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I know that there are things out there roughly on this.. But my brains hurting and I can't find anything to make this work...

I am trying to send an 16 bit unsigned integer over a unix socket.. To do so I need to convert a uint16_t into two chars, then I need to read them in on the other end of the connection and convert it back into either an unsigned int or an uint16_t, at that point it doesn't matter if it uses 2bytes or 4bytes (I'm running 64bit, that's why I can't use unsigned int :)

I'm doing this in C btw


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I'll have a try when I get home from uni :\ this semesters been hell with everything going terrible... I got so many extensions, now all my assignments are in study break... Too bad study can't get an extension =.= gotta goto uni for a physics revision discussion Thanks everone for the fast responses – Michael Crook Nov 8 '12 at 5:21
Are you sure you want to use plain char and not unsigned char - or even better uint8_t? – Andrew Nov 8 '12 at 6:31
up vote 20 down vote accepted

Why not just break it up into bytes with mask and shift?

 uint16_t value = 12345;
 char lo = value & 0xFF;
 char hi = value >> 8;


On the other end, you assemble with the reverse:

 uint16_t value = lo | uint16_t(hi) << 8;

Off the top of my head, not sure if that cast is required.

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Well, this answer saved me a lot of pain, even after I used it over a year after you wrote it. Thanks. – Marek Sep 7 '13 at 13:47
and a year later it is still useful, so don't stop spreading good vibe – ruisea Feb 21 '14 at 23:49
sorry all, I forgot all about the question... Was doing some spring cleaning on my profile and noticed this and went oopsies :( Gave this the correct answer as from the million years ago I did this, this does ring bells as how I did it... Plus everybody seems to like the answer. Sorry @StevenSudit – Michael Crook Oct 9 '14 at 2:59
char* pUint16 = (char*)&u16;

ie Cast the address of the uint16_t.

char c16[2];
uint16_t ui16 = 0xdead;
memcpy( c16, ui16, 2 );

c16 now contains the 2 bytes of the u16. At the far end you can simply reverse the process.

char* pC16 = /*blah*/
uint16_t ui16;
memcpy( &ui16, pC16, 2 );

Interestingly though there is a call to memcpy nearly every compiler will optimise it out because its of a fixed size.

As Steven sudt points out you may get problems with big-endian-ness. to get round this you can use the htons (host-to-network short) function.

uint16_t ui16correct = htons( 0xdead );

and at the far end use ntohs (network-to-host short)

uint16_t ui16correct = ntohs( ui16 );

On a little-endian machine this will convert the short to big-endian and then at the far end convert back from big-endian. On a big-endian machine the 2 functions do nothing.

Of course if you know that the architecture of both machines on the network use the same endian-ness then you can avoid this step.

Look up ntohl and htonl for handling 32-bit integers. Most platforms also support ntohll and htonll for 64-bits as well.

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Ok, this will give you a char pointer into the int16, but what you find in the first element will depend on big-endian vs. small-endian. – Steven Sudit Nov 7 '12 at 22:10
You're right that memcpy will usually be optimized out, but this is still system-dependent upon big/small-ends. – Steven Sudit Nov 7 '12 at 22:12
Ok, that's better, but it does seem like ntohs() is a lot of overhead for something that's pretty simple. – Steven Sudit Nov 7 '12 at 22:25
its really not ... on many platforms its a single instruction. On other still its just an instruction modifier ... I wouldn't worry about it, tbh. – Goz Nov 7 '12 at 22:27
@StevenSudit Function call overhead is 0 if the function get inlined, and any reasonable compiler will inline a single line function, it is not "huge". – Étienne Feb 10 '14 at 16:01

Sounds like you need to use the bit mask and shift operators.

To split up a 16-bit number into two 8-bit numbers:

  • you mask the lower 8 bits using the bitwise AND operator (& in C) so that the upper 8 bits all become 0, and then assign that result to one char.
  • you shift the upper 8 bits to the right using the right shift operator (>> in C) so that the lower 8 bits are all pushed out of the integer, leaving only the top 8 bits, and assign that to another char.

Then when you send these two chars over the connection, you do the reverse: you shift what used to be the top 8 bits to the left by 8 bits, and then use bitwise OR to combine that with the other 8 bits.

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Basically you are sending 2 bytes over the socket, that's all the socket need to know, regardless of endianness, signedness and so on... just decompose your uint16 into 2 bytes and send them over the socket.

char byte0 = u16 & 0xFF;
char byte1 = u16 >> 8;

At the other end do the conversion in the opposite way

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This is correct, but the '& 0xFF' for the high byte is unnecessary. It'll be optimized away, of course, but it's redundant and might confuse humans. – Steven Sudit Nov 7 '12 at 22:40
You should also cast - especially as, in your example, you are placing an UNSIGNED value into CHAR which (depending on the implementation) may be signed or unsigned. Also better to use unsigned char or uint8_t – Andrew Nov 8 '12 at 6:30
Casting 0-0xff into a signed char can overflow, which is technically undefined behavior and should be avoided. – user4815162342 Nov 8 '12 at 22:35
there's no such concept of "overflow" when you want just a raw byte [0x00-0xFF] and you aren't interested in it's integer representation. Undefined behavior? what? masking with 0xFF can lead to undefined behavior? are you serious? – Gianluca Ghettini Nov 8 '12 at 22:42

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