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Filter rows with same column value but IDs are not the biggest [duplicate]

There is a table messages that contains data as shown below:
Id Name Other_Columns
-------------------------
1 A A_data_1
2 A A_data_2
3 A A_data_3
4 B B_data_1
5 B B_data_2
6 C C_data_1
If I run a query select * from messages group by name, I will get the result as:
1 A A_data_1
4 B B_data_1
6 C C_data_1
What query will return the following result?
3 A A_data_3
5 B B_data_2
6 C C_data_1
That is, the last record in each group should be returned.
At present, this is the query that I use:
SELECT
*
FROM (SELECT
*
FROM messages
ORDER BY id DESC) AS x
GROUP BY name
But this looks highly inefficient. Any other ways to achieve the same result?

MySQL 8.0 now supports windowing functions, like almost all popular SQL implementations. With this standard syntax, we can write greatest-n-per-group queries:
WITH ranked_messages AS (
SELECT m.*, ROW_NUMBER() OVER (PARTITION BY name ORDER BY id DESC) AS rn
FROM messages AS m
)
SELECT * FROM ranked_messages WHERE rn = 1;
This and other approaches to finding groupwise maximal rows are illustrated in the MySQL manual.
Below is the original answer I wrote for this question in 2009:
I write the solution this way:
SELECT m1.*
FROM messages m1 LEFT JOIN messages m2
ON (m1.name = m2.name AND m1.id < m2.id)
WHERE m2.id IS NULL;
Regarding performance, one solution or the other can be better, depending on the nature of your data. So you should test both queries and use the one that is better at performance given your database.
For example, I have a copy of the StackOverflow August data dump. I'll use that for benchmarking. There are 1,114,357 rows in the Posts table. This is running on MySQL 5.0.75 on my Macbook Pro 2.40GHz.
I'll write a query to find the most recent post for a given user ID (mine).
First using the technique shown by #Eric with the GROUP BY in a subquery:
SELECT p1.postid
FROM Posts p1
INNER JOIN (SELECT pi.owneruserid, MAX(pi.postid) AS maxpostid
FROM Posts pi GROUP BY pi.owneruserid) p2
ON (p1.postid = p2.maxpostid)
WHERE p1.owneruserid = 20860;
1 row in set (1 min 17.89 sec)
Even the EXPLAIN analysis takes over 16 seconds:
+----+-------------+------------+--------+----------------------------+-------------+---------+--------------+---------+-------------+
| id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra |
+----+-------------+------------+--------+----------------------------+-------------+---------+--------------+---------+-------------+
| 1 | PRIMARY | <derived2> | ALL | NULL | NULL | NULL | NULL | 76756 | |
| 1 | PRIMARY | p1 | eq_ref | PRIMARY,PostId,OwnerUserId | PRIMARY | 8 | p2.maxpostid | 1 | Using where |
| 2 | DERIVED | pi | index | NULL | OwnerUserId | 8 | NULL | 1151268 | Using index |
+----+-------------+------------+--------+----------------------------+-------------+---------+--------------+---------+-------------+
3 rows in set (16.09 sec)
Now produce the same query result using my technique with LEFT JOIN:
SELECT p1.postid
FROM Posts p1 LEFT JOIN posts p2
ON (p1.owneruserid = p2.owneruserid AND p1.postid < p2.postid)
WHERE p2.postid IS NULL AND p1.owneruserid = 20860;
1 row in set (0.28 sec)
The EXPLAIN analysis shows that both tables are able to use their indexes:
+----+-------------+-------+------+----------------------------+-------------+---------+-------+------+--------------------------------------+
| id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra |
+----+-------------+-------+------+----------------------------+-------------+---------+-------+------+--------------------------------------+
| 1 | SIMPLE | p1 | ref | OwnerUserId | OwnerUserId | 8 | const | 1384 | Using index |
| 1 | SIMPLE | p2 | ref | PRIMARY,PostId,OwnerUserId | OwnerUserId | 8 | const | 1384 | Using where; Using index; Not exists |
+----+-------------+-------+------+----------------------------+-------------+---------+-------+------+--------------------------------------+
2 rows in set (0.00 sec)
Here's the DDL for my Posts table:
CREATE TABLE `posts` (
`PostId` bigint(20) unsigned NOT NULL auto_increment,
`PostTypeId` bigint(20) unsigned NOT NULL,
`AcceptedAnswerId` bigint(20) unsigned default NULL,
`ParentId` bigint(20) unsigned default NULL,
`CreationDate` datetime NOT NULL,
`Score` int(11) NOT NULL default '0',
`ViewCount` int(11) NOT NULL default '0',
`Body` text NOT NULL,
`OwnerUserId` bigint(20) unsigned NOT NULL,
`OwnerDisplayName` varchar(40) default NULL,
`LastEditorUserId` bigint(20) unsigned default NULL,
`LastEditDate` datetime default NULL,
`LastActivityDate` datetime default NULL,
`Title` varchar(250) NOT NULL default '',
`Tags` varchar(150) NOT NULL default '',
`AnswerCount` int(11) NOT NULL default '0',
`CommentCount` int(11) NOT NULL default '0',
`FavoriteCount` int(11) NOT NULL default '0',
`ClosedDate` datetime default NULL,
PRIMARY KEY (`PostId`),
UNIQUE KEY `PostId` (`PostId`),
KEY `PostTypeId` (`PostTypeId`),
KEY `AcceptedAnswerId` (`AcceptedAnswerId`),
KEY `OwnerUserId` (`OwnerUserId`),
KEY `LastEditorUserId` (`LastEditorUserId`),
KEY `ParentId` (`ParentId`),
CONSTRAINT `posts_ibfk_1` FOREIGN KEY (`PostTypeId`) REFERENCES `posttypes` (`PostTypeId`)
) ENGINE=InnoDB;
Note to commenters: If you want another benchmark with a different version of MySQL, a different dataset, or different table design, feel free to do it yourself. I have shown the technique above. Stack Overflow is here to show you how to do software development work, not to do all the work for you.

UPD: 2017-03-31, the version 5.7.5 of MySQL made the ONLY_FULL_GROUP_BY switch enabled by default (hence, non-deterministic GROUP BY queries became disabled). Moreover, they updated the GROUP BY implementation and the solution might not work as expected anymore even with the disabled switch. One needs to check.
Bill Karwin's solution above works fine when item count within groups is rather small, but the performance of the query becomes bad when the groups are rather large, since the solution requires about n*n/2 + n/2 of only IS NULL comparisons.
I made my tests on a InnoDB table of 18684446 rows with 1182 groups. The table contains testresults for functional tests and has the (test_id, request_id) as the primary key. Thus, test_id is a group and I was searching for the last request_id for each test_id.
Bill's solution has already been running for several hours on my dell e4310 and I do not know when it is going to finish even though it operates on a coverage index (hence using index in EXPLAIN).
I have a couple of other solutions that are based on the same ideas:
if the underlying index is BTREE index (which is usually the case), the largest (group_id, item_value) pair is the last value within each group_id, that is the first for each group_id if we walk through the index in descending order;
if we read the values which are covered by an index, the values are read in the order of the index;
each index implicitly contains primary key columns appended to that (that is the primary key is in the coverage index). In solutions below I operate directly on the primary key, in you case, you will just need to add primary key columns in the result.
in many cases it is much cheaper to collect the required row ids in the required order in a subquery and join the result of the subquery on the id. Since for each row in the subquery result MySQL will need a single fetch based on primary key, the subquery will be put first in the join and the rows will be output in the order of the ids in the subquery (if we omit explicit ORDER BY for the join)
3 ways MySQL uses indexes is a great article to understand some details.
Solution 1
This one is incredibly fast, it takes about 0,8 secs on my 18M+ rows:
SELECT test_id, MAX(request_id) AS request_id
FROM testresults
GROUP BY test_id DESC;
If you want to change the order to ASC, put it in a subquery, return the ids only and use that as the subquery to join to the rest of the columns:
SELECT test_id, request_id
FROM (
SELECT test_id, MAX(request_id) AS request_id
FROM testresults
GROUP BY test_id DESC) as ids
ORDER BY test_id;
This one takes about 1,2 secs on my data.
Solution 2
Here is another solution that takes about 19 seconds for my table:
SELECT test_id, request_id
FROM testresults, (SELECT #group:=NULL) as init
WHERE IF(IFNULL(#group, -1)=#group:=test_id, 0, 1)
ORDER BY test_id DESC, request_id DESC
It returns tests in descending order as well. It is much slower since it does a full index scan but it is here to give you an idea how to output N max rows for each group.
The disadvantage of the query is that its result cannot be cached by the query cache.

Use your subquery to return the correct grouping, because you're halfway there.
Try this:
select
a.*
from
messages a
inner join
(select name, max(id) as maxid from messages group by name) as b on
a.id = b.maxid
If it's not id you want the max of:
select
a.*
from
messages a
inner join
(select name, max(other_col) as other_col
from messages group by name) as b on
a.name = b.name
and a.other_col = b.other_col
This way, you avoid correlated subqueries and/or ordering in your subqueries, which tend to be very slow/inefficient.

I arrived at a different solution, which is to get the IDs for the last post within each group, then select from the messages table using the result from the first query as the argument for a WHERE x IN construct:
SELECT id, name, other_columns
FROM messages
WHERE id IN (
SELECT MAX(id)
FROM messages
GROUP BY name
);
I don't know how this performs compared to some of the other solutions, but it worked spectacularly for my table with 3+ million rows. (4 second execution with 1200+ results)
This should work both on MySQL and SQL Server.

Solution by sub query fiddle Link
select * from messages where id in
(select max(id) from messages group by Name)
Solution By join condition fiddle link
select m1.* from messages m1
left outer join messages m2
on ( m1.id<m2.id and m1.name=m2.name )
where m2.id is null
Reason for this post is to give fiddle link only.
Same SQL is already provided in other answers.

An approach with considerable speed is as follows.
SELECT *
FROM messages a
WHERE Id = (SELECT MAX(Id) FROM messages WHERE a.Name = Name)
Result
Id Name Other_Columns
3 A A_data_3
5 B B_data_2
6 C C_data_1

We will look at how you can use MySQL at getting the last record in a Group By of records. For example if you have this result set of posts.
id
category_id
post_title
1
1
Title 1
2
1
Title 2
3
1
Title 3
4
2
Title 4
5
2
Title 5
6
3
Title 6
I want to be able to get the last post in each category which are Title 3, Title 5 and Title 6. To get the posts by the category you will use the MySQL Group By keyboard.
select * from posts group by category_id
But the results we get back from this query is.
id
category_id
post_title
1
1
Title 1
4
2
Title 4
6
3
Title 6
The group by will always return the first record in the group on the result set.
SELECT id, category_id, post_title
FROM posts
WHERE id IN (
SELECT MAX(id)
FROM posts
GROUP BY category_id );
This will return the posts with the highest IDs in each group.
id
category_id
post_title
3
1
Title 3
5
2
Title 5
6
3
Title 6
Reference Click Here

Here are two suggestions. First, if mysql supports ROW_NUMBER(), it's very simple:
WITH Ranked AS (
SELECT Id, Name, OtherColumns,
ROW_NUMBER() OVER (
PARTITION BY Name
ORDER BY Id DESC
) AS rk
FROM messages
)
SELECT Id, Name, OtherColumns
FROM messages
WHERE rk = 1;
I'm assuming by "last" you mean last in Id order. If not, change the ORDER BY clause of the ROW_NUMBER() window accordingly. If ROW_NUMBER() isn't available, this is another solution:
Second, if it doesn't, this is often a good way to proceed:
SELECT
Id, Name, OtherColumns
FROM messages
WHERE NOT EXISTS (
SELECT * FROM messages as M2
WHERE M2.Name = messages.Name
AND M2.Id > messages.Id
)
In other words, select messages where there is no later-Id message with the same Name.

Clearly there are lots of different ways of getting the same results, your question seems to be what is an efficient way of getting the last results in each group in MySQL. If you are working with huge amounts of data and assuming you are using InnoDB with even the latest versions of MySQL (such as 5.7.21 and 8.0.4-rc) then there might not be an efficient way of doing this.
We sometimes need to do this with tables with even more than 60 million rows.
For these examples I will use data with only about 1.5 million rows where the queries would need to find results for all groups in the data. In our actual cases we would often need to return back data from about 2,000 groups (which hypothetically would not require examining very much of the data).
I will use the following tables:
CREATE TABLE temperature(
id INT UNSIGNED NOT NULL AUTO_INCREMENT,
groupID INT UNSIGNED NOT NULL,
recordedTimestamp TIMESTAMP NOT NULL,
recordedValue INT NOT NULL,
INDEX groupIndex(groupID, recordedTimestamp),
PRIMARY KEY (id)
);
CREATE TEMPORARY TABLE selected_group(id INT UNSIGNED NOT NULL, PRIMARY KEY(id));
The temperature table is populated with about 1.5 million random records, and with 100 different groups.
The selected_group is populated with those 100 groups (in our cases this would normally be less than 20% for all of the groups).
As this data is random it means that multiple rows can have the same recordedTimestamps. What we want is to get a list of all of the selected groups in order of groupID with the last recordedTimestamp for each group, and if the same group has more than one matching row like that then the last matching id of those rows.
If hypothetically MySQL had a last() function which returned values from the last row in a special ORDER BY clause then we could simply do:
SELECT
last(t1.id) AS id,
t1.groupID,
last(t1.recordedTimestamp) AS recordedTimestamp,
last(t1.recordedValue) AS recordedValue
FROM selected_group g
INNER JOIN temperature t1 ON t1.groupID = g.id
ORDER BY t1.recordedTimestamp, t1.id
GROUP BY t1.groupID;
which would only need to examine a few 100 rows in this case as it doesn't use any of the normal GROUP BY functions. This would execute in 0 seconds and hence be highly efficient.
Note that normally in MySQL we would see an ORDER BY clause following the GROUP BY clause however this ORDER BY clause is used to determine the ORDER for the last() function, if it was after the GROUP BY then it would be ordering the GROUPS. If no GROUP BY clause is present then the last values will be the same in all of the returned rows.
However MySQL does not have this so let's look at different ideas of what it does have and prove that none of these are efficient.
Example 1
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM selected_group g
INNER JOIN temperature t1 ON t1.id = (
SELECT t2.id
FROM temperature t2
WHERE t2.groupID = g.id
ORDER BY t2.recordedTimestamp DESC, t2.id DESC
LIMIT 1
);
This examined 3,009,254 rows and took ~0.859 seconds on 5.7.21 and slightly longer on 8.0.4-rc
Example 2
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM temperature t1
INNER JOIN (
SELECT max(t2.id) AS id
FROM temperature t2
INNER JOIN (
SELECT t3.groupID, max(t3.recordedTimestamp) AS recordedTimestamp
FROM selected_group g
INNER JOIN temperature t3 ON t3.groupID = g.id
GROUP BY t3.groupID
) t4 ON t4.groupID = t2.groupID AND t4.recordedTimestamp = t2.recordedTimestamp
GROUP BY t2.groupID
) t5 ON t5.id = t1.id;
This examined 1,505,331 rows and took ~1.25 seconds on 5.7.21 and slightly longer on 8.0.4-rc
Example 3
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM temperature t1
WHERE t1.id IN (
SELECT max(t2.id) AS id
FROM temperature t2
INNER JOIN (
SELECT t3.groupID, max(t3.recordedTimestamp) AS recordedTimestamp
FROM selected_group g
INNER JOIN temperature t3 ON t3.groupID = g.id
GROUP BY t3.groupID
) t4 ON t4.groupID = t2.groupID AND t4.recordedTimestamp = t2.recordedTimestamp
GROUP BY t2.groupID
)
ORDER BY t1.groupID;
This examined 3,009,685 rows and took ~1.95 seconds on 5.7.21 and slightly longer on 8.0.4-rc
Example 4
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM selected_group g
INNER JOIN temperature t1 ON t1.id = (
SELECT max(t2.id)
FROM temperature t2
WHERE t2.groupID = g.id AND t2.recordedTimestamp = (
SELECT max(t3.recordedTimestamp)
FROM temperature t3
WHERE t3.groupID = g.id
)
);
This examined 6,137,810 rows and took ~2.2 seconds on 5.7.21 and slightly longer on 8.0.4-rc
Example 5
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM (
SELECT
t2.id,
t2.groupID,
t2.recordedTimestamp,
t2.recordedValue,
row_number() OVER (
PARTITION BY t2.groupID ORDER BY t2.recordedTimestamp DESC, t2.id DESC
) AS rowNumber
FROM selected_group g
INNER JOIN temperature t2 ON t2.groupID = g.id
) t1 WHERE t1.rowNumber = 1;
This examined 6,017,808 rows and took ~4.2 seconds on 8.0.4-rc
Example 6
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM (
SELECT
last_value(t2.id) OVER w AS id,
t2.groupID,
last_value(t2.recordedTimestamp) OVER w AS recordedTimestamp,
last_value(t2.recordedValue) OVER w AS recordedValue
FROM selected_group g
INNER JOIN temperature t2 ON t2.groupID = g.id
WINDOW w AS (
PARTITION BY t2.groupID
ORDER BY t2.recordedTimestamp, t2.id
RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
)
) t1
GROUP BY t1.groupID;
This examined 6,017,908 rows and took ~17.5 seconds on 8.0.4-rc
Example 7
SELECT t1.id, t1.groupID, t1.recordedTimestamp, t1.recordedValue
FROM selected_group g
INNER JOIN temperature t1 ON t1.groupID = g.id
LEFT JOIN temperature t2
ON t2.groupID = g.id
AND (
t2.recordedTimestamp > t1.recordedTimestamp
OR (t2.recordedTimestamp = t1.recordedTimestamp AND t2.id > t1.id)
)
WHERE t2.id IS NULL
ORDER BY t1.groupID;
This one was taking forever so I had to kill it.

Here is another way to get the last related record using GROUP_CONCAT with order by and SUBSTRING_INDEX to pick one of the record from the list
SELECT
`Id`,
`Name`,
SUBSTRING_INDEX(
GROUP_CONCAT(
`Other_Columns`
ORDER BY `Id` DESC
SEPARATOR '||'
),
'||',
1
) Other_Columns
FROM
messages
GROUP BY `Name`
Above query will group the all the Other_Columns that are in same Name group and using ORDER BY id DESC will join all the Other_Columns in a specific group in descending order with the provided separator in my case i have used || ,using SUBSTRING_INDEX over this list will pick the first one
Fiddle Demo

Hi #Vijay Dev if your table messages contains Id which is auto increment primary key then to fetch the latest record basis on the primary key your query should read as below:
SELECT m1.* FROM messages m1 INNER JOIN (SELECT max(Id) as lastmsgId FROM messages GROUP BY Name) m2 ON m1.Id=m2.lastmsgId

I've not yet tested with large DB but I think this could be faster than joining tables:
SELECT *, Max(Id) FROM messages GROUP BY Name

SELECT
column1,
column2
FROM
table_name
WHERE id IN
(SELECT
MAX(id)
FROM
table_name
GROUP BY column1)
ORDER BY column1 ;

You can take view from here as well.
http://sqlfiddle.com/#!9/ef42b/9
FIRST SOLUTION
SELECT d1.ID,Name,City FROM Demo_User d1
INNER JOIN
(SELECT MAX(ID) AS ID FROM Demo_User GROUP By NAME) AS P ON (d1.ID=P.ID);
SECOND SOLUTION
SELECT * FROM (SELECT * FROM Demo_User ORDER BY ID DESC) AS T GROUP BY NAME ;

If you need the most recent or oldest record of a text column in a grouped query, and you would rather not use a subquery, you can do this...
Ex. You have a list of movies and need to get the count in the series and the latest movie
id
series
name
1
Star Wars
A New hope
2
Star Wars
The Empire Strikes Back
3
Star Wars
Return of The Jedi
SELECT COUNT(id), series, SUBSTRING(MAX(CONCAT(id, name)), LENGTH(id) + 1),
FROM Movies
GROUP BY series
This returns...
id
series
name
3
Star Wars
Return of The Jedi
MAX will return the row with the highest value, so by concatenating the id to the name, you now will get the newest record, then just strip off the id for your final result.
More efficient than using a subquery.
So for the given example:
SELECT MAX(Id), Name, SUBSTRING(MAX(CONCAT(Id, Other_Columns)), LENGTH(Id) + 1),
FROM messages
GROUP BY Name
Happy coding, and "May The Force Be With You" :)

Try this:
SELECT jos_categories.title AS name,
joined .catid,
joined .title,
joined .introtext
FROM jos_categories
INNER JOIN (SELECT *
FROM (SELECT `title`,
catid,
`created`,
introtext
FROM `jos_content`
WHERE `sectionid` = 6
ORDER BY `id` DESC) AS yes
GROUP BY `yes`.`catid` DESC
ORDER BY `yes`.`created` DESC) AS joined
ON( joined.catid = jos_categories.id )

Here is my solution:
SELECT
DISTINCT NAME,
MAX(MESSAGES) OVER(PARTITION BY NAME) MESSAGES
FROM MESSAGE;

SELECT * FROM table_name WHERE primary_key IN (SELECT MAX(primary_key) FROM table_name GROUP BY column_name )

**
Hi, this query might help :
**
SELECT
*
FROM
message
WHERE
`Id` IN (
SELECT
MAX(`Id`)
FROM
message
GROUP BY
`Name`
)
ORDER BY
`Id` DESC

i find best solution in https://dzone.com/articles/get-last-record-in-each-mysql-group
select * from `data` where `id` in (select max(`id`) from `data` group by `name_id`)

The below query will work fine as per your question.
SELECT M1.*
FROM MESSAGES M1,
(
SELECT SUBSTR(Others_data,1,2),MAX(Others_data) AS Max_Others_data
FROM MESSAGES
GROUP BY 1
) M2
WHERE M1.Others_data = M2.Max_Others_data
ORDER BY Others_data;

If you want the last row for each Name, then you can give a row number to each row group by the Name and order by Id in descending order.
QUERY
SELECT t1.Id,
t1.Name,
t1.Other_Columns
FROM
(
SELECT Id,
Name,
Other_Columns,
(
CASE Name WHEN #curA
THEN #curRow := #curRow + 1
ELSE #curRow := 1 AND #curA := Name END
) + 1 AS rn
FROM messages t,
(SELECT #curRow := 0, #curA := '') r
ORDER BY Name,Id DESC
)t1
WHERE t1.rn = 1
ORDER BY t1.Id;
SQL Fiddle

If performance is really your concern you can introduce a new column on the table called IsLastInGroup of type BIT.
Set it to true on the columns which are last and maintain it with every row insert/update/delete. Writes will be slower, but you'll benefit on reads. It depends on your use case and I recommend it only if you're read-focused.
So your query will look like:
SELECT * FROM Messages WHERE IsLastInGroup = 1

MariaDB 10.3 and newer using GROUP_CONCAT.
The idea is to use ORDER BY + LIMIT:
SELECT GROUP_CONCAT(id ORDER BY id DESC LIMIT 1) AS id,
name,
GROUP_CONCAT(Other_columns ORDER BY id DESC LIMIT 1) AS Other_columns
FROM t
GROUP BY name;
db<>fiddle demo

How about this:
SELECT DISTINCT ON (name) *
FROM messages
ORDER BY name, id DESC;
I had similar issue (on postgresql tough) and on a 1M records table. This solution takes 1.7s vs 44s produced by the one with LEFT JOIN.
In my case I had to filter the corrispondant of your name field against NULL values, resulting in even better performances by 0.2 secs

Yet another option without subqueries.
This solution uses MySQL LAST_VALUE window function, exploiting Window Function Frame available MySQL tool from .
SELECT DISTINCT
LAST_VALUE(Id)
OVER(PARTITION BY Name
ORDER BY Id
ROWS BETWEEN 0 PRECEDING
AND UNBOUNDED FOLLOWING),
Name,
LAST_VALUE(Other_Columns)
OVER(PARTITION BY Name
ORDER BY Id
ROWS BETWEEN 0 PRECEDING
AND UNBOUNDED FOLLOWING)
FROM
tab
Try it here.

Hope below Oracle query can help:
WITH Temp_table AS
(
Select id, name, othercolumns, ROW_NUMBER() over (PARTITION BY name ORDER BY ID
desc)as rank from messages
)
Select id, name,othercolumns from Temp_table where rank=1

Another approach :
Find the propertie with the max m2_price withing each program (n properties in 1 program) :
select * from properties p
join (
select max(m2_price) as max_price
from properties
group by program_id
) p2 on (p.program_id = p2.program_id)
having p.m2_price = max_price

What about:
select *, max(id) from messages group by name
I have tested it on sqlite and it returns all columns and max id value for all names.

As of MySQL 8.0.14, this can also be achieved using Lateral Derived Tables:
SELECT t.*
FROM messages t
JOIN LATERAL (
SELECT name, MAX(id) AS id
FROM messages t1
WHERE t.name = t1.name
GROUP BY name
) trn ON t.name = trn.name AND t.id = trn.id
db<>fiddle

deleting specific duplicate and original entries in a table based on date

i have a table called "main" which has 4 columns, ID, name, DateID and Sign.
i want to create a query that will delete entries in this table if there is the same ID record in twice within a certain DateID.
i have my where clause that searches the previous 3 weeks
where DateID =((SELECT MAX( DateID)
WHERE DateID < ( SELECT MAX( DateID )-3))
e.g of my dataset im working with:
id
name
DateID
sign
12345
Paul
1915
Up
23658
Danny
1915
Down
37868
Jake
1916
Up
37542
Elle
1917
Up
12345
Paul
1917
Down
87456
John
1918
Up
78563
Luke
1919
Up
23658
Danny
1920
Up
in the case above, both entries for ID 12345 would need to be removed.
however the entries for ID 23658 would need to be kept as the DateID > 3
how would this be possible?

You can use window functions for this.
It's not quite clear, but it seems LAG and conditional COUNT should fit what you need.
DELETE t
FROM (
SELECT *,
CountWithinDate = COUNT(CASE WHEN t.PrevDate >= t.DateId - 3 THEN 1 END) OVER (PARTITION BY t.id)
FROM (
SELECT *,
PrevDate = LAG(t.DateID) OVER (PARTITION BY t.id ORDER BY t.DateID)
FROM YourTable t
) t
) t
WHERE CountWithinDate > 0;
db<>fiddle
Note that you do not need to re-join the table, you can delete directly from the t derived table.

Hope this works:
DELETE FROM test_tbl
WHERE id IN (
SELECT T1.id
FROM test_tbl T1
WHERE EXISTS (SELECT 1 FROM test_tbl T2 WHERE T1.id = T2.id AND ABS(T2.dateid - T1.dateid) < 3 AND T1.dateid <> T2.dateid)
)
In case you need more logic for data processing, I would suggest using Stored Procedure.

Last record per transaction

I am trying to select the last record per sales order.
My query is simple in SQL Server management.
SELECT *
FROM DOCSTATUS
The problem is that this database has tens of thousands of records, as it tracks all SO steps.
ID SO SL Status Reason Attach Name Name Systemdate
22 951581 3 Processed Customer NULL NULL BW 2016-12-05 13:33:27.857
23 951581 3 Submitted Customer NULL NULL BW 2016-17-05 13:33:27.997
24 947318 1 Hold Customer NULL NULL bw 2016-12-05 13:54:27.173
25 947318 1 Invoices Submit Customer NULL NULL bw 2016-13-05 13:54:27.300
26 947318 1 Ship Customer NULL NULL bw 2016-14-05 13:54:27.440
I would to see the most recent record per the SO
ID SO SL Status Reason Attach Name Name Systemdate
23 951581 4 Submitted Customer NULL NULL BW 2016-17-05 13:33:27.997
26 947318 1 Ship Customer NULL NULL bw 2016-14-05 13:54:27.440

Well I'm not sure how that table has two Name columns, but one easy way to do this is with ROW_NUMBER():
;WITH cte AS
(
SELECT *,
rn = ROW_NUMBER() OVER (PARTITION BY SO ORDER BY Systemdate DESC)
FROM dbo.DOCSTATUS
)
SELECT ID, SO, SL, Status, Reason, ..., Systemdate
FROM cte WHERE rn = 1;
Also please always reference the schema, even if today everything is under dbo.

I think you can keep it this simple:
SELECT *
FROM DOCSTATUS
WHERE ID IN (SELECT MAX(ID)
FROM DOCSTATUS
GROUP BY SO)
You want only the maximum ID from each SO.

An efficient method with the right index is a correlated subquery:
select t.*
from t
where t.systemdate = (select max(t2.systemdate) from t t2 where t2.so = t.so);
The index is on (so, systemdate).

How to loop through a table and look for adjacent rows with identical values in one field and update another column conditionally in SQL?

I have a table that has a field called ‘group_quartile’ which uses the sql ntile() function to calculate which quartile does each customer lie in on the basis of their activity scores. However using this ntile(0 function i find there are some customers which have same activity scores but are in different quartiles. I need to modify the ‘group-quartile’ column to make all customers with the same activity scores lie in the same group_quartile.
A view of the table values :
Customer_id Product Activity_Score Group_Quartile
CH002 T 2328 1
CR001 T 268 1
CN001 T 178 1
MS006 T 45 2
ST001 T 21 2
CH001 T 0 2
CX001 T 0 3
KH001 T 0 3
MH002 T 0 4
SJ003 T 0 4
CN001 S 439 1
AC002 S 177 1
SC001 S 91 2
PV001 S 69 3
TS001 S 0 4
I used CTE expression but it didnot work.
My query only updates(from the above example) :
CX001 T 0 3
modified to
CX001 T 0 2
So only the first repeating activity score is checked and that row’s group_quartile is updated to 2.
I need to update all the below rows as well.
CX001 T 0 3
KH001 T 0 3
MH002 T 0 4
SJ003 T 0 4
I cannot use DENSE_RANK() instead of quartile to segregate the records as arranging the customers per product in approximately 4 quartiels is a business requirement.
From my understanding I need to loop through the table -
Find a row which has same activity score and the same product as its predecessor but has a different group_quartile
Update the selected row's group_quartile to its predecessor's quartile value
Then againg loop through the updated table to look for any row with the above condition , and update that row similarly.
The loop continues until all rows with same activity scores (for the same product) are put in the same group_quartile.
--
THIS IS THE TABLE STRUCTURE I AM WORKING ON:
CREATE TABLE #custs
(
customer_id NVARCHAR(50),
PRODUCT NVARCHAR(50),
ACTIVITYSCORE INT,
GROUP_QUARTILE INT,
RANKED int,
rownum int
)
INSERT INTO #custs
-- adding a column to give row numbers(unique id) for each row
SELECT customer_id, PRODUCT, ACTIVITYSCORE,GROUP_QUARTILE,RANKED,
Row_Number() OVER(partition by product ORDER BY activityscore desc) N
FROM
-- rows derived form a parent table based on 'segmentation' column value
(SELECT customer_id, PRODUCT, ACTIVITYSCORE,
DENSE_RANK() OVER (PARTITION BY PRODUCT ORDER BY ACTIVITYSCORE DESC) AS RANKED,
NTILE(4) OVER(PARTITION BY PRODUCT ORDER BY ACTIVITYSCORE DESC) AS GROUP_QUARTILE
FROM #parent_score_table WHERE (SEGMENTATION = 'Large')
) as temp
ORDER BY PRODUCT
The method I used to achieve this partially is as follows :
-- The query find the rows which have activity score same as its previous row but has a different GRoup_Quartiel value.
-- I need to use a query to update this row.
-- Next, find any rows in this newly updated table that has activity score same as its previous row but a differnet group_quartile vale.
-- Continue to update the tabel in the above manner until all rows with same activity scores have been updated to have the same quartile value
I managed to find only the rows which have activity score same as its previous row but has a different Group_Quartill value but cannot loop thorugh to find new rows that may match this updated row.
select t1.customer_id,t1.ACTIVITYSCORE,t1.PRODUCT, t1.RANKED, t1.GROUP_QUARTILE, t2.GROUP_QUARTILE as modified_quartile
from #custs t1, #custs t2
where (
t1.rownum = t2.rownum + 1
and t1.ACTIVITYSCORE = t2.ACTIVITYSCORE
and t1.PRODUCT = t2.PRODUCT
and not(t1.GROUP_QUARTILE = t2.GROUP_QUARTILE))
Can anyone help with what should be the t-sql statement for the above?
Cheers!

Assuming you've already worked out a basis Group_Quartile as indicated above, you can update the table with a query similar to the following:
update a
set Group_Quartile = coalesce(topq.Group_Quartile, a.Group_Quartile)
from activityScores a
outer apply
(
select top 1 Group_Quartile
from activityScores topq
where a.Product = topq.Product
and a.Activity_Score = topq.Activity_Score
order by Group_Quartile
) topq
SQL Fiddle with demo.
Edit after comment:
I think you did a lot of the work already by getting the Group_Quartile working.
For each row in the table, the statement above will join another row to it using the outer apply statement. Only one row will be joined back to the original table due to the top 1 clause.
So each for each row, we are returning one more row. The extra row will be matched on Product and Activity_Score, and will be the row with the lowest Group_Quartile (order by Group_Quartile). Finally, we update the original row with this lowest Group_Quartile value so each row with the same Product and Activity_Score will now have the same, lowest possible Group_Quartile.
So SJ003, MH002, etc will all be matched to CH001 and be updated with the Group_Quartile value of CH001, i.e. 2.
It's hard to explain code! Another thing that might help is looking at the join without the update statement:
select a.*
, TopCustomer_id = topq.Customer_Id
, NewGroup_Quartile = topq.Group_Quartile
from activityScores a
outer apply
(
select top 1 *
from activityScores topq
where a.Product = topq.Product
and a.Activity_Score = topq.Activity_Score
order by Group_Quartile
) topq
SQL Fiddle without update.

Update rows in table

I have a table (Fruits) with following column
Fruit_Name(varchar2(10)) | IsDuplicate Number(1)
Mango 0
Orange 0
Mango 0
What i have to do is to update IsDuplicate column to 1 where Fruit_Name in Distinct i.e
Fruit_Name(varchar2(10)) | IsDuplicate Number(1)
Mango 1
Orange 1
Mango 0
How should I do this?

This should do it as far as I can tell
update fruits
set is_duplicate =
(
select case
when dupe_count > 1 and row_num = 1 then 1
else 0
end as is_dupe
from (
select f2.fruit_name,
count(*) over (partition by f2.fruit_name) as dupe_count,
row_number() over (partition by f2.fruit_name order by f2.fruit_name) as row_num,
rowid as row_id
from fruits f2
) ft
where ft.row_id = fruits.rowid
and ft.fruit_name = fruits.fruit_name
)
Edit
But instead of actually updating the table, why don't you create a view that returns the information. Depending on the size of the table it might be more efficient.
create view fruit_dupe_view
as
select fruit_name,
case
when dupe_count > 1 and row_num = 1 then 1
else 0
end as is_duplicate
from (
select fruit_name,
count(*) over (partition by fruit_name) as dupe_count,
row_number() over (partition by fruit_name order by fruit_name) as row_num
from fruits
) ft

Straight and simple -- you can't. Not with vanilla SQL. SQL is a set-based processing language, and you do things in sets. There is no way for SQL to know which one of your many Mango's should be tagged 1. You can probably tag one of them with 1 using windowing functions or ROWNUM etc. in a SELECT, but I don't think it can be done with an UPDATE.
In other words, your table lacks a unique key in the first place, so it is not something that SQL is designed to process.
However, you may try adding a sequential primary key to each row. Then you can easily write an UPDATE query to set to 1 all the rows with COUNT > 1 and key = MIN(key).
In other words, you really have to look at your database design. Relational databases are not supposed to contain "duplicates". That fact that you need to mark something as a duplicate means that your tables are designed wrong in the first place. The database should not even allow duplications to enter into its data.