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I need help with a query. The task is to get rows of one table whose amount will sum up to become a value in another table and vice versa.

An illustration of the example:

Table 1:                                Table2:

  r_id   |    r_date   |   r_amt          p_id   |    p_date   |   p_amt    
---------+-------------+--------        ---------+-------------+--------
    1    |  2/23/2012  |   200              1    |  3/22/2012  |   450
---------+-------------+--------        ---------+-------------+--------
    2    |  3/21/2012  |   100              2    |  5/25/2012  |   530
---------+-------------+--------        ---------+-------------+--------
    3    |  4/12/2012  |   300              3    |  5/26/2012  |   700
---------+-------------+--------        ---------+-------------+--------
    4    |  4/18/2012  |   250              4    |  5/26/2012  |   40
---------+-------------+--------        ---------+-------------+--------
    5    |  5/20/2012  |   130
    6    |  5/21/2012  |   740

Now these test datas are in such a way that, few rows of table 1 will sum up to become one row in table 2 and vice versa.

I want a query to analyse the above data in such a way that the sum of records in one table will be equal to one row in the other.

After the analyze is complete it should feed the data to a new table like this.

Lets call this table match

  m_id   |    tbl1     |   tbl2   | match_type
    1    |    1,4      |   1      |   n-1
    1    |    2,3,5    |   2      |   n-1
    1    |     6       |   3,4    |   1-n

Right now, I am calculating the sum of each table and entering on a temporary table then comparing with that table to get the above result. But for more than 10 rows the queries become really slow and hang my development server.

Link to my test Queries

What is the efficient way to perform this task?

share|improve this question
match is a table or the result of the query? – John Woo Mar 10 '13 at 9:59
@JW., It is a table, the result of the query is added to this table. – Starx Mar 10 '13 at 10:00
What if there are multiple solutions? Or only partial solutions (that correlate only a subset from both tables)? – ypercubeᵀᴹ Mar 10 '13 at 10:04
@wildplasser, I have no idea what you just said to me. – Starx Mar 10 '13 at 11:01
No, it's the knapsack problem. – Anony-Mousse Mar 10 '13 at 14:24

Ok, so here is a rough answer. I have not tested it. Recursive CTE's have some odd gotchas and it is possible I ran into one, but this should get you going. There may also be some performance tuning possible but this may get you going.

The algorithm roughly goes as follows:

  1. Generate all permutations of all rows

  2. Compare each permutation on one side with each row on the other

The first will be done with recursive CTE's. The second with a simple join.

WITH RECURSIVE table1_combos as (
     SELECT r_id as last_id, r_id::text as path, r_amt as amount
       FROM table1
     SELECT r.r_id as last_id, p.path || ',' || r_id::text, p.amount + r_amt
       FROM table1_combos p
 CROSS JOIN table1 r
      WHERE r.r_id < p.last_id
RECURSIVE table2_combos AS (
     SELECT p_id as last_id, p_id::text as path, p_amt as amount
       FROM table2
     SELECT p_id AS last_id, p.path || ',' || p_id::text, p.amount + p_amt
       FROM table2_combos p
 CROSS JOIN table2 
      WHERE p_id < p.last_id
SELECT c.path, p_id::text, c.amount, 'n-1' as type
  FROM table1_combos c
  JOIN table2 t ON c.amount = p_amt
SELECT r_id::text, c.path, c.amount, '1-n' as type
  FROM table2_combos c
  JOIN table1 t ON r_amt = c.amount; 

As for performance the fundamental problem is that you will have a great deal of space to search. There isn't a reasonably easy way to do that, unfortunately. The combination space is extremely large, and it gets much larger with each additional row you add.

Hmmm revisiting my estimates. A 10 row table should generate 6.3 million combinations, while an 11 row table should generate 68.6 million combinations. In PostgreSQL you can check the number of expected combinations with the following SQL statement:

select sum(factorial(11)/factorial(f)) from generate_series(1, 11) f;

For an 11 row table. Note as follows:

select sum(factorial(100)/factorial(f)) from generate_series(1, 100) f;


(1 row)

If you have a 100 row table you will be waiting for a while.....

Now you might be able to further address this by bounding the CTE itself saying "stop when you reach the max of the other table" for example.

share|improve this answer
This is probably the best way to go. Some additional thoughts: for large result sets, it may be more efficient to make a temp table for the calculations; you may be able to speed up some as written by adding some logic to pre-filter impossible results. If the value to be summed is larger than the result value it can't be part of the solution. – JNK Mar 11 '13 at 12:57
It might also be a good idea to try to join with the other table and don't join with itself if there's a match. Maybe do n iterations and then stop to remove the numbers that already were matched? – Jakub Kania Mar 11 '13 at 18:33
@JakubKania actually I think the better option would be to stop when a certain total has been reached, like the max of the other table. However this provides a basis for allowing the db to approach this as a set rather than a bunch of individual rows, and the specifics will depend on the data being joined. – Chris Travers Mar 12 '13 at 0:51

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