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A function type (lvalue) can be converted to a pointer to function (rvalue).

int func();
int (*func_ptr)() = func;

But from (4.1/1)

An lvalue (3.10) of a non-function, non-array type T can be converted to an rvalue.

Does it mean that a lvalue to rvalue conversion is not done on functions? Also, when an array decays to pointer doesn't it return a rvalue which is a pointer?

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up vote 3 down vote accepted

Functions are lvalues. A pointer to a function (a data type) can be either; if you give it a name, it's an lvalue; otherwise, it's not (roughly speaking). Pointers to functions obey all of the usual lvalue to rvalue conversion rules. For simple types like the basic types or pointers, the lvalue to rvalue conversion basically means reading the variable.

void func();            //  Declares func
(*(&func))();           //  The expression &func is an rvalue
void (*pf)() = &func;   //  pf is an lvalue
(*pf)();                //  In the expression *pf, pf undergoes an
                        //  lvalue to rvalue conversion

Note that there is an implicit conversion of function to pointer to function, and that the () operator works on both functions and pointers to functions, so the last two lines could be written:

void (*pf)() = func;

As always, the result of the conversion is an rvalue (unless the conversion is to a reference type). This is also the case when an array is implicitly converted to a pointer; both arrays and functions can only exist as lvalues, but they both implicitly convert to a pointer, which is an rvalue. But that pointer can be used to initialize a variable of the appropriate pointer type; such variables are lvalues.

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I see, so the result is nothing but an address which doesn't mean that your reading some value. right? – user1086635 Dec 20 '11 at 11:23
The result of what? The result of a conversion of function to pointer is a value, the address of the function. It doesn't have an address in memory (which is a characteristic of lvalues). – James Kanze Dec 20 '11 at 11:30
The result of function func is an rvalue which is an address but not in the sense of rvalue returned from non-function or non-array types, which is the reason why the statement in (4.1/1), right? – user1086635 Dec 20 '11 at 11:39
@user1086635 With regards to §4.1, all it says is that there is no lvalue-to-rvalue conversion for functions or arrays. It says nothing about other conversions, such as array-to-pointer or function-to-pointer (the results of which are rvalues, since the target type of the conversion is not a reference). – James Kanze Dec 20 '11 at 13:18
@user1086635 I wouldn't quite describe it like that, but it's close. Using the & operator explicitly is taking the address of the function: the operand of the & operator must be an lvalue, and the results are an rvalue. The implicit conversion is a conversion, not the & operator. But the result of the conversion is an rvalue, and the semantics of the conversion are the same as using the & operator. So in practice, there's really no difference in what goes on under the hood. – James Kanze Dec 20 '11 at 14:21

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