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What is the easiest and fastest way to achieve a clause where all elements in an array must be matched - not only one when using IN? After all it should behave like mongodb's $all.

Thinking about group conversations where conversation_users is a join table between conversation_id and user_id I have something like this in mind:

WHERE (conversations_users.user_id ALL IN (1,2))

UPDATE 16.07.12

Adding more info about schema and case:

  1. The join-table is rather simple:

                  Table "public.conversations_users"
         Column      |  Type   | Modifiers | Storage | Description 
     conversation_id | integer |           | plain   | 
     user_id         | integer |           | plain   | 
  2. A conversation has many users and a user belongs to many conversations. In order to find all users in a conversation I am using this join table.

  3. In the end I am trying to figure out a ruby on rails scope that find's me a conversation depending on it's participants - e.g.:

    scope :between, ->(*users) {
      joins(:users).where('conversations_users.user_id all in (?)', users.map(&:id))

UPDATE 23.07.12

My question is about finding an exact match of people. Therefore:

Conversation between (1,2,3) won't match if querying for (1,2)

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Can you add some sample input and output data to make that a bit clearer? –  a_horse_with_no_name Jul 13 '12 at 11:50
Thank you for your comment, @a_horse_with_no_name. Added case and schema. –  pex Jul 16 '12 at 12:57
While looking for conversations between users (1,2), do you also want one between (1,2,3) in the result, or only conversations between (1,2) - and nobody else? –  Erwin Brandstetter Jul 21 '12 at 12:13
@ErwinBrandstetter Only between (1,2) –  pex Jul 23 '12 at 16:22
In this case, you need the commented part in my answer. Or you can use the second query in Gordon's answer. All other answers so far fall short in that respect - you did not declare it explicitly, too. –  Erwin Brandstetter Jul 23 '12 at 16:53

7 Answers 7

Assuming the join table follows good practice and has a unique compound key defined, i.e. a constraint to prevent duplicate rows, then something like the following simple query should do.

select conversation_id from conversations_users where user_id in (1, 2)
group by conversation_id having count(*) = 2

It's important to note that the number 2 at the end is the length of the list of user_ids. That obviously needs to change if the user_id list changes length. If you can't assume your join table doesn't contain duplicates, change "count(*)" to "count(distinct user_id)" at some possible cost in performance.

This query finds all conversations that include all the specified users even if the conversation also includes additional users.

If you want only conversations with exactly the specified set of users, one approach is to use a nested subquery in the where clause as below. Note, first and last lines are the same as the original query, only the middle two lines are new.

select conversation_id from conversations_users where user_id in (1, 2)
   and conversation_id not in
   (select conversation_id from conversation_users where user_id not in (1,2))
group by conversation_id having count(*) = 2

Equivalently, you can use a set difference operator if your database supports it. Here is an example in Oracle syntax. (For Postgres or DB2, change the keyword "minus" to "except.)

select conversation_id from conversations_users where user_id in (1, 2)
  group by conversation_id having count(*) = 2
  select conversation_id from conversation_users where user_id not in (1,2)

A good query optimizer should treat the last two variations identically, but check with your particular database to be sure. For example, the Oracle 11GR2 query plan sorts the two sets of conversation ids before applying the minus operator, but skips the sort step for the last query. So either query plan could be faster depending on multiple factors such as the number of rows, cores, cache, indices etc.

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There is no use in actually counting violating rows. We know enough as soon as we find one. An EXISTS semi-join is generally faster in such a case. –  Erwin Brandstetter Jul 24 '12 at 5:28
This doesn't count violating rows. It just filters them out as part of the where clause. The top level where clause takes effect before any counting is done for the having clause. –  Alex Blakemore Jul 24 '12 at 5:30
Right, my first sentence is not precise, you are not actually counting. No need to collect all violating rows, that's the correct sentence. The part about EXISTS being faster still applies, though. Don't get me wrong, I upvoted your answer, because it's simple and smart. My comment is just about squeezing out a bit more performance. –  Erwin Brandstetter Jul 24 '12 at 5:35
For Your first query, You can use ... having count(distinct user_id) = 2, then You don't need the unique constraint. –  maniek Jul 24 '12 at 8:15
@ErwinBrandstetter I tried your suggested variation of an exists semi-join on Oracle and got the same query plan as the last query. I've also seen cases where an exists semi-join helps performance, but it doesn't always help, I find the last query above easier to read. –  Alex Blakemore Jul 24 '12 at 19:48

I'm collapsing those users into an array. I'm also using a CTE (the thing in the WITH clause) to make this more readable.

=> select * from conversations_users ;
 conversation_id | user_id
               1 |       1
               1 |       2
               2 |       1
               2 |       3
               3 |       1
               3 |       2
(6 rows)       

=> WITH users_on_conversation AS (
  SELECT conversation_id, array_agg(user_id) as users
  FROM conversations_users
  WHERE user_id in (1, 2) --filter here for performance                                                                                      
  GROUP BY conversation_id
SELECT * FROM users_on_conversation
WHERE users @> array[1, 2];
 conversation_id | users
               1 | {1,2}
               3 | {1,2}
(2 rows) 

EDIT (Some resources)

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create a mapping table with all possible values and use this

    t1.col from conversations_users as t1 
    inner join mapping_table as map on t1.user_id=map.user_id
group by 
    count(distinct conversations_users.user_id)=
    (select count(distinct user_id) from mapping)
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select id from conversations where not exists(
    select * from conversations_users cu 
    where cu.conversation_id=conversations.id 
    and cu.user_id not in(1,2,3)        

this can easily be made into a rails scope.

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actually, it's now not clear to me what is meant: find conversations between exactly the given people, betweeen exactly the people plus others, or between people from the given set (possibly not all of them) and not others? My answer is for the last case. –  maniek Jul 18 '12 at 12:47
This will also select conversations with only some of the users or no users at all. –  Erwin Brandstetter Jul 23 '12 at 16:41

I am guessing that you don't really want to start messing with temporary tables.

Your question was unclear as to whether you want conversations with exactly the set of users, or conversations with a superset. The following is for the superset:

with users as (select user_id from users where user_id in (<list>)
     conv  as (select conversation_id, user_id
               from conversations_users
               where user_id in (<list>)
select distinct conversation_id
from users u left outer join
     conv c
     on u.user_id = c.user_id
where c.conversation_id is not null

For this query to work well, it assumes that you have indexes on user_id in both users and conversations_users.

For the exact set . . .

with users as (select user_id from users where user_id in (<list>)
     conv  as (select conversation_id, user_id
               from conversations_users
               where user_id in (<list>)
select distinct conversation_id
from users u full outer join
     conv c
     on u.user_id = c.user_id
where c.conversation_id is not null and u.user_id is not null
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While @Alex' answer with IN and count() is probably the simplest solution, I expect this PL/pgSQL function to be the faster:

CREATE OR REPLACE FUNCTION f_conversations_among_users(_user_arr int[])
  RETURNS SETOF conversations AS
    _sql text := '
    SELECT c.*
    FROM   conversations c';
    i int;

    _sql  := _sql  || '
    JOIN   conversations_users x' || i || ' USING (conversation_id)';

_sql  := _sql  || '

    _sql  := _sql  || '
    AND    x' || i || '.user_id = ' || i;

/* uncomment for conversations with exact list of users and no more
_sql  := _sql  || '
        SELECT 1
        FROM   conversations_users u
        WHERE  u.conversation_id = c.conversation_id
        AND    u.user_id <> ALL (_user_arr)

-- RAISE NOTICE '%', _sql;



SELECT * FROM f_conversations_among_users('{1,2}')

The function dynamically builds executes a query of the form:

FROM   conversations c
JOIN   conversations_users x1 USING (conversation_id)
JOIN   conversations_users x2 USING (conversation_id)
AND    x1.user_id = 1
AND    x2.user_id = 2

This form performed best in an extensive test of queries for relational division.

You could also build the query in your app, but I went by the assumption that you want to use one array parameter. Also, this is probably fastest anyway.

Either query requires an index like the following to be fast:

CREATE INDEX conversations_users_user_id_idx ON conversations_users (user_id);

A multi-column primary (or unique) key on (user_id, conversation_id) is just as well, but one on (conversation_id, user_id) (like you may very well have!) would be inferior. You find a short rationale at the link above, or a comprehensive assessment under this related question on dba.SE

I also assume you have a primary key on conversations.conversation_id.

Can you run a performance test with EXPLAIN ANALYZE on @Alex' query and this function and report your findings?

Note that both solutions find conversations where at least the users in the array take part - including conversations with additional users.
If you want to exclude those, un-comment the additional clause in my function (or add it to any other query).

Tell me if you need more explanation on the features of the function.

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Something that works a little more Rails-y might be something like this. In the below example, I want to know the timesheets which are associated with all codes in the array.

codes = [8,9]

Timesheet.joins(:codes).select('count(*) as count, timesheets.*').
           where('codes.id': codes).
           having('count(*) = ?', codes.length)

You should have the full ActiveRecord objects to work with. If you want it to be a true scope, you can just use your above example and pass in the results with .pluck(:id).

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