I stumbled upon https://en.cppreference.com/w/cpp/language/operator_precedence

On the chart, I see that post-increment operator (++) is way above assignment operator (=).

enter image description here

However, I know that

int a[] = {10,20};
int* b = &a[0];

*(b++) = 5;

cout << a[0] << endl; // 5
cout << a[1] << endl; // 20
cout << *b << endl; // 20, now points to a[1]

I always take it for grant that post-increment happens after the assignment operator. However, if I follow the operation precedence chart, then isn't post-increment suppose to happen before = operation? Isn't the answer suppose to be a={10, 5} rather than a={5, 20}?

  • Instead of using int to examine the sequential behavior of the operators applied, you might write a test class overloading all these operators in question. – πάντα ῥεῖ Mar 10 at 8:58

"Precedence" is misleading. It has little to do in general with evaluation order (what happens first), but instead determines what is the operand of each operator for the purpose of evaluation. But let's examine your example.

*(b++) = 5;

This means that 5 is to be assigned to the lvalue on the left. And since C++17, we know that 5 is evaluated entirely before *(b++). Prior to that, they could be evaluated in any order.

Now, b++ has the meaning of "increment b, but evaluate to its previous value". So b++ may cause the increment to happen prior to the assignment taking place, yes, but the value of (b++) is the address before the increment happened. And that is why b is updated to point at the next element, while modifying the current one, in one expression.

  • Oh, I see. *(b++) is actually evaluated before assignment operator, but because post-increment is basically a function that return value before increment (in this case, &a[0]), so the result is seemed as if post-increment is done after assignment. Then, wouldn't that means post-increment operator requires extra memory (to store the returned original value)? – pbeta Mar 10 at 10:15
  • @pbeta - Maybe, maybe not. For the case in your question, a compiler is allowed to actually do the increment after the assignment. The reason is that the observable behavior of your program remains the same, and so under the as-if rule, such an optimization is possible. If it was an overloaded operator, it would probably incur a bit more space. But either way, it's not something I'd fret over if I really needed a post increment. – StoryTeller Mar 10 at 10:18

Post increment (b++) increments b, then returns the previous value of b.

Pre increment (++b) increments b, then returns the new value of b.

To get the behavior you're expecting, change from post-increment to pre-increment.

For example:

#include <iostream>

int main() {
  int a[] = {10, 20};
  int *b = &a[0];

  *(++b) = 5;

  std::cout << a[0] << std::endl;
  std::cout << a[1] << std::endl;
  std::cout << *b << std::endl;

Yields the following output:


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