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All applicants to our company must pass a simple quiz using C as part of early screening process.

It consists of a C source file that must be modified to provide the desired functionality. We clearly state that we will attempt to compile the file as-is, with no changes.

Almost all applicants user "strlen" but half of them do not include "string.h", so it does not compile until I include it.

Are they just lazy or are there compilers that do not require you to include standard library files, such as "string.h"?

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Are you sure you're compiling with a C compiler (as opposed to C++)? – avakar Nov 16 '09 at 15:55
I read your question the wrong way at first. well.. maybe they are too accustomed to using PHP :P – int3 Nov 16 '09 at 15:56
I always have to look that stuff up, what comes in what header file. On a good day, I probably remember that strlen isn't in stdlib.h. I doubt they're lazy as such, they're probably just not used to writing code without the help of a compiler. If they didn't have to do it for exams, they probably never have before. So they compile the code and if it fails, add headers until it stops failing. Which is wrong if you're trying to write portable code, because of system headers including other system headers. But there it is. – Steve Jessop Nov 16 '09 at 15:58
@Steve - just so people are aware (they often aren't) in C++ the standard headers are allowed to include other standard headers, in C they are not. – Michael Burr Nov 16 '09 at 16:17
@Kyle - do interviewees have the opportunity to compile their answers before submitting them? – Michael Burr Nov 16 '09 at 16:18

10 Answers 10

up vote 13 down vote accepted

GCC will happily compile the following code as is:

   printf("%u\n",strlen("Hello world"));

It will complain about incompatible implicit declaration of built-in function ‘printf’ and strlen(), but it will still produce an executable.

If you compile with -Werror it won't compile.

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For the record, even with the required #include headers, this code is still wrong: %d expects a signed number, but strlen() returns a size_t which is unsigned. – Chris Lutz Nov 16 '09 at 16:04
Which just means that the interviewer should inform the applicant how the compiler will be called and warn them that "points" will be taken off for compiler warnings. :) – mlibby Nov 16 '09 at 16:07
Still could go wrong if size_t is a different size from int. Probably best to cast the result. – Steve Jessop Nov 16 '09 at 16:25
The last time I ran into a problem like this was in the middle 90s, but it still applies. There is no guarantee that size_t is the same as unsigned int, and there's getting to be a lot more systems where size_t is 64 bits while unsigned int is 32 (back in the mid-90s I ran into that problem with half those sized). – David Thornley Nov 16 '09 at 16:52
@Steve - The best result is to use %zu (the printf() format for size_t) but support for the z modifier may be spotty. – Chris Lutz Nov 16 '09 at 18:01

I'm pretty sure it's non-conformant for a compiler to include headers that aren't asked for. The reason for this is that the C standard says that various names are reserved, if the relevant header is included. I think this implies they aren't reserved if they aren't included, since compilers aren't allowed to reserve names the standard doesn't say are reserved (unless of course they include a non-standard header which happens to be provided by the compiler, and is documented elsewhere to reserve extra names. Which is what happens when you use POSIX).

This doesn't fully answer your question - there do exist non-conformant compilers. As for your applicants, maybe they're just used to including "windows.h", and so have never thought before about what header strlen might be defined in by the C standard. I assume without testing that MSVC does in principle require you to include "string.h". But since "windows.h" does that for you, for the vast majority of practical Windows programs you don't need to know that you have to include "string.h".

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It's more subtle than that, a header is not required to declare more than it is stated, but it is not prevented from including other headers. That a.h includes b.h should be treated as an implementation detail (if not specifically defined as part of the header). – Roger Pate Nov 16 '09 at 16:20
According to Michael Burr, that's a C++-only thing anyway. There's nothing in the "library - introduction" part of the C99 spec to prove him wrong, so I believe him and I've removed it. – Steve Jessop Nov 16 '09 at 16:43
Para 1 of 7.1.3 states that certain library identifiers are reserved if the associated headers are included. Para 2 of 7.1.3 says 'No other identifiers are reserved'. This prevents standard library headers including other headers. – fizzer Nov 16 '09 at 17:06

They might be lazy, but you can't tell. Standard library implementations (as opposed to compilers, though of course each compiler usually has "its own" stdlib impl.) are allowed to include other headers. For example, #include <stdlib.h> could include every other library described in the standard. (I'm talking in the context of "C/C++", not strictly C.)

As a result, programmers get accustomed to such things, even if not strictly guaranteed, and it's easy to forget whether some function comes from a general catch-all like stdlib.h or something else—many people forget that memcpy is from string.h too.

If they do not include any headers, I would count them as wrong. If you don't allow them to test it with a particular implementation, however, it's hard to say they're wrong. And if you don't provide them with man pages (which represent the resources they'll need to know how to use on the job), then you're wrong.

At that point, you can certainly say the don't follow the exact letter of the standard; but do you want coders that get things done and know how to fix problems when they see them, or coders that worry about minutiea that won't matter?

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No, not in C. See 7.1.3 Reserved Identifiers in C99. – fizzer Nov 16 '09 at 17:10
Personally, I want coders who worry about minutiae that do matter. It really depends on the company whether it's important to be able to write pedantic code. In any case it can be tutored on the job, by rejecting their code checkins when they don't build on every platform you care about. But I would take it as a good sign if a candidate was indicating, "you haven't told me what platform this should compile on, so I've been cautious". There's knowing how to fix problems when you see them, and then there's predicting you won't get a chance to see the problem, and hence must pre-empt it. – Steve Jessop Nov 16 '09 at 17:15
I worry about minutiae that matters too. I don't worry about minutiae that doesn't matter, like "does my code work if I'm stranded on a desert island without a compiler". If the interview question seems more like that, it's not helping anyone. – Roger Pate Nov 16 '09 at 17:42
fizzer: I think I read the "C/C++" in the question title too literally, where this is true. – Roger Pate Nov 16 '09 at 17:43
This is mostly what my answer would have been as well. In any non-trivial program, most required headers will have already been included, so whenever I add new code, I can be reasonably confident that whatever headers the new code needs will already be there. I don't need to know exactly which ones I needed. – Rob Kennedy Nov 16 '09 at 18:47

If you provide a C file to start working with, make it have all the headers that could be needed from the beginning and ask the applicants to remove the unused ones.

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If you want to quiz applicants on what functions and types are defined in what headers, use a separate quiz; don't lump it in with the code-writing-ability quiz. – Rob Kennedy Nov 16 '09 at 18:50
I don't want to quiz anyone, I was just suggesting a way to avoid the issue of the includes. It won't hurt leaving them either. – fortran Nov 16 '09 at 23:53

The most common engineering experience is to add (or delete) a few lines of code to/from an application with thousands of lines already working correctly. It would be extremely rare in such a case to need another header file when adding a call to printf() or strlen().

It would be interesting to look over the shoulder of experienced engineers—not just graduated from school, but with extensive experience in the trenches—to see if they simply add strlen() and try compiling, or if they check to see if stdlib.h or string.h is already included before compiling. I bet the overwhelming majority do the former.

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And not to mention multi level includes... – fortran Nov 16 '09 at 17:49

C implementations usually still allow implicit function declarations.

Anyway, I wouldn't consider all the boilerplate a required part of an interview, unless you specifically ask for it (e.g. "please don't omit anything you'd normally have in a source file").

(And with Visual Assist's "add ... include" I know less and less where they comde from ;))

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C has not allowed implicit function declarations for the last ten years. If using C89 is a requirement, it should be clearly stated. (Many people ignore the features added in C99, but that doesn't mean they believe you should use the ones removed from C89.) – Roger Pate Nov 16 '09 at 16:23
"please don't omit anything you'd normally have in a source file" - version control header? ;-) – Steve Jessop Nov 16 '09 at 16:38
"If using C89 is a requirement, it should be clearly stated." The language should always be clearly stated, unless writing "practically portable" code is supposed to be part of the challenge. Odds are maybe 1000:1 that the employer uses a conforming C99 compiler, or that the applicant has ever used one seriously. So if you're challenging an applicant to write something that will "just work", without specifying a complier or language version, then either they should assume the intersection of C89 and C99, or else you should cut them some slack for this kind of thing. – Steve Jessop Nov 16 '09 at 16:47
Using the intersection of C89/99 is what I meant by the part about not using features removed from C89. It's perfectly reasonable to assume that the compiler they use on the job will warn about implicitly declared functions, whether that's a (non-standard-mandated) warning or simply disallowed. Or at least I'd be very glad if they saved me the time of further interviews, if they expected me to work with archaic 20+ year old compilers (without these warnings/errors) without thinking to mention that as a requirement. – Roger Pate Nov 16 '09 at 17:03
Just as a data point, when calling strlen() without a prototype (in a C program, not C++), I see the following behaviors (with more or less default options): MSVC (several versions) compiles without warning, GCC 3.4.5 give a warning, Digital Mars gives an error (missing prototype). As much as some might not like it, MSVC is definitely a widely used compiler. Not ancient, not unusual, and not malicious. – Michael Burr Nov 16 '09 at 18:34

Most compilers provide some kind of option to force headers inclusion.

Eg. the GCC compiler has the -include option which is the equivalent of #include preprocessor directive.

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TCC will also happily compile a file such as the accepted answer's example:

int main()
        printf("%u\n", strlen("hello world"));

without any warnings (unless you pass -Wall); as an added bonus, you can just call tcc -run file.c to execute file.c without compiling to an output file first.

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In C89 (the most commonly applied standard), a function that is not declared will be assumed to return an int and have unknown arguments, and will compile (probably with warnings). If it does not, teh compiler is not compliant. If on the other hand you compiled the code as C++ it will fail, andf must do so if the C++ compiler is compliant.

Why not simply specify in the question that all necessary headers must be included (and perhaps irrelevant ones omitted).

Alternatively, sit the candidates at a machine with a compiler and have them check their own code, and state that the code must compile at the maximum warning level, without warnings.

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I'm doing C/C++ for 20 years (even taught classes) and I guess there's a 50% probability that I'd forget the include too (99% of the time when I code, the include is already there somewhere). I know this isn't exactly answering your question, but if someone knows strlen() they will know within seconds what to do with that specific compiler error, so from a job qualification standpoint the slip is practically irrelevant.

Rather than putting emphasis on stuff like that, checking for the subtleties that require real understanding of the language should be far more relevant, i.e. buffer overruns, strncpy not appending a final \0 when hitting the limits, asking someone to make a safe (truncating) copy to a buffer of limited length, etc. Especially in C/C++ programming, the errors that do not generate a compiler error are the ones which will cause you/your company the real trouble.

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