I'd like to select the first row of each set of rows grouped with a GROUP BY.

Specifically, if I've got a purchases table that looks like this:

SELECT * FROM purchases;

My Output:

id customer total
1 Joe 5
2 Sally 3
3 Joe 2
4 Sally 1

I'd like to query for the id of the largest purchase (total) made by each customer. Something like this:

SELECT FIRST(id), customer, FIRST(total)
FROM  purchases
GROUP BY customer

Expected Output:

FIRST(id) customer FIRST(total)
1 Joe 5
2 Sally 3

21 Answers 21


DISTINCT ON is typically simplest and fastest for this in PostgreSQL.
(For performance optimization for certain workloads see below.)

       id, customer, total
FROM   purchases
ORDER  BY customer, total DESC, id;

Or shorter (if not as clear) with ordinal numbers of output columns:

       id, customer, total
FROM   purchases
ORDER  BY 2, 3 DESC, 1;

If total can be null, add NULLS LAST:

ORDER  BY customer, total DESC NULLS LAST, id;

Works either way, but you'll want to match existing indexes

db<>fiddle here

Major points

DISTINCT ON is a PostgreSQL extension of the standard, where only DISTINCT on the whole SELECT list is defined.

List any number of expressions in the DISTINCT ON clause, the combined row value defines duplicates. The manual:

Obviously, two rows are considered distinct if they differ in at least one column value. Null values are considered equal in this comparison.

Bold emphasis mine.

DISTINCT ON can be combined with ORDER BY. Leading expressions in ORDER BY must be in the set of expressions in DISTINCT ON, but you can rearrange order among those freely. Example.
You can add additional expressions to ORDER BY to pick a particular row from each group of peers. Or, as the manual puts it:

The DISTINCT ON expression(s) must match the leftmost ORDER BY expression(s). The ORDER BY clause will normally contain additional expression(s) that determine the desired precedence of rows within each DISTINCT ON group.

I added id as last item to break ties:
"Pick the row with the smallest id from each group sharing the highest total."

To order results in a way that disagrees with the sort order determining the first per group, you can nest above query in an outer query with another ORDER BY. Example.

If total can be null, you most probably want the row with the greatest non-null value. Add NULLS LAST like demonstrated. See:

The SELECT list is not constrained by expressions in DISTINCT ON or ORDER BY in any way:

  • You don't have to include any of the expressions in DISTINCT ON or ORDER BY.

  • You can include any other expression in the SELECT list. This is instrumental for replacing complex subqueries and aggregate / window functions.

I tested with Postgres versions 8.3 – 16. But the feature has been there at least since version 7.1, so basically always.


The perfect index for the above query would be a multi-column index spanning all three columns in matching sequence and with matching sort order:

CREATE INDEX purchases_3c_idx ON purchases (customer, total DESC, id);

May be too specialized. But use it if read performance for the particular query is crucial. If you have DESC NULLS LAST in the query, use the same in the index so that sort order matches and the index is perfectly applicable.

Effectiveness / Performance optimization

Weigh cost and benefit before creating tailored indexes for each query. The potential of above index largely depends on data distribution.

The index is used because it delivers pre-sorted data. In Postgres 9.2 or later the query can also benefit from an index only scan if the index is smaller than the underlying table. The index has to be scanned in its entirety, though. Example.

For few rows per customer (high cardinality in column customer), this is very efficient. Even more so if you need sorted output anyway. The benefit shrinks with a growing number of rows per customer.
Ideally, you have enough work_mem to process the involved sort step in RAM and not spill to disk. But generally setting work_mem too high can have adverse effects. Consider SET LOCAL for exceptionally big queries. Find how much you need with EXPLAIN ANALYZE. Mention of "Disk:" in the sort step indicates the need for more:

For many rows per customer (low cardinality in column customer), an "index skip scan" or "loose index scan" would be (much) more efficient. But that's not implemented up to Postgres 16. Serious work to implement it one way or another has been ongoing for years now, but so far unsuccessful. 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:


See separate answer.

  • sadly if you want to order and distinguish by different logics, DISTINCT ON is useless and you have to use a subquery Commented Jan 12, 2023 at 11:47
  • @zoltankundi: Why would a subquery make DISTINCT ON useless? I guess it's about cases like this one? stackoverflow.com/a/9796104/939860 Commented Jan 14, 2023 at 6:38
  • I'm not saying a subquery makes it useless, just that you have to use a subquery and it would be nice if you could do DISTINCT ON without having to also sort by the same column Commented Jan 15, 2023 at 16:12
  • 2
    You can use DISTINCT ON without ORDER BY. Just not with a contradicting ORDER BY. For that you need a subquery. Commented Jan 15, 2023 at 16:18

On databases that support CTE and windowing functions:

WITH summary AS (
    SELECT p.id, 
           ROW_NUMBER() OVER(PARTITION BY p.customer 
                                 ORDER BY p.total DESC) AS rank
   FROM summary
 WHERE rank = 1

Supported by any database:

But you need to add logic to break ties:

  SELECT MIN(x.id),  -- change to MAX if you want the highest
    JOIN (SELECT p.customer,
                 MAX(total) AS max_total
            FROM PURCHASES p
        GROUP BY p.customer) y ON y.customer = x.customer
                              AND y.max_total = x.total
GROUP BY x.customer, x.total
  • 73
    ROW_NUMBER() OVER(PARTITION BY [...]) along with some other optimizations helped me get a query down from 30 seconds to a few milliseconds. Thanks! (PostgreSQL 9.2)
    – Sam
    Commented Oct 1, 2014 at 21:29
  • 2
    ROW_NUMBER() OVER(PARTITION meets my needs but Is there any way to limit the row numbers to just 1 from the group to reduce the size of the view? Commented Jul 13, 2022 at 10:43
  • 1
    @SolomonTesfaye Use a subquery and in the view specify WHERE row_number = 1 against the subquery.
    – hemp
    Commented Jun 20, 2023 at 0:46
  • 1
    @hemp The summary view has already big data and I have to filter from the result using where rank=1. But I was asking if there are ways to reduce the view at the first place. Commented Jun 20, 2023 at 1:32
  • @SolomonTesfaye You can use a different approach, such as DISTINCT ON instead.
    – hemp
    Commented Jun 20, 2023 at 6:10


I tested the most interesting candidates:

  • Initially with Postgres 9.4 and 9.5.
  • Added accented tests for Postgres 13 later.

Basic test setup

Main table: purchases:

CREATE TABLE purchases (
  id          serial  -- PK constraint added below
, customer_id int     -- REFERENCES customer
, total       int     -- could be amount of money in Cent
, some_column text    -- to make the row bigger, more realistic

Dummy data (with some dead tuples), PK, index:

INSERT INTO purchases (customer_id, total, some_column)    -- 200k rows
SELECT (random() * 10000)::int             AS customer_id  -- 10k distinct customers
     , (random() * random() * 100000)::int AS total     
     , 'note: ' || repeat('x', (random()^2 * random() * random() * 500)::int)
FROM   generate_series(1,200000) g;

ALTER TABLE purchases ADD CONSTRAINT purchases_id_pkey PRIMARY KEY (id);

DELETE FROM purchases WHERE random() > 0.9;  -- some dead rows

INSERT INTO purchases (customer_id, total, some_column)
SELECT (random() * 10000)::int             AS customer_id  -- 10k customers
     , (random() * random() * 100000)::int AS total     
     , 'note: ' || repeat('x', (random()^2 * random() * random() * 500)::int)
FROM   generate_series(1,20000) g;  -- add 20k to make it ~ 200k

CREATE INDEX purchases_3c_idx ON purchases (customer_id, total DESC, id);


customer table - used for optimized query:

SELECT customer_id, 'customer_' || customer_id AS customer
FROM   purchases

ALTER TABLE customer ADD CONSTRAINT customer_customer_id_pkey PRIMARY KEY (customer_id);


In my second test for 9.5 I used the same setup, but with 100000 distinct customer_id to get few rows per customer_id.

Object sizes for table purchases

Basic setup: 200k rows in purchases, 10k distinct customer_id, avg. 20 rows per customer.
For Postgres 9.5 I added a 2nd test with 86446 distinct customers - avg. 2.3 rows per customer.

Generated with a query taken from here:

Gathered for Postgres 9.5:

               what                | bytes/ct | bytes_pretty | bytes_per_row
 core_relation_size                | 20496384 | 20 MB        |           102
 visibility_map                    |        0 | 0 bytes      |             0
 free_space_map                    |    24576 | 24 kB        |             0
 table_size_incl_toast             | 20529152 | 20 MB        |           102
 indexes_size                      | 10977280 | 10 MB        |            54
 total_size_incl_toast_and_indexes | 31506432 | 30 MB        |           157
 live_rows_in_text_representation  | 13729802 | 13 MB        |            68
 ------------------------------    |          |              |
 row_count                         |   200045 |              |
 live_tuples                       |   200045 |              |
 dead_tuples                       |    19955 |              |


1. row_number() in CTE, (see other answer)

WITH cte AS (
   SELECT id, customer_id, total
        , row_number() OVER (PARTITION BY customer_id ORDER BY total DESC) AS rn
   FROM   purchases
SELECT id, customer_id, total
FROM   cte
WHERE  rn = 1;

2. row_number() in subquery (my optimization)

SELECT id, customer_id, total
FROM   (
   SELECT id, customer_id, total
        , row_number() OVER (PARTITION BY customer_id ORDER BY total DESC) AS rn
   FROM   purchases
   ) sub
WHERE  rn = 1;

3. DISTINCT ON (see other answer)

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

4. rCTE with LATERAL subquery (see here)

   (  -- parentheses required
   SELECT id, customer_id, total
   FROM   purchases
   ORDER  BY customer_id, total DESC
   LIMIT  1
   SELECT u.*
   FROM   cte c
   ,      LATERAL (
      SELECT id, customer_id, total
      FROM   purchases
      WHERE  customer_id > c.customer_id  -- lateral reference
      ORDER  BY customer_id, total DESC
      LIMIT  1
      ) u
SELECT id, customer_id, total
FROM   cte
ORDER  BY customer_id;

5. customer table with LATERAL (see here)

FROM   customer c
,      LATERAL (
   SELECT id, customer_id, total
   FROM   purchases
   WHERE  customer_id = c.customer_id  -- lateral reference
   ORDER  BY total DESC
   LIMIT  1
   ) l;

6. array_agg() with ORDER BY (see other answer)

SELECT (array_agg(id ORDER BY total DESC))[1] AS id
     , customer_id
     , max(total) AS total
FROM   purchases
GROUP  BY customer_id;


Execution time for above queries with EXPLAIN (ANALYZE, TIMING OFF, COSTS OFF, best of 5 runs to compare with warm cache.

All queries used an Index Only Scan on purchases2_3c_idx (among other steps). Some only to benefit from the smaller size of the index, others more effectively.

A. Postgres 9.4 with 200k rows and ~ 20 per customer_id

1. 273.274 ms  
2. 194.572 ms  
3. 111.067 ms  
4.  92.922 ms  -- !
5.  37.679 ms  -- winner
6. 189.495 ms

B. Same as A. with Postgres 9.5

1. 288.006 ms
2. 223.032 ms  
3. 107.074 ms  
4.  78.032 ms  -- !
5.  33.944 ms  -- winner
6. 211.540 ms  

C. Same as B., but with ~ 2.3 rows per customer_id

1. 381.573 ms
2. 311.976 ms
3. 124.074 ms  -- winner
4. 710.631 ms
5. 311.976 ms
6. 421.679 ms

Retest with Postgres 13 on 2021-08-11

Simplified test setup: no deleted rows, because VACUUM ANALYZE cleans the table completely for the simple case.

Important changes for Postgres:

  • General performance improvements.
  • CTEs can be inlined since Postgres 12, so query 1. and 2. now perform mostly identical (same query plan).

D. Like B. ~ 20 rows per customer_id

1. 103 ms
2. 103 ms  
3.  23 ms  -- winner  
4.  71 ms  
5.  22 ms  -- winner
6.  81 ms  

db<>fiddle here

E. Like C. ~ 2.3 rows per customer_id

1. 127 ms
2. 126 ms  
3.  36 ms  -- winner  
4. 620 ms  
5. 145 ms
6. 203 ms  

db<>fiddle here

Accented tests with Postgres 13

1M rows, 10.000 vs. 100 vs. 1.6 rows per customer.

F. with ~ 10.000 rows per customer

1. 526 ms
2. 527 ms  
3. 127 ms
4.   2 ms  -- winner !
5.   1 ms  -- winner !
6. 356 ms  

db<>fiddle here

G. with ~ 100 rows per customer

1. 535 ms
2. 529 ms  
3. 132 ms
4. 108 ms  -- !
5.  71 ms  -- winner
6. 376 ms  

db<>fiddle here

H. with ~ 1.6 rows per customer

1.  691 ms
2.  684 ms  
3.  234 ms  -- winner
4. 4669 ms
5. 1089 ms
6. 1264 ms  

db<>fiddle here


  • DISTINCT ON uses the index effectively and typically performs best for few rows per group. And it performs decently even with many rows per group.

  • For many rows per group, emulating an index skip scan with an rCTE performs best - second only to the query technique with a separate lookup table (if that's available).

  • The row_number() technique demonstrated in the currently accepted answer never wins any performance test. Not then, not now. It never comes even close to DISTINCT ON, not even when the data distribution is unfavorable for the latter. The only good thing about row_number(): it does not scale terribly, just mediocre.

More benchmarks

Benchmark by "ogr" with 10M rows and 60k unique "customers" on Postgres 11.5. Results are in line with what we have seen so far:

Original (outdated) benchmark from 2011

I ran three tests with PostgreSQL 9.1 on a real life table of 65579 rows and single-column btree indexes on each of the three columns involved and took the best execution time of 5 runs.
Comparing @OMGPonies' first query (A) to the above DISTINCT ON solution (B):

  1. Select the whole table, results in 5958 rows in this case.
A: 567.218 ms
B: 386.673 ms
  1. Use condition WHERE customer BETWEEN x AND y resulting in 1000 rows.
A: 249.136 ms
B:  55.111 ms
  1. Select a single customer with WHERE customer = x.
A:   0.143 ms
B:   0.072 ms

Same test repeated with the index described in the other answer:

CREATE INDEX purchases_3c_idx ON purchases (customer, total DESC, id);

1A: 277.953 ms  
1B: 193.547 ms

2A: 249.796 ms -- special index not used  
2B:  28.679 ms

3A:   0.120 ms  
3B:   0.048 ms
  • 1
    can please you add custom aggregate method to the benchmark? something like "select first(purchases order by id) from purchases group by customer" wiki.postgresql.org/wiki/First/last_(aggregate) Commented Nov 2, 2021 at 9:02
  • Yes, we can please add the group by query in the benchmark. I know it's not exactly the same in case of duplicates. But it might be in a lot of use cases (like timestamp) and it's the first solution that folks think of: SELECT id, customer_id, total FROM purchases a JOIN ( SELECT customer_id, MAX(total) AS total GROUP BY customer_id ) b ON a.customer_id = b.customer AND a.total = b.total
    – na_ka_na
    Commented Jan 31, 2022 at 22:51

This is common problem, which already has well tested and highly optimized solutions. Personally I prefer the left join solution by Bill Karwin (the original post with lots of other solutions).

Note that bunch of solutions to this common problem can surprisingly be found in the MySQL manual -- even though your problem is in Postgres, not MySQL, the solutions given should work with most SQL variants. See Examples of Common Queries :: The Rows Holding the Group-wise Maximum of a Certain Column.

  • 33
    How is the MySQL manual in any way "official" for Postgres / SQLite (not to mention SQL) questions? Also, to be clear, the DISTINCT ON version is much shorter, simpler and generally performs better in Postgres than alternatives with a self LEFT JOIN or semi-anti-join with NOT EXISTS. It is also "well tested". Commented Jul 8, 2013 at 18:27
  • As commented under the mentioned "left join" solution, beware that self-joins cause performance quadratic in the group sizes, making them unsuitable for when groups can be large. Refer to the comment about self-joins under that answer for more details.
    – Timo
    Commented Aug 14, 2023 at 17:12

In Postgres you can use array_agg like this:

SELECT  customer,
        (array_agg(id ORDER BY total DESC))[1],
FROM purchases
GROUP BY customer

This will give you the id of each customer's largest purchase.

Some things to note:

  • array_agg is an aggregate function, so it works with GROUP BY.
  • array_agg lets you specify an ordering scoped to just itself, so it doesn't constrain the structure of the whole query. There is also syntax for how you sort NULLs, if you need to do something different from the default.
  • Once we build the array, we take the first element. (Postgres arrays are 1-indexed, not 0-indexed).
  • You could use array_agg in a similar way for your third output column, but max(total) is simpler.
  • Unlike DISTINCT ON, using array_agg lets you keep your GROUP BY, in case you want that for other reasons.

The Query:

SELECT purchases.*
FROM purchases
LEFT JOIN purchases as p 
  p.customer = purchases.customer 
  purchases.total < p.total

HOW DOES THAT WORK! (I've been there)

We want to make sure that we only have the highest total for each purchase.

Some Theoretical Stuff (skip this part if you only want to understand the query)

Let Total be a function T(customer,id) where it returns a value given the name and id To prove that the given total (T(customer,id)) is the highest we have to prove that We want to prove either

  • ∀x T(customer,id) > T(customer,x) (this total is higher than all other total for that customer)


  • ¬∃x T(customer, id) < T(customer, x) (there exists no higher total for that customer)

The first approach will need us to get all the records for that name which I do not really like.

The second one will need a smart way to say there can be no record higher than this one.

Back to SQL

If we left joins the table on the name and total being less than the joined table:

LEFT JOIN purchases as p 
p.customer = purchases.customer 
purchases.total < p.total

we make sure that all records that have another record with the higher total for the same user to be joined:

| purchases.id |  purchases.customer | purchases.total | p.id | p.customer | p.total |
|            1 | Tom                 |             200 |    2 | Tom        |     300 |
|            2 | Tom                 |             300 |      |            |         |
|            3 | Bob                 |             400 |    4 | Bob        |     500 |
|            4 | Bob                 |             500 |      |            |         |
|            5 | Alice               |             600 |    6 | Alice      |     700 |
|            6 | Alice               |             700 |      |            |         |

That will help us filter for the highest total for each purchase with no grouping needed:

| purchases.id | purchases.name | purchases.total | p.id | p.name | p.total |
|            2 | Tom            |             300 |      |        |         |
|            4 | Bob            |             500 |      |        |         |
|            6 | Alice          |             700 |      |        |         |

And that's the answer we need.

  • 1
    Very neat solution. I'm curious how performant it comparing to others. Even if it is not the best, it is still interesting question. In current version of MariaDB I have not LATERAL, DISTINCT ON and ARRAY_AGG(), thus I have choice only between this solution and ROW_NUMBER()
    – kdmitry
    Commented Jul 17, 2023 at 17:14
  • 1
    I did some testing and seems to be ROW_NUMBER() solution has better performance in my case. In short: 5 million of records, this solution - 5 m 24 s, ROW_NUMBER() solution - 1 m 40 s. After adding of index the difference even greater: this solution - 59.5 s, ROW_NUMBER() solution - 9.5 s. Remember, that your mileage may vary
    – kdmitry
    Commented Aug 27, 2023 at 16:15

The solution is not very efficient as pointed by Erwin, because of presence of SubQs

select * from purchases p1 where total in
(select max(total) from purchases where p1.customer=customer) order by total desc;

I use this way (postgresql only): https://wiki.postgresql.org/wiki/First/last_%28aggregate%29

-- Create a function that always returns the first non-NULL item
CREATE OR REPLACE FUNCTION public.first_agg ( anyelement, anyelement )
        SELECT $1;

-- And then wrap an aggregate around it
CREATE AGGREGATE public.first (
        sfunc    = public.first_agg,
        basetype = anyelement,
        stype    = anyelement

-- Create a function that always returns the last non-NULL item
CREATE OR REPLACE FUNCTION public.last_agg ( anyelement, anyelement )
        SELECT $2;

-- And then wrap an aggregate around it
CREATE AGGREGATE public.last (
        sfunc    = public.last_agg,
        basetype = anyelement,
        stype    = anyelement

Then your example should work almost as is:

SELECT FIRST(id), customer, FIRST(total)
FROM  purchases
GROUP BY customer

CAVEAT: It ignore's NULL rows

Edit 1 - Use the postgres extension instead

Now I use this way: http://pgxn.org/dist/first_last_agg/

To install on ubuntu 14.04:

apt-get install postgresql-server-dev-9.3 git build-essential -y
git clone git://github.com/wulczer/first_last_agg.git
cd first_last_app
make && sudo make install
psql -c 'create extension first_last_agg'

It's a postgres extension that gives you first and last functions; apparently faster than the above way.

Edit 2 - Ordering and filtering

If you use aggregate functions (like these), you can order the results, without the need to have the data already ordered:


So the equivalent example, with ordering would be something like:

SELECT first(id order by id), customer, first(total order by id)
  FROM purchases
 GROUP BY customer
 ORDER BY first(total);

Of course you can order and filter as you deem fit within the aggregate; it's very powerful syntax.


Very fast solution

    purchases a 
    JOIN ( 
        SELECT customer, min( id ) as id 
        FROM purchases 
        GROUP BY customer 
    ) b USING ( id );

and really very fast if table is indexed by id:

create index purchases_id on purchases (id);

Use ARRAY_AGG function for PostgreSQL, U-SQL, IBM DB2, and Google BigQuery SQL:

SELECT customer, (ARRAY_AGG(id ORDER BY total DESC))[1], MAX(total)
FROM purchases
GROUP BY customer

In SQL Server you can do this:

ORDER BY total DESC) AS StRank, *
FROM Purchases) n
WHERE StRank = 1

Explaination:Here Group by is done on the basis of customer and then order it by total then each such group is given serial number as StRank and we are taking out first 1 customer whose StRank is 1


In PostgreSQL, another possibility is to use the first_value window function in combination with SELECT DISTINCT:

select distinct customer_id,
                first_value(row(id, total)) over(partition by customer_id order by total desc, id)
from            purchases;

I created a composite (id, total), so both values are returned by the same aggregate. You can of course always apply first_value() twice.


This is how we can achieve this by using windows function:

    create table purchases (id int4, customer varchar(10), total integer);
    insert into purchases values (1, 'Joe', 5);
    insert into purchases values (2, 'Sally', 3);
    insert into purchases values (3, 'Joe', 2);
    insert into purchases values (4, 'Sally', 1);
    select ID, CUSTOMER, TOTAL from (
    select ID, CUSTOMER, TOTAL,
    row_number () over (partition by CUSTOMER order by TOTAL desc) RN
    from purchases) A where RN = 1;

enter image description here


Snowflake/Teradata supports QUALIFY clause which works like HAVING for windowed functions:

SELECT id, customer, total

This way it work for me:

SELECT article, dealer, price
FROM   shop s1
WHERE  price=(SELECT MAX(s2.price)
              FROM shop s2
              WHERE s1.article = s2.article
              GROUP BY s2.article)
ORDER BY article;

Select highest price on each article


The accepted OMG Ponies' "Supported by any database" solution has good speed from my test.

Here I provide a same-approach, but more complete and clean any-database solution. Ties are considered (assume desire to get only one row for each customer, even multiple records for max total per customer), and other purchase fields (e.g. purchase_payment_id) will be selected for the real matching rows in the purchase table.

Supported by any database:

select * from purchase
join (
    select min(id) as id from purchase
    join (
        select customer, max(total) as total from purchase
        group by customer
    ) t1 using (customer, total)
    group by customer
) t2 using (id)
order by customer

This query is reasonably fast especially when there is a composite index like (customer, total) on the purchase table.


  1. t1, t2 are subquery alias which could be removed depending on database.

  2. Caveat: the using (...) clause is currently not supported in MS-SQL and Oracle db as of this edit on Jan 2017. You have to expand it yourself to e.g. on t2.id = purchase.id etc. The USING syntax works in SQLite, MySQL and PostgreSQL.

  • If you want to select any (by your some specific condition) row from the set of aggregated rows.

  • If you want to use another (sum/avg) aggregation function in addition to max/min. Thus you can not use clue with DISTINCT ON

You can use next subquery:

       SELECT **id** FROM t2   
       WHERE id = ANY ( ARRAY_AGG( tf.id ) ) AND amount = MAX( tf.amount )   
    ) id,  
    MAX(amount) ma,  
    SUM( ratio )  
FROM t2  tf  

You can replace amount = MAX( tf.amount ) with any condition you want with one restriction: This subquery must not return more than one row

But if you wanna to do such things you probably looking for window functions


For SQl Server the most efficient way is:

ids as ( --condition for split table into groups
    select i from (values (9),(12),(17),(18),(19),(20),(22),(21),(23),(10)) as v(i) 
,src as ( 
    select * from yourTable where  <condition> --use this as filter for other conditions
,joined as (
    select tops.* from ids 
    cross apply --it`s like for each rows
        select top(1) * 
        from src
        where CommodityId = ids.i 
    ) as tops
select * from joined

and don't forget to create clustered index for used columns


My approach via window function dbfiddle:

  1. Assign row_number at each group: row_number() over (partition by agreement_id, order_id ) as nrow
  2. Take only first row at group: filter (where nrow = 1)
with intermediate as (select 
 row_number() over ( partition by agreement_id, order_id ) as nrow,
 (sum( suma ) over ( partition by agreement_id, order_id ))::numeric( 10, 2) as order_suma,
from <your table>)

  sum( order_suma ) filter (where nrow = 1) over (partition by agreement_id)
from intermediate

This can be achieved easily by MAX FUNCTION on total and GROUP BY id and customer.

SELECT id, customer, MAX(total) FROM  purchases GROUP BY id, customer
  • 2
    This doesn't do what the OP asks for. Commented Dec 16, 2021 at 22:55
  • 2
    If we know that the group always contains the same values or if we don't care which one to pick from the group, why not? In many cases, this is the best solution (only "order by" is not needed) Commented Jul 25, 2022 at 16:21
  • 1
    "or if we don't care which one to pick from the group" but we DO care, hence the question.
    – bfontaine
    Commented Aug 29, 2023 at 15:20

you can get the first row in each group by using CTE (common table expression), below is the sample example

with cte as (SELECT t1.*
FROM table_one t1
    SELECT id,MAX(date) AS max_date
    FROM table1
    GROUP BY id
) t2 ON t1.id = t2.id AND t1.max_date= t2.date)


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    Commented Sep 18, 2023 at 17:25

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