27

I have 3 tables:

users(id, account_balance)
grocery(user_id, date, amount_paid)
fishmarket(user_id, date, amount_paid)

Both fishmarket and grocery tables may have multiple occurrences for the same user_id with different dates and amounts paid or have nothing at all for any given user. When I try the following query:

SELECT
     t1."id" AS "User ID",
     t1.account_balance AS "Account Balance",
     count(t2.user_id) AS "# of grocery visits",
     count(t3.user_id) AS "# of fishmarket visits"
FROM users t1
LEFT OUTER JOIN grocery t2 ON (t2.user_id=t1."id") 
LEFT OUTER JOIN fishmarket t3 ON (t3.user_id=t1."id") 
GROUP BY t1.account_balance,t1.id
ORDER BY t1.id

It produces an incorrect results: "1", "12", "12".
But when I try to LEFT JOIN to just one table it produces a correct results for either grocery or fishmarket visits, which are "1", "3", "4".

What am I doing wrong here?
I am using PostgreSQL 9.1.

47

Joins are processed left to right (unless parentheses dictate otherwise). If you LEFT JOIN (or just JOIN, similar effect) three groceries to one user you get 3 rows (1 x 3). If you then join 4 fishmarkets for the same user, you get 12 (3 x 4) rows, multiplying the previous count in the result, not adding to it, like you may have hoped for.
Thereby multiplying the visits for groceries and fishmarkets alike.

It should work like this:

SELECT u.id
     , u.account_balance
     , g.grocery_visits
     , f.fishmarket_visits
FROM   users u
LEFT   JOIN (
   SELECT user_id, count(*) AS grocery_visits
   FROM   grocery
   GROUP  BY user_id
   ) g ON g.user_id = u.id
LEFT   JOIN (
   SELECT user_id, count(*) AS fishmarket_visits
   FROM   fishmarket
   GROUP  BY user_id
   ) f ON f.user_id = u.id
ORDER  BY u.id;

To look up aggregated values for one or few users, correlated subqueries like @Vince provided are just fine. For a whole table or major parts of it, it is (much) more efficient to aggregate the n-tables and join to the result once. This way, we also do not need another GROUP BY in the outer query.

  • 4
    Congratulations on actually answering the question not just giving a solution. – xception Sep 17 '12 at 18:02
  • Working code in this link. – HeyJude Feb 6 '17 at 20:50
  • @ErwinBrandstetter I have learned so much about Postgres from your posts. Have you ever considered writing a book on the subject? – Mark McKelvy Jan 22 '18 at 22:37
  • @MarkMcKelvy: I have. Had a couple of offers, too. But then I didn't. Feels good to have helped many people either way. And it's an open source RDBMS after all. – Erwin Brandstetter Jan 22 '18 at 22:50
  • I've been stuck on this problem for almost a week. It's not an easy google search (join primary table with two one-to-many relationship). This is precisely what I needed. – Marco Aurélio Deleu Aug 12 at 8:30
8

For your original query, if you take away the group by to look at the pre-grouped result, you'll see why the counts your were receiving were created.

Perhaps the following query utilizing subqueries would achieve your intended result:

SELECT
 t1."id" AS "User ID",
 t1.account_balance AS "Account Balance",
 (SELECT count(*) FROM grocery     t2 ON (t2.user_id=t1."id")) AS "# of grocery visits",
 (SELECT count(*) FROM fishmarket  t3 ON (t3.user_id=t1."id")) AS "# of fishmarket visits"
FROM users t1
ORDER BY t1.id
2

It's because when the user table joins to the grocery table, there are 3 records matched. Then each of those three records matches with the 4 records in fishmarket, producing 12 records. You need subqueries to get what you are looking for.

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