For MySql versions that do not support Common Table Expressions (up to version 5.7), you would achieve this with the following query:
from (select * from products
order by parent_id, id) products_sorted,
(select @pv := '19') initialisation
where find_in_set(parent_id, @pv)
and length(@pv := concat(@pv, ',', id))
Here is a fiddle.
The value specified in
@pv := '19' should be set to the
id of the parent you want to select all the descendants of.
This will work also if a parent has multiple children. However, it is required that each record fulfills the condition
parent_id < id, otherwise the results will not be complete.
This query uses specific MySql syntax: variables are assigned and modified during its execution. Some assumptions are made about the order of execution:
from clause is evaluated first. So that is where
@pv gets initialised.
where clause is evaluated for each record in the order of retrieval from the
from aliases. So this is where a condition is put to only include records for which the parent was already identified as being in the descendant tree (all descendants of the primary parent are progressively added to
- The conditions in this
where clause are evaluated in order, and the evaluation is interrupted once the total outcome is certain. Therefore the second condition must be in second place, as it adds the
id to the parent list, and this should only happen if the
id passes the first condition. The
length function is only called to make sure this condition is always true, even if the
pv string would for some reason yield a falsy value.
All in all, one may find these assumptions too risky to rely on -- there is no documented guarantee for them, and even though it works consistently, the evaluation order may in theory still change when you use this query as a view or sub-query in a larger query.
Also note that for very large data sets this solution might get slow, as the
find_in_set operation is not the most ideal way to find a number in a list, certainly not in a list that reaches a size in the same order of magnitude as the number of records returned.
More and more databases implement the SQL:1999 ISO standard
WITH [RECURSIVE] syntax for recursive queries (e.g. Postgres 8.4+, SQL Server 2005+, DB2, Oracle 11gR2+, SQLite 3.8.4+, Firebird 2.1+, H2, HyperSQL 2.1.0+, Teradata, MariaDB 10.2.2+). And as of version 8.0, also MySql supports it. With that syntax the query looks like this:
with recursive cte (id, name, parent_id) as
where parent_id = 19
from products p
inner join cte
on p.parent_id = cte.id
select * from cte;
Some databases have an alternative, non-standard syntax for hierarchical look-ups, such as the
CONNECT BY clause available on Oracle databases. DB2 also supports this alternative syntax.
MySql version 5.7 does not offer such a feature. When your database engine provides this syntax, then that is certainly the best option to go for. If not, then also consider the following alternatives.
Alternative 2: Path-style Identifiers
Things become a lot easier if you would assign
id values that contain the hierarchical information: a path. For example, in your case this could look like this:
ID | NAME
19 | category1
19/1 | category2
19/1/1 | category3
19/1/1/1 | category4
select would look like this:
where id like '19/%'
Alternative 3: Repeated Self-joins
If you know an upper limit for how deep your hierarchy tree can become, you can use a standard
sql like this:
select p6.parent_id as parent6_id,
p5.parent_id as parent5_id,
p4.parent_id as parent4_id,
p3.parent_id as parent3_id,
p2.parent_id as parent2_id,
p1.parent_id as parent_id,
p1.id as product_id,
from products p1
left join products p2 on p2.id = p1.parent_id
left join products p3 on p3.id = p2.parent_id
left join products p4 on p4.id = p3.parent_id
left join products p5 on p5.id = p4.parent_id
left join products p6 on p6.id = p5.parent_id
where 19 in (p1.parent_id,
order by 1, 2, 3, 4, 5, 6, 7;
See this fiddle
where condition specifies which parent you want to retrieve the descendants of. You can extend this query with more levels as needed.