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In MySQL, an index type is a b-tree, and access an element in a b-tree is in logarithmic amortized time O(log(n)).

On the other hand, accessing an element in an hash table is in O(1).

Why a hash table is not used instead of a b-tree in order to access data inside a database?

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Hash tables to not support range queries, and cannot grow or shrink smoothly during operation. – Henning Makholm Sep 5 '11 at 9:49
@HenningMakholm Why not hash for columns that do not need range queries? – Pacerier Jul 5 '12 at 23:08
up vote 39 down vote accepted

you can only access elements by their primary key in a hashtable. this is faster than with a tree algorithm ( O(1) instead of log(n)) you cannot select ranges (everything in between x and y). tree algorithms support this in Log(n) where as a hash index can result in a full table scan O(n). also the constant overhead of hash indexes is usually bigger (which is no factor in theta notation, but it still exists). also tree algorithms are usually easier to maintain, grow with data, scale, etc.

hash indexes work with pre defined hash sizes. so you end up with some "buckets" where the objects are stored in. theese objects are looped over again to really find the right one inside this partition.

so if you have small sizes you have a lot of overhead for small elements, big sizes result in further scanning.

todays hash tables algorithms usually scale. but scaling can be inefficient. there are indeed scalable hashing algorithms (don't ask me how that works - its a mistery to me too. afaik they evolved from scalable replication where re hashing is not easy. its called RUSH - replication ander scalable hashing, and those algorithms are thus called RUSH algorithms).

however there may be a point where your index exceeds a tolerable size compared to your hash sizes and your entire index needs to be re build. usually this is not a problem. but for huge, huge, huge databases, this can take days.

the trade off for tree algorithms is small and they are suitable for almost every use case and thus are default.

however if you have a very precise use case and you know exactly what and only what is going to be needed, you can take advantage of hashing indexes.

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Can you explain more on the index rebuilding? Does it mean that for x days while the index rebuilds, the table is totally unavailable for use during that period? – Pacerier Jul 5 '12 at 23:11
that depends on the database system in use. the question only covered the theoretical aspecsts. i do not really know about the implementation details of common database systems. but usually this should not be the case because the second index can be built while the first is still being used – The Surrican Jan 25 '14 at 1:31

Because a btree can be easily paged out to disk. Also, the time complexity of hashtables is constant only for sufficiently sized hashtables (there need to be enough buckets to hold the data). The size of a database table is not known in advance so the table must be rehashed now and then to get optimal performance out of an hashtable. The rehashing is also expensive.

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Can reshashing be performed while db is online? Or do we have to lock the table to rehash everything? – Pacerier Jul 5 '12 at 23:12
Pacerier, MySQL have no support for hash indices. It is theoretically possible to rehash the index while the database is still online (keep using the old index, create a new index, switch over to the new one when it is done) but I don't know what MySQL would do if they implemented hash indicies. – Emil Vikström Jul 5 '12 at 23:16
MySQL supports hash indexes right? : dev.mysql.com/doc/refman/5.5/en/index-btree-hash.html – Pacerier Jul 5 '12 at 23:18
You seem to be correct. That was news to me! I must try to keep up with the development :-) Then you are far better off in answering your question than I am, but as I said: it's theoretically possible. – Emil Vikström Jul 5 '12 at 23:23
Ok, thanks for the advice =) – Pacerier Jul 6 '12 at 3:17

I think Hashmaps don't scale as well, and can be expensive when the entire map needs to be rehashed.

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Actually, it seems that MySQL uses both kind of indexes either a hash table or a b-tree according to the following link.

The difference between using a b-tree and a hash table is that the former allows you to use column comparisons in expressions that use the =, >, >=, <, <=, or BETWEEN operators, while the former is used only for equality comparisons that use the = or <=> operators.

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