# How to combine two 32-bit integers into one 64-bit integer?

I have a count register, which is made up of two 32-bit unsigned integers, one for the higher 32 bits of the value (most significant word), and other for the lower 32 bits of the value (least significant word).

What is the best way in C to combine these two 32-bit unsigned integers and then display as a large number?

In specific:

``````leastSignificantWord = 4294967295; //2^32-1

printf("Counter: %u%u", mostSignificantWord,leastSignificantWord);
``````

This would print fine.

When the number is incremented to 4294967296, I have it so the leastSignificantWord wipes to 0, and mostSignificantWord (0 initially) is now 1. The whole counter should now read 4294967296, but right now it just reads 10, because I'm just concatenating 1 from mostSignificantWord and 0 from leastSignificantWord.

How should I make it display 4294967296 instead of 10?

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Not a C++ question. – Crazy Eddie May 4 '10 at 20:51
Your method would only make any sense if you used %8.8X as the format specifier to concatenate the hex values of the words. For it to work in decimal, the maximum integer value would have to be (10^n)-1 where n were the number of decimal digits, and that will never be the case on a binary machine! – Clifford May 4 '10 at 21:34

``````long long val = (long long) mostSignificantWord << 32 | leastSignificantWord;
printf( "%lli", val );
``````
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`<< 32` will not work right if `mostSignificantWord` is a 32-bit integer. It needs to be cast to a 64-bit type first. By the way, in g++ `long` and `long long` are both 8 bytes. – Alex Korban May 4 '10 at 21:25
Good catch. I fixed it. – twk May 4 '10 at 21:30
@Alex: in g++ on x64, `long` is 64 bits. On x86 it is 32 bits. – Steve Jessop May 4 '10 at 22:27
@Steve: Ah, thanks for the clarification. – Alex Korban May 4 '10 at 22:54
Please use C99 types `uint32_t` and `uint64_t`. This is why they are there. – Norman Ramsey May 5 '10 at 0:09

It might be advantageous to use unsigned integers with explicit sizes in this case:

``````#include <stdio.h>
#include <inttypes.h>

int main(void) {
uint32_t leastSignificantWord = 0;
uint32_t mostSignificantWord = 1;
uint64_t i = (uint64_t) mostSignificantWord << 32 | leastSignificantWord;
printf("%" PRIu64 "\n", i);

return 0;
}
``````
Output

`4294967296`

### Break down of `(uint64_t) mostSignificantWord << 32 | leastSignificantWord`

• `(typename)` does typecasting in C. It changes value data type to `typename`.

(uint64_t) 0x00000001 -> 0x0000000000000001

• `<<` does left shift. In C left shift on unsigned integers performs logical shift.

0x0000000000000001 << 32 -> 0x0000000100000000

• `|` does 'bitwise or' (logical OR on bits of the operands).

0b0101 | 0b1001 -> 0b1101

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Brilliant. Someone who not only knows how to use the C99 types with explicit sizes, but who also understands how to use the related `printf` macros. +10 if I could. SO-ers, unite! This answer deserves top billing! – Norman Ramsey May 5 '10 at 0:11
Could anybody break down what this line means? uint64_t i = (uint64_t) mostSignificantWord << 32 | leastSignificantWord; And what's the PRIu64? My compiler doesn't seem to like it, says "expected ) after PRIu64. – jiake May 5 '10 at 15:59
@Bei337: `inttypes.h` is a part of C99 standard. It defines format specifiers for `printf/scanf` such as `PRIu64` and it includes `stdint.h` that defines typedefs such as `uint32_t`. If you are using MSVC++/Windows then take `inttypes.h` from code.google.com/p/msinttypes – J.F. Sebastian May 5 '10 at 16:33
Great explanation, thank you! My compiler didn't like the macro, and I didn't want to include the header, so I used twk's implementation instead. But I learned the most from your post, thanks Sebastian. – jiake May 5 '10 at 19:02
@Bei337: It might help if you compile the code as C code (not as C++). C++ requires `__STDC_FORMAT_MACROS` to be defined to use `PRI..` macros. – J.F. Sebastian May 5 '10 at 20:52

my take:

``````unsigned int low = <SOME-32-BIT-CONSTRANT>
unsigned int high = <SOME-32-BIT-CONSTANT>

unsigned long long data64;

data64 = (unsigned long long) high << 32 | low;

printf ("%llx\n", data64); /* hexadecimal output */
printf ("%lld\n", data64); /* decimal output */
``````

Another approach:

``````unsigned int low = <SOME-32-BIT-CONSTRANT>
unsigned int high = <SOME-32-BIT-CONSTANT>

unsigned long long data64;
unsigned char * ptr = (unsigned char *) &data;

memcpy (ptr+0, &low, 4);
memcpy (ptr+4, &high, 4);

printf ("%llx\n", data64); /* hexadecimal output */
printf ("%lld\n", data64); /* decimal output */
``````

Both versions work, and they will have similar performance (the compiler will optimize the memcpy away).

The second version does not work with big-endian targets but otoh it takes the guess-work away if the constant 32 should be 32 or 32ull. Something I'm never sure when I see shifts with constants greater than 31.

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It is irrelevant whether the shift amount constant is `32` or `32ULL`, since they both have the same value and that is all that's used for the shift. As long as the value being shifted has the type `unsigned long long`, everything is hunky dory. – caf May 4 '10 at 22:00
Why even show the non-portable solution? Now somebody will copy it, and later the code will be moved to another application, and something will eventually break and it'll take forever to debug. – Adrian McCarthy May 4 '10 at 22:23
Use the C99 types with explicit sizes. It is why they are there. – Norman Ramsey May 5 '10 at 0:10

This code works when both upper32 and lower32 is negative:

``````data64 = ((LONGLONG)upper32<< 32) | ((LONGLONG)lower32& 0xffffffff);
``````
-

Instead of attempting to print decimal, I often print in hex.

Thus ...

``````printf ("0x%x%08x\n", upper32, lower32);
``````

Alternatively, depending upon the architecture, platform and compiler, sometimes you can get away with something like ...

``````printf ("%lld\n", lower32, upper32);
``````

or

``````printf ("%lld\n", upper32, lower32);
``````

However, this alternative method is very machine dependent (endian-ness, as well as 64 vs 32 bit, ...) and in general is not recommended.

Hope this helps.

-

You could do it by writing the 32-bit values to the right locations in memory:

``````unsigned long int data64;
data64=lowerword
*(&((unsigned int)data64)+1)=upperword;
``````

This is machine-dependent however, for example it won't work correctly on big-endian processors.

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please explain! – johannes Oct 19 '12 at 11:04
could you elaborate and explain your answer – dove Oct 19 '12 at 11:04
Please fix your formatting. Start code blocks with 4 spaces. – simonmenke Oct 19 '12 at 11:07
this will only work on little-endian machines.one more assumption is unsigned long is 64 bits and unsigned int is 32 bits(can use uint32 and uint64). now the explanation data64=lowerword this will copy the lowerword to the lower bytes of data64. (unsigned int)data64 convert it to 32bits. &((unsigned int)data64) gives me the address of type unsigned int adding 1 will incrrement the address to the higher bytes of data64 finally * of this stores the upperword in those higher bytes. – mohit Oct 20 '12 at 9:30