Integer |= Char; operation ignoring high order byte in Integer

Just a quick and specific question, this has stumped me for half an hour almost.

``````char * bytes = {0x01, 0xD8};
int value = 0;

value = bytes[0];  // result is 1 (0x0001)
value <<= 8;       // result is 256 (0x0100)
value |= bytes[1]; // result is -40? (0xFFD8) How is this even happening?
``````

The last operation is the one of interest to me, how is it turning a signed integer of 256 into -40?

edit: changed a large portion of the example code for brevity

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What are the types of `buffer` and `value`? –  Mu Qiao Sep 2 '11 at 6:44
This code is a bit too 'pseudo' for the question to be answered IMO. –  Karl Knechtel Sep 2 '11 at 6:44
@Mu - `buffer` is a `char *` and `value` is a `int` –  Clairvoire Sep 2 '11 at 6:46
I'd guess that it's sign extending the value on the right (`D8`) before the or operation occurs, to make the operands on both sides the same length. –  Damien_The_Unbeliever Sep 2 '11 at 6:47
Never use signed types together with the bitwise operators - the answer to the question is simple as that. –  Lundin Sep 2 '11 at 7:01

In your case the type `char` is equivalent to `signed char`, which means that when you save the value `0xD8` in a `char`, it will come out as a negative number.

The usual arithmetic conversions that happen during the `|=` operation are value-preserving, so the negative number is preserved.

To solve the problem, you can either make all your data types `unsigned` when you have binary arithmetics. Or you can write `value |= ((unsigned char) buffer[0])` or `value |= buffer[0] & 0xFF`.

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To be picky, the integer promotions are what makes bytes[1] a (signed) int with the sign preserved. Though they are part of the usual arithmetic conversions. –  Lundin Sep 2 '11 at 7:00
This code isn't mine, not sure why anyone would not use `unsigned char` to begin with, but the cast solves my problem pretty handedly, thanks! –  Clairvoire Sep 2 '11 at 7:09

In order to perform the `|=` operation, we need the operands on both sides to be the same size. Since `char` is smaller than `int`, it has to be converted to an `int`. But, since `char` is a signed type, it's expanded to an `int` by sign extension.

That is, `D8` becomes `FFD8` before the or operation even happens.

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