# Does computer always follow 2's complement method to represent negative number? [duplicate]

Please view the following code and help me to understand it

``````int a=1;
int b=~1;
printf("%d",b);
``````

Output is:

`````` -2
``````

So this says that 1=(00000001) when undergoes ~ produces (11111110) which is 2's complement of number 2 and hence -2 is the answer. So 100 will always be assumed to be -4 but not 4 ?

• A negative number will always have the uppermost bit set. So if your bytes are more than 3 bits long, 100 will always be 8, not -4. Commented Dec 25, 2017 at 0:35
• Not every computer uses two's complement technically speaking, but it is very rare to find one that doesn't these days. Commented Dec 25, 2017 at 0:36
• It sounds like you are asking for a tutorial in elementary binary encoding. Commented Dec 25, 2017 at 0:37
• Not quite. The MSB is both a flag and part of the data. Also, while it is generally 8 bits, a byte can be any number of binary digits. Commented Dec 25, 2017 at 0:40
• @anime. I've never heard of a general purpose machine that didn't allow both signed and unsigned operations. A register is interpreted as whatever the operation needs. If you call unsigned addition, 100 in a 3-bit register is 4. If you use signed addition, it's -4. you have to decide which you want. 100 is just a collection of bits in memory and the processor does whatever you tell it to. Commented Dec 25, 2017 at 0:53

Does computer always follow 2's complement method to represent negative number?

No.

Some computers used 1's compliment (where ~1 == -0), some used "sign and magnitude" (where ~1 == -127), some use "bias" (where there signed value is "unsigned value - bias" and where ~1 == 127). For integers these are all relatively rare now.

Something that isn't rare is standard (IEEE-754) floating point formats; which are a glorious combination of "sign and magnitude" (used for the significand) and "bias" (used for the exponent).

• Given the question is tagged C, you're probably better off limiting yourself to two's complement, ones' complement, and sign/magnitude. No other options are allowed by the standard. And note the positioning of the apostrophe, it's important :-) Commented Dec 25, 2017 at 8:22
• To clarify "relatively rare", does the total number of conforming C99 or C11 implementations intended for practical use that have ever employed anything other than two's-complement exceed zero? Commented Aug 1, 2018 at 19:34

You can only define two's complement numbers when you already have decided exactly how many bits hold the number. Do you have a three-bit signed integer type somewhere where you are storing the bits 100? If so, then 100 would be interpreted as -4.

If you store it in a larger integer type, we would normally assume the other bits to the left of the 1 are all 0s (since otherwise you should have shown what they were) and the value would be positive 4.

By the way, it would be very unusual nowadays to find a compiler that has a C or C++ `int` type that is only 8 bits long like the one in the question. (OK, "unusual" is an understatement--as a comment notes, the standard doesn't allow this, and as far as I know it has never been considered legitimate to have a plain `int` type as shown in the question that could be stored in fewer than 16 bits. You can declare a signed integer bit-field of just 3 bits within a `struct`, but the syntax for that is quite different from what the question shows.) So it is not really correct even to interpret `int b=~1;` as storing the bit pattern 11111110; the actual bit pattern would have at least 16 bits, and most of us in recent years have only seen it compiled as 32 bits.

• So suppose i have a 3 bit register and i store 100 there, so my computer will understand it as -4 right? Commented Dec 25, 2017 at 0:40
• Yes, if you can find such a thing. You might try a bit field (learn.microsoft.com/en-us/cpp/c-language/c-bit-fields) declared as a signed int -- I've never tried it myself, though. Commented Dec 25, 2017 at 0:44
• @anime. Your computer does not understand anything. It has some operations you can trigger. Some of these will be signed, and will treat 100 as -4. Others will be unsigned and will treat 100 as +4. Your job is to show the necessary understanding and apply the correct operations. When you use a C++ compiler, you do this by declaring the correct type and by casting when you need to. Commented Dec 25, 2017 at 0:49
• @DavidK I have a similar problem here suppose for a 3 bit register if I do '2<<1' so my answer will be then '010<<1' produce '100' which will be -4 right? Commented Dec 25, 2017 at 0:50
• The C standard mandates at least 16 bits (technically, it mandates that it be big enough for ±32767). Commented Dec 25, 2017 at 2:40