I'm having trouble completing the problem despite having a fairly good understanding of how the floating point format works. Can someone walk me through the steps one would take to arrive at an answer? Why is it impossible to represent 1/3 entirely, and how do we know we've gotten to a number closest to 1/3?
To answer “How close can we get?” questions with floating-point, it is often useful to change the significand (fraction portion) to an integer. To do this, start with the customary floating-point format for normal 32-bit binary IEEE floating-point numbers:
Then scale the format so the fraction f is instead an integer F. To do this, we subtract 23 from the exponent and multiply the fraction f by 223. Then we have this format:
Now, figure out what exponent 1/3 would have in the customary format. To make f start with “1.”, e must be -2. We can see this from the fact that 1/3 = 2–2•4/3, and 1 ≤ 4/3 < 2, so, in binary, 4/3 starts with “1.”.
Then, consider the scaled format. In this format, we must have: The sign s is 0, the exponent is –2–23 = –25, and F is some integer such that (–1)0•2–25•F ≈ 1/3.
This is easy to solve, F ≈ 225•1/3 = 33554432/3 = 11184810.666…. The nearest integer to this value is 11184811, so F = 11184811.
Now we can see the error in F is 1/3 (the difference between the integer that F must be and the value would like it to be), and that error is scaled by 2-25, so the error is 2-25/3 ≈ 9.934e-09. And the value itself is 2–25•11184811, which is approximately .3333333433.
(Note that I addressed only normal numbers. For numbers near the limits of the floating-point format, overflow and underflow must also be considered.)
The fraction part of a float in IEEE 754 is made from the sum of negative powers of 2.
For instance, 0.5 is 2-1, 0.75 is 2-1+2-2 etc...
To help you in your work, consider
To complete the question, you can implement a fairly easy algorithm to reach a value close to 1/3
To visualize the result in binary, you could print "1" when p is added to r, and "0" when it's not. The last bit could be "1" to round the result closer to the target.