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Is there a sequence point between the two assignments in the following code:

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6 Answers 6

up vote 2 down vote accepted

The relevant quote from the (draft) standard [, 10] is:

The order of evaluation of the function designator, the actual arguments, and subexpressions within the actual arguments is unspecified, but there is a sequence point before the actual call.

So for your expression, the first argument (in particular the call to f) could be evaluated before the second argument; e.g.:

(x = 1, 1), f <sp> call, (x = 2), f <sp> call

Or, it could be evaluated after the second argument; e.g.:

(x = 2), (x = 1, 1), f <sp> call, f <sp> call

[The function call itself can (and most probably will) contain more sequence points (in particular if it contains a return statement).]

Depending on that, there is a sequence point between the assignments or not. It is up to the platform ("unspecified").

Since in the 2nd case, you are assigning to x twice between two sequence points, you have undefined behaviour on such a platform.

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No there isn't. The standard is indeed ambiguous in this case.

If you want to confirm that, gcc has this really cool option -Wsequence-point and in this case it will warn you that the operation may be undefined

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I've gotten false positives from that option before (for strtol(s++, &s, 0), though it was fixed in later gcc versions) so I'm hesitant to rely on it. –  R.. Sep 9 '11 at 2:44
@R. I agree in general, but in this particular case there is no sequence point. –  Foo Bah Sep 9 '11 at 2:49
Although (according to you) the standard is ambiguous, (at least in gcc) the arguments of a function are evaluated from right to left. The reason is obvious, in C, the arguments are pushed on the stack from right to left, so why would the compiler evaluate them from left to right and reserve their place and store them ahead of their place in the stack? I'm quite certain there isn't a compiler foolish enough to evaluate from left to right. –  Shahbaz Sep 9 '11 at 13:45
@Shahbaz the question is about the standard. Compilers are free to interpret the standard as they see fit. It has nothing to do with how arguments are pushed on the stack. Your argument is also flawed. To give you an example, try x=2; f(x, x=1). Even though the x=1 is to the right of the original x, the function call is f(1,1) –  Foo Bah Sep 9 '11 at 13:58
@Shahbaz G++ is a C++ compiler, and the rules there are very different. You should read the specification, it is a bit more specific in this area. In gcc [the C frontend, note that the question focused on C] you should get f(1,1) for both cases. –  Foo Bah Sep 9 '11 at 19:18

There are sequence points at the beginning of a function call and at it's end. However because the order of operations on function arguments is implementation defined you can't gaurantee that f(x=1,1) will be executed before x=2.

Also note that the , in the function call case is not the comma operator that introduces a sequence point.

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There is a sequence point, but the order of evaluation (and their side effects) of the outer function's arguments is still undefined. The implementation is free to first evaluate the inner f(), with its side effect x=1, or the second argument with its side effect x=2.

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Could you tell me by which rule there is a sequence point? I'm not seeing it... –  R.. Sep 9 '11 at 12:32
@R. I think wildplasser is saying there is a sequence point right before the inner function is evaluated but no sequence point that forces one of the assignments to be performed before the other. –  Foo Bah Sep 9 '11 at 12:43
I agree there's a sequence point before the inner function is called (after its arguments are evaluated), but as far as I can tell there's no sequencing that prevents the second assignment from happening before the arguments to the inner function call are evaluated... –  R.. Sep 9 '11 at 12:49
After reading (and rereading) Seth's quote, I change my mind. There is no obligation for the implementation to evaluate all the function arguments at once; if we summarize the fragment as "f( f(a,b),c)", then any order of evaluation of {a,b,c} is allowed before the intervening sequencepoint(s) of calling f() have happened. –  wildplasser Sep 9 '11 at 14:35

Yes, because there is a sequence point before and after function calls.

§1.0.17 of the Standard says:

When calling a function (whether or not the function is inline), there is a sequence point after the evaluation of all function arguments (if any) which takes place before execution of any expressions or statements in the function body. There is also a sequence point after the copying of a returned value and before the execution of any expressions outside the function).

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But we don't know which argument to the outer f is evaluated first. –  Chris Lutz Sep 9 '11 at 2:37
But why couldn't both be evaluated before either function call takes place? In that case, there seems to be no sequence point... –  R.. Sep 9 '11 at 2:38
@R..: There is by definition a sequence point. The Standard has spoken. –  Jeremy W. Sherman Sep 9 '11 at 2:39
@Jeremy you are assuming that the inner function argument must be evaluated first, but that's not guaranteed by the wording of the standard. –  Foo Bah Sep 9 '11 at 2:42
But there's no sequence point before evaluating the arguments. So it seems possible to me that all of the arguments are evaluated before any of the function calls. Is this reasoning invalid? –  R.. Sep 9 '11 at 2:43

Yes there will be a sequence point due to comma operatror But still result will be undefined as evaluation of function arguments is undefined so can't predict what value this expression will generate........means undefined behaviour

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There is no comma operator. The comma separates arguments in a function call. –  Dietrich Epp Sep 27 '11 at 8:26

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