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From an interview question:

"Determine whether a word is in a stored list. The list doesn't fit into memory. No disk access allowed, for lookups, memory access only. No false positives allowed, false negatives ok."

Bloom filters do the exact opposite: False positives allowed, no false negatives allowed.

My thoughts: We cannot use a hash function since we might have collisions that violate the "no false positives" requirement. Even if using a counting bloom filter, a collision would still cause a false positive. I.E. two strings result in the same hashes, so when the first one is "inserted", and we do a lookup for the second one, it will show its there, although its not.

I think the answer is a bit array since we can't have false positives. Does that sound right?

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  • what about open chained hashing? I think we should be able to use that.
    – NeoR
    Nov 3, 2016 at 18:36
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    For the question exactly as posed, just storing part of the list in a sorted array meets the requirements too :)
    – twotwotwo
    Nov 3, 2016 at 18:37
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    To bounce over @twotwotwo's answer, not storing anything meet the requirement too, always answer no. Nov 3, 2016 at 19:43
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    I consider a bit array as an answer funny: while I have an inkling what an array may be, I have no idea how it would be indexed or what the value at that index meant. (For list not much larger than memory, I might second open chained hashing (with a limit on probes). If there are ample common prefixes, a trie may fit even if the list does not.)
    – greybeard
    Nov 4, 2016 at 7:27

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I think an LRU cache will do. Since when we ask if a word is in the list, we either want "definitely yes" or "probably not," or said otherwise, no false positives allowed, but false negatives ok; then its Ok to say "probably not in list" even its there (probably not) and if the word happens to be in the LRU cache, then it will always answer "definitively yes"

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