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I'm using the postgresql hstore extension and curious how the data is stored internally. Please point me to where I could look in the hstore source code to see the implementation details.

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2 Answers 2

hstore is part of the main PostgreSQL distribution, which is on http://git.postgresql.org/ and GitHub. Here is hstore in git head.

It looks like it's stored as a varlena, which means it's TOASTable like anything else. The downside is that the whole field needs to be read from disk - at least if it's compressed - to extract a key.

This also means that like any other normal field value, updating any part of the field requires that a new copy of the whole tuple (row) must be written to the table and the old one marked for expiry when it's no longer visible to any active transactions (see MVCC in the Pg manual). A big hstore is thus undesirable for data that will change frequently, since you'll need to rewrite the whole thing (and the row that contains it) whenever any part of it changes.

The sources don't seem to contain much in the way of comments to provide an overview of how hstore values are structured and stored, and it's a bit of a macro forest to take in quickly.

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The storage itself is fairly unsurprising.

The fun part is how that's indexed to be able to answer efficiently queries like

select osm_id, name, tags from planet_osm_line where 'frequency => 16.7, railway => "rail"' <@ tags;

(this is from a real example) meaning: "find all records where the (hstore) field "contains" the mappings frequency => 16.7 and railway => rail.

CAVEAT: this is just from memory.

There are two components to that:

First is the GiST index, which can be viewed as a kind of "sloppy B-Tree" which sometimes doesn't tell you exactly which branch to take, but gives you some set of branches. PostgreSQL uses that for things like geometrical indexes (where you can query whether a point is in a polygon, e.g.). The index doesn't give you a perfect hit, but potentially reduces the search space considerably.

Second there is an encoding of the "hash" (for you Perlists) / "dictionary" (for you Pythonists) to take advantage of GiST: you hash each key and each key/value pair of the hash into a small int (details are fuzzy, but let's assume 0..255), take a bitfield this size and poke a hole into your bit field for each one of those hash values you get (I think Knuth had a nice example with index cards having open/closed holes on their rim and knitting needles -- yes, here it is.

Then you've only to marry those two. AFAIR Oleg Bartunov and Theodor Tsigaev came up with that. My head exploded the first time I saw that.

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