Proper way to access latest row for each individual identifier?

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轻奢々
轻奢々 2021-01-03 11:14

I have a table core_message in Postgres, with millions of rows that looks like this (simplified):

┌────────────────┬──         


        
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  • 2021-01-03 11:47

    Another approach using ROW_NUMBER(), which is widely supported across RDBMS:

    SELECT * 
    FROM (
        SELECT 
            c.*,
            ROW_NUMBER() OVER(PARTITION BY mmsi ORDER BY time DESC) rn
        FROM core_message c
    ) AS cr WHERE rn = 1
    

    This query should benefit of existing index core_messag_mmsi_b36d69_idx.

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  • 2021-01-03 11:54

    Here is a quick performance comparison for the queries mention in this post.

    Current setup :

    The table core_message has 10,904,283 rows and there is 60,740 rows in test_boats (or 60,740 distinct mmsi in core_message).

    And I'm using PostgreSQL 11.5

    Query using index-only scan :

    1) using DISTINCT ON :

    SELECT DISTINCT ON (mmsi) mmsi 
    FROM core_message;
    

    2) using RECURSIVE with LATERAL:

    WITH RECURSIVE cte AS (
       (
       SELECT mmsi
       FROM   core_message
       ORDER  BY mmsi
       LIMIT  1
       )
       UNION ALL
       SELECT m.*
       FROM   cte c
       CROSS  JOIN LATERAL (
          SELECT mmsi
          FROM   core_message
          WHERE  mmsi > c.mmsi
          ORDER  BY mmsi
          LIMIT  1
          ) m
       )
    TABLE cte;
    

    3) Using an extra table with LATERAL:

    SELECT a.mmsi
    FROM test_boats a
    CROSS JOIN LATERAL(
        SELECT b.time
        FROM core_message b
        WHERE a.mmsi = b.mmsi
        ORDER BY b.time DESC
        LIMIT 1
    ) b;
    

    Query not using index-only scan :

    4) using DISTINCT ON with mmsi,time DESC INDEX:

    SELECT DISTINCT ON (mmsi) * 
    FROM core_message 
    ORDER BY mmsi, time desc;
    

    5) using DISTINCT ON with backward mmsi,time UNIQUE CONSTRAINT:

    SELECT DISTINCT ON (mmsi) * 
    FROM core_message 
    ORDER BY mmsi desc, time desc;
    

    6) using RECURSIVE with LATERAL and mmsi,time DESC INDEX:

    WITH RECURSIVE cte AS (
       (
       SELECT *
       FROM   core_message
       ORDER  BY mmsi , time DESC 
       LIMIT  1
       )
       UNION ALL
       SELECT m.*
       FROM   cte c
       CROSS  JOIN LATERAL (
          SELECT *
          FROM   core_message
          WHERE  mmsi > c.mmsi
          ORDER  BY mmsi , time DESC 
          LIMIT  1
          ) m
       )
    TABLE cte;
    

    7) using RECURSIVE with LATERAL and backward mmsi,time UNIQUE CONSTRAINT:

    WITH RECURSIVE cte AS (
    
       (
    
       SELECT *
       FROM   core_message
       ORDER  BY mmsi DESC , time DESC 
       LIMIT  1
       )
       UNION ALL
       SELECT m.*
       FROM   cte c
       CROSS  JOIN LATERAL (
          SELECT *
          FROM   core_message
          WHERE  mmsi < c.mmsi
          ORDER  BY mmsi DESC , time DESC 
          LIMIT  1
          ) m
       )
    TABLE cte;
    

    8) Using an extra table with LATERAL:

    SELECT b.*
    FROM test_boats a
    CROSS JOIN LATERAL(
        SELECT b.*
        FROM core_message b
        WHERE a.mmsi = b.mmsi
        ORDER BY b.time DESC
        LIMIT 1
    ) b;
    

    Using a dedicated table for the last message:

    9) Here is my initial solution, using a distinct table with only the last message. This table is populated as new messages arrive but could also be created like so :

    CREATE TABLE core_shipinfos AS (
        WITH RECURSIVE cte AS (
           (
           SELECT *
           FROM   core_message
           ORDER  BY mmsi DESC , time DESC 
           LIMIT  1
           )
           UNION ALL
           SELECT m.*
           FROM   cte c
           CROSS  JOIN LATERAL (
              SELECT *
              FROM   core_message
              WHERE  mmsi < c.mmsi
              ORDER  BY mmsi DESC , time DESC 
              LIMIT  1
              ) m
           )
        TABLE cte);
    

    Then the request to get the latest message is as simple as that :

    SELECT * FROM core_shipinfos;
    

    Results :

    Average of multiple query (around 5 for the fast one):

    1) 9146 ms
    2) 728 ms
    3) 498 ms

    4) 51488 ms
    5) 54764 ms
    6) 729 ms
    7) 778 ms
    8) 516 ms

    9) 15 ms

    Conclusion:

    I won't comment on the dedicated table solution, and will keep that for the end.

    The additional table (test_boats) solution is definitely the winner here but the RECURSIVE solution is also pretty efficient.

    There is a huge gap in performance for the DISTINCT ON using index-only scan and the one not using it but, the performance gain is rather small for the other efficient query.

    This makes sense as the major improvement those queries bring is the fact that they don't need to loop over the whole core_message table but only on a subset of the unique mmsi that is significantly smaller (60K+) in comparison to the core_message table size (10M+)

    As an additional note, there does not seem to be significant improvement in performance for the queries using the UNIQUE CONSTRAINT if I drop the mmsi,time DESC INDEX. But dropping that index will of course save me some space (this index currently take 328MB)

    About the dedicated table solution:

    Each messages stored in the core_message table carries both positional informations (position, speed, heading,etc.) AND ship informations (name, callsign, dimensions, etc.), as well as ship identifier (mmsi).

    To give a bit more background on what I'm actually trying to do : I'm implementing a backend to store messages emitted by ships via the AIS protocol.

    As such, every unique mmsi I got, I got it via this protocol. It is not a pre-defined list. It keeps adding new MMSI until I got every ships in the world using AIS.

    In that context, a dedicated table with ship informations as last message received makes sense.

    I could avoid using such a table as we've seen with the RECURSIVE solution, but... a dedicated table is still 50x faster than this RECURSIVE solution.

    That dedicated table is in fact similar to the test_boat table, with more information than just the mmsi field. As it is, having a table with mmsi only field or a table with every last informations of the core_message table add the same complexity to my application.

    In the end, I think I will go for this dedicated table. It will gives me unbeatable speed and I'll still have the possibility to use the LATERAL trick on core_message, which will gives me more flexibility.

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  • 2021-01-03 11:54

    You have put existing answers to good use and came up with great solutions in your own answer. Some missing pieces:

    I'm still trying to understand how to properly use his first RECURSIVE solution ...

    You used this query to create the test_boats table with unique mmsi:

    select distinct on (mmsi) mmsi from core_message
    

    For many rows per boat (mmsi), use this faster RECURSIVE solution instead:

    WITH RECURSIVE cte AS (
       (
       SELECT mmsi
       FROM   core_message
       ORDER  BY mmsi
       LIMIT  1
       )
       UNION ALL
       SELECT m.*
       FROM   cte c
       CROSS  JOIN LATERAL (
          SELECT mmsi
          FROM   core_message
          WHERE  mmsi > c.mmsi
          ORDER  BY mmsi
          LIMIT  1
          ) m
       )
    TABLE cte;
    

    This hardly gets any slower with more rows per boat, as opposed to DISTINCT ON which is typically faster with only few rows per boat. Each only needs an index with mmsi as leading column to be fast.

    If possible, create that boats table and add a FK constraint to it. (Means you have to maintain it.) Then you can go on using the optimal LATERAL query you have in your answer and never miss any boats. (Orphaned boats may be worth tracking / removing in the long run.)

    Else, another iteration of that RECURSIVE query is the next best thing to get whole rows for the latest position of each boat quickly:

    WITH RECURSIVE cte AS (
       (
       SELECT *
       FROM   core_message
       ORDER  BY mmsi DESC, time DESC  -- see below
       LIMIT  1
       )
       UNION ALL
       SELECT m.*
       FROM   cte c
       CROSS  JOIN LATERAL (
          SELECT *
          FROM   core_message
          WHERE  mmsi < c.mmsi
          ORDER  BY mmsi DESC, time DESC
          LIMIT  1
          ) m
       )
    TABLE cte;
    

    You have both of these indexes:

    "core_message_uniq_mmsi_time" UNIQUE CONSTRAINT, btree (mmsi, "time")
    "core_messag_mmsi_b36d69_idx" btree (mmsi, "time" DESC)
    

    A UNIQUE constraint is implemented with all columns in default ASC sort order. That cannot be changed. If you don't actually need the constraint, you might replace it with a UNIQUE index, mostly achieving the same. But there you can add any sort order you like. Related:

    • How does PostgreSQL enforce the UNIQUE constraint / what type of index does it use?

    But there is no need for the use case at hand. Postgres can scan a b-tree index backwards at practically the same speed. And I see nothing here that would require inverted sort order for the two columns. The additional index core_messag_mmsi_b36d69_idx is expensive dead freight - unless you have other use cases that actually need it. See:

    • Optimizing queries on a range of timestamps (two columns)

    To best use the index core_message_uniq_mmsi_time from the UNIQUE constraint I step through both columns in descending order. That matters.

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  • 2021-01-03 11:56

    In Postgres, I recommend distinct on:

    SELECT DISTINCT ON (mmsi) m.*
    FROM core_message m
    ORDER BY mmsi, time DESC;
    

    For best performance, you want an index on (mmsi, time desc).

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  • 2021-01-03 12:11

    This answer seems to go in the way of the DISTINCT ON answer here, however it also mentions this :

    For many rows per customer (low cardinality in column customer), a loose index scan (a.k.a. "skip scan") would be (much) more efficient, but that's not implemented up to Postgres 12. (An implementation for index-only scans is in development for Postgres 13. See here and here.)
    For now, there are faster query techniques to substitute for this. In particular if you have a separate table holding unique customers, which is the typical use case. But also if you don't:

    • Optimize GROUP BY query to retrieve latest row per user

    Using this other great answer, I find a way to keep the same performance as a distinct table with the use of LATERAL. By using a new table test_boats I can do something like this :

     CREATE TABLE test_boats AS (select distinct on (mmsi) mmsi from core_message);
    

    This table creation take 40+ seconds which is pretty similar to the time taken by the other answer here.

    Then, with the help of LATERAL :

    SELECT a.mmsi, b.time
    FROM test_boats a
    CROSS JOIN LATERAL(
        SELECT b.time
        FROM core_message b
        WHERE a.mmsi = b.mmsi
        ORDER BY b.time DESC
        LIMIT 1
    ) b LIMIT 10;
    

    This is blazingly fast, 1+ millisecond.

    This will need the modification of my program's logic and the use of a query a bit more complex but I think I can live with that.

    For a fast solution without the need to create a new table, check out the answer of @ErwinBrandstetter below


    UPDATE: I feel this question is not quite answered yet, as it's not very clear why the other solutions proposed perform poorly here.

    I tried the benchmark mentionned here. At first, it would seem that the DISTINCT ON way is fast enough if you do a request like the one proposed in the benchmark : +/- 30ms on my computer. But this is because that request uses index only scan. If you include a field that is not in the index, some_column in the case of the benchmark, the performance will drop to +/- 100ms.

    Not a dramatic drop in performance yet. That is why we need a benchmark with a bigger data set. Something similar to my case : 40K customers and 8M rows. Here

    Let's try again the DISTINCT ON with this new table:

    SELECT DISTINCT ON (customer_id) id, customer_id, total 
    FROM purchases_more 
    ORDER BY customer_id, total DESC, id;
    

    This takes about 1.5 seconds to complete.

    SELECT DISTINCT ON (customer_id) *
    FROM purchases_more 
    ORDER BY customer_id, total DESC, id;
    

    This takes about 35 seconds to complete.

    Now, to come back to my first solution above. It is using an index only scan and a LIMIT, that's one of the reason why it is extremely fast. If I recraft that query to not use index-only scan and dump the limit :

    SELECT b.*
    FROM test_boats a
    CROSS JOIN LATERAL(
        SELECT b.*
        FROM core_message b
        WHERE a.mmsi = b.mmsi
        ORDER BY b.time DESC
        LIMIT 1
    ) b;
    

    This will take about 500ms, which is still pretty fast.

    For a more in-depth benchmark of sort, see my other answer below.

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