Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

There is code:

#include <iostream>

class Int {
    Int() : x(0) {}
    Int(int x_) : x(x_) {}
    Int& operator=(const Int& b) {
        std::cout << "= from " << x << " = " << b.x << std::endl;
        x = b.x;
    Int& operator+=(const Int& b) {
        std::cout << "+= from " << x << " + " << b.x << std::endl;
        x += b.x;
        return *this;
    Int& operator++() {
        std::cout << "++ prefix " << x << std::endl;
        return *this;
    Int operator++(int) {
        std::cout << "++ postfix " << x << std::endl;
        Int result(*this);
        return result;
    int x;


Int operator+(const Int& a, const Int& b) {
    std::cout << "operator+" << std::endl;
    Int result(a);
    result += b;
    return result;

int main() {
    Int a(2), b(3), c(4), d;
    d = ++a + b++ + ++c;
    return 0;


++ prefix 4
++ postfix 3
++ prefix 2
+= from 3 + 3
+= from 6 + 5
= from 0 = 11

Why postfix operator isn't executed before prefix operator (++ prefix 4) altough priority of postfix operator is higher than prefix operator?

This was compiled by g++.

share|improve this question
up vote 4 down vote accepted

The order of evaluation of the different operands is unspecified which means that the compiler is free to reorder the evaluation of the ++a, b++ and ++c subexpressions as it pleases. The precedence of the operators does not really have any impact in that example.

It does have an effect if you try to write ++i++ (where i is an int) which will be grouped as ++(i++) and it will fail to compile as the subexpression i++ is an rvalue and prefix increment requires an lvalue. If the precedence was reversed, then that expression would compile (and cause Undefined Behavior)

share|improve this answer
it would not reorder ++a, b++ and ++c but their evaluation since it is independent. – Benoit Sep 28 '11 at 15:35
I have compiled such statements ++a++ + (++b)++ and there was no error. For class in example it works, but for types like int it doesn't: error: lvalue required as increment operand – scdmb Sep 28 '11 at 15:46
@Benoit: Right, I started the sentence with that, but then forgot to make it explicit where it most matters. – David Rodríguez - dribeas Sep 28 '11 at 15:50
@scdmb: Yes, I should have been more precise. In this case, because it is a user defined type that offers the operations both expressions compile and are well-defined, but in the case of fundamental types as int the comment stands: int i = 0; ++i++; fails to compile, int i = 0; (++i)++; is undefined behavior. In the case of user defined types, ++i++ will result in a call to the post-increment followed by a call to the pre-increment, proving the precedence of the operators, right? – David Rodríguez - dribeas Sep 28 '11 at 15:57
@scdmb: For an int i, it is undefined behavior because (in C++03 parlance) the integer is modified twice within an expression without any intervening sequence points. I would have to review the C++11 standard, as the whole sequence point terminology is gone... As to an example where it might go wrong... in that particular example it is hard to find an ordering of the operations that might cause different outcomes, but the standard would allow for it. – David Rodríguez - dribeas Sep 28 '11 at 16:18

Postfix ++ has the highest precedence in the expression ++a + b++ + ++c, but + has the lowest precedence and is left associative. This expression can be equivalently written as (++a) + (b++) + (++c) (each ++ is part of a different subexpressions) which explains why ++a is evaluated first. Consider traversing/evaluating the corresponding parse tree and it becomes obvious what the order of evaluation:

         / | \
        /  |  E
       /   |  | \
      E    +  ++  c
    / | \
   /  |  \
  E   +   E
 / \     / \
++  a   b  ++
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.