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I was studying C from K & R and got confused in part 4.4 of the book, when it is referring to scope rules. Before I go any further, let me just post the source file I am working on.

#include <stdio.h>

void first(void);

int main(void) {
    printf("In main.\n");

    first();
    second();

    return 0;
}

void first(void) {
    printf("In first.\n");
}

void second(void) {
    printf("In second.\n");
}

Now, unless I am more stupid than I imagine, the book gave me the idea that function prototypes (in the same file as the definition of the function) exist for scoping reasons. That is, they exist to allow the function to be declared at the top of a compiled file to for the rest of a source file to be notified for the existence of an "object" if I may so call it, ahead of time.

My issue with the above code is that in an Arch Linux Virtual Machine I am working on with GCC version 4.7.1 the above file can NOT compile and gives the following error: conflicting types for second.

However, when the very same code is run into my physical machine, sporting Ubuntu 12.04 with GCC version 4.6.3 it compiles just fine.

My question is: Is this a compiler feature? Because if it is not, I am surprised it compiles at all, seeing as there is no function prototype for second, main (if I have understood it correctly) should not be able to know about second's existence.

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1 Answer

up vote 5 down vote accepted

The "conflicting types" error message happens because most C compilers, upon encountering a function that has not been declared yet, will implicitly declare a prototype for that function returning an int. So when second() is encountered in main(), GCC 4.7.1 is inferring the following definition:

int second();

Then when the compiler reaches the function definition, notices that the inferred prototype's signature does not match the definition's signature, and aborts with an error.

As far as why 4.6.3 successfully compiles this code, the following is a guess. GCC 4.6.3 may have some bug (or feature, you decide) that allows function implementations to differ from their prototypes by their return type. Since C allows functions with non-void return types to terminate without returning anything (which makes their return value undefined), this could simply be a case of two sub-optimal things canceling each other out.

(The behavior in 4.6.3 could also be a change in default compiler options between versions, or perhaps you are invoking the compiler with different options.)

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Nice answer bro. But what I don't get is why there is so much different behavior with the same compiler, in two different (but still fairly new) versions. –  NlightNFotis Oct 9 '12 at 17:09
    
Nice, thanx for the compiler clarification, one more fast question: Since the function prototype is missing, how is this compiling at all? Unless I have misunderstood the book, second() is out of main's scope. –  NlightNFotis Oct 9 '12 at 17:12
1  
Because of the first part of my answer -- using an undeclared function implies a prototype according to the C language, which means that an undeclared function is automatically brought into scope with a prototype that is inferred on-the-spot. Always compile with -Wall as you would get a compiler warning in both cases. Compiling with -Werror is also recommended (at least for new code) as it will turn all warnings into errors, making sure that you take note of them. (This prototype-inferring misfeature of C was removed in C99, but GCC still supports it, even in C99 mode.) –  cdhowie Oct 9 '12 at 17:13
    
@NlightNFotis: It's a warning, not an error, at least when I try it with gcc-4.7.0. Please post the full command line and the full gcc output. –  Adam Rosenfield Oct 9 '12 at 17:13
    
@cdhowie Thank you for the clarification. –  NlightNFotis Oct 9 '12 at 17:14
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