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I'm just going through a bunch of C++ interview questions just to make sure there's nothing obvious that I don't know. So far I haven't found anything that I didn't know already, except this:

long value;
//some stuff
value &= 0xFFFF;

The question is "what's wrong with this code?" And hints that it's something to do with target architectures.

Unless the answer is just "value isn't initialized", I can't see any problem. As far as I can tell, it's just masking the 2 least significant bytes of the value, and long is guaranteed to be at least 2 bytes, so there's no problem there.

Could it possibly be that long might only be 2 bytes on the target architecture, and you might be losing the sign bit? Or perhaps that the 0xFFFF is an int and int is only 2 bytes?

Thanks in advance.

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I would not work for an employer that requires answering such vague questions. It is not an endianess issue (endianess differences do not appear in arithmetics), but a sign-extension one, which I gave +1 for to John Knoeller. Generally it is a good idea to do all bit operations in unsigned to avoid unexpected trouble like this. – Tronic Mar 1 '10 at 22:48
Notice that long is at least 32 bits. On 8bit platforms, that's 4 bytes (of course, that might still cause sign issues for non-2complements). – Johannes Schaub - litb Mar 1 '10 at 22:49
What happened to your answer, Johannes? – Peter Alexander Mar 1 '10 at 23:46
i decided it is not worth doing philosophy on this if we don't know what the interviewer wants to hear. It's got no obvious problem, apparently. Now the subtle "problems" are of course present (like, value may change from negative from positive), or maybe the interviewer's understanding is the one of @John. @AndreyT may give it a try, if he likes :) His mind will also get the logic more straight than mine. Have fun :) – Johannes Schaub - litb Mar 1 '10 at 23:52
I think the interviewer is an idiot when he says "Note: Hint to the candidate about the base platform they’re developing for. If the person still doesn’t find anything wrong with the code, they are not experienced with C++." – user1559625 Sep 20 '12 at 10:04
up vote 15 down vote accepted

This problem with this code is that it does a bit-wise operation on a signed value. The results of such operations on negative values vary greatly for different integer representations.

For example consider the following program:

#include <iostream>

int main(void)
    long value;
    value = -1; // Some stuff
    value &= 0xffff;
    std::cout << "Value = " << value << std::endl;

On a two's-complement architecture the result is:

Value = 65535

On a one's-complement architecture the result is:

Value = 65534

On a sign-and-magnitude architecture the result is:

Value = 1
share|improve this answer
Exactly. See this CERT report: securecoding.cert.org/confluence/display/seccode/…. In particular, according to the C standard (as referenced there), the results of bitwise operations on signed values are implementation-defined. – Brooks Moses Mar 2 '10 at 0:40

It's hard to know what the interviewer expected you to say. We sort of just have to guess.

My guess is that on some architectures, 0xFFFF will be a signed 16 bit value, while long is a signed 32 bit value. When you extend the constant so that it can be used to mask the long value, will be sign extended and become 0xFFFFFFFFl, which isn't what you intended at all.

Addendum: The code as written works correctly on all three of the compilers that I currently use, so this is indeed a guessing game of trying to figure out what the interviewer intended. A properly standards compliant 16 bit compiler would also generate correct code, so we are left with guessing whether there is something we missed, whether the example is not in fact broken, or whether the interviewer once used a 16 bit compiler that would treat 0xFFFF as a signed quantity when forced to extend it to a long. It would be interesting to ask him.

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Not possible. In C++ 0xFFFF cannot be a signed 16-bit value. This value does not fit in range of signed 16-bit type, which means that the compiler is will be required to use the unsigned 16-bit type. – AnT Mar 1 '10 at 22:59
It's a guess guys. For all we know there isn't any thing wrong with the code, and the interviewer just thought he was showing broken code. – John Knoeller Mar 1 '10 at 23:07
@John Knoeller: No, what you seem to fail to understand is that there are things that can be reasonably expected to be different between the compilers (and even non-compliant sometimes), and there are things that are reasonably expected to be implemented correctly. This is one of the things that are implemented correctly by all compilers. Any compilers that didn't get this specific bit right were laughed out of existence long time ago. In any case, a falure to implement such a fundamental thing correctly immediately and undebatably disqualifies a compiler from being called "a C++ compiler". – AnT Mar 1 '10 at 23:10
@John Knoeller: What if I "apply my superior mind" and tell you that it is not broken? Will that do? :) – AnT Mar 1 '10 at 23:23
What sense does it make to say "it's all fine" if we dunno what the interview maker wants to hear. I've given up on this one :) – Johannes Schaub - litb Mar 1 '10 at 23:35

May I say, there is nothing wrong in this code unless the context or intention of the surrounding code is known!

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Well, I didn't write this in the OP, but the question actually asked "what might be wrong with this code?", so really it's asking you to make some assumptions about some reasonable context. – Peter Alexander Mar 1 '10 at 22:54

This might be a shot in the dark but assuming that the long vs int isn't the issue (others have posted answers answering just that) and that the 0xFFFF encompasses the whole amount required by the type, wouldn't this just be making value = 0xFFFF and there is no need for the bit manipulation? Isn't the bit manipulation redundant?

The only other thing I can see is if the person asking the question wanted you to realize that the missing data contained in the long would not be affected by just using 0xFFFF.

To me comes across a bit wacky of a question to ask based on how the question is being presented here or maybe it's just so obvious we are all over thinking it :)

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Because using operator&= does not assign that value to the variable. It ANDs the bits together with what's already in the variable -- no matter what that is. If value contains 0xDEAD then it will still contain that after the call to operator&=. – Billy ONeal Mar 2 '10 at 0:00

I suspect we are all thinking too hard.

Whats wrong with this code is that value is not initialized. The question is - do you realize the &= (or += , -= /= etc.) is meaningless when used on an unitialized value?

If value is initialized then the behavior is well defined. The least significant 16 bits are preserved, the rest are zeroed out

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I think everyone is assuming that //some stuff has variable initialization in it. – Tanzelax Mar 2 '10 at 0:09
The hint indicates that it's something that might go wrong on an unusual architecture, so I doubt that it's initialization, and I doubt that the &= is irrelevant. – Peter Alexander Mar 2 '10 at 0:20
then my second comment stands - if value is initialized then the behavior is well defined – pm100 Mar 2 '10 at 1:06

sounds like Big-Endian vs. Little-Endian to me. http://en.wikipedia.org/wiki/Endianness

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Highly unlikely to be endianness given this little context. For it to be an endianness issue, there'd have to be an 'address of' operation in there - or something along those lines. – Jonathan Leffler Mar 1 '10 at 22:48
Value-context operation do not depend on endianness. It is impossible to "see" endianness in C++ until you start inspecting [raw] memory. – AnT Mar 1 '10 at 22:50

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