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Unlike Java, in C/C++ following is allowed:

int* foo ()
    return p;
// what if control reaches here

This often causes crashes and hard to debug problems. Why standard doesn't enforce to have final return for non-void functions ? (Compilers generate error for wrong return value)

Is there any flag in gcc/msvc to enforce this ? (something like -Wunused-result)

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The take-away message from the below is: If you want these sorts of checks, use -Wall on gcc, and a high warning level (3 or 4) in Visual Studio. –  T.J. Crowder Jun 7 '11 at 5:58
Its not allowed in C++. –  Loki Astari Jun 7 '11 at 6:15
I've long desired a compiler flag that would result in all functions having throw "LOL Y U HERE??"; at the end of them. The behavior is undefined, so anything can happen, and throwing an exception certainly qualifies as anything. Just for testing purposes; I'd be okay with them getting optimized out in release. –  Dennis Zickefoose Jun 7 '11 at 6:23
It isn't undefined if x is declared const bool x = true;. –  Bo Persson Jun 7 '11 at 7:41
Poor style and UB are distinct. –  R.. Jun 7 '11 at 18:50

6 Answers 6

up vote 8 down vote accepted

Use -Wall flag in gcc.

 warning: control reaches end of non-void function

EDIT: or more specifically -Wreturn-type.

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IIRC gcc only diagnoses it when optimizations are turned on, because it uses control flow analysis to diagnose it and that is not run when not optimizing. –  Jan Hudec Jun 7 '11 at 5:44
@T.j. Crowder: For C ++ , a function without return type always produces a diagnostic message, even when -Wno-return-type is specified. The only exceptions are main and functions defined in system headers - From gcc man page –  Prince John Wesley Jun 7 '11 at 5:54
Interesting, gcc didn't detect it with -Wall if I did it in main, branching on argc. But it did detect it if I added a separate function and did it in there. main would appear to be a special case (as it is in so many ways). Edit: @John: Overlapping comments. :-) –  T.J. Crowder Jun 7 '11 at 5:56
@T.J main() doesn't need to contain explicit return value; see from Bjarne Stroustrup website www2.research.att.com/~bs/bs_faq2.html#void-main –  iammilind Jun 7 '11 at 6:31
@iammmilind: nice link. –  Prince John Wesley Jun 7 '11 at 6:40

My guess: Because sometimes the programmer knows better than the compiler. With this simple example, it's clear that someting is wrong, but consider a switch of many values, or many checks in general. You, as the coder, know that certain values just will not be passed in to the function, but the compiler doesn't and just hints you, that there might be something wrong.

#include <iostream>

int foo(){
        return 5;

int main(){
    int i = foo();
    std::cout << i;

Note that even warning level 1 on MSVC gives the following warning:

warning C4715: 'foo' : not all control paths return a value

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"Note that even warning level 1 on MSVC gives the following warning:" That's interesting. I didn't get that even with level 4 with VS 2005. –  T.J. Crowder Jun 7 '11 at 5:38
@T.J.: According to MSDN, 2005 should also emit that warning on level 1. See the link I added. –  Xeo Jun 7 '11 at 5:46
@Xeo: Fascinating. I get the error if I add a foo function like yours, but not if I do exactly the same thing in the auto-generated _tmain function; example. The main function is special (as in so many things). –  T.J. Crowder Jun 7 '11 at 5:53
Control flow warnings like this are generally emitted only when the optimiser runs and does analysis. So they are normally retail-only. –  Martyn Lovell Jun 7 '11 at 5:53
@example: That's because the standard specifically allows main to be without a return statement. If it is left out, the result is as if it was return 0; in the end. –  Xeo Jun 7 '11 at 6:06

It is not allowed (undefined behaviour). However, the standard does not require a diagnostic in this case.

The standard doesn't require the last statement to be return because of code like this:

while (true) {
  if (condition) return 0;

This always returns 0, but a dumb compiler cannot see it. Note that the standard does not mandate smart compilers. A return statement after the while block would be a waste which a dumb compiler would not be able to optimise out. The standard does not want to require the programmer to write waste code just to satisfy a dumb compiler.

g++ -Wall is smart enough to emit a diagnostic on my machine.

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AFAIR Visual Studio 2008 warns you about "execution path that does not have return value". It is allowed in the meaning of that "C++ won't stop you from shooting you in the foot". So you are to think, not the compiler.

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The obvious answer is: because it's not an error. It's only an error if x is false and if the caller uses the return value, neither of which can necessarily be determined by the compiler, at least in the general case.

In this particular case (returning a pointer), it wouldn't be too difficult to require a return for all paths; Java does this. In general, however, it's not reasonable in C++ to require this, since in C++, you can return user defined types for which it may be impossible to construct a value (no default constructor, etc.) So we have the situation where the programmer might not be able to provide a return in a branch that he or she knows can't be taken, and the compiler can't determine that the branch can't be taken.

Most compilers will warn in such cases, when it can determine the flow. All of the ones I've seen also warn in some cases where it's clearly impossible to fall off the end, however. (Both g++ and VC++ warn about:

bar( char ch )
    switch ( ch & 0xC0 ) {
    case 0x00:
    case 0x40:
        return 0;

    case 0x80:
        return -1;

    case 0xC0:
        return 1;

, at least with the usual options. Although it's quite clear that this function never falls off the end.)

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What the standard says about this kind of programming is that it produces undefined behavior.

Undefined behavior is the joy and pity of C/C++, but it is also a fundamental feature of the language design that allows for many of the low-level optimizations that make C a sort of "high level assembler" (it is not, actually, but just to give you an idea).

So, while redirecting to John's answer about the switch to use with GCC, to know "why" the standard does not prevent that, I would point to a very interesting analysis of undefined behavior and all of its misteries: What Every C Programmer Should Know About Undefined Behavior. It makes for a very instructive reading.

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