We can do this


and this


but not this

int giveMeFive()
    return 5; // Error: expected a '{'

Why not?

I'm aware that the language grammar requires { and } on function definitions. I'm asking about the rationale for the difference between conditional statements (which don't require braces) and function definitions (which do).

  • 20
    Because the language's grammar says so. – Borgleader Aug 5 '15 at 17:14
  • 4
    I already knew that. I just wondered if there is a logical reason. – cambunctious Aug 5 '15 at 17:17
  • 3
    the last one is a method definition and not a conditional/iterative instruction – unique_ptr Aug 5 '15 at 17:17
  • 4
    And BTW you shouldn't use the other mentioned forms either, they just make your code less readable, maintainable and error prone! – πάντα ῥεῖ Aug 5 '15 at 17:18
  • 5
    Frankly I'd prefer to disallow the first two forms than to allow the third. – Barry Aug 5 '15 at 17:23

The reason seems to be mostly historical.

Prior to the 1989 ANSI C standard, C did not have prototypes. Parameters of type int could be defined implicitly; parameters of types other than int had to be defined explicitly, before the opening {.

For example, where in modern C we might write:

double sum(double x, double y) {
    return x + y;

in pre-ANSI (K&R) C we had to write:

double sum(x, y)
double x;
double y;
    return x + y;

The body of the function might begin with a declaration of a local variable:

double sum(x, y)
double x;
double y;
    double z;
    /* ... */

The opening { was needed to separate the parameter definitions from the body of the function, and the closing } was needed to match the opening {.

(This syntax is still allowed, but obsolescent, in modern C; it's not allowed in C++.)

When prototypes were added to the language, there was no particular reason to permit omitting the { and } in function definitions.

The trivial answer is that that's what the language grammar requires. The syntax for a function-definition is:

declaration-specifiers declarator declaration-listopt compound-statement

where a compound-statement consists of {, followed by 0 or more declarations and statements, followed by }. This is the only syntax production that requires a compound-statement; there are plenty of others that merely require a statement.

Interestingly, in C's predecessor language, called B (documented here), the syntax of a function definition was:

name ( arguments ) statement

The statement was usually a compound statement (a block delimited by { and }), but it wasn't required to be. B did not require, or even allow, arguments and variables to have their types specified, so there was no need to have a particular syntax to separate the parenthesized argument list from the body of the function. In the earliest C reference I can find (this one, from 1974), the syntax of a function definition had been changed to require a compound statement, probably to accommodate the addition of parameter declarations.

  • AKA K&R syntax. – edmz Aug 5 '15 at 17:33
  • 1
    @VladfromMoscow: No, this actually answers the question by explaining the rationale for requiring a compound statement rather than a more general statement in a function definition. Both the function in the question and the function in my answer have a return statement, so I don't understand your point. Perhaps you could explain? – Keith Thompson Aug 5 '15 at 19:32
  • @VladfromMoscow: So apparently you wouldn't care to explain. – Keith Thompson Aug 5 '15 at 20:04
  • @VladfromMoscow: Oh, I see; I didn't notice that you had posted an answer. I still stand by what I wrote. I've also added some more historical background that you may or may not find interesting. – Keith Thompson Aug 5 '15 at 20:29

If it was allowed, there would be no difference between a function declaration:

void a();

and a function definition for a function doing nothing:

void a()

It would add more problems than gain for sure.


I think that the problem is that it is difficult to distinguish this construction

int giveMeFive()
return 5;

and this construction

int giveMeFive() //;
return 5;

That is whether the programmer made a typo.

At present the compiler issues an error. But what to do if such a function definition will be allowed? This will make the program much less clear.

In fact it could be used like a simplified inline function

T function( parameter-list ) return expression;

However placing a semicolon between the function header and its body

T function( parameter-list ) ; return expression;

changes the symantic and makes the code unclear.

The difference for example with a while statement is that a semicolon after while statement like this

while( condition );

does not change the definition of the construction. In any case it is the while statement.

However relative to the function definition the situation is different.

  • 12
    Is that any different from putting a semicolon at the end of the if or while expressions mentioned in the question? – Rob Kennedy Aug 5 '15 at 17:21
  • @Rob Kennedy Yes there is a difference. When a while statement for example is used it may have an empty statement. However as I understand the function may not have the empty body. It has to have the return statement. – Vlad from Moscow Aug 5 '15 at 17:28
  • So, your explanation is essentially Martin's answer? That's fine, but it's not the reason you gave in your answer. Your answer says it's to avoid typos, even though the very same typos are already possible with existing constructs. – Rob Kennedy Aug 5 '15 at 17:33
  • @Rob Kennedy I already explained the difference in my preceding comment. It seems you simply do not know C. – Vlad from Moscow Aug 5 '15 at 17:36

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