I’m a TA for an intro C++ class. The following question was asked on a test last week:
What is the output from the following program:
int myFunc(int &x) {
int temp = x * x * x;
x += 1;
return temp;
}
int main() {
int x = 2;
cout << myFunc(x) << endl << myFunc(x) << endl << myFunc(x) << endl;
}
The answer, to me and all my colleagues, is obviously:
8
27
64
But now several students have pointed out that when they run this in certain environments they actually get the opposite:
64
27
8
When I run it in my linux environment using gcc I get what I would expect. Using MinGW on my Windows machine I get what they’re talking about.
It seems to be evaluating the last call to myFunc first, then the second call and then the first, then once it has all the results it outputs them in the normal order, starting with the first. But because the calls were made out of order the numbers are opposite.
It seems to me to be a compiler optimization, choosing to evaluate the function calls in the opposite order, but I don’t really know why. My question is: are my assumptions correct? Is that what’s going on in the background? Or is there something totally different? Also, I don’t really understand why there would be a benefit to evaluating the functions backwards and then evaluating output forward. Output would have to be forward because of the way ostream works, but it seems like evaluation of the functions should be forward as well.
Thanks for your help!
The C++ standard does not define what order the subexpressions of a full expression are evaluated, except for certain operators which introduce an order (the comma operator, ternary operator, short-circuiting logical operators), and the fact that the expressions which make up the arguments/operands of a function/operator are all evaluated before the function/operator itself.
GCC is not obliged to explain to you (or me) why it wants to order them as it does. It might be a performance optimisation, it might be because the compiler code came out a few lines shorter and simpler that way, it might be because one of the mingw coders personally hates you, and wants to ensure that if you make assumptions that aren’t guaranteed by the standard, your code goes wrong. Welcome to the world of open standards 🙂
Edit to add: litb makes a point below about (un)defined behavior. The standard says that if you modify a variable multiple times in an expression, and if there exists a valid order of evaluation for that expression, such that the variable is modified multiple times without a sequence point in between, then the expression has undefined behavior. That doesn’t apply here, because the variable is modified in the call to the function, and there’s a sequence point at the start of any function call (even if the compiler inlines it). However, if you’d manually inlined the code:
Then that would be undefined behavior. In this code, it is valid for the compiler to evaluate all three “x++” subexpressions, then the three calls to pow, then start on the various calls to
operator<<. Because this order is valid and has no sequence points separating the modification of x, the results are completely undefined. In your code snippet, only the order of execution is unspecified.