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According to the C standard ( paragraph 6)

If the expression that denotes the called function has a type that does not include a prototype, the integer promotions are performed on each argument, and arguments that have type float are promoted to double. These are called the default argument promotions. If the number of arguments does not equal the number of parameters, the behavior is undefined. If the function is defined with a type that includes a prototype, and either the prototype ends with an ellipsis (, ...) or the types of the arguments after promotion are not compatible with the types of the parameters, the behavior is undefined. If the function is defined with a type that does not include a prototype, and the types of the arguments after promotion are not compatible with those of the parameters after promotion, the behavior is undefined, except for the following cases:

  • one promoted type is a signed integer type, the other promoted type is the corresponding unsigned integer type, and the value is representable in both types;
  • both types are pointers to qualified or unqualified versions of a character type or void.

Thus, in general, there is nothing wrong with passing an int to a variadic function that expects an unsigned int (or vice versa) as long as the value passed fits in both types. However, the specification for printf reads ( paragraph 9):

If a conversion specification is invalid, the behavior is undefined. If any argument is not the correct type for the corresponding conversion specification, the behavior is undefined.

No exception is made for signed/unsigned mismatch.

Does this mean that printf("%x", 1) invokes undefined behavior?

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People interested in this question might (or might not) be interested in this related question:… – Michael Burr Jan 12 '11 at 0:29
And what about printf("%d",(char)1);. The description of printf doesn't say that it's the argument after integer promotions which must be the correct type, it says the argument itself must be. Should we conclude that it's an exception to that part of as well? – Steve Jessop Jan 12 '11 at 1:03
Btw, I think your quote is insufficient to illustrate the problem, since it is undefined behavior to call printf if it hasn't been prototyped, and your quote concerns calls made where there is no prototype. The same argument promotions are applied to the arguments of varargs, though, according to, although that doesn't say anything about signed/unsigned compatibility. So maybe you're absolutely right, and signed/unsigned compatibility is only stated to apply to calls made with no prototype, not to varargs calls in general, let alone printf in particular. – Steve Jessop Jan 12 '11 at 1:15
If I am right, I think it's a defect in the standard and probably should be fixed. This strict interpretation would render huge volumes of code incorrect and require equally huge volumes of ugly and meaningless casts... – R.. Jan 12 '11 at 1:33
When the function call expression is a call of a function with a ,... prototype, the only part of that is relevant is the description of default argument promotions. The mismatched arguments exceptions are not applicable. (In any case, the function must be defined with a matching prototype and the ... parameters don't have a known type.) The corresponding requirements for accessing vargs are in which describes the use of the va_arg macro. Here you are allowed to use va_arg to access (e.g.) an int as an unsigned int providing the value is in the correct range. – Charles Bailey Jan 12 '11 at 9:09

I believe it is technically undefined, because the "correct type" for %x is specified as unsigned int - and as you point out, there is no exception for signed/unsigned mismatch here.

The rules for printf are for a more specific case and thus override the rules for the general case (for another example of the specific overriding the general, it's allowable in general to pass NULL to a function expecting a const char * argument, but it's undefined behaviour to pass NULL to strlen()).

I say "technically", because I believe an implementation would need to be intentionally perverse to cause a problem for this case, given the other restrictions in the standard.

share|improve this answer
I think this interpretation implies that the standard intends the printf family of functions to have their arguments passed in a different way than other variadic functions, which would make no sense. – Chris Lutz Jan 12 '11 at 1:11
@Chris Lutz: This interpretation implies nothing about the intent of the standard, it merely puts forward a line of argument about the effect of the actual normative wording of the standard. – caf Jan 12 '11 at 1:30
"it's undefined behaviour to pass NULL to strlen())." But that isn't making a special case; it's undefined behaviour to dereference a null pointer, and strlen dereferences the pointer it is given. The act of passing null to strlen() isn't undefined, although it results in an UB-causing action later with certainty. – Karl Knechtel Jan 12 '11 at 4:52
@Karl: actually it is the act of passing NULL to strlen that's undefined. This is because standard library functions are defined formally by their behavior and not by a C implementation. See 7.4.1/1: "If an argument to a function has an invalid value (such as a value outside the domain of the function, or a pointer outside the address space of the program, or a null pointer, or a pointer to non-modifiable storage when the corresponding parameter is not const-qualified) or a type (after promotion) not expected by a function with variable number of arguments, the behavior is undefined." – R.. Jan 12 '11 at 7:39
@caf: In the last few years, implementations have become increasingly intentionally perverse. I don't think programming in C will be safe unless or until someone writes a standard which establishes helpful normative behaviors and requires perverse compilers to document departures from the norm. – supercat Apr 23 '15 at 22:22

No, because %x formats an unsigned int, and the type of the constant expression 1 is int, while the value of it is expressible as an unsigned int. The operation is not UB.

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It formats both. :) The variadic argument spec overrides the printf spec, and the former allows for the use of int where unsigned int is expected. – Jonathan Grynspan Jan 12 '11 at 0:25
Actually, "%x" takes an "unsigned int", not an "int", argument. R. is wondering if the various details he quotes from the standard means that this is, technically speaking, undefined behavior. – Michael Burr Jan 12 '11 at 0:27
2 defines the behavior in general for variadic functions, but turns around and says that unless the type matches the format specifier, the behavior is undefined. It seems like this paragraph should be omitted or fixed to mention the exception for signed/unsigned mismatch if that's the intent. – R.. Jan 12 '11 at 0:32
@R.. - I'm assuming that by "If any argument is not the correct type" they mean "If any argument is not the correct type based on the previously outlined rules for type punning." – Chris Lutz Jan 12 '11 at 0:34
Default argument promotion will not normally cause int arguments to be converted to unsigned int so that fact that 1 must be expressible as an unsigned int is irrelevant. If printf was guaranteed to use the va_arg macro then you would expect the exception in to hold but this is not a requirement. The type of the argument after default argument promotion is still int, not unsigned int and (as others have said) clearly states: "If any argument is not the correct type for the corresponding conversion specification, the behavior is undefined." – Charles Bailey Jan 12 '11 at 8:36

It is undefined behavior, for the same reason that re-interpreting a pointer to an integer type to complementary type of opposite signedness. This isn't allowed, unfortunately, in both directions because a valid representation in one may be a trap implementation in the other.

The only reason I see that from signed to unsigned re-interpretation there may be a trap representation is this perverted case of sign representation where the unsigned type just masks out the sign bit. Unfortunately such a thing is allowed as of of the standard. On such an architecture all negative values of the signed type may be trap representations of the unsigned type.

In your example case this is even more weird, since having 1 a trap representation for the unsigned type is in turn not allowed. So to make it a "real" example, you'd have to ask your question with a -1.

I don't think that there is still any architecture for which people write C compilers that has these features, so definitively live would become more easy if a newer version of the standard could abolish this nasty case.

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I'm not convinced this is allowed by the standard. As far as I know, values representable in both signed and unsigned versions of the type are required to have the same representation. Note that the aliasing rules in "Representation of Types" explicitly allow access as a sign-mismatched type. – R.. Jan 12 '11 at 18:31
@R.. Just look it up in the standard. It explicitly states that the number of value bits of the signed type is less or equal to that number of the unsigned type. And in particular that a negative signed value may be a trap representation of the unsigned type is also allowed. And you are probably right for the aliasing rules. So this needs a defect report. – Jens Gustedt Jan 12 '11 at 18:59
I agree with what you just said. However, that doesn't contradict a requirement that positive values of the signed type must agree in representation with the same values for the unsigned type - a requirement which I believe is intended to be there and implied by other conditions even if not explicitly stated. – R.. Jan 12 '11 at 20:17
@R.. In fact it is explicitly stated that positive values as long as they fit in both types must have the same representation. I had already corrected my answer accordingly. – Jens Gustedt Jan 12 '11 at 21:24

I believe it's undefined. Functions with a variable-length arguments list don't have an implicit conversion when accepting arguments, so 1 won't be cast to unsigned int when being past to printf(), causing undefined behavior.

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@M.M My bad. I meant "implicit conversion" – sun qingyao Mar 15 at 6:33

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