I know how computer today stores negative integers, which most of the computers use the 2' complement. I just wast wondering the 2' complement method applies for all kinds of numbers like floating points as well?
We started with Q&A. Technical documentation is next, and we need your help.
Whether you're a beginner or an experienced developer, you can contribute.
No, floatingpoints does not use 2 complement representation, but as all binary implementations have a sign bit, it is guaranteed that for all values (except NaNs where signs have no sense) the integer representation of a floatingpoint number can be tested with < 0. This is because integers in 2 complement are also negative if the first bit is set. But neither the significand nor the exponent use 2 complement representation. 


There are different kinds of floating point number representations, but I recall that most are something akin to a sign bit (1 = positive), then a 2s complement exponent value, and then a 2s complement mantissa value with the most significant bit in the 1s position when the exponent is zero. Notice that in this arrangement, you can use integer comparison for greater/lesser. EDIT The above is obviously based on faulty memory, but there's a good explanation over at http://en.wikipedia.org/wiki/Binary32. Basically, ...


