# 4x8 bit int to 32 bit integer

I have

``````_int8 arr[0] = 0;
_int8 arr[1] = 0;
_int8 arr[2] = 14;
_int8 arr[3] = 16;
``````

I need to convert it to one _int32 using as arr[0] as first part <..> and arr[3] as last. In the end it should be

``````_int32 back = 3600;
``````

Should I use bit shifts or smth like that to achieve this?

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Your code isn't valid, you cannot create an array with 0 elements. –  Hans Passant Jan 16 '11 at 17:57

If you know the byte ordering (i.e. big endian or little endian, check it out on wikipedia), and the array is set up in the right order you can just do:

``````back = *(_int32 *)arr;
``````

That'll just interpret your array of 4 bytes as a buffer holding a single 32-bit integer. In your example though, I think you've got it set up for big endian and x86 isn't. So you'd need to swap some bytes.

For instance:

``````_int32 back = arr[0] << 24 | arr[1] << 16 | arr[2] << 8 | arr[3];
``````

or something like that.

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...x86 is most definitely little-endian. –  Michael Madsen Jan 16 '11 at 17:55
x86 is little-endian; the OP's layout would be big-endian. –  j_random_hacker Jan 16 '11 at 17:55
i dont know about little or big endian, but that worked :D will study it later. thanks. –  gemexas Jan 16 '11 at 18:08
Isn't accessing a value through a pointer of the wrong type undefined behaviour? –  user97370 Jan 16 '11 at 18:52

Cast them all to `int` then use:

``````(arr[0] << 24) | (arr[1] << 16) | (arr[2] << 8) | arr[3]
``````

Alternatively:

``````_int32 back = 0;
for (int i = 0; i < 4; ++i)
back = (back << 8) | arr[i];
``````
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You might want or need to convert to uint to avoid problems with sign bit extension. –  hardmath Jan 16 '11 at 17:54
@hardmath: True, I guess it depends what he wants. –  Peter Alexander Jan 16 '11 at 17:55
@hardmath Actually I do not follow. Where does signedness intervene when using left shifts? If there had been right shifts in Peter's answer I would have understood, but here I feel like I'm missing something. –  Pascal Cuoq Jan 16 '11 at 18:01
@Pascal Cuoq: Signedness intervenes before the shifts, when you do the conversions. If I have a signed byte int8 and covert to int32, I expect "negative" values to be sign extended to negative values. Perhaps gemaxas's question is open to interpretation, but the way I read it means just placing the bytes in the correct order. Using a bitwise OR to do that (as Peter suggested) would require suppressing any sign extension. Nick's solution (aliasing the same piece of memory) is maybe a little cleaner because it avoids the issue. –  hardmath Jan 16 '11 at 18:33
I never understand why bit shifting is even considered when unions are available. –  David Heffernan Jan 16 '11 at 19:56

It's probably my SCO compiler but I think I've had problems if I didn't use (arr[0]&0xff) and so forth for doing the shifts. Certainly doesn't hurt anything.

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