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function call with different semantics

I am reading about function pointers in C. I tried this program,

#include <stdio.h>

int foo(void){
printf("at foo");
return 0;

int main (void){
return 0;

The output for this program is

0040138C    0040138C    0040138C

In 1-D array <datatype> <identifier>[N], identifier and &identifier points to the same value but the nature of the values are different. One is of type datatype * and the other is of type pointer to the 1-D array. Analogously, for functions, the foo and &foo are the same. But what about *foo and what is the nature of &foo,foo,*foo?

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marked as duplicate by Heisenbug, Mat, Bo Persson, DCoder, Maerlyn Aug 12 '12 at 17:13

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

yes, :D, [for fun try (**********foo)()] –  ram Aug 11 '12 at 8:39

2 Answers 2

up vote 3 down vote accepted

A plain foo is already a function pointer: - 4

A function designator is an expression that has function type. Except when it is the operand of the sizeof operator or the unary & operator, a function designator with type ‘‘function returning type’’ is converted to an expression that has type ‘‘pointer to function returning type’’.

You may obtain the address of a function using &, which yields a pointer to function ...: - 1-3

The operand of the unary & operator shall be either a function designator... The unary & operator yields the address of its operand. If the operand has type ‘‘type’’, the result has type ‘‘pointer to type’’

It's legal to apply the indirection operator to a function designator: - 3

The unary * operator denotes indirection. If the operand points to a function, the result is a function designator


So there you have it. They all do the same thing.


What is 'function type` in C

Quick! To the standard!

6.2.5 - 1

Types are partitioned into object types (types that describe objects) and function types (types that describe functions).

6.2.5 - 20

A function type describes a function with specified return type. A function type is characterized by its return type and the number and types of its parameters. A function type is said to be derived from its return type, and if its return type is T, the function type is sometimes called ‘‘function returning T’’. The construction of a function type from a return type is called ‘‘function type derivation’’

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What is 'function type` and how does it reflect returning function's address via indirection? –  Roman Saveljev Aug 11 '12 at 7:57
I find it complex to understand the terminology used in spec. .function designator means the label used to identify the function? (in this case foo) –  ram Aug 11 '12 at 8:13
@ram If you find it difficult than you should write more programs before delving into standard nitpicking questions. I.e. write useful stuff as opposed to printing foo, &foo and *foo. –  cnicutar Aug 11 '12 at 8:17
@cnicutar: While i was reading function pointers, i came across invoking functions implicitly and explicitly. That is (*fnptr)() and fnptr() both will work where 'fnptr' points to some function. With intuition the reference operator has no effect on functions. So i started experimenting a bit more and this question is a by-product of it. I was being curious. My point is you should encourage people when they are nosy as it lets them know new things. Any way thank you for your answer as it solves some of my questions. –  ram Aug 11 '12 at 8:29
@ram You're right but you should also be prepared to read the spec. You might also be interested in newty.de/fpt –  cnicutar Aug 11 '12 at 8:30

In C/C++ a function can be used only in 2 ways: you can take its address and you can call it. You cannot do anything else with it.

So, foo is a function itself. C++ has a standard conversion 4.3 Function-to-pointer conversion. This means that foo will be automatically converted to &foo. Notation &&&&foo results in a syntax error.

In C++ Unary operators there is wording that allows dereferencing function pointers with the result of the function itself. This implies that multiple *'s should not be allowed. Nevertheless they work at least in MSVC and GCC. Maybe this is so because compiler applies Function-to-pointer conversion immediately after dereferencing before processing the next operation.

I do not see good reasoning for allowing multiple *'s and not allowing multiple &'s with functions. For some reason different logic is implemented for * and & operations.

You can try to cast foo to char* and dereference this pointer. It will contain bytes of the machine code. The length of these bytes is unknown. Read/write protection of this address is unknown too. Many CPU architectures allow setting execute bit without setting read and write bits. So, you can call the function but an attempt to read at this address may result in a crash.

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@Kobelev, I have read that function identifier will automatically decay to a function pointer in almost all cases except it with sizeof operator or reference operator. Hence as &foo is already a l-value you cannot apply reference operator on it again. &&foo results in error. Further, as you mentioned "compiler applies Function-to-pointer conversion immediately after dereferencing before processing the next operation" hence ****foo works alright. About the address, i am assuming it is the address to which the CPU jumps to execute the routine. –  ram Aug 13 '12 at 6:27
You know, honestly I do not see a deep logic here. For me this is more a set of random decisions that are mimicked by different compilers in the same way. There is not a lot of what we can do with functions. I tend to accept the situation without attempts of logical explanation. –  Kirill Kobelev Aug 13 '12 at 7:00
Standard is not saying that the value of the function pointer is an address of an entry point. Compiler is free to put there whatever it wants. At the same time, realistically speaking, it is hard to imagine that there will be something else. –  Kirill Kobelev Aug 13 '12 at 7:02
Do you see any value in allowing ****foo? I do not. –  Kirill Kobelev Aug 13 '12 at 7:04
stackoverflow.com/questions/10673848/…. This links points that the address of a function pointer is the entry point. –  ram Aug 14 '12 at 8:57

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