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std::vector<CMyClass> objects;

Is it wise to do this?

for(unsigned int i = 0; i < objects.size(); list[i] = objects.at(i++));

Or should I expand my loop to this?

for(unsigned int i = 0; i < objects.size(); i++)
  list[i] = objects.at(i);
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What types do list and objects have? –  MSalters Mar 29 '10 at 15:33
I updated my question to reflect this. –  sum1stolemyname Mar 30 '10 at 5:29

4 Answers 4

up vote 11 down vote accepted

The former is undefined behavior. It's not specified whether list[i] is evaluated (to provide an lvalue for the lhs of the assignment) before or after the function call to objects.at.

Hence there is a legal ordering of the various parts of the expression, in which i is accessed (in list[i]) and separately modified (in i++), without an intervening sequence point.

This is precisely the condition for undefined behavior in the C++ standard - whether such a legal ordering exists. IIRC the C standard expresses it slightly differently but with the same effect.

If in doubt, don't write an expression which uses an increment operator, and also uses the same value anywhere else in the expression. You can do it with the comma operator (i++, i++ is fine) and the conditional operator (i ? i++ : i-- is fine) because they have sequence points in them, but it's rarely worth it. || and && likewise, and something like p != end_p && *(p++) = something; isn't totally implausible. Any other use, and if you stare at it long enough you can usually work out an order of evaluation that messes things up.

That's aside from the comprehensibility of complicated for expressions and for loops with empty bodies.

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&& and || are also sequence points (assuming not overloaded) –  jk. Mar 29 '10 at 14:43
@MSalters: bad point. It is undefined. 5/4 says, "The requirements of this paragraph shall be met for each allowable ordering for the subexpressions of a full expression, otherwise the behavior is undefined " (my emphasis). There is an allowable ordering of the questioner's expression which does not meet the requirement, "the prior value shall be accessed only to determine the value to be stored". For some reason the examples in that paragraph say behavior is unspecified, I guess in those cases the use of i alone as the lvalue doesn't access i out of turn. –  Steve Jessop Mar 29 '10 at 15:08
".at(i++) has a sequence point after i++". is true, but the sequence point only orders the sub-expressions i++ and objects before the use of objects.at(i++). It doesn't order the sub-expression list[i] with respect to i++, which is what creates the problem. Nasal demons ahoy. –  Steve Jessop Mar 29 '10 at 15:09
Even if [] is a function call I'm not sure you're saved. The subexpressions could be evaluated first i++, then list[i], then objects.at(), then operator=. This leaves i++ evaluated and i accessed without an intervening sequence point. But I've never been 100% what "prior value" means in the standard, as opposed to if it had said "value". Possibly the "prior value" isn't accessed, but some other value is instead. I think but am not sure that the i of list[i] is a subexpression (which hence could be evaluated before i++, and would then access the prior value). –  Steve Jessop Mar 29 '10 at 15:46
Anyway, maybe I'm overly paranoid about this part of the standard, and in some cases I'm asserting undefined behaviour where none exists, because I think some access to i is of the "prior value" when in fact it cannot be. I'm willing to be wrong in that direction, rather than attempt any truly hard-core language lawyering to justify (if it can be done) why i can't be accessed immediately before i++ is evaluated :-) –  Steve Jessop Mar 29 '10 at 15:52

When in doubt, prefer the form which is easier to understand (expand the loop).

(And I think list[i] = objects.at(i++) leads to undefined behavior.)

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it does. I tried. –  sum1stolemyname Mar 29 '10 at 14:27

Referencing i in the same expression as i++ is probably undefined behavior. But since it looks like you're using containers, could you maybe write...

list = objects;                               // if they're the same type
list.assign(objects.begin(), objects.end());  // if not
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Or in the worst case use std::copy if neither of those options is available (say list is a C-array?). –  Mark B Mar 29 '10 at 15:12

As it has been said already, post-incrementing a variable in the same expression it is used yields undefined behaviour. However, if you wish to keep the compact form, you could introduce a sequence point and go for

for(unsigned int i = 0; i < objects.size(); list[i] = objects.at(i), i++);
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This looks like the old "every program can be coded as a bodyless for loop". –  Gorpik Mar 29 '10 at 14:44
Doesn't it ? I remember this form to be used quite often in the IOCCC... –  Raphaël Saint-Pierre Mar 29 '10 at 14:49

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