I'm wondering if it is possible to represent a number as a sequence of bits, each having approximately the same significance, such that if we flip one of the bits, the overall value does not change by ...
The output of following code: System.out.println( Long.toBinaryString( Double.doubleToRawLongBits( 1 ) ) ); System.out.println( Long.toBinaryString( Double.doubleToRawLongBits( 1024 ) ) ); Is: ...
Is there a C++ Standards compliant way to determining the structure of a 'float', 'double', and 'long double' at compile-time ( or run-time, as an alternative )? If I assume std::numeric_limits< T ...
I was getting a little confused with the representation of different units of bytes. It is accepted throughout that 1 byte = 8 bits However, in a lot of sources I have seen that 1 kiloByte = 2^ ...
Can the following code be expected to work in all environments that have an ANSI-compliant C compiler? double n = 0; assert(n == 0); What about C++?
I am trying to understand floating point arithmetic better and have seen a few links to 'What Every Computer Scientist Should Know About Floating Point Arithmetic' I still don't understand how a ...
Is there is any relation between numbers' bits when one is divisible by another? What is the relation between the bits of 36 and the bit sequences of 9 or 4 or 12, or between 10 (1010) and 5 (101), ...