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I have a binary array char buffer[N]; which contains two bytes to be interpreted as an unsigned short at its beginning and am currently extracting those by doing

unsigned short size= 0;
memcpy((char *) &size, buffer, sizeof(unsigned short));

I would however like to use std::copy for this. Is this possible?

Attempts like

std::copy(buffer, buffer+sizeof(unsigned short), (char *) &size);

have resulted in various errors when compiling..

Edit: Sorry, I was in a hurry and forgot: This is on a Ubuntu GNU/Linux system with gcc 4.4.3. The error message was Error: Invalid conversion from ‘char*’ to ‘char’.

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What errors? What compiler? What operating system? – Nemo Oct 31 '11 at 17:38
Try maybe buffer+0 as the first argument. Add the actual errors to get meaningful answers. – K-ballo Oct 31 '11 at 17:38
Works for my gcc 4.6.1 – thiton Oct 31 '11 at 17:40

4 Answers 4

up vote 6 down vote accepted

You should not use any sort of bulk copy routine for this, nor should you use typecasting to get a pointer to unsigned short, because none of those options take byte order into account. The correct way to extract a two-byte unsigned integer from a char[] buffer is with one of these functions:

unsigned short extract_littleend16(const unsigned char *buf)
    return (((unsigned short)buf[0]) << 0) |
           (((unsigned short)buf[1]) << 8);

unsigned short extract_bigend16(const unsigned char *buf)
    return (((unsigned short)buf[0]) << 8) |
           (((unsigned short)buf[1]) << 0);

std::copy, memcpy, and direct pointer bashing will all do the same thing as one of these functions, but you don't know which one it'll be, and any time you have this task, one of these functions is right and the other one is wrong. Furthermore, if you don't know which one of these you need from context, go up a couple design levels and figure it out.

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Since we're being nit-picky maybe I should downvote you for using C-style casts instead of static_cast! If the OP doesn't care about byte order it is very possible that his target platform's byte order is maintained in the char array and he doesn't need to worry about it. Your answer is the portable way of doing this, but it is still no reason to downvote everyone else when their solutions work just as well for the OP. (I'm not actually downvoting since your solution works) – Praetorian Oct 31 '11 at 18:11
The OP may not have a byte-ordering problem yet but that is no excuse for doing this in a way that will break in the future, or worse, force someone else to go to extra trouble to cope with two unlabeled incompatible variations on a file format / network protocol. Re style, it is my personal opinion that C-style casts are preferable to the more verbose but 100% equivalent static_cast for conversions among fundamental types, but in any case this is not remotely as big a deal as the byte-ordering issue. – zwol Oct 31 '11 at 18:17
In this case, there's no need for a cast at all; the values will be promoted to int whether or not you cast them to unsigned short first. – Mike Seymour Oct 31 '11 at 18:43
@Zack: so if I tell you that the only thing "wrong" with the data in buffer is that it might be mis-aligned, but that otherwise it is certainly an object representation of an unsigned short in host byte order, will you write code to check whether host order is big- or little-endian, so that you can call the correct one of your two functions? Or in that limited case would you row back from "you must explicitly choose byte order and call the corresponding function"? – Steve Jessop Oct 31 '11 at 19:07
@James: I think that what Zack is saying is: (1) Thou Shalt Not Define A Serialized Data Format To Be Host-Endian. Pick One; (2) if you have two bytes that represent a short but aren't already in a short, that's serialization, so see 1; (3) therefore this question doesn't need an answer, instead the surrounding code should be changed until the question goes away. We have to counter 1, by providing a detailed description of the program design that led to this (existing, working) code before Zack will engage with what calls to copy may or may not be equivalent to the memcpy. – Steve Jessop Nov 1 '11 at 10:11

you actually do not have to use any copy at all, that is the beauty of real pointers. on a windows based system for example, you may use just this line of code. try

size = *((unsigned short *)buffer);

std::copy needs iterators, and for that, i would stick to memcpy afterall

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A pointer is a random access iterator. – James McNellis Oct 31 '11 at 17:47
true. i will edit my post. – esskar Oct 31 '11 at 17:50
In all likelihood std::copy will be specialized for unsigned short * (and other pointers to primitive types) to call memcpy if it is faster for your platform. That is beauty of sticking to algorithms from the standard library. – Praetorian Oct 31 '11 at 17:57
Downvoted because of ignoring byte order. This answer is actively harmful, please delete it. – zwol Oct 31 '11 at 18:00
made another change so it is perfectly correct. – esskar Oct 31 '11 at 18:10
size = *(unsigned short*)buffer;

should do ;-)

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That should be unsigned short *, and it is unportable due to alignment issues. – interjay Oct 31 '11 at 17:44
And byte order. – André Caron Oct 31 '11 at 17:46
Thanks, of course it should be *. Maybe, personally, last time I've seen the platform on which it wouldn't work over 20 years ago, but I'm sure there's a lot of modern platforms I haven't worked with. – Michael Krelin - hacker Oct 31 '11 at 17:47
@AndréCaron, how's that different from memcpy in terms of byte order? – Michael Krelin - hacker Oct 31 '11 at 17:47
Downvoted because of ignoring byte order. This answer is actively harmful, please delete it. – zwol Oct 31 '11 at 17:59

Ok my answer a bit clarified:

You can do it this way and it should *compile* without problems, see the code below. However, you don't really want to do it this way because it has a few caveats.

1.: It will screw badly if the native byte order is different from the byte order in the char buffer (see 4, Credits due to Zack - I missed that point myself).

2.: If you mess up the cast you will end up in the middle of undefined behavior (see comments on the post, I first missed to specify the cast)

3.: Debug implementations of the STL might warn or at all prevent you from compiling code like this (and they do so for a reason).

4.: It might compile and seem to be working well but it doesn't necessarily do what you intended it to do (see 2.)

5.: I'm sure there more :)

Here is the compiling example (i686-apple-darwin11-llvm-gcc-4.2). Use at your own risk.

#include <algorithm>
#include <iostream>

int main()
  unsigned short foo = 0;
  char byte[2] = { 0x10, 0xFF };

  // WARNING: This will screw up if the native byte order is different 
  // from the byte order in the buffer!!! (Credits: Zack)**
  std::copy(byte, byte + sizeof(unsigned short), (char*)&foo);

  std::cerr << foo << std::endl;

  return 0;
share|improve this answer
That interprets &foo as a 2-element array of shorts and will stomp on other parts of the spec. Don't do this! – pmdj Oct 31 '11 at 17:44
You sure that works perfectly well? I would expect it to copy 0x10 into foo and write 0xff on the stack somewhere. Each increment will be sizeof(short) because of the type of foo. – Ben Jackson Oct 31 '11 at 17:46
ok - my error, have been to quick hacking something in without thinking. added cast, compiles and works fine, just as the OP intended it to work. – cli_hlt Oct 31 '11 at 17:46
I'm not downvoting this because it does demonstrate that std::copy can be used for this if you don't care about byte order, and that's the question that was asked; however, please add some sort of warning about how this will screw up if the native byte order is different from the byte order in the buffer. – zwol Oct 31 '11 at 18:02
Good point. Im adding it. – cli_hlt Oct 31 '11 at 18:07

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