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Our class was asked this question by the C programming prof:

You are given the code:

int x=1;

What output will it always produce ?

Most students said undefined behavior. Can anyone help me understand why it is so?

Thanks for the edit and the answers but I'm still confused.

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+1 for a well-asked seemingly simple question that produces interesting answers and discussion. It is also nice to see a question come out of programming classwork that doesn't add up to "please do my homework for me" ;-) –  RBerteig Aug 10 '10 at 19:00

8 Answers 8

The output is likely to be 2 in every reasonable case. In reality, what you have is undefined behavior though.

Specifically, the standard says:

Between the previous and next sequence point an object shall have its stored value modified at most once by the evaluation of an expression. Furthermore, the prior value shall be read only to determine the value to be stored.

There is a sequence point before evaluating the arguments to a function, and a sequence point after all the arguments have been evaluated (but the function not yet called). Between those two (i.e., while the arguments are being evaluated) there is not a sequence point (unless an argument is an expression includes one internally, such as using the && || or , operator).

That means the call to printf is reading the prior value both to determine the value being stored (i.e., the ++x) and to determine the value of the second argument (i.e., the x+1). This clearly violates the requirement quoted above, resulting in undefined behavior.

The fact that you've provided an extra argument for which no conversion specifier is given does not result in undefined behavior. If you supply fewer arguments that conversion specifiers, or if the (promoted) type of the argument disagrees with that of the conversion specifier you get undefined behavior -- but passing an extra parameter does not.

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@Jerry: Congratulations for writing a correct and clear answer! –  Gilles Aug 10 '10 at 16:21
The output is likely to be 2. +1 for the likely word. :) –  Prasoon Saurav Aug 10 '10 at 16:26
@ShinTakezou: You are incorrect; it is entirely possible for a conforming implementation to print "42". It just is really unlikely. Nor do I trust your imagination as covering all possible compiler implementations. –  David Thornley Aug 10 '10 at 16:54
@Chris: Where do you see a mention of side effects in: "Furthermore, the prior value shall be read only to determine the value to be stored"? Lacking such a restriction, this applies to all code. –  Jerry Coffin Aug 10 '10 at 20:42
@Chris: Carefully read this article: c-faq.com/expr/seqpoints.html –  Prasoon Saurav Aug 11 '10 at 1:53

Any time the behavior of a program is undefined, anything can happen — the classical phrase is that "demons may fly out of your nose" — although most implementations don't go that far.

The arguments of a function are conceptually evaluated in parallel (the technical term is that there is no sequence point between their evaluation). That means the expressions ++x and x+1 may be evaluated in this order, in the opposite order, or in some interleaved way. When you modify a variable and try to access its value in parallel, the behavior is undefined.

With many implementations, the arguments are evaluated in sequence (though not always from left to right). So you're unlikely to see anything but 2 in the real world.

However, a compiler could generate code like this:

  1. Load x into register r1.
  2. Calculate x+1 by adding 1 to r1.
  3. Calculate ++x by adding 1 to r1. That's ok because x has been loaded into r1. Given how the compiler was designed, step 2 cannot have modified r1, because that could only happen if x was read as well as written between two sequence points. Which is forbidden by the C standard.
  4. Store r1 into x.

And on this (hypothetical, but correct) compiler, the program would print 3.

(EDIT: passing an extra argument to printf is correct (§ in N1256; thanks to Prasoon Saurav) for pointing this out. Also: added an example.)

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First, printf with a format of "%d" expects one integer parameter, but you've passed two. The behavior is undefined . No it is not. The second parameter is merely evaluated but the behavior is not undefined because of this reason. Note : printf("%d %d",x++);is Undefined because number of format specifiers is greater than the number of arguments. –  Prasoon Saurav Aug 10 '10 at 16:02
@Prasoon: thanks, you're right. I've corrected my answer. –  Gilles Aug 10 '10 at 16:17
@ShinTakezou: On this (hypothetical) compiler, update instructions such as ++ and += happen to be treated specially. The compiler assumes that if x has been loaded into r1, and x is updated before the next sequence point, then r1 still contains the value of x by the time the update instruction is generated. –  Gilles Aug 10 '10 at 17:21
@ShinTakezou: It could easily generate different code for x+1, x+1, since neither of those causes a change in x. In fact, a good compiler would probably spot those as common subexpressions. The compiler might well want to do something different for calculating function arguments containing assignments. –  David Thornley Aug 10 '10 at 17:24
This is simply wrong -- at step 3, the value in r1 isn't x, so it can't calculate ++x by adding 1 to it. By this logic the expression x = (x + 1) - x might set x to 0 instead of 1 –  Chris Dodd Aug 10 '10 at 20:39

The correct answer is: the code produces undefined behavior.

The reason the behavior is undefined is that the two expressions ++x and x + 1 are modifying x and reading x for an unrelated (to modification) reason and these two actions are not separated by a sequence point. This results in undefined behavior in C (and C++). The requirement is given in 6.5/2 of C language standard.

Note, that the undefined behavior in this case has absolutely nothing to do with the fact that printf function is given only one format specifier and two actual arguments. To give more arguments to printf than there are format specifiers in the format string is perfectly legal in C. Again, the problem is rooted in the violation of expression evaluation requirements of C language.

Also note, that some participants of this discussion fail to grasp the concept of undefined behavior, and insist on mixing it with the concept of unspecified behavior. To better illustrate the difference let's consider the following simple example

int inc_x(int *x) { return ++*x; }
int x_plus_1(int x) { return x + 1; }

int x = 1;
printf("%d", inc_x(&x), x_plus_1(x));

The above code is "equivalent" to the original one, except that the operations that involve our x are wrapped into functions. What is going to happen in this latest example?

There's no undefined behavior in this code. But since the order of evaluation of printf arguments is unspecified, this code produces unspecified behavior, i.e. it is possible that printf will be called as printf("%d", 2, 2) or as printf("%d", 2, 3). In both cases the output will indeed be 2. However, the important difference of this variant is that all accesses to x are wrapped into sequence points present at the beginning and at the end of each function, so this variant does not produce undefined behavior.

This is exactly the reasoning some other posters are trying to force onto the original example. But it cannot be done. The original example produces undefined behavior, which is a completely different beast. They are apparently trying to insist that in practice undefined behavior is always equivalent to unspecified behavior. This is a totally bogus claim that only indicate the lack of expertise in those who make it. The original code produces undefined behavior, period.

To continue with the example, let's modify the previous code sample to

printf("%d %d", inc_x(&x), x_plus_1(x));

the output of the code will become generally unpredictable. It can print 2 2 or it can print 2 3. However note that even though the behavior is unpredictable, it still does not produce the undefined behavior. The behavior is unspecified, bit not undefined. Unspecified behavior is restricted to two possibilities: either 2 2 or 2 3. Undefined behavior is not restricted to anything. It can format you hard drive instead of printing something. Feel the difference.

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(I am starting another fight against blind std affection, sorry). But the OP Q is: what is the output? And the output is always 2. In general, xyz(f, ++x, x+1) is undef behaviour since we can't say which is evaluated first, and one has a side-effect (modifies x). But in this case, we know printf gets only ++x, while x+1 can't modify x, or we would have a broken C impl. So, the output is predictable, and it is always 2 –  ShinTakezou Aug 10 '10 at 17:18
@ShinTakezou: Incorrect. Firstly, when the behavior is undefined, anything can happen. So, your assertions about what can and what can't happen hold no water whatsoever. Secondly, even when the behavior is defined x + 1 can do absolutely anything with x, as long as the effects satisfy the specification. And yes, x + 1 can modify x as long as it reverts it to the original value afterwards. Gilles's answer has an example of such evaluation. –  AnT Aug 10 '10 at 17:33
@ShinTakezou: Thirdly, you are saying that "undef behaviour since we can't say which is evaluated first". This indicates that you do not understand the difference between undefined and unspecified behavior. You mistake undefined behavior for the unspecified one and come to meaningless conclusions as the result of that mistake. Undefined behavior in this case has absolutely nothing to do with what is evaluated first. –  AnT Aug 10 '10 at 17:37
@ShinTakezou: The standard places constraints on conforming programs and conforming implementations for the benefit of all users of the C language. If you're refusing to use the same definitions as everyone else for core concepts in the C language then it's hardly surprising that you disagree with most other people on whether the behaviour is undefined or whether the output is always 2 but there's no point in making that argument. Other people are starting from definitions that you aren't using. –  Charles Bailey Aug 10 '10 at 18:11
@ShinTakezou: As for your refusal to understand the standard terms... well, that exactly the reason you can't come up with (or accept) the correct answer to this question. –  AnT Aug 10 '10 at 18:22

Most students said undefined behavior. Can anyone help me understand why it is so?

Because order in which function parameters are calculated is not specified.

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but the order is irrelevant because only one parameter is being printf'd –  KevinDTimm Aug 10 '10 at 15:31
That's irrelevant; the fact that there is a ++x and x+1 without an intervening sequence point is what makes it undefined. –  David Thornley Aug 10 '10 at 16:04
those std definitions compliances make me always (m/s)ad. Since printf will use, driven by "%d", only the first arg passed, which is btw the only one that modifies x causing side effects. Since x+1 does not change x, it can be evaluated before, or later, or never, and the result of ++x won't change; and since ++x is the only one taken, the result/behaviour is not undefined, unspecified or any other std-word. It is always that, and no matter the implementation; printf is (fmt, ...) and though compilers can check if the fmt matches the extra args, this is not mandatory, nor always desired –  ShinTakezou Aug 10 '10 at 16:32
@ShinTakezou: If you don't like paying attention to the Standard, that's one thing, but you really shouldn't get into discussions like this if you don't. Moreover, if you combine that attitude with a willingness to use non-conforming code, sometime you're going to get bitten by an assumption you made, and the compiler writers are going to have no sympathy. –  David Thornley Aug 10 '10 at 16:37
@ShinTakezou: And I am saying that this is undefined behavior, according to the letter of the standard, and nobody familiar with the standard will insist on telling you anything else. There are legitimate arguments about various standards, and this is not one of them. The fact that printf() will use only one value is irrelevant here as far as the standard is concerned. The fact that one thing is actually undefined, even if it isn't used, means the whole thing is undefined. I would be very surprised to find an implementation that didn't output 2, but it would be within its rights. –  David Thornley Aug 10 '10 at 16:59

What output will it always produce ?

It will produce 2 in all environments I can think of. Strict interpretation of the C99 standard however renders the behaviour undefined because the accesses to x do not meet the requirements that exist between sequence points.

Most students said undefined behavior. Can anyone help me understand why it is so?

I will now address the second question which I understand as "Why do most of the students of my class say that the shown code constitutes undefined behaviour?" and I think no other poster has answered so far. One part of the students will have remembered examples of undefined value of expressions like


The code you give fits this pattern but the students erroneously think that the behaviour is defined anyway because printf ignores the last parameter. This nuance confuses many students. Another part of the student will be as well versed in standard as David Thornley and say "undefined behaviour" for the correct reasons explained above.

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The behavior is undefined because x is assigned to, and referenced in a different context, within the same sequence points. The output will almost always be 2. There is no requirement in the C standard that makes that so. –  David Thornley Aug 10 '10 at 16:19
@David I checked see standard and technically you are 100 % right. I will correct my answer now. –  Peter G. Aug 10 '10 at 16:41
@Peter G.: "...but the behaviour is defined anyway...". How does it become "defined anyway"? Undefined behavior in this case is not in any way "attached" to the last parameter of printf. Just because printf ignores it does not suddenly make the behavior defined. –  AnT Aug 10 '10 at 16:55
@Andrey Thanks. In the revised answer I meant to say the students will be believe it to be defined anyway (like I did not long ago ...). I corrected that now in the revised^2 answer. –  Peter G. Aug 10 '10 at 17:24
I need to stress that my +1 was for "The code you give fits this pattern but the behaviour is defined anyway because printf ignores the last parameter". Even though, for std-lawyer, you should stress the fact that you are using "defined behaviour" in the common sense, not as for std-definition of what is not undefined-behaviour. A program that, given an input, emits always the same output, so being predictable, shouldn't be defined "undefined behaviour", even if formally it could be. –  ShinTakezou Aug 10 '10 at 17:28

The points made about undefined behavior are correct, but there is one additional wrinkle: printf may fail. It's doing file IO; there are any number of reasons it could fail, and it's impossible to eliminate them without knowing the complete program and the context in which it will be executed.

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+1 for the irony (or I've caught something it's not there?!:D) –  ShinTakezou Aug 10 '10 at 17:52

Echoing codaddict the answer is 2.

printf will be called with argument 2 and it will print it.

If this code is put in a context like:

void do_something()
    int x=1;

Then the behaviour of that function is completely and unambiguously defined. I'm not of course arguing that this is good or correct or that the value of x is determinable afterwards.

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I agree with you and codaddict saying the output will be 2 all the time; but there is a lot you can read about it, there are people believing this is undefined behaviour and thus we can't say it is always 2... I am trying to understand if their claim is reasonable; currently, I can't see good explanations to say they are right and we are wrong (i.e. that we can't have arguments to say that it is always 2); if you have time, patience, and you want, you could try to give more solid arguments for your answer. –  ShinTakezou Aug 13 '10 at 8:01

The output will be always (for 99.98% of the most important stadard compliant compilers and systems) 2.

According to the standard, this seems to be, by definition, "undefined behaviour", a definition/answer that is self-justifying and that says nothing about what actually can happen, and especially why.

The utility splint (which is not a std compliance checking tool), and so splint's programmers, consider this as "unspecified behaviour". This means, basically, that the evaluation of (x+1) can give 1+1 or 2+1, depending on when the update of x is actually done. Since however the expression is discarded (printf format reads 1 argument), the output is unaffected, and we can still say it is 2.

undefined.c:7:20: Argument 2 modifies x, used by argument 3 (order of evaluation of actual parameters is undefined): printf("%d\n", ++x, x + 1) Code has unspecified behavior. Order of evaluation of function parameters or subexpressions is not defined, so if a value is used and modified in different places not separated by a sequence point constraining evaluation order, then the result of the expression is unspecified.

As said before, the unspecified behaviour affect just the evaluation of (x+1), not the whole statement or other expressions of it. So in the case of "unspecified behaviour" we can say that the output is 2, and nobody could object.

But this is not unspecified behaviour, it seems to be "undefined behaviour". And the "undefined behaviour" seems to have to be something that affect the whole statement instead of the single expression. This is due to the mistery around where the "undefined behaviour" actually occur (i.e. what exactly affects).

If there would be motivations to attach the "undefined behaviour" just to the (x+1) expression, as in the "unspecified behaviour" case, then we still could say that the output is always (100%) 2. Attaching the "undefined behaviour" just to (x+1) means that we are not able to say if it is 1+1 or 2+1; it is just "anything". But again, that "anything" is dropped because of the printf, and this means that the answer would be "always (100%) 2".

Instead, because of misterious asymmetries, the "undefined behaviour" can't be attached just to the x+1, but indeed it must affect at least the ++x (which by the way is the responsible for the undefined behaviour), if not the whole statement. If it infects just the ++x expression, the output is a "undefined value", i.e. any integer, e.g. -5847834 or 9032. If it infects the whole statement, then you could see gargabe in your console output, likely you could have to stop the program with ctrl-c, possibly before it starts to choke your cpu.

According to an urban legend, the "undefined behaviour" infects not only the whole program, but also your computer and the laws of physics, so that misterious creatures can be created by your program and fly away or eat you.

No answers explain anything competently about the topic. They are just a "oh see the standard says this" (and it is just an interpretation, as usual!). So at least you have learned that "standards exist", and they make arid the educational questions (since of course, don't forget that your code is wrong, regardless undefined/unspecified behaviourism and other standard facts), unuseful the logic arguments and aimless the deep investigations and understanding.

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@ShinTakezou: the reason why the standard writers decided not to define the behavior of f(++x,x+1) is that they chose to follow a simple principle: during a stretch of parallel execution (i.e., between two sequence points), each variable may have either one write or any number of reads, but not both. This is a common design principle in concurrent or parallel systems. –  Gilles Aug 10 '10 at 22:26
@ShinTakezou: by the way, what behavior do you expect from printf("%d %d", ++x, x+1) and from printf("%d %d", x+1, ++x)? –  Gilles Aug 10 '10 at 22:27
@Gilles I read this after writing the comment about non-existance of an expl. for the choice; but it is not so much clear; I would say USB as "func1(&x), func2(x)", unless "++x, x+1" can be parallelized while "func1(&x), func2(x)" would not (why?);the problem in the parallelization isn't in the side-effects, that are both present in ++x, x+1 and func1(&x), func2(x) ?; even with parallelization in mind, I can't see any reason to make it UDB instead of USB as caf said for func1(&x), func2(x); example of non bogus parallelization that justifies that instead of USB would be appreciated –  ShinTakezou Aug 12 '10 at 6:48
The short answer is no, since doing so the compiler could break its ability to compile correctly some "legal" code... If the compiler found two references to the same int variable in the argument list to a function call, and one of them used ++ on the variable, it could emit the code to print an error message about undefined behaviour and then call abort. It would be perfectly standard conforming, it would still compile all standard-compliant programs correctly, but it would not output 2 from the program given by the OP. Is that any clearer? –  Daniel Earwicker Aug 12 '10 at 12:57
@ShinTakezou - once that code is "produced", running it will give always 2 (this is my claim) — it is perfectly possible for a standards compliant C implementation to produce code for that expression that does not result in "2" for the second argument. Whether you know of one that does this or not is irrelevant, the question is whether it is possible, and it is. –  detly Aug 13 '10 at 8:36

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