "This code lacks side-effects. Is there a bug?";
    if (n.isString()) {
      msg = "Is there a missing '+' on the previous line?";
    } else if (isSimpleOp) {
      msg = "The result of the '" + Token.name(n.getType()).toLowerCase() +
          "' operator is not being used.";
    }

    t.getCompiler().report(
        t.makeError(n, level, USELESS_CODE_ERROR, msg));
    // TODO(johnlenz): determine if it is necessary to
    // try to protect side-effect free statements as well.
    if (!NodeUtil.isStatement(n)) {
      problemNodes.add(n);
    }
  }
}
 

@Override
public void visit(NodeTraversal t, Node n, Node parent) {
  // VOID nodes appear when there are extra semicolons at the BLOCK level.
  // I've been unable to think of any cases where this indicates a bug,
  // and apparently some people like keeping these semicolons around,
  // so we'll allow it.
  if (n.isEmpty() ||
      n.isComma()) {
    return;
  }

  if (parent == null) {
    return;
  }

  // Do not try to remove a block or an expr result. We already handle
  // these cases when we visit the child, and the peephole passes will
  // fix up the tree in more clever ways when these are removed.
  if (n.isExprResult()) {
    return;
  }

  // This no-op statement was there so that JSDoc information could
  // be attached to the name. This check should not complain about it.
  if (n.isQualifiedName() && n.getJSDocInfo() != null) {
    return;
  }

  boolean isResultUsed = NodeUtil.isExpressionResultUsed(n);
  boolean isSimpleOp = NodeUtil.isSimpleOperatorType(n.getType());
  if (parent.getType() == Token.COMMA) {
    if (isResultUsed) {
      return;
    }
    if (n == parent.getLastChild()) {
      for (Node an : parent.getAncestors()) {
        int ancestorType = an.getType();
        if (ancestorType == Token.COMMA) continue;
      }
    }
  } else if (parent.getType() != Token.EXPR_RESULT && parent.getType() != Token.BLOCK) {
    if (! (parent.getType() == Token.FOR && parent.getChildCount() == 4 && (n == parent.getFirstChild() || n == parent.getFirstChild().getNext().getNext()))) {
      return;
    }
  }
  if (
      (isSimpleOp || !NodeUtil.mayHaveSideEffects(n, t.getCompiler()))) {
    String msg = "This code lacks side-effects. Is there a bug?";
    if (n.isString()) {
      msg = "Is there a missing '+' on the previous line?";
    } else if (isSimpleOp) {
      msg = "The result of the '" + Token.name(n.getType()).toLowerCase() +
          "' operator is not being used.";
    }

    t.getCompiler().report(
        t.makeError(n, level, USELESS_CODE_ERROR, msg));
    // TODO(johnlenz): determine if it is necessary to
    // try to protect side-effect free statements as well.
    if (!NodeUtil.isStatement(n)) {
      problemNodes.add(n);
    }
  }
}
 

static int precedence(int type) {
  switch (type) {
    case Token.COMMA:  return 0;
    case Token.ASSIGN_BITOR:
    case Token.ASSIGN_BITXOR:
    case Token.ASSIGN_BITAND:
    case Token.ASSIGN_LSH:
    case Token.ASSIGN_RSH:
    case Token.ASSIGN_URSH:
    case Token.ASSIGN_ADD:
    case Token.ASSIGN_SUB:
    case Token.ASSIGN_MUL:
    case Token.ASSIGN_DIV:
    case Token.ASSIGN_MOD:
    case Token.ASSIGN: return 1;
    case Token.HOOK:   return 2;  // ?: operator
    case Token.OR:     return 3;
    case Token.AND:    return 4;
    case Token.BITOR:  return 5;
    case Token.BITXOR: return 6;
    case Token.BITAND: return 7;
    case Token.EQ:
    case Token.NE:
    case Token.SHEQ:
    case Token.SHNE:   return 8;
    case Token.LT:
    case Token.GT:
    case Token.LE:
    case Token.GE:
    case Token.INSTANCEOF:
    case Token.IN:     return 9;
    case Token.LSH:
    case Token.RSH:
    case Token.URSH:   return 10;
    case Token.SUB:
    case Token.ADD:    return 11;
    case Token.MUL:
    case Token.MOD:
    case Token.DIV:    return 12;
    case Token.INC:
    case Token.DEC:
    case Token.NEW:
    case Token.DELPROP:
    case Token.TYPEOF:
    case Token.VOID:
    case Token.NOT:
    case Token.BITNOT:
    case Token.POS:
    case Token.NEG:    return 13;

    case Token.ARRAYLIT:
    case Token.CALL:
    case Token.EMPTY:
    case Token.FALSE:
    case Token.FUNCTION:
    case Token.GETELEM:
    case Token.GETPROP:
    case Token.GET_REF:
    case Token.IF:
    case Token.LP:
    case Token.NAME:
    case Token.NULL:
    case Token.NUMBER:
    case Token.OBJECTLIT:
    case Token.REGEXP:
    case Token.RETURN:
    case Token.STRING:
    case Token.THIS:
    case Token.TRUE:
      return 15;

    default: throw new Error("Unknown precedence for " +
                             Node.tokenToName(type) +
                             " (type " + type + ")");
  }
}
 

/**
 * @param locals A predicate to apply to unknown local values.
 * @return Whether the node is known to be a value that is not a reference
 *     outside the expression scope.
 */
static boolean evaluatesToLocalValue(Node value, Predicate<Node> locals) {
  switch (value.getType()) {
    case Token.ASSIGN:
      // A result that is aliased by a non-local name, is the effectively the
      // same as returning a non-local name, but this doesn't matter if the
      // value is immutable.
      return NodeUtil.isImmutableValue(value.getLastChild())
          || (locals.apply(value)
              && evaluatesToLocalValue(value.getLastChild(), locals));
    case Token.COMMA:
      return evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.AND:
    case Token.OR:
      return evaluatesToLocalValue(value.getFirstChild(), locals)
         && evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.HOOK:
      return evaluatesToLocalValue(value.getFirstChild().getNext(), locals)
         && evaluatesToLocalValue(value.getLastChild(), locals);
    case Token.INC:
    case Token.DEC:
      if (value.getBooleanProp(Node.INCRDECR_PROP)) {
        return evaluatesToLocalValue(value.getFirstChild(), locals);
      } else {
        return true;
      }
    case Token.THIS:
      return locals.apply(value);
    case Token.NAME:
      return isImmutableValue(value) || locals.apply(value);
    case Token.GETELEM:
    case Token.GETPROP:
      // There is no information about the locality of object properties.
      return locals.apply(value);
    case Token.CALL:
      return callHasLocalResult(value)
          || isToStringMethodCall(value)
          || locals.apply(value);
    case Token.NEW:
      return newHasLocalResult(value)
             || locals.apply(value);
    case Token.FUNCTION:
    case Token.REGEXP:
    case Token.ARRAYLIT:
    case Token.OBJECTLIT:
      // Literals objects with non-literal children are allowed.
      return true;
    case Token.DELPROP:
    case Token.IN:
      // TODO(johnlenz): should IN operator be included in #isSimpleOperator?
      return true;
    default:
      // Other op force a local value:
      //  x = '' + g (x is now an local string)
      //  x -= g (x is now an local number)
      if (isAssignmentOp(value)
          || isSimpleOperator(value)
          || isImmutableValue(value)) {
        return true;
      }

      throw new IllegalStateException(
          "Unexpected expression node" + value +
          "\n parent:" + value.getParent());
  }
}
 

@Override
public void visit(NodeTraversal t, Node n, Node parent) {
  // VOID nodes appear when there are extra semicolons at the BLOCK level.
  // I've been unable to think of any cases where this indicates a bug,
  // and apparently some people like keeping these semicolons around,
  // so we'll allow it.
  if (n.isEmpty() ||
      n.isComma()) {
    return;
  }

  if (parent == null) {
    return;
  }

  // Do not try to remove a block or an expr result. We already handle
  // these cases when we visit the child, and the peephole passes will
  // fix up the tree in more clever ways when these are removed.
  if (parent.getType() == Token.COMMA) {
    Node gramps = parent.getParent();
    if (gramps.isCall() && parent == gramps.getFirstChild()) {
      if (n == parent.getFirstChild() && parent.getChildCount() == 2 && n.getNext().isName() && "eval".equals(n.getNext().getString())) {
    return;
      }
  }

  // This no-op statement was there so that JSDoc information could
  // be attached to the name. This check should not complain about it.
    if (n == parent.getLastChild()) {
      for (Node an : parent.getAncestors()) {
        int ancestorType = an.getType();
        if (ancestorType == Token.COMMA)
          continue;
        if (ancestorType != Token.EXPR_RESULT && ancestorType != Token.BLOCK)
          return;
        else
          break;
      }
    }
  } else if (parent.getType() != Token.EXPR_RESULT && parent.getType() != Token.BLOCK) {
    if (parent.getType() == Token.FOR && parent.getChildCount() == 4 && (n == parent.getFirstChild() ||
         n == parent.getFirstChild().getNext().getNext())) {
    } else {
    return;
    }
  }

  boolean isResultUsed = NodeUtil.isExpressionResultUsed(n);
  boolean isSimpleOp = NodeUtil.isSimpleOperatorType(n.getType());
  if (!isResultUsed &&
      (isSimpleOp || !NodeUtil.mayHaveSideEffects(n, t.getCompiler()))) {
    if (n.isQualifiedName() && n.getJSDocInfo() != null) {
      return;
    } else if (n.isExprResult()) {
      return;
    }
    String msg = "This code lacks side-effects. Is there a bug?";
    if (n.isString()) {
      msg = "Is there a missing '+' on the previous line?";
    } else if (isSimpleOp) {
      msg = "The result of the '" + Token.name(n.getType()).toLowerCase() +
          "' operator is not being used.";
    }

    t.getCompiler().report(
        t.makeError(n, level, USELESS_CODE_ERROR, msg));
    // TODO(johnlenz): determine if it is necessary to
    // try to protect side-effect free statements as well.
    if (!NodeUtil.isStatement(n)) {
      problemNodes.add(n);
    }
  }
}
 

/**
 * @returns false iff the result of the expression is not consumed.
 */
static boolean isExpressionResultUsed(Node expr) {
  // TODO(johnlenz): consider sharing some code with trySimpleUnusedResult.
  Node parent = expr.getParent();
  switch (parent.getType()) {
    case Token.BLOCK:
    case Token.EXPR_RESULT:
      return false;
    case Token.HOOK:
    case Token.AND:
    case Token.OR:
      return (expr == parent.getFirstChild())
          ? true : isExpressionResultUsed(parent);
    case Token.COMMA:
      Node gramps = parent.getParent();
      if (gramps.isCall() &&
          parent == gramps.getFirstChild()) {
        // Semantically, a direct call to eval is different from an indirect
        // call to an eval. See ECMA-262 S15.1.2.1. So it's OK for the first
        // expression to a comma to be a no-op if it's used to indirect
        // an eval. This we pretend that this is "used".
        if (expr == parent.getFirstChild() &&
            parent.getChildCount() == 2 &&
            expr.getNext().isName() &&
            "eval".equals(expr.getNext().getString())) {
          return true;
        }
      }

      return (expr == parent.getFirstChild())
          ? false : isExpressionResultUsed(parent);
    case Token.FOR:
      if (!NodeUtil.isForIn(parent)) {
        // Only an expression whose result is in the condition part of the
        // expression is used.
        return (parent.getChildAtIndex(1) == expr);
      }
      break;
  }
  return true;
}
 

@Override
public void visit(NodeTraversal t, Node n, Node parent) {
  // VOID nodes appear when there are extra semicolons at the BLOCK level.
  // I've been unable to think of any cases where this indicates a bug,
  // and apparently some people like keeping these semicolons around,
  // so we'll allow it.
  if (n.isEmpty() ||
      n.isComma()) {
    return;
  }

  if (parent == null) {
    return;
  }

  // Do not try to remove a block or an expr result. We already handle
  // these cases when we visit the child, and the peephole passes will
  // fix up the tree in more clever ways when these are removed.
  if (parent.getType() == Token.COMMA) {
    Node gramps = parent.getParent();
    if (gramps.isCall() && parent == gramps.getFirstChild()) {
      if (n == parent.getFirstChild() && parent.getChildCount() == 2 && n.getNext().isName() && "eval".equals(n.getNext().getString())) {
    return;
      }
  }

  // This no-op statement was there so that JSDoc information could
  // be attached to the name. This check should not complain about it.
    if (n == parent.getLastChild()) {
      for (Node an : parent.getAncestors()) {
        int ancestorType = an.getType();
        if (ancestorType == Token.COMMA)
          continue;
        if (ancestorType != Token.EXPR_RESULT && ancestorType != Token.BLOCK)
          return;
        else
          break;
      }
    }
  } else if (parent.getType() != Token.EXPR_RESULT && parent.getType() != Token.BLOCK) {
    if (parent.getType() == Token.FOR && parent.getChildCount() == 4 && (n == parent.getFirstChild() ||
         n == parent.getFirstChild().getNext().getNext())) {
    } else {
    return;
    }
  }

  boolean isResultUsed = NodeUtil.isExpressionResultUsed(n);
  boolean isSimpleOp = NodeUtil.isSimpleOperatorType(n.getType());
  if (!isResultUsed &&
      (isSimpleOp || !NodeUtil.mayHaveSideEffects(n, t.getCompiler()))) {
    if (n.isQualifiedName() && n.getJSDocInfo() != null) {
      return;
    } else if (n.isExprResult()) {
      return;
    }
    String msg = "This code lacks side-effects. Is there a bug?";
    if (n.isString()) {
      msg = "Is there a missing '+' on the previous line?";
    } else if (isSimpleOp) {
      msg = "The result of the '" + Token.name(n.getType()).toLowerCase() +
          "' operator is not being used.";
    }

    t.getCompiler().report(
        t.makeError(n, level, USELESS_CODE_ERROR, msg));
    // TODO(johnlenz): determine if it is necessary to
    // try to protect side-effect free statements as well.
    if (!NodeUtil.isStatement(n)) {
      problemNodes.add(n);
    }
  }
}