FTS does not support LIKE

The previously accepted answer was incorrect. Full Text Search with its full text indexes is not for the LIKE operator at all, it has its own operators and doesn't work for arbitrary strings. It operates on words based on dictionaries and stemming. It does support prefix matching for words, but not with the LIKE operator:

  • Get partial match from GIN indexed TSVECTOR column

Trigram index for LIKE

Install the additional module pg_trgm which provides operator classes for GIN and GiST trigram indexes to support all LIKE and ILIKE patterns, not just left-anchored ones:

Example index:

CREATE INDEX tbl_col_gin_trgm_idx  ON tbl USING gin  (col gin_trgm_ops);

Or:

CREATE INDEX tbl_col_gist_trgm_idx ON tbl USING gist (col gist_trgm_ops);
  • Difference between GiST and GIN index

Example query:

SELECT * FROM tbl WHERE col LIKE '%foo%';   -- leading wildcard
SELECT * FROM tbl WHERE col ILIKE '%foo%';  -- works case insensitively as well

Trigrams? What about shorter strings?

Words with less than 3 letters in indexed values still work. The manual:

Each word is considered to have two spaces prefixed and one space suffixed when determining the set of trigrams contained in the string.

And search patterns with less than 3 letters? The manual:

For both LIKE and regular-expression searches, keep in mind that a pattern with no extractable trigrams will degenerate to a full-index scan.

Meaning, that index / bitmap index scans still work (query plans for prepared statement won't break), it just won't buy you better performance. Typically no big loss, since 1- or 2-letter strings are hardly selective (more than a few percent of the underlying table matches) and index support would not improve performance to begin with, because a full table scan is faster.

text_pattern_ops or COLLATE "C" for prefix matching

Update

Since Postgres 9.1, COLLATE "C" is better. See:

  • Is there a difference between text_pattern_ops and COLLATE "C"?

Original answer

For just left-anchored patterns (no leading wildcard) you get the optimum with a suitable operator class for a btree index: text_pattern_ops or varchar_pattern_ops. Both built-in features of standard Postgres, no additional module needed. Similar performance, but much smaller index.

Example index:

CREATE INDEX tbl_col_text_pattern_ops_idx ON tbl(col text_pattern_ops);

Example query:

SELECT * FROM tbl WHERE col LIKE 'foo%';  -- no leading wildcard

Or, if you should be running your database with the 'C' locale (effectively no locale), then everything is sorted according to byte order anyway and a plain btree index with default operator class does the job.


Further reading

  • Pattern matching with LIKE, SIMILAR TO or regular expressions in PostgreSQL
  • How is LIKE implemented?
  • Finding similar strings with PostgreSQL quickly

Possibly the fast ones are anchored patterns with case-sensitive like that can use indexes. i.e. there is no wild card at the beginning of the match string so the executor can use an index range scan. (the relevant comment in the docs is here) Lower and ilike will also lose your ability to use the index unless you specifically create an index for that purpose (see functional indexes).

If you want to search for string in the middle of the field, you should look into full text or trigram indexes. First of them is in Postgres core, the other is available in the contrib modules.


You could install Wildspeed, a different type of index in PostgreSQL. Wildspeed does work with %word% wildcards, no problem. The downside is the size of the index, this can be large, very large.


I recently had a similar issue with a table containing 200000 records and I need to do repeated LIKE queries. In my case, the string being search was fixed. Other fields varied. Because that, I was able to rewrite:

SELECT owner1 FROM parcels
WHERE lower(owner1) LIKE lower('%someones name%');

as

CREATE INDEX ix_parcels ON parcels(position(lower('someones name') in lower(owner1)));

SELECT owner1 FROM parcels
WHERE position(lower('someones name') in lower(owner1)) > 0;

I was delighted when the queries came back fast and verified the index is being used with EXPLAIN ANALYZE:

 Bitmap Heap Scan on parcels  (cost=7.66..25.59 rows=453 width=32) (actual time=0.006..0.006 rows=0 loops=1)
   Recheck Cond: ("position"(lower(owner1), 'someones name'::text) > 0)
   ->  Bitmap Index Scan on ix_parcels  (cost=0.00..7.55 rows=453 width=0) (actual time=0.004..0.004 rows=0 loops=1)
         Index Cond: ("position"(lower(owner1), 'someones name'::text) > 0)
 Planning time: 0.075 ms
 Execution time: 0.025 ms