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Given two positive integers, say M and N, with M < N, what is the most efficient algorithm to find the minimum in lexicographical order of the strings of the integers from M to N represented in base ten ASCII without leading zeros? For example, for [200, 10890], the answer is '1000', for [298, 900], the answer is '298'.

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This expression first fails at M = 1, N = 10. I think the second line should be "return 10^(ceil(log_10(M))". Otherwise it doesn't work if M is a power of 10. Then the first line should be: "if ceil(log_10(M)) <= floor(log_10(N))". – Martin Hock Apr 26 '11 at 4:43
    
You're right, thanks! – abeln Apr 26 '11 at 13:27
    
thanks abeln, good catch Martin. – Jeff Kubina Apr 26 '11 at 22:38
    
The expression as written is now: if ceil(log_10(M)) <= log_10(N) then return 10^(ceil(log_10(M))) else return M end if (just in case imgur ever removes this image...) – Martin Hock Apr 27 '11 at 4:39

I think you're probably right in your intuition that there's a constant-time algorithm for this. You'd first find the smallest first digit, then the smallest second digit, etc.

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To be slightly pedantic, that's linear time (in the number of digits in the inputs). – hammar Apr 26 '11 at 2:42
    
Yeah, you're absolutely right -- it is linear in the number of digits, which I guess technically makes it logarithmic for N. – Ernest Friedman-Hill Apr 26 '11 at 3:12

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