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Isn't the size of a function's address known at compilation type ?

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@HansPassant OP is asking about function pointers. –  interjay Jan 24 '13 at 14:46
What purpose would pointer arithmetic on function pointers have? –  netcoder Jan 24 '13 at 15:18
A function address is a value held in a function pointer. The size of a function address is known at compilation time, sizeof(void(*)(void)). And you can do pointer arithmetic with pointers-to-function-pointers. The fact that the size of a function address is known at compile time doesn't help you do pointer arithmetic with pointers-to-functions, though. For another example, the size of a pointer to an incomplete type is also known at compile time, and you can't do pointer arithmetic with pointers to incomplete types either because the size of the incomplete type is not known. –  Steve Jessop Jan 24 '13 at 15:26

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up vote 7 down vote accepted

Arithmetic operations on a pointer treats the pointer as an array of objects of a given type. So when you add 3 to an int *, you advance by three ints.

Function pointers cannot be interpreted as arrays of anything. Instructions, maybe, or maybe not. Some machines have separate a address space for instructions. Some machines have variable-length instructions.

As an aside, the size of the function is known at compile time, but only after the compiler has finished its work. Compiling the size of a function into itself can be tricky in assembly language, the only sort of programming with any hope of forming such a construct.

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Even if they could, the size of a function could not be a constant expression because functions can have external linkage. –  R.. Jan 24 '13 at 14:50
Note that I am thinking of interpreting a function as an array of length 1 (which all objects are) of itself. –  R.. Jan 24 '13 at 14:52
@R.. But two functions of the same type can have different size. Anyway… yuck. –  Potatoswatter Jan 24 '13 at 14:53
The size of a function might not be known, in particular because it might not make any sense to speak of the size of a function. A compiler might generate code in which two functions share some of the code (e.g., if foo and bar are identical except foo doubles its argument before calculating, the compiler might generate foo as instructions that double the argument and jump to bar), the code for a function might not be contiguous, some of the constants used by a function might be shared with other functions, a function might be completely inlined and not have any separate code, etc. –  Eric Postpischil Jan 24 '13 at 15:00
@gramm: you may be sceptical, but it's exactly what the standard says. Addition for pointers is defined in 6.5.6/8 of C11 ("Additive Operators"), and it's defined entirely in terms of arrays of the pointed-to object type. Since there are no arrays of functions, there's no grounds to expect addition of function pointers. –  Steve Jessop Jan 24 '13 at 15:16

You can only perform arithmetic on related pointers. For example if you have a buffer with multiple pointers into different positions of that buffer, you can perform arithmetic on those pointers. However, if you try to perform pointer arithmetic on two unrelated pointers, like two pointers that point to different buffers, then that is undefined behavior.

A function pointer can not be related to anything except another pointer to the same function.

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He's talking exclusively about function pointers, I think. –  Paul R Jan 24 '13 at 14:47
@PaulR And I wrote about function pointers too. –  Joachim Pileborg Jan 24 '13 at 14:49
@JoachimPileborg Not to be pedantic, but you didn't rule out subtracting a function pointer from itself to obtain NULL (or UB), which the standards also don't allow AFAIK. –  Potatoswatter Jan 24 '13 at 14:52
@Potatoswatter: pointer subtraction results in an integer, not a pointer, so it certainly doesn't result in null :-). A binary operator that can only be used with equal-valued operands and (when used correctly) always results in 0 would be pretty pointless, I don't think it requires much explaining why it's not provided. Supposing that it existed, all uses of it that don't have UB could be replaced with ((ptrdiff_t)0). –  Steve Jessop Jan 24 '13 at 15:23

C does not allow or define arithmetic on function pointers. You should have a look here. It is because it will not be defined where you will reach in the code when you do addition and subtraction operation on the function pointers. Just think that you are compiling the same C code for different hardware architectures. When you increment or decrement function pointers they might point to completely different part of code (or instructions as you say) which will be inconsistent across the platforms.

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The Q asks why. This is the premise not the answer. –  Alok Save Jan 24 '13 at 14:48

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