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I have two 16-bit shorts (s1 and s2), and I'm trying to combine them into a single 32-bit integer (i1). According to the spec I'm dealing with, s1 is the most significant word, and s2 is the least significant word, and the combined word appears to be signed. (i.e. the top bit of s1 is the sign.)

What is the cleanest way to combine s1 and s2?

I figured something like

const utils::int32 i1 = ((s1<<16) | (s2));

would do, and it seems to work, but I'm worried about left-shifting a short by 16.

Also, I'm interested in the idea of using a union to do the job, any thoughts on whether this is a good or bad idea?

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up vote 6 down vote accepted

What you've got looks nearly correct, but will probably fail if the second part is negative; the implicit conversion to int will probably sign-extend and fill the upper 16 bits with ones. A cast to unsigned short would probably prevent that from happening, but the best way to be sure is to mask off the bits.

const utils::int32 combineddata = ((data.first<<16) | ((data.second) & 0xffff));
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Excellent, that makes a lot of sense. – deworde Aug 18 '09 at 17:18

What you are doing is only meaningful if the shorts and the int are all unsigned. If either of the shorts is signed and has a negative value, the idea of combining them into a single int is meaningless, unless you have been provided with a domain-specific specification to cover such an eventuality.

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I agree that the code posted has a sign extension bug, and that the request of "combining" two in16_tss to an int32_t is rather odd. But I don't think it's necessarily meaningless, in the sense that one could define some semantics for the operation. – Marsh Ray Aug 18 '09 at 16:10
Did you read the last 15 words of my answer? – anon Aug 18 '09 at 16:14
Yeah, it looks like the interface to the hardware is splitting a signed integer into 2, and then sending it, because it's got a MSW and a LSW, but it's apparently in 2's complement signing. So I need to recombine the data sensibly from that. – deworde Aug 18 '09 at 17:20

Since nobody posted it, this is what the union would look like. But the comments about endian-ness definitely apply.


typedef union {
    struct {
        uint16_t high;
        uint16_t low;
    } pieces;
    uint32_t all;
} splitint_t;


typedef union {
    struct {
        uint16_t low;
        uint16_t high;
    } pieces;
    uint32_t all;
} splitint_t;
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note that the spec provides zero guarantees about this. It is widely used in C especially, and I doubt any compiler would intentionally break it, but it is strictly speaking undefined behavior. You can't in general write to one member of a struct and read from another. – jalf Aug 18 '09 at 17:25
Note that the standard does not guarantee that all will have any sensible data after assigning to high and low, and vice-versa. This solution is not portable. – Juliano Aug 18 '09 at 17:25

Try projecting data.second explicite to short type, like:

const utils::int32 combineddata = ((data.first<<16) | ((short)data.second));

edit: I am C# dev, probably the casting in your code language looks different, but idea could be the same.

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You want to cast data.first to an int32 before you do the shift, otherwise the shift will overflow the storage before it gets a chance to be automatically promoted when it is assigned to combined data.


const utils::int32 combineddata = (static_cast<utils::int32>(data.first) << 16) | data.second;

This is of course assuming that data.first and data.second are types that are guaranteed to be precisely 16 bits long, otherwise you have bigger problems.

I really don't understand your statement "if data.second gets too big, the | won't take account of the fact that they're both shorts."

Edit: And Neil is absolutely right about signedness.

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In the case of shorts I'm not sure this is necessary. The standard has: "The operands shall be of integral or enumeration type and integral promotions are performed. The type of the result is that of the promoted left operand". Therefore, the short will be promoted to an int implicitly. – Richard Corden Aug 18 '09 at 15:42
Huh. I did not know that - I guess it's because I'm always super-paranoid about data type sizes. Thanks for the pointer. – Tyler McHenry Aug 18 '09 at 15:59
It's good to be paranoid because the cast would definitely be required on platforms with a 16-bit int! – Judge Maygarden Aug 18 '09 at 17:20
Paranoia is good. So is learning the standard. Not to mention realizing that implementations often don't quite implement the whole and exact standard. – David Thornley Aug 18 '09 at 17:24

Presumably the compiler knows that data.second is a short. In that case, you're guaranteed that the value will fit in 16 bits. Both values get promoted to an int before the '|' operator is applied, but data.second will have the top 16 bits as '0'.

The above, of course, is true if data.second is unsigned short. If it's signed short and negative, then '1' will be propagated to the top 16 bits, and you've got a problem.

Oh, and your idea to use a union should work OK, and you wouldn't have to worry about the signed short being promoted to int.

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Using a union to do the job looks like a good choice, but is a portability issue due to endian differences of processors. It's doable, but you need to be prepared to modify your union based on the target architecture. Bit shifting is portable, but please write a function/method to do it for you. Inline if you like.

As to the signedness of the shorts, for this type of operation, it's the meaning that matters not the data type. In other words, if s1 and s2 are meant to be interpreted as two halves of a 32 bit word, having bit 15 set only matters if you do something that would cause s2 to be sign extended. See Mark Ransoms answer, which might be better as

inline utils::int32 CombineWord16toLong32(utils::int16 s1, utils::int16 s2)
    return ((s1 <<16) | (s2 & 0xffff));
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