Why does an empty declaration work for definitions with int arguments but not for float arguments?
I thought the differe开发者_高级运维nce is that declaration
doesn't have parameter types...
Why does this work:
int fuc();
int fuc(int i) {
printf("%d", i);
return 0;
}
but this fails compiling:
int fuc();
int fuc(float f) {
printf("%f", f);
return 0;
}
with the message:
error: conflicting types for ‘fuc’. note: an argument type that has a default promotion can’t match an empty parameter name list declaration
A declaration:
int f();
...tells the compiler that some identifier (f
, in this case) names a function, and tells it the return type of the function -- but does not specify the number or type(s) of parameter(s) that function is intended to receive.
A prototype:
int f(int, char);
...is otherwise similar, but also specifies the number/type of parameter(s) the function is intended to receive. If it takes no parameter, you use something like int f(void)
to specify that (since leaving the parentheses empty is a declaration). A new-style function definition:
int f(int a, char b) {
// do stuff here...
}
...also acts as a prototype.
Without a prototype in scope, the compiler applies default promotions to arguments before calling the function. This means that any char
or short
is promoted to int
, and any float
is promoted to double
. Therefore, if you declare (rather than prototype) a function, you do not want to specify any char
, short
or float
parameter -- calling such a thing would/will give undefined behavior. With default flags, the compiler may well reject the code, since there's basically no way to use it correctly. You might be able to find some set of compiler flags that would get it to accept the code but it would be pretty pointless, since you can't use it anyway...
prototype = forward declaration, so you can use it before you tell the compiler what it does. It still has parameters, however.
Useful in a lot of respects!
The declaration int fuc(float);
tells the compiler that there exists a function fuc
which takes a float
and returns an int
.
The definition int fuc(float f) { /*...*/ }
tells the compiler what fuc
actually is and also provides the declaration as well.
The difference between a declaration and definition is the difference between saying that a size 6 blue hat exists and and handing someone a size 6 blue hat: the declaration says that there is such a thing, the definition says that this thing right here is the thing in question.
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