The following for loops produce identical results even though one uses post increment and the other pre-increment.
Here is the code:
for(i=0; i<5; i++) {
printf("%d", i);
}
for(i=0; i<5; ++i) {
printf("%d", i);
}
I get the same output for both 'for' loops. Am I missing something?
After evaluating i++ or ++i, the new value of i will be the same in both cases. The difference between pre- and post-increment is in the result of evaluating the expression itself.
++i increments i and evaluates to the new value of i.
i++ evaluates to the old value of i, and increments i.
The reason this doesn't matter in a for loop is that the flow of control works roughly like this:
Because (1) and (4) are decoupled, either pre- or post-increment can be used.
i++ needs to remember the old value of i after incrementing, I think ++i may be shorter (on the order of 1-2 instructions).
Well, this is simple. The above for loops are semantically equivalent to
int i = 0;
while(i < 5) {
printf("%d", i);
i++;
}
and
int i = 0;
while(i < 5) {
printf("%d", i);
++i;
}
Note that the lines i++; and ++i; have the same semantics FROM THE PERSPECTIVE OF THIS BLOCK OF CODE. They both have the same effect on the value of i (increment it by one) and therefore have the same effect on the behavior of these loops.
Note that there would be a difference if the loop was rewritten as
int i = 0;
int j = i;
while(j < 5) {
printf("%d", i);
j = ++i;
}
int i = 0;
int j = i;
while(j < 5) {
printf("%d", i);
j = i++;
}
This is because in first block of code j sees the value of i after the increment (i is incremented first, or pre-incremented, hence the name) and in the second block of code j sees the value of i before the increment.
The result of your code will be the same. The reason is that the two incrementation operations can be seen as two distinct function calls. Both functions cause an incrementation of the variable, and only their return values are different. In this case, the return value is just thrown away, which means that there's no distinguishable difference in the output.
However, under the hood there's a difference: The post-incrementation i++ needs to create a temporary variable to store the original value of i, then performs the incrementation and returns the temporary variable. The pre-incrementation ++i doesn't create a temporary variable. Sure, any decent optimization setting should be able to optimize this away when the object is something simple like an int, but remember that the ++-operators are overloaded in more complicated classes like iterators. Since the two overloaded methods might have different operations (one might want to output "Hey, I'm pre-incremented!" to stdout for example) the compiler can't tell whether the methods are equivalent when the return value isn't used (basically because such a compiler would solve the unsolvable halting problem), it needs to use the more expensive post-incrementation version if you write myiterator++.
Three reasons why you should pre-increment:
This is one of my favorite interview questions. I'll explain the answer first, and then tell you why I like the question.
Solution:
The answer is that both snippets print the numbers from 0 to 4, inclusive. This is because a for() loop is generally equivalent to a while() loop:
for (INITIALIZER; CONDITION; OPERATION) {
do_stuff();
}
Can be written:
INITIALIZER;
while(CONDITION) {
do_stuff();
OPERATION;
}
You can see that the OPERATION is always done at the bottom of the loop. In this form, it should be clear that i++ and ++i will have the same effect: they'll both increment i and ignore the result. The new value of i is not tested until the next iteration begins, at the top of the loop.
Edit: Thanks to Jason for pointing out that this for() to while() equivalence does not hold if the loop contains control statements (such as continue) that would prevent OPERATION from being executed in a while() loop. OPERATION is always executed just before the next iteration of a for() loop.
Why it's a Good Interview Question
First of all, it takes only a minute or two if a candidate tells the the correct answer immediately, so we can move right on to the next question.
But surprisingly (to me), many candidates tell me the loop with the post-increment will print the numbers from 0 to 4, and the pre-increment loop will print 0 to 5, or 1 to 5. They usually explain the difference between pre- and post-incrementing correctly, but they misunderstand the mechanics of the for() loop.
In that case, I ask them to rewrite the loop using while(), and this really gives me a good idea of their thought processes. And that's why I ask the question in the first place: I want to know how they approach a problem, and how they proceed when I cast doubt on the way their world works.
At this point, most candidates realize their error and find the correct answer. But I had one who insisted his original answer was right, then changed the way he translated the for() to the while(). It made for a fascinating interview, but we didn't make an offer!
Hope that helps!
for loop can not be rewritten as you've specified in general. Look at for(int i = 0; i < 42; i++) { printf("%d", i); continue; } for example. Your claim is that it is semantically equivalent to int i = 0; while(i < 42) { printf("%d", i); continue; i++; } and that's clearly wrong.
for loop is equivalent to the general while loop that you and @Adam Liss gave. I said in this particular instance the semantics between the OP's for loops and the while loops I gave are the same. In general, the naive translation from a for loop to a while loop is problematic and this how you got into trouble. As a tangential comment, note that the compiler doesn't need to even translate the OP's for loops into any kind of loop; the compiler could completely unroll the loop, for example.
Because in either case the increment is done after the body of the loop and thus doesn't affect any of the calculations of the loop. If the compiler is stupid, it might be slightly less efficient to use post-increment (because normally it needs to keep a copy of the pre value for later use), but I would expect any differences to be optimized away in this case.
It might be handy to think of how the for loop is implemented, essentially translated into a set of assignments, tests, and branch instructions. In pseudo-code the pre-increment would look like:
set i = 0
test: if i >= 5 goto done
call printf,"%d",i
set i = i + 1
goto test
done: nop
Post-increment would have at least another step, but it would be trivial to optimize away
set i = 0
test: if i >= 5 goto done
call printf,"%d",i
set j = i // store value of i for later increment
set i = j + 1 // oops, we're incrementing right-away
goto test
done: nop
If you wrote it like this then it would matter :
for(i=0; i<5; i=j++) {
printf("%d",i);
}
Would iterate once more than if written like this :
for(i=0; i<5; i=++j) {
printf("%d",i);
}
Both i++ and ++i is executed after printf("%d", i) is executed at each time, so there's no difference.
You could read Google answer for it here: http://google-styleguide.googlecode.com/svn/trunk/cppguide.xml#Preincrement_and_Predecrement
So, main point is, what no difference for simple object, but for iterators and other template objects you should use preincrement.
EDITED:
There are no difference because you use simple type, so no side effects, and post- or preincrements executed after loop body, so no impact on value in loop body.
You could check it with such a loop:
for (int i = 0; i < 5; cout << "we still not incremented here: " << i << endl, i++)
{
cout << "inside loop body: " << i << endl;
}
The third statement in the for construct is only executed, but its evaluated value is discarded and not taken care of.
When the evaluated value is discarded, pre and post increment are equal.
They only differ if their value is taken.
Yes, you'll get exactly same outputs for both. why do you think they should give you different outputs?
Post-increment or pre-increment matters in situations like this:
int j = ++i;
int k = i++;
f(i++);
g(++i);
where you provide some value, either by assigning or by passing an argument. You do neither in your for loops. It gets incremented only. Post- and pre- don't make sense there!
There is a difference if:
int main()
{
for(int i(0); i<2; printf("i = post increment in loop %d\n", i++))
{
cout << "inside post incement = " << i << endl;
}
for(int i(0); i<2; printf("i = pre increment in loop %d\n",++i))
{
cout << "inside pre incement = " << i << endl;
}
return 0;
}
The result:
inside post incement = 0
i = post increment in loop 0
inside post incement = 1
i = post increment in loop 1
The second for loop:
inside pre incement = 0
i = pre increment in loop 1
inside pre incement = 1
i = pre increment in loop 2
Compilers translate
for (a; b; c)
{
...
}
to
a;
while(b)
{
...
end:
c;
}
So in your case (post/pre- increment) it doesn't matter.
EDIT: continues are simply replaced by goto end;
for(int i = 0; i < 42; i++) { printf("%d", i); continue; } for example. Your claim is that is semantically equivalent to int i = 0; while(i < 42) { printf("%d", i); continue; i++; } and that's clearly wrong.