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When we check the size of a function using sizeof(), we always get 1 byte. What does this 1 byte signify?

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4 Answers 4

It's a constraint violation, and your compiler should diagnose it. If it compiles it in spite of that, your program has undefined behaviour [thanks to @Steve Jessop for the clarification of the failure mode, and see @Michael Burr's answer for why some compilers allow this]: From C11,

The sizeof operator shall not be applied to an expression that has function type

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That's a constraint, which means in a conforming compiler it's diagnosed. If the compiler compiles it anyway (having diagnosed it), then behavior is undefined. If the compiler doesn't diagnose it (which for example gcc doesn't without -pedantic), you have a non-conforming compiler and every program has undefined behavior. –  Steve Jessop Sep 4 '12 at 9:46
The behavior puts it in the same category as a GNU C extension, but I have no idea why anyone wants that behavior, so I don't know why the GNU authors went out of their way to add it. –  Steve Jessop Sep 4 '12 at 9:49
@SteveJessop: Note that this is even with -std=c11, not gnu11. This is a really weird compiler extension. –  Kerrek SB Sep 4 '12 at 9:50
Ooh! I bet it's to enable arithmetic on function pointers, the same way that sizeof(void) is 1 in GNU C. –  Steve Jessop Sep 4 '12 at 9:52
Regarding -std=c11: someone should refer the -std=c* options to Advertising Standards. They don't enable conformance mode, they merely disable extensions that would prevent a well-formed program from compiling (such as typeof being a keyword, since a well-formed C program can use it as a variable name, but gcc by default would reject that). To additionally disable extensions that allow ill-formed programs to pass undiagnosed, you need -pedantic or -pedantic-errors. –  Steve Jessop Sep 4 '12 at 9:58

This is not undefined behavior - the C language standard requires a diagnostic when using the sizeof operator with a function designator (a function name) since it's a constraint violation for the sizeof operator.

However, as an extension to the C language, GCC allows arithmetic on void pointers and function pointers, which is done by treating the size of a void or a function as 1. As a consequence, the sizeof operator will evaluate to 1 for void or a function with GCC. See http://gcc.gnu.org/onlinedocs/gcc/Pointer-Arith.html#Pointer-Arith

You can get GCC to issue a warning when using sizeof with these operands by using the -pedantic or -Wpointer-arith options to GCC. Or make it an error with -Werror=pointer-arith.

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Your logic is flawed. C requires diagnostic messages for some, but not all UB. You can't state that something has defined behavior just because there's a diagnostic. –  MSalters Sep 4 '12 at 9:05
C requires a diagnostic for all constraint violations ( Diagnostics in C99 or C11). A constraint (3.8 in C99/C11) is a "restriction, either syntactic or semantic, by which the exposition of language elements is to be interpreted", which seems to say that something that doesn't follow the constraints can't be interpreted. –  Michael Burr Sep 4 '12 at 9:13
And to be clear - a constraint violation doesn't result in undefined behavior. It's an error, like a syntax error. For example, the standard says, "if a "shall" or "shall not" requirement that appears outside of a constraint is violated, the behavior is undefined". If a constraint violation would result in UB, why would the standard talk about only the "shalls" and "shall nots" that aren't in constraints here? –  Michael Burr Sep 4 '12 at 9:27
I really didn't state much of anything about UB except that sizeof a function isn't UB (which I mentioned pretty much only because other answers stated it was UB). But perhaps I muddled that because of the way I structured the sentence. To be more clear. sizeof a function is not UB (as several answers have claimed). It is a constraint violation. As such, it requires a diagnostic. GCC permits it as an extension. –  Michael Burr Sep 4 '12 at 9:50
@KerrekSB: the OP doesn't get a diagnostic because presumably they are using GCC, which permits this use as a C language extension. –  Michael Burr Sep 4 '12 at 9:52

It signifies that the compiler writer decided on a value of 1 rather than make demons fly from your nose (indeed, it was another undefined use of sizeof that gave us that expression: "the C compiler itself MUST issue a diagnostic IF this is the first required diagnostic resulting from your program, and then MAY itself cause demons to fly from your nose (which, by the way, could well BE the documented diagnostic message) just as it MAY issue further diagnostics for further violations of syntax rules or constraints (or, for that matter, for any reason it chooses)." https://groups.google.com/forum/?fromgroups=#!msg/comp.std.c/ycpVKxTZkgw/S2hHdTbv4d8J

From this there's slang term "nasal demons" for whatever a compiler decides to do in response to an undefined construct. 1 is the nasal demon of this compiler for this case.

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+1 for the historical reference. –  Ilmari Karonen Sep 4 '12 at 19:26
@IlmariKaronen I'll have to admit though, that there's a reason most of my answers on C (and C++) are either on general language-agnostic principles or historical nuggets like that. My C experience is bordering on historical in itself :) –  Jon Hanna Sep 4 '12 at 22:51

As others pointed out, sizeof() can take any valid identifier, but it won't return a valid (an honestly true and valid) result for function names. Furthermore, it definitely may, or may not, result in "demons out of nose" syndrome.

If you want to profile your program function size, check the linker map, which can be found on the intermediate results directory (the one where things are compiled into .obj/.o or where the resulting image/executable lays). Sometimes there's an option to generate or not this map file... it's compiler/linker dependent.

If you wanted the size of a pointer to a function, they're all the same size, the size of an addressing word on your cpu.

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What sort of statement is "it definitely may or may not"??? Isn't that true of literally everything? –  Kerrek SB Sep 4 '12 at 8:33
@KerrekSB yes, but here it may or may not do anything, and still be within the rules. It's true a compiler may or may not refuse to compile int x = 1; but only one of those is allowed for a standards compliant compiler. With sizeof() being applied to a function, it may or may not return a set value, or refuse to compile, or return a random value based on whatever's in a particular register at the time. Literal nasal demons are unlikely, but within the letter of the standard. –  Jon Hanna Sep 4 '12 at 8:52
@kerrek It may be true for nothing or may not be false for anything... look at it as being fuzzy illogical. –  jpinto3912 Sep 4 '12 at 10:25
If you want to know the size of a pointer to a function, apply sizeof to a pointer to a function. –  alexis Sep 4 '12 at 14:01

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