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I was having a look over this page:, and didn't understand this question:

What’s potentially wrong with the following code?

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

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++.

Can someone elaborate on it?


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There are potentially a lot of things wrong with this code. On the other hand, it might be just fine. Without context, it is impossible to provide a reasonable answer to this question. – James McNellis Nov 23 '10 at 1:39
Is value ever initialized? – Charles Salvia Nov 23 '10 at 1:40
@James: Maybe on some implementations, maybe not. That's a terrible excuse in any case, though. – GManNickG Nov 23 '10 at 1:47
I deleted my answer about sign extension because it's wrong. I suspect it's what the interviewer is looking for, but if the interviewer is looking for that, they're wrong too. – Omnifarious Nov 23 '10 at 2:48
One can be "experienced in C++" and never used the bitwise operators. C++ is such a big language that supports so many programming paradigms that (beyond "Hello World!" type things) I'm not sure it's possible to definitively determine if one has experience based on 1 question. – JohnMcG Nov 23 '10 at 3:52
up vote 41 down vote accepted

Several answers here state that if an int has a width of 16 bits, 0xFFFF is negative. This is not true. 0xFFFF is never negative.

A hexadecimal literal is represented by the first of the following types that is large enough to contain it: int, unsigned int, long, and unsigned long.

If int has a width of 16 bits, then 0xFFFF is larger than the maximum value representable by an int. Thus, 0xFFFF is of type unsigned int, which is guaranteed to be large enough to represent 0xFFFF.

When the usual arithmetic conversions are performed for evaluation of the &, the unsigned int is converted to a long. The conversion of a 16-bit unsigned int to long is well-defined because every value representable by a 16-bit unsigned int is also representable by a 32-bit long.

There's no sign extension needed because the initial type is not signed, and the result of using 0xFFFF is the same as the result of using 0xFFFFL.

Alternatively, if int is wider than 16 bits, then 0xFFFF is of type int. It is a signed, but positive, number. In this case both operands are signed, and long has the greater conversion rank, so the int is again promoted to long by the usual arithmetic conversions.

As others have said, you should avoid performing bitwise operations on signed operands because the numeric result is dependent upon how signedness is represented.

Aside from that, there's nothing particularly wrong with this code. I would argue that it's a style concern that value is not initialized when it is declared, but that's probably a nit-pick level comment and depends upon the contents of the //some stuff section that was omitted.

It's probably also preferable to use a fixed-width integer type (like uint32_t) instead of long for greater portability, but really that too depends on the code you are writing and what your basic assumptions are.

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You're right. I bet an interviewer who asked this question would be shown up as wrong. :-) – Omnifarious Nov 23 '10 at 3:00
+1 Excellent answer! – Matthieu N. Nov 23 '10 at 3:04
@Omnifarious: That's likely. Either way, I think it's a terrible interview question. – James McNellis Nov 23 '10 at 3:06
Note though that the numeric result of doing bitwise operations on signed operands only varies if negative numbers / the sign bit are involved. For example, in this case, if value is positive then the result is well-defined (the same as value % 65536), but if value is negative then there are three possible results. – caf Nov 23 '10 at 5:32
Out of interest, what are the three possible results caf mentions? – T . Nov 25 '10 at 16:39

I think depending on the size of a long the 0xffff literal (-1) could be promoted to a larger size and being a signed value it will be sign extended, potentially becoming 0xffffffff (still -1).

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+1 for getting a fairly complete and correct answer. :-) – Omnifarious Nov 23 '10 at 1:54
0xFFFF is never negative. I've posted an answer with details. – James McNellis Nov 23 '10 at 2:31

I'll assume it's because there's no predefined size for a long, other than it must be at least as big as the preceding size (int). Thus, depending on the size, you might either truncate value to a subset of bits (if long is more than 32 bits) or overflow (if it's less than 32 bits).

Yeah, longs (per the spec, and thanks for the reminder in the comments) must be able to hold at least -2147483647 to 2147483647 (LONG_MIN and LONG_MAX).

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You mean if it's less/greater than 16 bits? – Charles Salvia Nov 23 '10 at 1:42
+1 - I didn't think about the fact that the size of long can change while looking at this question. – James Black Nov 23 '10 at 1:43
I thought it was just int that had an undefined size, long = 32bit, long long = 64bit. But ferenuff, one learns something every day :) – dutt Nov 23 '10 at 1:45
-1 A long is guaranteed at least 32 bits, by reference to the C standard (where it follows from guaranteed value range). Hence there's nothing technically wrong with the statement. It masks all but the lower 16 bits of the value, that's all, and if that's the intention (and a value has been assigned) then the code is correct, and if that isn't the intention then the code is wrong. The interviewer doesn't know C++. Cheers & hth., – Cheers and hth. - Alf Nov 23 '10 at 1:48
@GMan That is true for int, long has to be at least 32 bits. – Let_Me_Be Nov 23 '10 at 1:59

For one value isn't initialized before doing the and so I think the behaviour is undefined, value could be anything.

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It's not undefined -- the content could be garbage but it can't (For example) format your hard drive. – Billy ONeal Nov 23 '10 at 1:46
@Billy: formally it can do the nasal daemons thing. but in practice, on 32-bit systems an indeterminate value of type int is just some int value. on a 64-bit system, + on some very archaic architectures, there may be checking and a trap. cheers, – Cheers and hth. - Alf Nov 23 '10 at 2:03
@Alf: Yes, the actual contents of the variable are undefined. That does NOT mean that it is undefined behavior. If it was undefined behavior a conformant compiler could format your hard drive. Whereas in this case it's only allowed to put garbage into a single variable. – Billy ONeal Nov 23 '10 at 2:06
@Billy: It is indeed undefined behavior to read (perform an lvalue-to-rvalue conversion on) an uninitialized variable. It can very well reformat your hard-drive. See §4.1. – GManNickG Nov 23 '10 at 2:16
I stand corrected :P – Billy ONeal Nov 23 '10 at 2:21

long type size is platform/compiler specific.

What you can here say is:

  1. It is signed.
  2. We can't know the result of value &= 0xFFFF; since it could be for example value &= 0x0000FFFF; and will not do what expected.
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Long does not imply 4 bytes. – Billy ONeal Nov 23 '10 at 1:45
Again, long doesn't imply 4 bytes. It only implies >= sizeof(int) – Charles Salvia Nov 23 '10 at 1:46
@Billy and @Charles: Julio didn't say four bytes. He implied that the size of long can be 32 bits (which might be 1, 2 or 4 bytes depending on CHAR_BIT). And minimum 32 bit size for long is guaranteed by the standard, so it can indeed be 32 bits. Cheers & hth. – Cheers and hth. - Alf Nov 23 '10 at 2:11

While one could argue that since it's not a buffer-overflow or some other error that's likely to be exploitable, it's a style thing and not a bug, I'm 99% confident that the answer that the question-writer is looking for is that value is operated on before it's assigned to. The value is going to be arbitrary garbage, and that's unlikely to be what was meant, so it's "potentially wrong".

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Using MSVC I think that the statement would perform what was most likely intended - that is: clear all but the least significant 16 bits of value, but I have encountered other platforms which would interpret the literal 0xffff as equivalent to (short)-1, then sign extend to convert to long, in which case the statement "value &= 0xFFFF" would have no effect. "value &= 0x0FFFF" is more explicit and robust.

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