Full Text Search
How to use full text search in PostgreSQL.
Postgres has built-in functions to handle Full Text Search
queries. This is like a "search engine" within Postgres.
Preparation#
For this guide we'll use the following example data:
id | title | author | description |
---|---|---|---|
1 | The Poky Little Puppy | Janette Sebring Lowrey | Puppy is slower than other, bigger animals. |
2 | The Tale of Peter Rabbit | Beatrix Potter | Rabbit eats some vegetables. |
3 | Tootle | Gertrude Crampton | Little toy train has big dreams. |
4 | Green Eggs and Ham | Dr. Seuss | Sam has changing food preferences and eats unusually colored food. |
5 | Harry Potter and the Goblet of Fire | J.K. Rowling | Fourth year of school starts, big drama ensues. |
Usage#
The functions we'll cover in this guide are:
to_tsvector()
#
Converts your data into searchable "tokens". to_tsvector()
stands for "to text search vector". For example:
_10select to_tsvector('green eggs and ham');_10-- Returns 'egg':2 'green':1 'ham':4
Collectively these tokens are called a "document" which Postgres can use for comparisons.
to_tsquery()
#
Converts a query string into "tokens" to match. to_tsquery()
stands for "to text search query".
This conversion step is important because we will want to "fuzzy match" on keywords. For example if a user searches for "eggs", and a column has the value "egg", we probably still want to return a match.
Match: @@
#
The @@
symbol is the "match" symbol for Full Text Search. It returns any matches between a to_tsvector
result and a to_tsquery
result.
Take the following example:
_10select *_10from books_10where title = 'Harry';
The equality symbol above (=
) is very "strict" on what it matches. In a full text search context, we might want to find all "Harry Potter" books and so we can rewrite the
example above:
_10select *_10from books_10where to_tsvector(title) @@ to_tsquery('Harry');
Basic Full Text Queries#
Search a single column#
To find all books
where the description
contain the word big
:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description)_10 @@ to_tsquery('big');
Search multiple columns#
Right now there is no direct way to use JavaScript or Dart to search through multiple columns but you can do it by creating computed columns on the database.
To find all books
where description
or title
contain the word little
:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description || ' ' || title) -- concat columns, but be sure to include a space to separate them!_10 @@ to_tsquery('little');
Match all search words#
To find all books
where description
contains BOTH of the words little
and big
, we can use the &
symbol:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description)_10 @@ to_tsquery('little & big'); -- use & for AND in the search query
Match any search words#
To find all books
where description
contain ANY of the words little
or big
, use the |
symbol:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description)_10 @@ to_tsquery('little | big'); -- use | for OR in the search query
Notice how searching for big
includes results with the word bigger
(or biggest
, etc).
Creating Indexes#
Now that we have Full Text Search working, let's create an index
. This will allow Postgres to "build" the documents pre-emptively so that they
don't need to be created at the time we execute the query. This will make our queries much faster.
Searchable columns#
Let's create a new column fts
inside the books
table to store the searchable index of the title
and description
columns.
We can use a special feature of Postgres called
Generated Columns
to ensure that the index is updated any time the values in the title
and description
columns change.
_10alter table_10 books_10add column_10 fts tsvector generated always as (to_tsvector('english', description || ' ' || title)) stored;_10_10create index books_fts on books using gin (fts); -- generate the index_10_10select id, fts_10from books;
Search using the new column#
Now that we've created and populated our index, we can search it using the same techniques as before:
_10select_10 *_10from_10 books_10where_10 fts @@ to_tsquery('little & big');
Query Operators#
Visit PostgreSQL: Text Search Functions and Operators
to learn about additional query operators you can use to do more advanced full text queries
, such as:
Proximity: <->
#
The proximity symbol is useful for searching for terms that are a certain "distance" apart.
For example, to find the phrase big dreams
, where the a match for "big" is followed immediately by a match for "dreams":
_10select_10 *_10from_10 books_10where_10 to_tsvector(description) @@ to_tsquery('big <-> dreams');
We can also use the <->
to find words within a certain distance of eachother. For example to find year
and school
within 2 words of each other:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description) @@ to_tsquery('year <2> school');
Negation: !
#
The negation symbol can be used to find phrases which don't contain a search term.
For example, to find records that have the word big
but not little
:
_10select_10 *_10from_10 books_10where_10 to_tsvector(description) @@ to_tsquery('big & !little');