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I have two char´s that I want my program to interpert as one 2´s complement value. For example if I have:

char i = 0xFF;
char j = 0xF0;

int k = ((i<<8) | j);

Then I want C to interpert k as 2´s complement (so -16 in stead of 65520). How do I do this?

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4 Answers 4

int variables, in comparison to unsigned int are always interpreted as two's complement. Your value is just not -16 :)

after you run your code, k will be (assuming 32 bit integer width)

k == 0x0000FFF0 // k == 65520


-16 == 0xFFFFFFF0

what you can do, to overcome this, is setting all bits of k to 1 beforehand

int k = -1;          // k == 0xFFFFFFFF
k &= ((i << 8) | j); // k == 0xFFFFFFF0
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You want to set all the most significant bits, except the lower 16 to 1. Something like this should do it.

k |= (-1&~0xFFFF);

That said, if your compiler interprets chars as signed (as I think most do) k is already -16.

Furthermore, with signed chars your result will typically be incorrect if j has its most significant bit set (as it does in this case). During the evaluation of the expression, j is going to be type promoted to a negative number with all the most significant bits set. When such a number is ORed with the rest of the expression, those bits are going to override everything else. It only works in this case because i already has all its bits set so it makes no difference either way.

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In general the bit operations in C/C++ on signed values might have undefined result (the specific format of numbers is not specified - specific wording in section about shifts) - for details see C99 standard. While most architectures currently use 2s-complement and most compilers will generate correct code it is unwise to rely on such assumption - compilers are known to introduce new optimalizations, which break incorrect code, even if said code have 'trivial' meaning (for human).

unsigned char i = 0xFF; // Char might be either signed or unsigned by default
unsigned char j = 0xF0;
uint16_t bit_result = (i << 8) | j; // 0XFFF0
int32_t sign = (bit_result & (1U << 15)) ? -(1U << 15) : 0;
int32_t result = sign + (bit_result & ((1U << 15) - 1));

The above code had no jumps after optimization [preventing constant propagation of i and j so it should be nearly as quick as the code below:

// WARNING: Undefined behaviour. Might return wrong value (depending on compiler, processor etc.)
unsigned char i = 0xFF;
unsigned char j = 0xF0;
unsigned uint16_t bit_result = (i << 8) | j; // 0xFFF0
int16_t result = bit_result;

In unlikely event that this is performance critical code AND the second code is faster you might consider the second one. Other wise I would use the first one as more correct.

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Actually the signed integer representation is implementation defined and your reference is about undefined behavior. That makes a big difference. Also most implementations of C choose to take two's complement. But totally portable code should account for one's complement and sign and magnitude too. –  Bryan Olivier May 6 '13 at 11:59
@BryanOlivier: The binary shifts have undefined behaviour if first argument is negative. That's why I chosen word 'may' as it depends on arguments and operation. You are right but difference between implementation-defined and undefined don't have much impact on answer. –  Maciej Piechotka May 6 '13 at 12:21
You are indeed right about the shift, that is on oversight on my part. I will correct my answer accordingly. –  Bryan Olivier May 6 '13 at 12:38
@BryanOlivier actually the int??_t types are guaranteed to be twos compliment if they are available I don't have the spec handy so I don't know section and paragraph but it surprised me when I read it so I remember it. –  Spudd86 Jul 19 '14 at 7:38

You are compiling your code with a compiler that takes an unqualified char as unsigned. On my system it is taken as signed and I do get -16. If you really want 2's complement char, that is signed, then you can write that:

#include <stdio.h>
int main(void)
        signed char     i = 0xFF, j = 0xF0;

        printf("%d\n", ((i<<8) | j));
        return 0;

Just for reference, Appendix J.3.4 Implementation-defined behavior Characters

Which of signed char or unsigned char has the same range, representation, and behavior as ‘‘plain’’ char (6.2.5,

And in J.3.5 Implementation-defined behavior Integers

Whether signed integer types are represented using sign and magnitude, two’s complement, or ones’ complement, and whether the extraordinary value is a trap representation or an ordinary value (

As Maciej correctly points out it should be noted that shifting left of negative values is undefined behavior and thus should be avoided as compilers may assume you will never shift a negative value to the left.

6.5.7 Bitwise shift operators ad 4

The result of E1 << E2 is E1 left-shifted E2 bit positions; vacated bits are filled with zeros. If E1 has an unsigned type, the value of the result is E1 × 2^E2 , reduced modulo one more than the maximum value representable in the result type. If E1 has a signed type and nonnegative value, and E1 × 2^E2 is representable in the result type, then that is the resulting value; otherwise, the behavior is undefined.

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Using signed chars won't actually work in general. I've added a more detailed explanation why in my answer. –  James Holderness May 6 '13 at 12:01
@JamesHolderness You have a point to the intention of question (it doesn't say so). But in the intention indeed j should be taken an unsigned char. –  Bryan Olivier May 6 '13 at 12:06
My point is that you can replace the assignment of i in your example above with any value at all, and the result will still be -16. I don't see how that can be a considered a correct answer. –  James Holderness May 6 '13 at 12:18

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