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For the following code snippets why would I use one assignment vs another? thx

void  addOne(int &x)
    x +=1;

void (*inc)(int &x) = addOne;   // what is the purpose of doing "addOne" 
void (*inc)(int &x) = &addOne;  //  vs &addOne ??  

int a = 10;
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possible duplicate of Function pointers in C - address operator "unnecessary" –  Bo Persson Mar 31 '12 at 17:24

4 Answers 4

up vote 9 down vote accepted

The purpose of one over the other is C compatibility. C said that functions will decay to pointers-to-functions automatically. To be compatible, C++ had to do the same.

Note that when C++ introduced a new function pointer type (member function pointers), they do not decay automatically. So if the C++ committee had their way, odds are good you'd need that & there.

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Brevity, style. It's the same with using * when calling them.

Also note array vs &array[0].

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From the book C++ Programming Languauge, it is cleary indicated that & and * operators are optional for pointers to functions:

There are only two things one can do to a function: call it and take its address. The pointer obtained by taking the address of a function can then be used to call the function. For example:

void error (string s) { /* ... */ }
void (*efct )(string ); // pointer to function
void f ()
  efct = &error ; // efct points to error
  efct ("error "); // call error through efct

The compiler will discover that efct is a pointer and call the function pointed to. That is, dereferencing of a pointer to function using * is optional. Similarly, using & to get the address of a function is optional:

void (*f1 )(string ) = &error ; // ok
void (*f2 )(string ) = error ; // also ok; same meaning as &error
void g ()
  f1 ("Vasa"); // ok
  (*f1 )("Mary Rose"); // also ok

As others pointed out, pointer to member function is new/different in C++. The & is not optional to point a member and it is explained as (in C++ Programming Languauge Book):

A pointer to member can be obtained by applying the address-of operator & to a fully qualified class member name, for example, &Std_interface::suspend.

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A function is already a pointer; therefore, you do not need the address operator.

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You do need it for member functions. Also, a function is not a pointer (but functions can decay to function pointers). –  Philipp Mar 31 '12 at 16:44
A function (name) is a pointer to the address, where the function code starts. –  Matthias Mar 31 '12 at 16:46
@Matthias: No. A function is a function. It has a type: ReturnType(Parameters). Function types can decay to pointer-to-function types (ReturnType(*)(Parameters)), which as you notice is distinct from the function type. Much like arrays are not actually pointers, functions are not pointers-to-functions. One decays into the other, but that doesn't make them the same. –  Nicol Bolas Mar 31 '12 at 17:08
@NicolBolas: Sorry, but the existence of a type is not a point, each pointer has a type. One says that an array decays, since type information is lost (on array size). This is not the case for a function. If you want to bring it to a conceptional level, then a function declaration is a syntactical shortcat a pointer to an ananymous (lambda) function, because it has a type. And at implementation level, it is a pointer (address) - see the generated assembler code. You are right, if you mean the lamba part, but the OP asked for assigment of identifier, and there is a pointer at both sides. –  Matthias Mar 31 '12 at 18:54
@Matthias: And at implementation level, it is a pointer (address) C++ doesn't care about the implementation. As far as C++ is concerned, a function is a function. When you attempt to store it in a function pointer, the compiler will create a function pointer value for it. But the C++ specification doesn't say that the function value is a pointer. It could be whatever the compiler wants, so long as it is convertible to a function pointer. So it is most assuredly not "a pointer at both sides." –  Nicol Bolas Mar 31 '12 at 19:02

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