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Here's what I have:

Person
    name = varchar

Helmet
    person = foreignkey -> Person
    is_safe = boolean

Now, for a batch job, I need to query (no ORM, just raw SQL) for all Person that have 0 Helmet that are safe. I could obviously just loop through each Person in the database, etc., but I need to do this in a single query and limit it to 100 at a time (there are novemdecillions of these suckers in the database), and remove each Person. I don't need the Helmet records for each to be attached in the result. I only need the Person records (naturally deleting will cascade), but I can't simply issue a DELETE in place of my SELECT because there are things I need to do elsewhere before deleting them.

I'm using Postgres, but I'd prefer to use a query that's more or less DB agnostic, if possible.

Here's what I've abstractly come up with:

SELECT * FROM person
    WHERE (SELECT COUNT(*) FROM helmet
        WHERE person_id = person.id AND is_safe = false) = 0
    LIMIT 100

This is clearly not valid SQL, but I'm hoping there is a functionally equivalent, but valid version.

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4 Answers 4

select * 
from person
where person_id not in
   (
    select person_id 
    from helmet
    where is_safe = false
   )
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SELECT *
FROM (
  SELECT p.*
  FROM Person p
  INNER JOIN Helmet h ON p.id = h.person
  GROUP BY p.id
  HAVING SUM(h.is_safe) = 0
) inner_select
LIMIT 100

So, this query consists of two parts:

  1. The workhorse of the query is the inner query. This query joins together each person with all his helmets. It then uses GROUP BY two relate all rows for a specific person together. Once we have a group, we can use aggregate functions on each group, and in this case we use SUM to count the number of helmets that are safe. The SUM is used by the HAVING-clause to only select groups that have the SUM of safe helmets (i.e the number of safe helmets) equal to zero.
  2. The outer query ensures that the LIMIT is applied to the result of the inner query, and not the rows of the tables needed to calculate an accurate result.
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Thanks so much. Could you explain how this works (especially the wrapper SELECT that's around the rest)? –  orokusaki Feb 28 '12 at 19:03
    
Thanks much Patrik –  orokusaki Feb 28 '12 at 19:12
    
You're welcome! –  PatrikAkerstrand Feb 28 '12 at 19:16
    
Isn't it true that this query's inner query would use the entire table, even though the outer will limit it to 100? The limit of 100 is for performance because there are millions of rows in the Person table. If my assumption is true, is there any possible way to have it stop when it finds 100 matching rows? I think I understand that you can't simply apply a LIMIT to the inner query, or else once the first 100 rows are processed, the query will never return a match again, right? Is there a way around that, or is that even correct? –  orokusaki Feb 28 '12 at 19:20
1  
There are ways around it, but I'm no expert in query optimization.. You should really look at @Quassnoi for help, since this is probably very easy for him =) You can also find his blog here, full of good stuff: explainextended.com –  PatrikAkerstrand Feb 28 '12 at 20:28
SELECT person.*
FROM person
LEFT JOIN (SELECT DISTINCT person_id FROM helmet) AS T2 ON person.id = T2.person_id
WHERE T2.person_id IS NULL
LIMIT 100
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up vote 0 down vote accepted

I ended up using:

SELECT *
FROM person p
WHERE NOT EXISTS
    (
        SELECT h.person_id
        FROM helmet h
        WHERE h.person_id = p.id
            AND is_safe = true
    )
LIMIT 100

which turns out to stop scanning the table once it finds 100 results that match.

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