With regards to the ANSI C function declaration, how is this an improvement from the old K&R style? I know the differences between them, I just want to know what problems could arise from using the old style and how the new style is an improvement.
Old-style function declarations, in particular, don't allow for compile-time checking of calls.
When the compiler sees the call, it doesn't know the types of the parameters of the function
will result in a compiler error message (or at least a warning).
Another improvement: prototypes make it possible to have functions with parameters of type
The C Rationale document discusses this in section 22.214.171.124, probably better than I have:
There's more; go read it.
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A non-defining function declaration in K&R looks as follows
and introduces a function that accepts unspecified number of arguments. The problem with such declaration style is obvious: it specifies neither the number of parameters nor their types. There's no way for the compiler to check the correctness of the call with respect to the number of arguments or their types at the point of the call. There's no way for the compiler to perform the argument type conversion or issue and error message in situations when argument type does not match the expected parameter type.
A function declaration, which is used as a part of function definition in K&R looks as follows
It specifies the number of parameters, but still does not specify their types. Moreover, even though the number of parameters appears to be exposed by this declaration, it still formally declares
The new style, i.e. declaration with prototype is better for obvious reasons: it exposes both the number and the types of parameters. It forces the compiler to check the validity of the call (with regard to the number and the types of parameters). And it allows the compiler to perform implicit type conversions from argument types to parameter types.
There are other, less obvious benefits provided by prototype declarations. Since the number and types of function parameters are known precisely to both the caller and the function itself, it is possible to choose the most efficient method of passing the arguments (the calling convention) at the point of the call without seeing the function definition. Without that information K&R implementations were forced to follow a single pre-determined "one size fits all" calling convention for all functions.