I want grouped ranking on a very large table, I've found a couple of solutions for this problem e.g. in this post and other places on the web. I am, however, unable to figure out the worst case complexity of these solutions. The specific problem consists of a table where each row has a number of points and a name associated. I want to be able to request rank intervals such as 1-4. Here are some data examples:

``````name | points
Ab     14
Ac     14
B      16
C      16
Da     15
De     13
``````

With these values the following "ranking" is created:

``````Query id | Rank | Name
1          1      B
2          1      C
3          3      Da
4          4      Ab
5          4      Ac
6          6      De
``````

And it should be possible to create the following interval on query-id's: 2-5 giving rank: 1,3,4 and 4.

The database holds about 3 million records so if possible I want to avoid a solution with complexity greater than log(n). There are constantly updates and inserts on the database so these actions should preferably be performed in log(n) complexity as well. I am not sure it's possible though and I've tried wrapping my head around it for some time. I've come to the conclusion that a binary search should be possible but I haven't been able to create a query that does this. I am using a MySQL server.

I will elaborate on how the pseudo code for the filtering could work. Firstly, an index on (points, name) is needed. As input you give a fromrank and a tillrank. The total number of records in the database is n. The pseudocode should look something like this:

Find median point value, count rows less than this value (the count gives a rough estimate of rank, not considering those with same amount of points). If the number returned is greater than the fromrank delimiter, we subdivide the first half and find median of it. We keep doing this until we are pinpointed to the amount of points where fromrank should start. then we do the same within that amount of points with the name index, and find median until we have reached the correct row. We do the exact same thing for tillrank.

The result should be log(n) number of subdivisions. So given the median and count can be made in log(n) time it should be possible to solve the problem in worst case complexity log(n). Correct me if I am wrong.

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Glad my post came in handy. Um, did you try the second solution? Using group_concat? –  achinda99 Feb 16 '09 at 19:21
I think that method has complexity n if I'm not mistaking, besides that I don't see how it can be modified reasonably easily to support retrieving any range of ranks. –  Per Stilling Feb 16 '09 at 20:03
Unfortunately, the count itself is the most costly operation here, the time will depend on the rows actually counted, not on the rows searched, so it will still be O(N) –  Quassnoi Feb 17 '09 at 8:25

You need a stored procedure to be able to call this with parameters:

``````CREATE TABLE rank (name VARCHAR(20) NOT NULL, points INTEGER NOT NULL);

CREATE INDEX ix_rank_points ON rank(points, name);

CREATE PROCEDURE prc_ranks(fromrank INT, tillrank INT)
BEGIN
SET @fromrank = fromrank;
SET @tillrank = tillrank;
PREPARE STMT FROM
'
SELECT  rn, rank, name, points
FROM  (
SELECT  CASE WHEN @cp = points THEN @rank ELSE @rank := @rn + 1 END AS rank,
@rn := @rn + 1 AS rn,
@cp := points,
r.*
FROM (
SELECT @cp := -1, @rn := 0, @rank = 1
) var,
(
SELECT *
FROM rank
FORCE INDEX (ix_rank_points)
ORDER BY
points DESC, name DESC
LIMIT ?
) r
) o
WHERE rn >= ?
';
EXECUTE STMT USING @tillrank, @fromrank;
END;

CALL prc_ranks (2, 5);
``````

If you create the index and force `MySQL` to use it (as in my query), then the complexity of the query will not depend on the number of rows at all, it will depend only on `tillrank`.

It will actually take last `tillrank` values from the index, perform some simple calculations on them and filter out first `fromrank` values.

Time of this operation, as you can see, depends only on `tillrank`, it does not depend on how many records are there.

I just checked in on `400,000` rows, it selects ranks from `5` to `100` in `0,004` seconds (that is, instantly)

Important: this only works if you sort on names in `DESCENDING` order. `MySQL` does not support `DESC` clause in the indices, that means that the `points` and `name` must be sorted in one order for `INDEX SORT` to be usable (either both `ASCENDING` or both `DESCENDING`). If you want fast `ASC` sorting by `name`, you will need to keep negative points in the database, and change the sign in the `SELECT` clause.

You may also remove `name` from the index at all, and perform a final `ORDER`'ing without using an index:

``````CREATE INDEX ix_rank_points ON rank(points);

CREATE PROCEDURE prc_ranks(fromrank INT, tillrank INT)
BEGIN
SET @fromrank = fromrank;
SET @tillrank = tillrank;
PREPARE STMT FROM
'
SELECT  rn, rank, name, points
FROM  (
SELECT  CASE WHEN @cp = points THEN @rank ELSE @rank := @rn + 1 END AS rank,
@rn := @rn + 1 AS rn,
@cp := points,
r.*
FROM (
SELECT @cp := -1, @rn := 0, @rank = 1
) var,
(
SELECT *
FROM rank
FORCE INDEX (ix_rank_points)
ORDER BY
points DESC
LIMIT ?
) r
) o
WHERE rn >= ?
ORDER BY rank, name
';
EXECUTE STMT USING @tillrank, @fromrank;
END;
``````

That will impact performance on big ranges, but you will hardly notice it on small ranges.

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Looks very nice, what is the complexity of this query, is it within log(n) range and if so can you explain how come. One thing missing though is sorting on the name as 2nd priority if two rows have the same amount of points. –  Per Stilling Feb 16 '09 at 20:48
The algorithm my rank is counted on is that the ones with most points have rank 1 and if some people have the same amount of points I want them sorted according to their name. So if two people have max points,the row with third most points is recorded as rank 3, while the two others both have rank 1 –  Per Stilling Feb 16 '09 at 20:50
Why "De" has rank 5 then? –  Quassnoi Feb 16 '09 at 20:56
Thats a typo, very sorry. –  Per Stilling Feb 16 '09 at 21:08
Thank you for the great response! –  Per Stilling Feb 16 '09 at 21:57