Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
int main(int argc, char ** argv)
   int i = 0;
   i = i++ + ++i;
   printf("%d\n", i); // 3

   i = 1;
   i = (i++);
   printf("%d\n", i); // 2 Should be 1, no ?

   volatile int u = 0;
   u = u++ + ++u;
   printf("%d\n", u); // 1

   u = 1;
   u = (u++);
   printf("%d\n", u); // 2 Should also be one, no ?

   register int v = 0;
   v = v++ + ++v;
   printf("%d\n", v); // 3 (Should be the same as u ?)
share|improve this question
Homework? Not trying to be a pain, but you should never write code with expressions like these. They are usually given as academic examples, sometimes showing that different compilers yield different output. –  Jarrett Meyer Jun 4 '09 at 10:30
@Jarett, nope, just needed some pointers to "sequence points". While working I found a piece of code with i = i++, I thougth "This isn't modifying the value of i". I tested and I wondered why. Since, i've removed this statment and replaced it by i++; –  PiX Jun 4 '09 at 18:24
Explain these undefined behaviors? Explain what about them? How they behave is undefined. –  Jesse Millikan Jul 10 '09 at 15:44
I think it's interesting that everyone ALWAYS assumes that questions like this are asked because the asker wants to USE the construct in question. My first assumption was that PiX knows that these are bad, but is curious why the behave they way the do on whataver compiler s/he was using... And yeah, what unWind said... it's undefined, it could do anything... including JCF (Jump and Catch Fire) –  Brian Postow May 24 '10 at 13:41
I'm curious: Why don't compilers seem to warn on constructs such as "u = u++ + ++u;" if the result is undefined? –  Learn OpenGL ES Sep 20 '12 at 16:23
show 7 more comments

8 Answers 8

up vote 207 down vote accepted

Why are these "issues"? The language clearly says that certain things lead to undefined behavior. There is no problem, there is no "should" involved. If the undefined behavior changes when one of the involved variables is declared volatile, that doesn't prove or change anything. It is undefined; you cannot reason about the behavior.

Your most interesting-loooking example, the one with

u = (u++);

is a text-book example of undefined behavior (see Wikipedia's entry on sequence points).

share|improve this answer
+max_int. Use statements which the language standard actually tells you what they will do. Do not use undefined behaviour and then wonder what's going on. –  Daniel Daranas Jun 4 '09 at 9:31
I knew it was undefined, (The idea of seing this code in production frighten me :)) but I tried to understand what was the reason for these results. Especially why u = u++ incremented u. In java for example: u = u++ returns 0 as (my brain) expected :) Thanks for the sequence points links BTW. –  PiX Jun 4 '09 at 9:42
Obviously because of the brackets around the u++ the compiler has decided to incerement u and then return it. As it is undefined behaviuor in C this is ligitimate. A different compiler or even a different machine and the same one may give a different answer. I do not know java, but perhaps the behaviour is clearly defined. –  ChrisBD Jun 4 '09 at 10:21
@PiX: Things are undefined for a number of possible reasons. These include: there is no clear "right result", different machine architectures would strongly favour different results, existing practice is not consistent, or beyond the scope of the standard (e.g. what filenames are valid). –  Richard Jun 4 '09 at 10:57
The spirit of C: Trust the programmer... no matter how insane he is. –  Fiddling Bits Nov 26 '13 at 2:48
show 8 more comments

Read this Question from the C FAQ.

Q: How can I understand complex expressions like the ones in this section, and avoid writing undefined ones? What's a "sequence point"?

A: A sequence point is a point in time at which the dust has settled and all side effects which have been seen so far are guaranteed to be complete. The sequence points listed in the C standard are:

  1. at the end of the evaluation of a full expression (a full expression is an expression statement, or any other expression which is not a subexpression within any larger expression);
  2. at the ||, &&, ?:, and comma operators; and
  3. at a function call (after the evaluation of all the arguments, and just before the actual call).

The Standard states that

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 accessed only to determine the value to be stored.

These two rather opaque sentences say several things. First, they talk about operations bounded by the "previous and next sequence points"; such operations usually correspond to full expressions. (In an expression statement, the "next sequence point" is usually at the terminating semicolon, and the "previous sequence point" is at the end of the previous statement. An expression may also contain intermediate sequence points, as listed above.)

The first sentence rules out both the examples

i++ * i++


i = i++

from questions 3.2 and 3.3--in both cases, i has its value modified twice within the expression, i.e. between sequence points. (If we were to write a similar expression which did have an internal sequence point, such as

i++ && i++

it would be well-defined, if questionably useful.)

The second sentence can be quite difficult to understand. It turns out that it disallows code like

a[i] = i++

from question 3.1. (Actually, the other expressions we've been discussing are in violation of the second sentence, as well.) To see why, let's first look more carefully at what the Standard is trying to allow and disallow.

Clearly, expressions like

a = b


c = d + e

which read some values and use them to write others, are well-defined and legal. Clearly, [footnote] expressions like

i = i++

which modify the same value twice are abominations which needn't be allowed (or in any case, needn't be well-defined, i.e. we don't have to figure out a way to say what they do, and compilers don't have to support them). Expressions like these are disallowed by the first sentence.

It's also clear [footnote] that we'd like to disallow expressions like

a[i] = i++

which modify i and use it along the way, but not disallow expressions like

i = i + 1

which use and modify i but only modify it later when it's reasonably easy to ensure that the final store of the final value (into i, in this case) doesn't interfere with the earlier accesses.

And that's what the second sentence says: if an object is written to within a full expression, any and all accesses to it within the same expression must be directly involved in the computation of the value to be written. This rule effectively constrains legal expressions to those in which the accesses demonstrably precede the modification. For example, the old standby i = i + 1 is allowed, because the access of i is used to determine i's final value. The example

a[i] = i++

is disallowed because one of the accesses of i (the one in a[i]) has nothing to do with the value which ends up being stored in i (which happens over in i++), and so there's no good way to define--either for our understanding or the compiler's--whether the access should take place before or after the incremented value is stored. Since there's no good way to define it, the Standard declares that it is undefined, and that portable programs simply must not use such constructs.

share|improve this answer
Much better answer than the accepted one, IMHO. –  jrok Jul 12 '12 at 16:33
could you mention the sequence points in this statement (c = getchar()) != EOF ? –  Dubby Jun 10 at 6:40
add comment

Just compile and disassemble your line of code, if you are so inclined to know how exactly it is you get what you are getting.

This is what I get on my machine, together with what I think is going on:

$ cat evil.c
void evil(){
  int i = 0;
  i+= i++ + ++i;
$ gcc evil.c -c -o evil.bin
$ gdb evil.bin
(gdb) disassemble evil
Dump of assembler code for function evil:
   0x00000000 <+0>:   push   %ebp
   0x00000001 <+1>:   mov    %esp,%ebp
   0x00000003 <+3>:   sub    $0x10,%esp
   0x00000006 <+6>:   movl   $0x0,-0x4(%ebp)  // i = 0   i = 0
   0x0000000d <+13>:  addl   $0x1,-0x4(%ebp)  // i++     i = 1
   0x00000011 <+17>:  mov    -0x4(%ebp),%eax  // j = i   i = 1  j = 1
   0x00000014 <+20>:  add    %eax,%eax        // j += j  i = 1  j = 2
   0x00000016 <+22>:  add    %eax,-0x4(%ebp)  // i += j  i = 3
   0x00000019 <+25>:  addl   $0x1,-0x4(%ebp)  // i++     i = 4
   0x0000001d <+29>:  leave  
   0x0000001e <+30>:  ret
End of assembler dump.

(I... suppose that the 0x00000014 instruction was some kind of compiler optimization?)

share|improve this answer
how do i get the machine code? I use Dev C++, and i played around with 'Code Generation' option in compiler settings, but go no extra file output or any console output –  ronnieaka Sep 24 '12 at 14:11
@ronnieaka gcc evil.c -c -o evil.bin and gdb evil.bindisassemble evil, or whatever the Windows equivalents of those are :) –  badp Sep 24 '12 at 18:20
is -0x4(%ebp) = 4 at the end? –  kchoi Sep 20 '13 at 16:07
This answer does not really address the question of Why are these constructs undefined behavior?. –  Shafik Yaghmour Jul 1 at 14:00
@ShafikYaghmour I'm addressing the questions in the question body ("why am I not getting the results I am getting?"), see the comments in the code. Given that this is undefined behaviour, I can only show how to get the actual assembly he's compiled. –  badp Jul 1 at 16:27
show 2 more comments

I think the relevant parts of the C99 standard are 6.5 Expressions, §2

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.

and 6.5.16 Assignment operators, §4:

The order of evaluation of the operands is unspecified. If an attempt is made to modify the result of an assignment operator or to access it after the next sequence point, the behavior is undefined.

share|improve this answer
Would the above imply that 'i=i=5;" would be Undefined Behavior? –  supercat Nov 20 '11 at 21:41
@supercat as far as I know i=i=5 is also undefined behavior –  Zaibis Sep 23 '13 at 15:39
@Zaibis: The rationale I like to use for most places rule applies that in theory a mutli-processor platform could implement something like A=B=5; as "Write-lock A; Write-Lock B; Store 5 to A; store 5 to B; Unlock B; Unock A;", and a statement like C=A+B; as "Read-lock A; Read-lock B; Compute A+B; Unlock A and B; Write-lock C; Store result; Unlock C;". That would ensure that if one thread did A=B=5; while another did C=A+B; the latter thread would either see both writes as having taken place or neither. Potentially a useful guarantee. If one thread did I=I=5;, however, ... –  supercat Sep 23 '13 at 16:18
... and the compiler didn't notice that both writes were to the same location (if one or both lvalues involve pointers, that may be hard to determine), the generated code could deadlock. I don't think any real-world implementations implement such locking as part of their normal behavior, but it would be permissible under the standard, and if hardware could implement such behaviors cheaply it might be useful. On today's hardware such behavior would be way too expensive to implement as a default, but that doesn't mean it would always be thus. –  supercat Sep 23 '13 at 16:19
@supercat but wouldn't the sequence point access rule of c99 alone be enough to declare it as undefined behavior? So it doesn't matter what technically the hardware could implement? –  Zaibis Sep 23 '13 at 16:40
show 4 more comments

The behavior can't really be explained because it invokes both unspecified behavior and undefined behavior, so we can not make any general predictions about this code, although if you read Olve Maudal's work such as Deep C and Unspecified and Undefined sometimes you can make good guesses in very specific cases with a specific compiler and environment but please don't do that anywhere near production.

So moving on to unspecified behavior, in draft c99 standard section6.5 paragraph 3 says(emphasis mine):

The grouping of operators and operands is indicated by the syntax.74) Except as specified later (for the function-call (), &&, ||, ?:, and comma operators), the order of evaluation of subexpressions and the order in which side effects take place are both unspecified.

So when we have a line like this:

i = i++ + ++i;

we do not know whether i++ or ++i will be evaluated first. This is mainly to give the compiler better options for optimization.

We also have undefined behavior here as well since the program is modifying variables(i, u, etc..) more than once between sequence points. From draft standard section 6.5 paragraph 2(emphasis mine):

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.

it cites the following code examples as being undefined:

i = ++i + 1;
a[i++] = i; 

In all these examples the code is attempting to modify an object more than once in the same sequence point, which will end with the ; in each one of these cases:

i = i++ + ++i;
^   ^       ^

i = (i++);
^    ^

u = u++ + ++u;
^   ^       ^

u = (u++);
^    ^

v = v++ + ++v;
^   ^       ^

Unspecified behavior is defined in the draft c99 standard in section 3.4.4 as:

use of an unspecified value, or other behavior where this International Standard provides two or more possibilities and imposes no further requirements on which is chosen in any instance

and undefined behavior is defined in section 3.4.3 as:

behavior, upon use of a nonportable or erroneous program construct or of erroneous data, for which this International Standard imposes no requirements

and notes that:

Possible undefined behavior ranges from ignoring the situation completely with unpredictable results, to behaving during translation or program execution in a documented manner characteristic of the environment (with or without the issuance of a diagnostic message), to terminating a translation or execution (with the issuance of a diagnostic message).

share|improve this answer
+1 great answer –  Grzegorz Szpetkowski Jul 14 at 0:39
add comment

While it is unlikely that any compilers and processors would actually do so, it would be legal, under the C standard, for the compiler to implement "i++" with the sequence:

In a single operation, read `i` and lock it to prevent access until further notice
Compute (1+read_value)
In a single operation, unlock `i` and store the computed value

While I don't think any processors support the hardware to allow such a thing to be done efficiently, one can easily imagine situations where such behavior would make multi-threaded code easier (e.g. it would guarantee that if two threads try to perform the above sequence simultaneously, i would get incremented by two) and it's not totally inconceivable that some future processor might provide a feature something like that.

If the compiler were to write i++ as indicated above (legal under the standard) and were to intersperse the above instructions throughout the evaluation of the overall expression (also legal), and if it didn't happen to notice that one of the other instructions happened to access i, it would be possible (and legal) for the compiler to generate a sequence of instructions that would deadlock. To be sure, a compiler would almost certainly detect the problem in the case where the same variable i is used in both places, but if a routine accepts references to two variables i and j, and uses i and j in the above expression (rather than using i twice) the compiler would not be required to recognize or avoid the deadlock that would occur if the same variable were passed for both i and j.

share|improve this answer
add comment

Please read K & R. it clearly states that such behaviour is undefined. Some compilers like gcc do follow some conventions but its compiler dependent. So better avoid changing and using the values of variables in single command coz same memory location cant be read or written at same time

share|improve this answer
Did K&R specifically say it was UB, or did they simply decline to specify the sequence in which things would happen? The architectural issues that could cause it to be "truly" Undefined Behavior didn't become relevant until long after ANSI took over, so if K&R did regard it as genuine "UB" that would seem prophetic. –  supercat Dec 15 '13 at 18:21
add comment

Think in terms of assembly level programming. Try to understand how one line will be converted to assembly level code. All pre increments are done before instruction, and post after. But in case of multiple operations in 1 line like x=x++ + ++x + ++x, different compilers might give different asnwers.

For example, i = i++ is decoded into:


starting with i=1, the result of these 2 operations is 2.

Next, v=v++ + ++v; This becomes:


So, starting with v=0, it becomes v=3.

share|improve this answer
No, no, no! There is no explanation for the result. It is explicitly undefined, and anything can happen. –  Bo Persson Apr 17 '13 at 20:43
@BoPersson when you say anything what do you mean? –  Yuck Jun 12 '13 at 22:53
@АртёмЦарионов - I mean literally anything. The language standard explicitly says that it defines no meaning for this code. The compiler might tell you so, or the computer might explode when the code is run. The language standard just doesn't say what should happen. –  Bo Persson Jun 18 '13 at 9:54
"Different compilers might give different answers." <- Is if it were implementation defined behavior in sense of the standard. But this is explicitly UNDEFINED behavior, so your answer is wrong since compilers don't even have to give (in your words) an "answer". They could even feel free to infect your pc as easteregg with an virus. –  Zaibis Sep 23 '13 at 15:35
add comment

protected by Mat May 28 '13 at 11:01

Thank you for your interest in this question. Because it has attracted low-quality answers, posting an answer now requires 10 reputation on this site.

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.