Finding the closest integer fraction to a given random real between 0..1, given ranges of numerator and denominator
Using Farey sequence
This is a simple and mathematically beautiful algorithm to solve this: run a binary search, where on each iteration the next number is given by the mediant formula (below). By the properties of the Farey sequence that number is the one with the smallest denominator within that interval. Consequently this sequence will always converge and never 'miss' a valid solution.
In pseudocode:
input: m, n, R
a_num = 0, a_denom = 1
b_num = 1, b_denom = 1
repeat:
-- interestingly c_num/c_denom is already in reduced form
c_num = a_num + b_num
c_denom = a_denom + b_denom
-- if the numbers are too big, return the closest of a and b
if c_num > n or c_denom > m then
if R - a_num/a_denom < b_num/b_denom - R then
return a_num, a_denom
else
return b_num, b_denom
-- adjust the interval:
if c_num/c_denom < R then
a_num = c_num, a_denom = c_denom
else
b_num = c_num, b_denom = c_denom
goto repeat
Even though it's fast on average (my educated guess that it's O(log max(m,n))), it can still be slow if R is close to a fraction with a small denominator. For example finding an approximation to 1/1000000 with m = n = 1000000 will take a million iterations.
The standard approach to approximating reals with rationals is computing the continued fraction series (see [1]). Put a limit on the nominator and denominator while computing parts of the series, and the last value before you break the limits is a fraction very close to your real number.
This will find a very good approximation very fast, but I'm not sure this will always find a closest approximation. It is known that
any convergent [partial value of the continued fraction expansion] is nearer to the continued fraction than any other fraction whose denominator is less than that of the convergent
but there may be approximations with larger denominator (still below your limit) that are better approximations, but are not convergents.
[1] http://en.wikipedia.org/wiki/Continued_fraction