# Concatenate two 32bit numbers to get a 64bit result

I need to concatenate two hexadecimal numbers 32 bits each each, to get a final result of 64 bits. I tried the following code but didn't get a good result:

``````unsigned long a,b;
unsigned long long c;
c = (unsigned long long) (a << 32 | b);
``````

Can anybody help me please? Thanks.

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Wouldn't it be more like: c = (((unsigned long long)a) << 32) | b); –  forsvarir May 19 '11 at 20:40
I'm just guessing, but is it possible that `a` cannot be shifted 32 bits because `a` is still an `unsigned long`? Shouldn't you cast `unsigned long long` on `a` before shifting? –  Lekensteyn May 19 '11 at 20:41
Can you provide an example of the expected and actual output for certain numbers? We need to know what is wrong to provide a good answer. –  ughoavgfhw May 19 '11 at 20:41

Use proper fixed size types and be careful about type promotion and operator precedence, e.g.

``````#include <stdint.h>

uint32_t a, b;
uint64_t c;

c = ((uint64_t)a << 32) | b;
``````
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Use of fixed size types is completely unnecessary here: `unsigned long` is guaranteed long enough to hold the 32 bit source operands, and `unsigned long long` is guaranteed long enough to hold the 64 bit result. –  caf May 20 '11 at 7:45
@caf: it might be unnecessary, but it conveys the programmer's intent much better than using naked types –  Paul R May 20 '11 at 7:49

You need to cast `a` to `long long` before shifting it:

``````unsigned long long c = ((unsigned long long)a << 32 | b);
``````
-

The third line should be changed to

``````((unsigned long long)a) << 32 | ((unsigned long long) b)
``````

What your current code is doing, is taking the 32-bit variable `a` and shifting it 32 bits to the left (making its value 0, because the bottom 32 bits are all empty), then or-ing it with the 32-bit variable `b`.

What the changed version does is to case the 32-bit variable `a` to 64 bits, shift it 32 bits to the left, cast the 32-bit variable `b` to 64 bits, then or the two 64-bit variables together. The result is naturally 64 bits.

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you should only need to explicitly cast one of the operands into the wider type - the other will get an implicit cast. –  Alnitak May 19 '11 at 20:45
Remove the excessive casts. –  R.. May 19 '11 at 20:59
I don't agree that the cast of `b` is excessive. It's not necessary, but it's a clear statement of what you're intending to have happen here. –  Jon Bright May 20 '11 at 23:31

Shortest form is:

``````c = a+0ULL<<32|b
``````
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I would imagine that this would do the trick:

``````typedef unsigned long U64 ; // your unsigned 64-bit int typedef here
typedef unsigned int  U32 ; // your unsigned 32-bit int typedef here

U64 join( U32 a , U32 b )
{
U64 result = ((U64)a) << 32
| ((U64)b)
;
return result ;
}
``````

I'll leave to you to divine the appropriate typedefs for U64 and U32.

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stdint.h doesn't ship with versions of Visual Studio prior to VS2010, so you can't, on the MS windows platform, depend on it. Ditto for other/older/noncompliant implementation. Since what constitutes a 32- or 64-bit integer type is implementation dependent, why the downvote? –  Nicholas Carey May 19 '11 at 21:11