I don't understand what is going on in the following lines of code:
>>> 123456789012345678. 123456789012345677.
0.0
Shouldn't the result be 1.0?
Thanks. Cheers :)
I don't understand what is going on in the following lines of code:
Shouldn't the result be 1.0? Thanks. Cheers :) 


Floating point numbers are stored as 53 bits^{1} of mantissa plus 11 bits of exponent, plus a sign bit. Your numbers require more than 53 bits to represent, so the nearest actual representable floating point value is used. Floating point numbers usually model realworld measurements or simulations of realworld systems. Few if any physical constants or measurements are known to anything even close to 52 bits of precision, so this normally works out OK. ^{1. The 53rd bit is a hidden bit but it isn't enough to help you: $ dc 2 52^p 4503599627370496 2 53^p 9007199254740992 123456789012345678 <<<< your number is bigger, actually, it requires about 56 bits: 2o 2 53^1p 11111111111111111111111111111111111111111111111111111 123456789012345678p 110110110100110110100101110100110001100001111001101001110 } 


Float arithmetics has common issue of rounding problem. What Every Computer Scientist Should Know About FloatingPoint Arithmetic 


There is no exact representation of 123456789012345678 as a float:



Floats only store 53 bits of information, so you are being affected by roundoff. Use integers instead:
Or use the Decimal module:


