SQL query inside a query - sql-server

Allow me to share my query in an informal way (not following the proper syntax) as I'm a newbie - my apologies:
select * from table where
(
(category = Clothes)
OR
(category = games)
)
AND
(
(Payment Method = Cash) OR (Credit Card)
)
This is one part from my query. The other part is that from the output of the above, I don’t want to show the records meeting these criteria:
Category = Clothes
Branch = B3 OR B4 OR B5
Customer = Chris
VIP Level = 2 OR 3 OR 4 OR 5
SQL is not part of my job but I’m doing it to ease things for me. So you can consider me a newbie. I searched online, maybe I missed the solution.
Thank you,
HimaTech

There's a few ways of doing this (specifically within SQL - not looking at MDX here).
Probably the easiest to understand way would be to get the dataset that you want to exclude as a subquery, and use the not exists/not in command.
SELECT * FROM table
WHERE category IN ('clothes', 'games')
AND payment_method IN ('cash', 'credit card')
AND id NOT IN (
-- this is the subquery containing the results to exclude
SELECT id FROM table
WHERE category = 'clothes' [AND/OR]
branch IN ('B3', 'B4', 'B5') [AND/OR]
customer = 'Chris' [AND/OR]
vip_level IN (2, 3, 4, 5)
)
Another way you could do it is to do left join the results you want to exclude on to the overall results, and exclude these results using IS NULL like so:
SELECT t1.*
FROM table
LEFT JOIN
(SELECT id FROM table
WHERE customer = 'chris' AND ...) -- results to exclude
AS t2 ON table.id = t2.id
WHERE t2.id IS NULL
AND ... -- any other criteria
The trick here is that when doing a left join, if there is no result from the join then the value is null. But this is certainly more difficult to get your head around.
There will also be different performance impacts from doing it either way, so it may be worth looking into it. This is probably a good place to start:
What's the difference between NOT EXISTS vs. NOT IN vs. LEFT JOIN WHERE IS NULL?

Related

SQL View Optimization

I am trying to build a view that does basically 2 things, whether a record in table 1 is in table 2 and whether a link to another table is still there. it worked on a subset of data, but when i tried to run the full query it timed out in the view designer.
The view worked fine until I added in the check to see whether the link to another table was present.
Initially it joined table A to Table B and filtered out where A.ID wasnt present in the ID column in table B
I was then told that if the link between the person and the address table (stored in table C) was removed then we would have no way of knowing other than to get a full extract of that table again and see which links are no longer present. I am trying to use that check to determine whether to display some data in particular columns
I am using the following structure close to 60 times to choose whether to show information in a column:
Column1 = case when exists (select LinkID from LinkTable C
where cast(C.LinkAddressID as varchar) = A.AddressID
and cast(C.LinkID as varchar) = A.ID)
then Column1
else NULL
end
There is about 1.6m records in Table A just over 4m records in the Link table.
is there a better way to write this query / view that would be more optimized?
Please let me know if more information is needed
Select C.LinkID
From A
Left Join C On C.LinkAddressID = A.AddressID And C.LinkID = A.ID
This will give you C.LinkID if a match exists on the two conditions and NULL if both criteria are not satisfied.
Having indexes / keys such as primary key on A.ID and foreign key relationships based on what is in the join clause will provide very good performance.
As Joe suggested, if for all 60 columns you use the same AddressId and Id fields to match two tables, I believe so you can use something as following query
SELECT
Column1 = CASE WHEN C.LinkID IS NULL THEN NULL ELSE A.Column1 END,
....
FROM A
Left Join LinkTable C
ON C.LinkAddressID = A.AddressID AND C.LinkID = A.ID
Casting data types will definitely disable the advantage from index. So keep away data type cast if possible on joins and in WHERE clauses

In SQL server what is the difference between using = and join?

We have been learning SQL Server programming in Database Systems class. The professor goes exceptionally fast and is not very open to asking questions. I did ask him this, but he just advised me to review the code he'd given (which doesn't actually answer the question).
When making a query, what is the difference between using the term JOIN and using the "=" operator? For example, I have the following query:
SELECT VENDOR_NAME, ITEM_NAME, QTY
FROM VENDOR, VENDOR_ORDER, INVENTORY
WHERE VENDOR.VENDOR_ID = VENDOR_ORDER.VENDOR_ID
AND VENDOR_ORDER.INV_ID = INVENTORY.INV_ID
ORDER BY VENDOR_NAME
In class the professor has used the following code:
SELECT DISTINCT CUS_CODE, CUS_LNAME, CUS_FNAME
FROM CUSTOMER JOIN INVOICE USING (CUS_CODE)
JOIN LINE USING (INV_NUMBER)
JOIN PRODUCT USING (P_CODE)
WHERE P_DESCRIPT = 'Claw hammer';
It seems to me that using a join is performing the same function as the "=" is in mine? Am I correct or is there a difference that I am unaware of?
Edit:
Trying to use Inner Join based on things I've found on Google. I ended up with the following.
SELECT VENDOR_NAME, ITEM_NAME, QTY
FROM VENDOR, VENDOR_ORDER, INVENTORY
INNER JOIN VENDOR_ORDER USING (VENDOR_ID)
INNER JOIN INVENTORY USING (INV_ID)
ORDER BY VENDOR_NAME
Now I get the error message ""VENDOR_ID" is not a recognized table hints option. If it is intended as a parameter to a table-valued function or to the CHANGETABLE function, ensure that your database compatibility mode is set to 90.
"
I'm using 2014, so my compatibility level is 120.
The difference between what you are doing (in your first example) and what your professor is doing is that you are creating a set of all possible combinations of the rows in those tables, then narrowing your results to the ones that match the way you want them to. He is creating a set of only the rows that match the way you want them to in the first place.
If your tables were:
Table1
ID1
1
2
3
Table2
ID2
1
2
3
Your query starts with basically a cross join:
Select * from Table1, Table2
ID1 ID2
1 1
2 1
3 1
1 2
2 2
3 2
1 3
2 3
3 3
Then narrows that result set down by applying the where ID1 = ID2
ID1 ID2
1 1
2 2
3 3
This is inefficient and somewhat difficult to read in more complex examples, as people have mentioned in the comments.
Your professor is building the criteria to relate the two tables into the join itself, so he is effectively skipping the first step. In our example tables, this would be Select * from Table1 join Table2 on ID1 = ID2.
There are several types of joins in SQL, which differ based on how you want to handle cases where a value exists in one of your tables, but has no match in the other table. See traditional venn diagram explanation from http://www.codeproject.com/Articles/33052/Visual-Representation-of-SQL-Joins:
Don't worry it's your professors issue not yours. Make sure you give appropriate feedback at the end of the course ;)
Hang in there.
So here is some info:
So the first issue is: your professor should not be teaching you USING because it has limited implementation (it definitely won't work in SQL Server) and IMHO it's a bad idea because you should explicitly list join columns.
Here are some queries that will work in SQL Server - lets build them up bit by bit. I will need to make some assumptions
First just join vendor to vendor order:
SELECT VENDOR.VENDOR_NAME, VENDOR_ORDER.QTY
FROM VENDOR
INNER JOIN
VENDOR_ORDER
ON VENDOR.VENDOR_ID = VENDOR_ORDER.VENDOR_ORDER
By using inner join we match these two tables on VENDOR_ID
If you have seven records in VENDOR_ORDER with VENDOR_ID = 7, and one record in table VENDOR then the result of this will be.... 7 records, with the data from the VENDOR table repeating seven times.
Now to that, join in inventory
SELECT VENDOR.VENDOR_NAME, INVENTORY.ITEM_NAME, VENDOR_ORDER.QTY
FROM VENDOR
INNER JOIN
VENDOR_ORDER
ON VENDOR.VENDOR_ID = VENDOR_ORDER.VENDOR_ORDER
INNER JOIN
INVENTORY ON INVENTORY.INV_ID = VENDOR_ORDER.INV_ID
ORDER BY VENDOR.VENDOR_NAME
This 'INNER JOIN' syntax is the modern version (often referred as SQL-92). Having a comma seperated list after the FROM clause is 'old school'
Both methods work the same way but the old school way causes ambiguities if you start using outer joins. So get into the habit of doing it the new way.
Lastly, to neaten things up you can use an 'allias'. Which means you give each table a shorter name then use that. I've also added in the invoice number so you can get an idea of what's going on:
SELECT V.VENDOR_NAME, I.ITEM_NAME, ORD.INV_ID, ORD.QTY
FROM VENDOR As V
INNER JOIN
VENDOR_ORDER As ORD
ON V.VENDOR_ID = ORD.VENDOR_ORDER
INNER JOIN
INVENTORY As I ON I.INV_ID = ORD.INV_ID
ORDER BY V.VENDOR_NAME

How to create multiple return subquery? [duplicate]

Want to improve this post? Provide detailed answers to this question, including citations and an explanation of why your answer is correct. Answers without enough detail may be edited or deleted.
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

How to compare the results of two separate queries that have a common field in Sql Server?

Maybe it's because it's Friday but I can't seem to get this and it feels like it should be really really easy.
I have one result set (pulls the data from multiple tables) that gives me the following result set:
Room Type | ImageID | Date
The next query (pulled from separate tables than above) result give me :
ImageID | Date | Tagged
I just want to compare the results to see which imageid's are common between the two results, and which fall into each list separately.
I have tried insert the results from each into temp tables and do a join on imageid but sql server does NOT like that. Ideally I would like a solution that allows me to do this without creating temp tables.
I researched using union but it seems that because the two results don't have the same columns I avoided that route.
Thanks!
You can do this a number of different ways, for instance you can use either a inner join or intersect using the two sets as derived tables.
select ImageID from (your_first_query)
intersect
select ImageID from (your_second_query)
or
select query1.ImageID
from (your_first_query) query1
inner join (your_second_query) query2 on query1.ImageID = query2.ImageID
You don't explain why SQL-Server does not like performing a join on ImageId. Shouldn't be a problem. As to your first question, you need to transform your two queries into subqueries and perform a Full Out Join on them:
Select * from
(Select Room Type, ImageID, Date ...) T1 Full Outer Join
(Select ImageID, Date, Tagged ...) T2 on T1.ImageId = T2.ImageId
The analysis of Null values on both side of the join should give you what you want.
SELECT TableA.ImageID
FROM TableA
WHERE TableA.ImageID
IN (SELECT TableB.ImageID FROM TableB)
select q1.ImageID
from (your_first_query) q1
WHERE EXISTS (select 1
from (your_second_query)
WHERE ImageID = q1.ImageID)

T-SQL filtering on dynamic name-value pairs

I'll describe what I am trying to achieve:
I am passing down to a SP an xml with name value pairs that I put into a table variable, let's say #nameValuePairs.
I need to retrieve a list of IDs for expressions (a table) with those exact match of name-value pairs (attributes, another table) associated.
This is my schema:
Expressions table --> (expressionId, attributeId)
Attributes table --> (attributeId, attributeName, attributeValue)
After trying complicated stuff with dynamic SQL and evil cursors (which works but it's painfully slow) this is what I've got now:
--do the magic plz!
-- retrieve number of name-value pairs
SET #noOfAttributes = select count(*) from #nameValuePairs
select distinct
e.expressionId, a.attributeName, a.attributeValue
into
#temp
from
expressions e
join
attributes a
on
e.attributeId = a.attributeId
join --> this join does the filtering
#nameValuePairs nvp
on
a.attributeName = nvp.name and a.attributeValue = nvp.value
group by
e.expressionId, a.attributeName, a.attributeValue
-- now select the IDs I need
-- since I did a select distinct above if the number of matches
-- for a given ID is the same as noOfAttributes then BINGO!
select distinct
expressionId
from
#temp
group by expressionId
having count(*) = #noOfAttributes
Can people please review and see if they can spot any problems? Is there a better way of doing this?
Any help appreciated!
I belive that this would satisfy the requirement you're trying to meet. I'm not sure how much prettier it is, but it should work and wouldn't require a temp table:
SET #noOfAttributes = select count(*) from #nameValuePairs
SELECT e.expressionid
FROM expression e
LEFT JOIN (
SELECT attributeid
FROM attributes a
JOIN #nameValuePairs nvp ON nvp.name = a.Name AND nvp.Value = a.value
) t ON t.attributeid = e.attributeid
GROUP BY e.expressionid
HAVING SUM(CASE WHEN t.attributeid IS NULL THEN (#noOfAttributes + 1) ELSE 1 END) = #noOfAttributes
EDIT: After doing some more evaluation, I found an issue where certain expressions would be included that shouldn't have been. I've modified my query to take that in to account.
One error I see is that you have no table with an alias of b, yet you are using: a.attributeId = b.attributeId.
Try fixing that and see if it works, unless I am missing something.
EDIT: I think you just fixed this in your edit, but is it supposed to be a.attributeId = e.attributeId?
This is not a bad approach, depending on the sizes and indexes of the tables, including #nameValuePairs. If it these row counts are high or it otherwise becomes slow, you may do better to put #namValuePairs into a temp table instead, add appropriate indexes, and use a single query instead of two separate ones.
I do notice that you are putting columns into #temp that you are not using, would be faster to exclude them (though it would mean duplicate rows in #temp). Also, you second query has both a "distinct" and a "group by" on the same columns. You don't need both so I would drop the "distinct" (probably won't affect performance, because the optimizer already figured this out).
Finally, #temp would probably be faster with a clustered non-unique index on expressionid (I am assuming that this is SQL 2005). You could add it after the SELECT..INTO, but it is usually as fast or faster to add it before you load. This would require you to CREATE #temp first, add the clustered and then use INSERT..SELECT to load it instead.
I'll add an example of merging the queries in a mintue... Ok, here's one way to merge them into a single query (this should be 2000-compatible also):
-- retrieve number of name-value pairs
SET #noOfAttributes = select count(*) from #nameValuePairs
-- now select the IDs I need
-- since I did a select distinct above if the number of matches
-- for a given ID is the same as noOfAttributes then BINGO!
select
expressionId
from
(
select distinct
e.expressionId, a.attributeName, a.attributeValue
from
expressions e
join
attributes a
on
e.attributeId = a.attributeId
join --> this join does the filtering
#nameValuePairs nvp
on
a.attributeName = nvp.name and a.attributeValue = nvp.value
) as Temp
group by expressionId
having count(*) = #noOfAttributes

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