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Consider the C code a = a = a. There's no sequence point for assignment, so this code produces a warning when compiling about an undefined operation on a.

What are the possible values that a could have here? It seems like a couldn't possibly change values. Is there actually undefined behavior here or are compilers just being lazy?

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... More to the point - are you just being silly? Need to put a splash more water with it. – Ed Heal Dec 5 '12 at 0:31
Suppose I have a language that compiles down to C and an optimization step accidentally produces this.... – Espressofa Dec 5 '12 at 2:06
up vote 3 down vote accepted

The rules of undefined behavior for sequence point violations do not make an exception for situations when "the value cannot change". Nobody cares whether the value changes or not. What matters is that when you are making any sort of write access to the variable, you are modifying that variable. Even if you are assigning the variable a value that it already holds, you are still performing a modification of that variable. And if multiple modifications are not separated by sequence points, the behavior is undefined.

One can probably argue that such "non-modifying modifications" should not cause any problems. But the language specification does not concern itself with such details. In language terminology, again, every time you are writing something into a variable, you are modifying it.

Moreover, the fact that you use the word "ambiguous" in your question seems to imply that you believe the behavior is unspecified. I.e. as in "the resultant value of the variable is (or isn't) ambiguous". However, in sequence point violations the language specification does not restrict itself to stating that the result is unspecified. It goes much further and declares the behavior undefined. This means that the rationale behind these rules takes into consideration more than just an unpredictable final value of some variable. For example, on some imaginary hardware platform non-sequenced modification might result in invalid code being generated by the compiler, or something like that.

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This is actually undefined behavior. a can have any value at all. "I can't think of any way it can break" is not the same as "it's guaranteed to work".

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Why wouldn't that behavior be defined? Just to avoid adding another sequence point to the language? – Espressofa Dec 5 '12 at 2:11
See the comment thread on caf's answer. – David Schwartz Dec 5 '12 at 12:34

It is actually the entire program that has "undefined behaviour" after it executes that statement. It's not just about the value of a - the program can do anything, including go into an endless loop, print garbage output or crash.

"Undefined behaviour" really just means that the C standard no longer places any limits on what the program does. That doesn't stop you reasoning about how a particular compiler might behave when it sees that code, but it's still not a valid C program, and that's what the compiler is warning you about.

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I guess the question may be better restated as: It is obvious what the semantics of a=a=a should be, so what are the technical reasons for not implementing those? – Espressofa Dec 5 '12 at 2:10
@Espressofa: There's an endless list of such possible cases and no good reason to bother. – David Schwartz Dec 5 '12 at 2:17
Fair enough.... – Espressofa Dec 5 '12 at 2:19
int a = 42;
a = a = a;

is undefined behavior.

Sequence point rules were written to ease the work of compiler makers.

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Think parallel instruction execution.

Think overloaded operator=

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This is C, not C++. – Espressofa Dec 5 '12 at 2:05

The C standard does not have a rule that says “If the behavior would be ambiguous, then the behavior is undefined.” The actual rule in C 1999 at issue 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.”

Your code violates this rule: It modifies the value of a. (The note at 3.1 3 says that “Modify” includes the case where the new value being stored is the same as the previous value.)

So that is it. It does not matter whether you can figure out an unambiguous interpretation for this code. It only matters that it violated the rule. Because it violated the rule, the behavior is undefined.

In C 2011, the rule is stated in a more technical way. 6.5 2 says “If a side effect on a scalar object is unsequenced relative to either a different side effect on the same scalar object or a value computation using the value of the same scalar object, the behavior is undefined. If there are multiple allowable orderings of the subexpressions of an expression, the behavior is undefined if such an unsequenced side effect occurs in any of the orderings.” When the assignment operator stores a value in an object, that is actually a side effect. (The main effect is that it evaluates to the value that is stored.) So this rule in C 2011 says largely the same thing as the C 1999 rule: You may not have two side effects on the same object.

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