Update with limit and offset applied to joined table - sql-server

I have an UPDATE with an INNER JOIN. My overall question is how (if it is possible at all) to set LIMIT and OFFSET to that joined table.
Example query without limit and offset:
UPDATE t2
SET t2.some_col = t1.some_col
FROM table_1 t1
INNER JOIN table_2 t2
ON t1.other_col = t2.other_col
And how to rebuild this query to get only first 1000000, 1000000 - 2000000, 2000000 - 3000000, ... etc. records from t2.
Exact scenery:
My task is to rebuild very large tables with hash indexes (char(32)) to bigint indexes. Example tables:
URLS: PAGE_VIEWS:
id char(32) urlId char(32)
other_columns referrerUrlId char(32)
intUrlId bigint (added and filled) other_columns
intUrlId bigint (needs to update)
intReferrerUrlId bigint (needs to update)
First table is about 200 mln records, second over 1 bln. I update this tables in packs. The update job wouldn't be difficult if I could use WHERE urls.intUrlId BETWEEN ... but I can't. Sometimes JOIN return on example 500000 records for single pack but many times it returns 0 so it update 0 records but join in such big tables costs quite a lot of time. So I need equal packs limited by page_views table not urls table. Page_views table has no column I can base WHERE clause so I need limit this table by TOP and ROW_NUMBER() clauses but I dunno how. (I'm quite new in MsSQL, I used to work on MySQL and PostgreSql databases which has LIMIT and OFFSET clauses.
For any answer I would appreciate info about cost of this solution because someone would appreciate any LIMIT - OFFSET solution but not me. I already have query which update what I need. But it use intUrlId from urls table and it is slow. I need faster solution. Server version 2008.
BTW. Don't ask me who the hell based database on char indexes :-) Now it become a problem and multi TBs database needs to be rebuilded.

You can try using a CTE with a RowNumber
WITH toUpdate AS
(
SELECT urlId, intUrlId, ROW_NUMBER() OVER (ORDER BY something) AS RowNumber
FROM [XXX].[ZZZ].[Urls]
)
UPDATE pv
SET pv.intUrlId = urls.intUrlId
FROM toUpdate urls
INNER JOIN [XXX].[YYY].[PageViews] pv WITH(NOLOCK) ON pv.urlId = urls.id and RowNumber between 10000 and 20000

To answer the question "how to set LIMIT, OFFSET to joined table" in Jeremy's answer tables needs to be switched. I'll give correct answer for example query I used in my question.
WITH toUpdate AS
(
SELECT some_col, other_col, ROW_NUMBER() OVER (ORDER BY any_column) AS RowNumber
FROM table_2
)
UPDATE toUpdate
SET toUpdate.some_col = t1.some_col
FROM table_1 t1
INNER JOIN toUpdate ON t1.other_col = toUpdate.other_col
AND RowNumber BETWEEN 1000000 AND 2000000

Related

Too many parameter values slowing down query

I have a query that runs fairly fast under normal circumstances. But it is running very slow (at least 20 minutes in SSMS) due to how many values are in the filter.
Here's the generic version of it, and you can see that one part is filtering by over 8,000 values, making it run slow.
SELECT DISTINCT
column
FROM
table_a a
JOIN
table_b b ON (a.KEY = b.KEY)
WHERE
a.date BETWEEN #Start and #End
AND b.ID IN (... over 8,000 values)
AND b.place IN ( ... 20 values)
ORDER BY
a.column ASC
It's to the point where it's too slow to use in the production application.
Does anyone know how to fix this, or optimize the query?
To make a query fast, you need indexes.
You need a separate index for the following columns: a.KEY, b.KEY, a.date, b.ID, b.place.
As gotqn wrote before, if you put your 8000 items to a temp table, and inner join it, it will make the query even faster too, but without the index on the other part of the join it will be slow even then.
What you need is to put the filtering values in temporary table. Then use the table to apply filtering using INNER JOIN instead of WHERE IN. For example:
IF OBJECT_ID('tempdb..#FilterDataSource') IS NOT NULL
BEGIN;
DROP TABLE #FilterDataSource;
END;
CREATE TABLE #FilterDataSource
(
[ID] INT PRIMARY KEY
);
INSERT INTO #FilterDataSource ([ID])
-- you need to split values
SELECT DISTINCT column
FROM table_a a
INNER JOIN table_b b
ON (a.KEY = b.KEY)
INNER JOIN #FilterDataSource FS
ON b.id = FS.ID
WHERE a.date BETWEEN #Start and #End
AND b.place IN ( ... 20 values)
ORDER BY .column ASC;
Few important notes:
we are using temporary table in order to allow parallel execution plans to be used
if you have fast (for example CLR function) for spiting, you can join the function itself
it is not good to use IN with many values, the SQL Server is not able to build always the execution plan which may lead to time outs/internal error - you can find more information here

How to create multiple return subquery? [duplicate]

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This question already has answers here:
Retrieving the last record in each group - MySQL
(33 answers)
Closed 3 years ago.
I have this table for documents (simplified version here):
id
rev
content
1
1
...
2
1
...
1
2
...
1
3
...
How do I select one row per id and only the greatest rev?
With the above data, the result should contain two rows: [1, 3, ...] and [2, 1, ..]. I'm using MySQL.
Currently I use checks in the while loop to detect and over-write old revs from the resultset. But is this the only method to achieve the result? Isn't there a SQL solution?
At first glance...
All you need is a GROUP BY clause with the MAX aggregate function:
SELECT id, MAX(rev)
FROM YourTable
GROUP BY id
It's never that simple, is it?
I just noticed you need the content column as well.
This is a very common question in SQL: find the whole data for the row with some max value in a column per some group identifier. I heard that a lot during my career. Actually, it was one the questions I answered in my current job's technical interview.
It is, actually, so common that Stack Overflow community has created a single tag just to deal with questions like that: greatest-n-per-group.
Basically, you have two approaches to solve that problem:
Joining with simple group-identifier, max-value-in-group Sub-query
In this approach, you first find the group-identifier, max-value-in-group (already solved above) in a sub-query. Then you join your table to the sub-query with equality on both group-identifier and max-value-in-group:
SELECT a.id, a.rev, a.contents
FROM YourTable a
INNER JOIN (
SELECT id, MAX(rev) rev
FROM YourTable
GROUP BY id
) b ON a.id = b.id AND a.rev = b.rev
Left Joining with self, tweaking join conditions and filters
In this approach, you left join the table with itself. Equality goes in the group-identifier. Then, 2 smart moves:
The second join condition is having left side value less than right value
When you do step 1, the row(s) that actually have the max value will have NULL in the right side (it's a LEFT JOIN, remember?). Then, we filter the joined result, showing only the rows where the right side is NULL.
So you end up with:
SELECT a.*
FROM YourTable a
LEFT OUTER JOIN YourTable b
ON a.id = b.id AND a.rev < b.rev
WHERE b.id IS NULL;
Conclusion
Both approaches bring the exact same result.
If you have two rows with max-value-in-group for group-identifier, both rows will be in the result in both approaches.
Both approaches are SQL ANSI compatible, thus, will work with your favorite RDBMS, regardless of its "flavor".
Both approaches are also performance friendly, however your mileage may vary (RDBMS, DB Structure, Indexes, etc.). So when you pick one approach over the other, benchmark. And make sure you pick the one which make most of sense to you.
My preference is to use as little code as possible...
You can do it using IN
try this:
SELECT *
FROM t1 WHERE (id,rev) IN
( SELECT id, MAX(rev)
FROM t1
GROUP BY id
)
to my mind it is less complicated... easier to read and maintain.
I am flabbergasted that no answer offered SQL window function solution:
SELECT a.id, a.rev, a.contents
FROM (SELECT id, rev, contents,
ROW_NUMBER() OVER (PARTITION BY id ORDER BY rev DESC) ranked_order
FROM YourTable) a
WHERE a.ranked_order = 1
Added in SQL standard ANSI/ISO Standard SQL:2003 and later extended with ANSI/ISO Standard SQL:2008, window (or windowing) functions are available with all major vendors now. There are more types of rank functions available to deal with a tie issue: RANK, DENSE_RANK, PERSENT_RANK.
Yet another solution is to use a correlated subquery:
select yt.id, yt.rev, yt.contents
from YourTable yt
where rev =
(select max(rev) from YourTable st where yt.id=st.id)
Having an index on (id,rev) renders the subquery almost as a simple lookup...
Following are comparisons to the solutions in #AdrianCarneiro's answer (subquery, leftjoin), based on MySQL measurements with InnoDB table of ~1million records, group size being: 1-3.
While for full table scans subquery/leftjoin/correlated timings relate to each other as 6/8/9, when it comes to direct lookups or batch (id in (1,2,3)), subquery is much slower then the others (Due to rerunning the subquery). However I couldnt differentiate between leftjoin and correlated solutions in speed.
One final note, as leftjoin creates n*(n+1)/2 joins in groups, its performance can be heavily affected by the size of groups...
I can't vouch for the performance, but here's a trick inspired by the limitations of Microsoft Excel. It has some good features
GOOD STUFF
It should force return of only one "max record" even if there is a tie (sometimes useful)
It doesn't require a join
APPROACH
It is a little bit ugly and requires that you know something about the range of valid values of the rev column. Let us assume that we know the rev column is a number between 0.00 and 999 including decimals but that there will only ever be two digits to the right of the decimal point (e.g. 34.17 would be a valid value).
The gist of the thing is that you create a single synthetic column by string concatenating/packing the primary comparison field along with the data you want. In this way, you can force SQL's MAX() aggregate function to return all of the data (because it has been packed into a single column). Then you have to unpack the data.
Here's how it looks with the above example, written in SQL
SELECT id,
CAST(SUBSTRING(max(packed_col) FROM 2 FOR 6) AS float) as max_rev,
SUBSTRING(max(packed_col) FROM 11) AS content_for_max_rev
FROM (SELECT id,
CAST(1000 + rev + .001 as CHAR) || '---' || CAST(content AS char) AS packed_col
FROM yourtable
)
GROUP BY id
The packing begins by forcing the rev column to be a number of known character length regardless of the value of rev so that for example
3.2 becomes 1003.201
57 becomes 1057.001
923.88 becomes 1923.881
If you do it right, string comparison of two numbers should yield the same "max" as numeric comparison of the two numbers and it's easy to convert back to the original number using the substring function (which is available in one form or another pretty much everywhere).
Unique Identifiers? Yes! Unique identifiers!
One of the best ways to develop a MySQL DB is to have each id AUTOINCREMENT (Source MySQL.com). This allows a variety of advantages, too many to cover here. The problem with the question is that its example has duplicate ids. This disregards these tremendous advantages of unique identifiers, and at the same time, is confusing to those familiar with this already.
Cleanest Solution
DB Fiddle
Newer versions of MySQL come with ONLY_FULL_GROUP_BY enabled by default, and many of the solutions here will fail in testing with this condition.
Even so, we can simply select DISTINCT someuniquefield, MAX( whateverotherfieldtoselect ), ( *somethirdfield ), etc., and have no worries understanding the result or how the query works :
SELECT DISTINCT t1.id, MAX(t1.rev), MAX(t2.content)
FROM Table1 AS t1
JOIN Table1 AS t2 ON t2.id = t1.id AND t2.rev = (
SELECT MAX(rev) FROM Table1 t3 WHERE t3.id = t1.id
)
GROUP BY t1.id;
SELECT DISTINCT Table1.id, max(Table1.rev), max(Table2.content) : Return DISTINCT somefield, MAX() some otherfield, the last MAX() is redundant, because I know it's just one row, but it's required by the query.
FROM Employee : Table searched on.
JOIN Table1 AS Table2 ON Table2.rev = Table1.rev : Join the second table on the first, because, we need to get the max(table1.rev)'s comment.
GROUP BY Table1.id: Force the top-sorted, Salary row of each employee to be the returned result.
Note that since "content" was "..." in OP's question, there's no way to test that this works. So, I changed that to "..a", "..b", so, we can actually now see that the results are correct:
id max(Table1.rev) max(Table2.content)
1 3 ..d
2 1 ..b
Why is it clean? DISTINCT(), MAX(), etc., all make wonderful use of MySQL indices. This will be faster. Or, it will be much faster, if you have indexing, and you compare it to a query that looks at all rows.
Original Solution
With ONLY_FULL_GROUP_BY disabled, we can use still use GROUP BY, but then we are only using it on the Salary, and not the id:
SELECT *
FROM
(SELECT *
FROM Employee
ORDER BY Salary DESC)
AS employeesub
GROUP BY employeesub.Salary;
SELECT * : Return all fields.
FROM Employee : Table searched on.
(SELECT *...) subquery : Return all people, sorted by Salary.
GROUP BY employeesub.Salary: Force the top-sorted, Salary row of each employee to be the returned result.
Unique-Row Solution
Note the Definition of a Relational Database: "Each row in a table has its own unique key." This would mean that, in the question's example, id would have to be unique, and in that case, we can just do :
SELECT *
FROM Employee
WHERE Employee.id = 12345
ORDER BY Employee.Salary DESC
LIMIT 1
Hopefully this is a solution that solves the problem and helps everyone better understand what's happening in the DB.
Another manner to do the job is using MAX() analytic function in OVER PARTITION clause
SELECT t.*
FROM
(
SELECT id
,rev
,contents
,MAX(rev) OVER (PARTITION BY id) as max_rev
FROM YourTable
) t
WHERE t.rev = t.max_rev
The other ROW_NUMBER() OVER PARTITION solution already documented in this post is
SELECT t.*
FROM
(
SELECT id
,rev
,contents
,ROW_NUMBER() OVER (PARTITION BY id ORDER BY rev DESC) rank
FROM YourTable
) t
WHERE t.rank = 1
This 2 SELECT work well on Oracle 10g.
MAX() solution runs certainly FASTER that ROW_NUMBER() solution because MAX() complexity is O(n) while ROW_NUMBER() complexity is at minimum O(n.log(n)) where n represent the number of records in table !
Something like this?
SELECT yourtable.id, rev, content
FROM yourtable
INNER JOIN (
SELECT id, max(rev) as maxrev
FROM yourtable
GROUP BY id
) AS child ON (yourtable.id = child.id) AND (yourtable.rev = maxrev)
I like to use a NOT EXIST-based solution for this problem:
SELECT
id,
rev
-- you can select other columns here
FROM YourTable t
WHERE NOT EXISTS (
SELECT * FROM YourTable t WHERE t.id = id AND rev > t.rev
)
This will select all records with max value within the group and allows you to select other columns.
SELECT *
FROM Employee
where Employee.Salary in (select max(salary) from Employee group by Employe_id)
ORDER BY Employee.Salary
Note: I probably wouldn't recommend this anymore in MySQL 8+ days. Haven't used it in years.
A third solution I hardly ever see mentioned is MySQL specific and looks like this:
SELECT id, MAX(rev) AS rev
, 0+SUBSTRING_INDEX(GROUP_CONCAT(numeric_content ORDER BY rev DESC), ',', 1) AS numeric_content
FROM t1
GROUP BY id
Yes it looks awful (converting to string and back etc.) but in my experience it's usually faster than the other solutions. Maybe that's just for my use cases, but I have used it on tables with millions of records and many unique ids. Maybe it's because MySQL is pretty bad at optimizing the other solutions (at least in the 5.0 days when I came up with this solution).
One important thing is that GROUP_CONCAT has a maximum length for the string it can build up. You probably want to raise this limit by setting the group_concat_max_len variable. And keep in mind that this will be a limit on scaling if you have a large number of rows.
Anyway, the above doesn't directly work if your content field is already text. In that case you probably want to use a different separator, like \0 maybe. You'll also run into the group_concat_max_len limit quicker.
I think, You want this?
select * from docs where (id, rev) IN (select id, max(rev) as rev from docs group by id order by id)
SQL Fiddle :
Check here
NOT mySQL, but for other people finding this question and using SQL, another way to resolve the greatest-n-per-group problem is using Cross Apply in MS SQL
WITH DocIds AS (SELECT DISTINCT id FROM docs)
SELECT d2.id, d2.rev, d2.content
FROM DocIds d1
CROSS APPLY (
SELECT Top 1 * FROM docs d
WHERE d.id = d1.id
ORDER BY rev DESC
) d2
Here's an example in SqlFiddle
I would use this:
select t.*
from test as t
join
(select max(rev) as rev
from test
group by id) as o
on o.rev = t.rev
Subquery SELECT is not too eficient maybe, but in JOIN clause seems to be usable. I'm not an expert in optimizing queries, but I've tried at MySQL, PostgreSQL, FireBird and it does work very good.
You can use this schema in multiple joins and with WHERE clause. It is my working example (solving identical to yours problem with table "firmy"):
select *
from platnosci as p
join firmy as f
on p.id_rel_firmy = f.id_rel
join (select max(id_obj) as id_obj
from firmy
group by id_rel) as o
on o.id_obj = f.id_obj and p.od > '2014-03-01'
It is asked on tables having teens thusands of records, and it takes less then 0,01 second on really not too strong machine.
I wouldn't use IN clause (as it is mentioned somewhere above). IN is given to use with short lists of constans, and not as to be the query filter built on subquery. It is because subquery in IN is performed for every scanned record which can made query taking very loooong time.
Since this is most popular question with regard to this problem, I'll re-post another answer to it here as well:
It looks like there is simpler way to do this (but only in MySQL):
select *
from (select * from mytable order by id, rev desc ) x
group by id
Please credit answer of user Bohemian in this question for providing such a concise and elegant answer to this problem.
Edit: though this solution works for many people it may not be stable in the long run, since MySQL doesn't guarantee that GROUP BY statement will return meaningful values for columns not in GROUP BY list. So use this solution at your own risk!
If you have many fields in select statement and you want latest value for all of those fields through optimized code:
select * from
(select * from table_name
order by id,rev desc) temp
group by id
How about this:
SELECT all_fields.*
FROM (SELECT id, MAX(rev) FROM yourtable GROUP BY id) AS max_recs
LEFT OUTER JOIN yourtable AS all_fields
ON max_recs.id = all_fields.id
This solution makes only one selection from YourTable, therefore it's faster. It works only for MySQL and SQLite(for SQLite remove DESC) according to test on sqlfiddle.com. Maybe it can be tweaked to work on other languages which I am not familiar with.
SELECT *
FROM ( SELECT *
FROM ( SELECT 1 as id, 1 as rev, 'content1' as content
UNION
SELECT 2, 1, 'content2'
UNION
SELECT 1, 2, 'content3'
UNION
SELECT 1, 3, 'content4'
) as YourTable
ORDER BY id, rev DESC
) as YourTable
GROUP BY id
Here is a nice way of doing that
Use following code :
with temp as (
select count(field1) as summ , field1
from table_name
group by field1 )
select * from temp where summ = (select max(summ) from temp)
I like to do this by ranking the records by some column. In this case, rank rev values grouped by id. Those with higher rev will have lower rankings. So highest rev will have ranking of 1.
select id, rev, content
from
(select
#rowNum := if(#prevValue = id, #rowNum+1, 1) as row_num,
id, rev, content,
#prevValue := id
from
(select id, rev, content from YOURTABLE order by id asc, rev desc) TEMP,
(select #rowNum := 1 from DUAL) X,
(select #prevValue := -1 from DUAL) Y) TEMP
where row_num = 1;
Not sure if introducing variables makes the whole thing slower. But at least I'm not querying YOURTABLE twice.
here is another solution hope it will help someone
Select a.id , a.rev, a.content from Table1 a
inner join
(SELECT id, max(rev) rev FROM Table1 GROUP BY id) x on x.id =a.id and x.rev =a.rev
None of these answers have worked for me.
This is what worked for me.
with score as (select max(score_up) from history)
select history.* from score, history where history.score_up = score.max
Here's another solution to retrieving the records only with a field that has the maximum value for that field. This works for SQL400 which is the platform I work on. In this example, the records with the maximum value in field FIELD5 will be retrieved by the following SQL statement.
SELECT A.KEYFIELD1, A.KEYFIELD2, A.FIELD3, A.FIELD4, A.FIELD5
FROM MYFILE A
WHERE RRN(A) IN
(SELECT RRN(B)
FROM MYFILE B
WHERE B.KEYFIELD1 = A.KEYFIELD1 AND B.KEYFIELD2 = A.KEYFIELD2
ORDER BY B.FIELD5 DESC
FETCH FIRST ROW ONLY)
Sorted the rev field in reverse order and then grouped by id which gave the first row of each grouping which is the one with the highest rev value.
SELECT * FROM (SELECT * FROM table1 ORDER BY id, rev DESC) X GROUP BY X.id;
Tested in http://sqlfiddle.com/ with the following data
CREATE TABLE table1
(`id` int, `rev` int, `content` varchar(11));
INSERT INTO table1
(`id`, `rev`, `content`)
VALUES
(1, 1, 'One-One'),
(1, 2, 'One-Two'),
(2, 1, 'Two-One'),
(2, 2, 'Two-Two'),
(3, 2, 'Three-Two'),
(3, 1, 'Three-One'),
(3, 3, 'Three-Three')
;
This gave the following result in MySql 5.5 and 5.6
id rev content
1 2 One-Two
2 2 Two-Two
3 3 Three-Two
You can make the select without a join when you combine the rev and id into one maxRevId value for MAX() and then split it back to original values:
SELECT maxRevId & ((1 << 32) - 1) as id, maxRevId >> 32 AS rev
FROM (SELECT MAX(((rev << 32) | id)) AS maxRevId
FROM YourTable
GROUP BY id) x;
This is especially fast when there is a complex join instead of a single table. With the traditional approaches the complex join would be done twice.
The above combination is simple with bit functions when rev and id are INT UNSIGNED (32 bit) and combined value fits to BIGINT UNSIGNED (64 bit). When the id & rev are larger than 32-bit values or made of multiple columns, you need combine the value into e.g. a binary value with suitable padding for MAX().
Explanation
This is not pure SQL. This will use the SQLAlchemy ORM.
I came here looking for SQLAlchemy help, so I will duplicate Adrian Carneiro's answer with the python/SQLAlchemy version, specifically the outer join part.
This query answers the question of:
"Can you return me the records in this group of records (based on same id) that have the highest version number".
This allows me to duplicate the record, update it, increment its version number, and have the copy of the old version in such a way that I can show change over time.
Code
MyTableAlias = aliased(MyTable)
newest_records = appdb.session.query(MyTable).select_from(join(
MyTable,
MyTableAlias,
onclause=and_(
MyTable.id == MyTableAlias.id,
MyTable.version_int < MyTableAlias.version_int
),
isouter=True
)
).filter(
MyTableAlias.id == None,
).all()
Tested on a PostgreSQL database.
I used the below to solve a problem of my own. I first created a temp table and inserted the max rev value per unique id.
CREATE TABLE #temp1
(
id varchar(20)
, rev int
)
INSERT INTO #temp1
SELECT a.id, MAX(a.rev) as rev
FROM
(
SELECT id, content, SUM(rev) as rev
FROM YourTable
GROUP BY id, content
) as a
GROUP BY a.id
ORDER BY a.id
I then joined these max values (#temp1) to all of the possible id/content combinations. By doing this, I naturally filter out the non-maximum id/content combinations, and am left with the only max rev values for each.
SELECT a.id, a.rev, content
FROM #temp1 as a
LEFT JOIN
(
SELECT id, content, SUM(rev) as rev
FROM YourTable
GROUP BY id, content
) as b on a.id = b.id and a.rev = b.rev
GROUP BY a.id, a.rev, b.content
ORDER BY a.id

Why LEFT JOIN increase query time so much?

I'm using SQL Server 2012 and encountered strange problem.
This is the original query I've been using:
DELETE FROM [TABLE_TEMP]
INSERT INTO [TABLE_TEMP]
SELECT H.*, NULL
FROM [TABLE_Accounts_History] H
INNER JOIN [TABLE_For_Filtering] A ON H.[RSIN] = A.[RSIN]
WHERE
H.[NUM] = (SELECT TOP 1 [NUM] FROM [TABLE_Accounts_History]
WHERE [RSIN] = H.[RSIN]
AND [AccountSys] = H.[AccountSys]
AND [Cl_Acc_Typ] = H.[Cl_Acc_Typ]
AND [DATE_DEAL] < #dte
ORDER BY [DATE_DEAL] DESC)
AND H.[TYPE_DEAL] <> 'D'
Table TABLE_Accounts_History consists of 3 200 000 records.
Table TABLE_For_Filtering is around 1 500 records.
Insert took me 2m 40s and inserted 1 600 000 records for further work.
But then I decided to attach a column from pretty small table TABLE_Additional (only around 100 recs):
DELETE FROM [TABLE_TEMP]
INSERT INTO [TABLE_TEMP]
SELECT H.*, P.[prof_type]
FROM [TABLE_Accounts_History] H
INNER JOIN [TABLE_For_Filtering] A ON H.[RSIN] = A.[RSIN]
LEFT JOIN [TABLE_Additional] P ON H.[ACCOUNTSYS] = P.[AccountSys]
WHERE H.[NUM] = ( SELECT TOP 1 [NUM]
FROM [TABLE_Accounts_History]
WHERE [RSIN] = H.[RSIN]
AND [AccountSys] = H.[AccountSys]
AND [Cl_Acc_Typ] = H.[Cl_Acc_Typ]
AND [DATE_DEAL] < #dte
ORDER BY [DATE_DEAL] DESC)
AND H.[TYPE_DEAL] <> 'D'
And now it takes ages this query to complete. Why is it so? How such small left join possibly can dump performance? How can I improve it?
An update: no luck so far with LEFT JOIN. Indexes, no indexes, hinted indexes.. For now I've found a workaround by using my first query and UPDATE after it:
UPDATE [TABLE_TEMP]
SET [PROF_TYPE] = P1.[prof_type]
FROM [TABLE_TEMP] A1
LEFT JOIN
[TABLE_Additional] P1
ON A1.[ACCOUNTSYS] = P1.[AccountSys]
Takes only 5s and does pretty much the same I've been trying to achieve. Still SQL Server performance is mystery to me.
The 'small' left join is actually doing a lot of extra work for you. SQL Server has to go back to TABLE_Additional for each row from your inner join between and TABLE_Accounts_History and TABLE_For_Filtering. You can help SQL Server a few ways to speed this up by trying some indexing. You could:
1) Ensure TABLE_Accounts_History has an index on the Foreign Key H.[ACCOUNTSYS]
2) If you think that TABLE_Additional will always be accessed by the AccountSys, i.e. you will be requesting AccountSys in ordered groups, you could create a Clustered Index on TABLE_Additional.AccountSys. (in orther words physically order the table on disk in order of AccountSys)
3) You could also ensure there is a foreign key index on TABLE_Accounts_History.
left outer join selects all rows from left table. In Your case your left table has 3 200 000 this much rows and then comparing with each record to your right table. One solution is to use Indexes which will reduce retrieval time.

Prevent MORE records returned by JOINING a lookup table?

I am having a problem. My Lookup table is producing MORE records than my original query..
I feel I am missing something basic. How do I prevent ending up with more records by bringing in a column or two from the 2nd table?
-- 140930
SELECT COUNT(ID)
FROM dbo.USER_ACCOUNTS AS A
-- 143324
LEFT JOIN dbo.DOMAIN AS B
ON A.Domain = B.DOMAIN
As you can see my count grows to 143324 after the join. I have tried outer joins as well. There are only 150 or so domains to join on. AND some should not even be in the results because no domain match should be found!?
This is SQL SERVER 2008 R2
|Thanks|
SELECT COUNT(ID)
FROM dbo.USER_ACCOUNTS AS A
WHERE EXISTS (
SELECT 1
FROM dbo.DOMAIN AS B
WHERE A.Domain = B.DOMAIN
)

Performance Issues with Count(*) in SQL Server

I am having some performance issues with a query I am running in SQL Server 2008. I have the following query:
Query1:
SELECT GroupID, COUNT(*) AS TotalRows FROM Table1
INNER JOIN (
SELECT Column1 FROM Table2 WHERE GroupID = #GroupID
) AS Table2
ON Table2.Column1 = Table1.Column1
WHERE CONTAINS(Table1.*, #Word) GROUP BY GroupID
Table1 contains about 500,000 rows. Table2 contains about 50,000, but will eventually contain millions. Playing around with the query, I found that re-writing the query as follows will reduce the execution time of the query to under 1 second.
Query 2:
SELECT GroupID FROM Table1
INNER JOIN (
SELECT Column1 FROM Table2 WHERE GroupID = #GroupID
) AS Table2 ON Table2.Column1 = Table1.Column1
WHERE CONTAINS(Table1.*, #Word)
What I do not understand is it is a simple count query. If I execute the following query on Table 1, it returns in < 1 s:
Query 3:
SELECT Count(*) FROM Table1
This query returns around 500,000 as the result.
However, the Original query (Query 1) mentioned above only returns a count of 50,000 and takes 3s to execute even though simply removing the GROUP BY (Query 2) reduces the execution time to < 1s.
I do not believe this is an indexing issue as I already have indexes on the appropriate columns. Any help would be very appreciated.
Performing a simple COUNT(*) FROM table can do a much more efficient scan of the clustered index, since it doesn't have to care about any filtering, joining, grouping, etc. The queries that include full-text search predicates and mysterious subqueries have to do a lot more work. The count is not the most expensive part there - I bet they're still relatively slow if you leave the count out but leave the group by in, e.g.:
SELECT GroupID FROM Table1
INNER JOIN (
SELECT Column1 FROM Table2 WHERE GroupID = #GroupID
) AS Table2 ON Table2.Column1 = Table1.Column1
WHERE CONTAINS(Table1.*, #Word)
GROUP BY GroupID;
Looking at the provided actual execution plan in the free SQL Sentry Plan Explorer*, I see this:
And this:
Which lead me to believe you should:
Update the statistics on both Inventory and A001_Store_Inventory so that the optimizer can get a better rowcount estimate (which could lead to a better plan shape).
Ensure that Inventory.ItemNumber and A001_Store_Inventory.ItemNumber are the same data type to avoid an implicit conversion.
(*) disclaimer: I work for SQL Sentry.
You should have a look at the query plan to see what SQL Server is doing to retrieve the data you requested. Also, I think it would be better to rewrite your original query as follows:
SELECT
Table1.GroupID -- When you use JOINs, it's always better to specify Table (or Alias) names
,COUNT(Table1.GroupID) AS TotalRows
FROM
Table1
INNER JOIN
Table2 ON
(Table2.Column1 = Table1.Column1) AND
(Table2.GroupID = #GroupID)
WHERE
CONTAINS(Table1.*, #Word)
GROUP BY
Table1.GroupID
Also, keep in mind that a simple COUNT and a COUNT with a JOIN and GROUP BY are not the same thing. In one case, it's just a matter of going through an index and making a count, in the other there are other tables and grouping involved, which can be time consuming depending on several factors.

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