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I'm wondering about this sample piece of code:

int main()
   char *p ;
   char arr[100] = "Hello";
   if ((p=arr)[0] == 'H') // do stuffs

Is this code actually well formed in C++03?

My argument is that the side effect of = is completed only after the next sequence point and since we are accessing the result of p=arr the code might not be well formed, there is no ordering between = and [] operations.

Am I correct?

The behavior is well defined in C and in C++11. This code is actually derived from MySQL.

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The code in the title doesn't appear in the code sample you've given. – Porges Jan 13 '12 at 3:38
Is ( (a=b) + x) well-defined? If it is well-defined, then (p=arr)[0] would be well-defined as well, for it is equivalent to *((p=arr) + 0) – Nawaz Jan 13 '12 at 3:38
@Prasoon: According to your argument, int x = ++i + n invokes UB? Because according to you, the reason should be : the side effect of ++ is completed only after the next sequence point and since we are accessing the result of ++i the code might not be well formed. Is it? – Nawaz Jan 13 '12 at 3:42
@Nawaz : you seemed to have agreed with me last night, didn't you? – Prasoon Saurav Jan 13 '12 at 4:27
¤ The easy way to decide is to consider idioms such as while( (c = getchar()) != EOF ). That just has to be well-defined, since it's used so much. Case closed. Of course the C++03 standard's "after the assignment has taken place" is open for interpretation: it can mean that no matter the evaluation order, the stored value will be the result, or it can mean that the stored value is only available after the assignment. But the idiom argument clinches what the intended meaning must have been. Cheers & hth., – Cheers and hth. - Alf Jan 13 '12 at 4:38
up vote 24 down vote accepted

Of course it's well-defined.

It doesn't matter when the assignment p=arr takes place. You aren't evaluating p[0], you're subscripting the result of (p=arr), which is the pointer value which is being stored into p. Whether or not it's been stored yet doesn't change the value, and the value is known irrespective of whether p has been modified yet.

Similarly, in *--p, there's no undefined behavior. There'd only be undefined behavior if the same variable was accessed twice, including at least one write, between sequence points. But p is only accessed once, as part of --p. It isn't read again (*p), the dereferencing operator is applied to the result of --p which is a well-defined pointer value.

Now, this would be undefined behavior:

void* a;
void* p = &a;
reinterpret_cast<void**>(p = &p)[0] = 0;

as would

int *pi = new int[5];
int i = **&++pi;

It should be clear that the result of a preincrement is not a read unordered with the write, because to assert that there is a race is to assert that ++p can never be used as an rvalue, in which case it must stand alone between sequence points, and post-increment could be used instead. There would be no advantage to having both pre-increment and post-increment in the language.

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To any future readers, please see this meta post: meta.stackexchange.com/questions/118996/… – Mysticial Jan 13 '12 at 22:15
Also, a transcript of the deleted comments can be found here: i.stack.imgur.com/f4rIE.png – Robert Harvey Jan 13 '12 at 22:21

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