Say I have two tables: A and B
Table A
+----+-------+
| id | value |
+----+-------+
| 1 | 20 |
| 2 | 20 |
| 3 | 10 |
| 4 | 0 |
+----+-------+
Table B
+----+-------+
| id | value |
+----+-------+
| 1 | 20 |
| 2 | 10 |
| 3 | 30 |
| 4 | 20 |
| 5 | 20 |
| 6 | 10 |
+----+-------+
If I do SELECT value, COUNT(*) AS occurrence FROM A GROUP BY value, I'll get:
+-------+------------+
| value | occurrence |
+-------+------------+
| 20 | 2 |
| 10 | 1 |
| 0 | 1 |
+-------+------------+
Based on this grouping of table A, I want to delete occurrence records from table B with the same values. In other words, I want to delete from B 2 records with value 20, 1 record with value 10, and 1 record with value 0. (Other conditions include 'do nothing if no record exists' and 'smallest id first', but I think these conditions are pretty trivial compared to the bulk of this question.)
Table B after deleting should be:
+----+-------+
| id | value |
+----+-------+
| 3 | 30 |
| 5 | 20 |
| 6 | 10 |
+----+-------+
From the official TOP documentation, doesn't seems like I can perform some JOIN to use as the TOP expression.
We could use ROW_NUMBER with CTEs here:
WITH cteA AS (
SELECT value, COUNT(*) cnt
FROM A
GROUP BY value
),
cteB AS (
SELECT *, ROW_NUMBER() OVER (PARTITION BY value ORDER BY id) rn
FROM B
)
DELETE
FROM cteB b
INNER JOIN cteA a
ON b.value = a.value
WHERE
b.rn <= a.cnt;
The logic here is that we use ROW_NUMBER to keep track of the order of each value in the B table. Then, we join to bring in the counts of each value in the A table, and we only delete B records for which the row number is strictly less than or equal to the A count.
See the demo link below to verify that the logic be correct. Note that I use a select there, not a delete, but the correct rows are being targeted for deletion.
Demo
I have a requirement of assigning sequential Numbers to students. The problem is the data must be partitioned by course first and then the Number must be assigned starting from say 1 to say 1000.
Each Course should have at least a gap of say 20 ( may differ ) to accommodate a student in the same course in case, someone, if left out as of now appears later.
and so on.
I have tried partitioning and Recursive CTE but haven't succeeded to get this kind of series for assigning finally the RollNumber.
Any help would be very much anticipated.
Thank You.
You can do this in two steps with a subquery. First get your row_number() partitioned by course and order by student id, then you can bump each partition by 20 by counting the previous 1 values returned by your row_number() and multiplying by 20.
SELECT
s_no,
course,
rownumber + (SUM(CASE WHEN rownumber = 1 THEN 1 ELSE 0 END) OVER (ORDER BY course, s_no ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW) * 20) - 20
FROM
(
SELECT
s_no,
course,
ROW_NUMBER() OVER (PARTITION BY course ORDER BY s_no) rownumber
FROM test
) sub
ORDER BY course, s_no;
+------+--------+-----------+
| s_no | course | rownumber |
+------+--------+-----------+
| 1 | A | 1 |
| 2 | A | 2 |
| 3 | A | 3 |
| 1 | B | 21 |
| 2 | B | 22 |
| 3 | B | 23 |
| 1 | C | 41 |
| 2 | C | 42 |
| 3 | C | 43 |
+------+--------+-----------+
This isn't exactly as your desired output, but I think it's the same as what you are after. You can monkey with the math in that main query though and bump each partitions starting position to whatever you want.
I'm using SQL Server 2008, and trying to gather individual customer data appearing over multiple rows in my table, an example of my database is as follows:
custID | status | type | value
-------------------------
1 | 1 | A | 150
1 | 0 | B | 100
1 | 0 | A | 153
1 | 0 | A | 126
2 | 0 | A | 152
2 | 0 | B | 101
2 | 0 | B | 103
For each custID, my task is to find a flag if status=1 for any row, if type=B for any row, and the average of value in all cases where type=B. So my solution should look like:
custID | statusFlag | typeFlag | valueAv
-------------------------------------------
1 | 1 | 1 | 100
2 | 0 | 1 | 102
I can get answers for this using lots of row_number() over (partition by .. ), to create ids, and creating subtables for each column selecting the desired id. My issue is this method is awkward and time consuming, as I have many more columns than shown above to do this over, and many tables to repeat it for. My ideal solution would be to define my own aggregate() function so I could just do:
select custID, ag1(statusFlag), ag2(typeFlag)
group by custID
but as far as I can tell custom aggregates can't be defined in SQL server. Is there a nicer general approach to this problem, which doesn't require defining lots of id's ?
use CASE WHEN to evaluate the value and apply the aggregate function accordingly
select custID,
statusFlag = max(status),
typeFlag = max(case when type = 'B' then 1 else 0 end),
valueAv = avg(case when type = 'B' then value end)
from samples
group by custID
I'm trying to get a "lineage" or similar, and also information about the first and last links (at least; all would be good), out of a table that has self-referential links between rows that have been "replaced" and rows that have replaced them. The table has a structure along these lines:
CREATE TABLE Thing (
Id INT PRIMARY KEY,
TStamp DATETIME,
Replaces INT NULL,
ReplacedBy INT NULL
);
I'm stuck with this structure. :-) It's sort of doubly-linked (yes, it's a bit silly): Each row has a unique Id, and then a row that has been "replaced" by another will have a non-NULL ReplacedBy giving the Id of the replacement row, and the replacement row will also have a link back to what it replaces in Replaces. So we can use either Replaces or ReplacedBy (or both) if we like.
Here's some sample data:
INSERT INTO Thing
(Id, TStamp, Replaces, ReplacedBy)
VALUES
(1, '2017-01-01', NULL, 11),
(2, '2017-01-02', NULL, 12),
(3, '2017-01-03', NULL, NULL),
(4, '2017-01-04', NULL, NULL),
(11, '2017-01-11', 1, NULL),
(12, '2017-01-12', 2, 22),
(22, '2017-01-22', 12, NULL);
So 1 was replaced by 11, 2 was replaced by 12, and 12 was replaced by 22.
I'd like to get the following information for each chain of links from this table in a reasonable way:
Details of the row that started the chain
Details of the final row in the chain
Details of the links in-between or at least how many links (total) there are in the chain
...filtered by a date range applied to the last row in the chain.
In an ideal universe, I'd get back something like this:
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−−−−−−+
| FirstId | LastId | Id | Links | TStamp |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−−−−−−+
| 1 | 11 | 1 | 2 | 2017−01−01 |
| 1 | 11 | 11 | 2 | 2017−01−11 |
| 2 | 22 | 2 | 3 | 2017−01−02 |
| 2 | 22 | 12 | 3 | 2017−01−12 |
| 2 | 22 | 22 | 3 | 2017−01−22 |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−−−−−−+
So far I have this query, which I could post-process to get the above:
WITH Data AS (
SELECT Id, TStamp, Replaces, ReplacedBy, 0 AS Depth
FROM Thing
UNION ALL
SELECT Thing.Id, Thing.TStamp, Thing.Replaces, Thing.ReplacedBy, Depth + 1
FROM Data
JOIN Thing
ON Thing.Replaces = Data.Id
)
SELECT *
FROM Data
WHERE ReplacedBy IS NOT NULL OR Depth > 0
ORDER BY
Id, Depth;
That gives me:
+−−−−+−−−−−−−−−−−−+−−−−−−−−−−+−−−−−−−−−−−−+−−−−−−−+
| Id | TStamp | Replaces | ReplacedBy | Depth |
+−−−−+−−−−−−−−−−−−+−−−−−−−−−−+−−−−−−−−−−−−+−−−−−−−+
| 1 | 2017−01−01 | NULL | 11 | 0 |
| 2 | 2017−01−02 | NULL | 12 | 0 |
| 11 | 2017−01−11 | 1 | NULL | 1 |
| 12 | 2017−01−12 | 2 | 12 | 0 |
| 12 | 2017−01−12 | 2 | 12 | 1 |
| 22 | 2017−01−13 | 12 | NULL | 1 |
| 22 | 2017−01−13 | 12 | NULL | 2 |
+−−−−+−−−−−−−−−−−−+−−−−−−−−−−+−−−−−−−−−−−−+−−−−−−−+
And I could use something like this to figure out (for instance) the final row of each chain:
WITH Data AS (
SELECT Id, Replaces, ReplacedBy, 0 AS Depth
FROM Thing
UNION ALL
SELECT Thing.Id, Thing.Replaces, Thing.ReplacedBy, Depth + 1
FROM Data
JOIN Thing
ON Thing.Replaces = Data.Id
),
MaxData AS (
SELECT Data.Id, Data.Depth
FROM Data
JOIN (
SELECT Id, MAX(Depth) AS MaxDepth
FROM Data
GROUP BY Id
) j ON data.Id = j.Id AND Data.Depth = j.MaxDepth
WHERE Depth > 0
)
SELECT *
FROM MaxData
ORDER BY
Id;
...which gives me:
+−−−−+−−−−−−−+
| Id | Depth |
+−−−−+−−−−−−−+
| 11 | 1 |
| 12 | 1 |
| 22 | 2 |
+−−−−+−−−−−−−+
...but I've lost the starting point and the points along the way.
I have the strong feeling I'm missing something really straight-forward — but clever — that would let me get this largely with the query rather than post-processing, some kind of join with a "min" and "max" query (but not like my one above). What would it be?
The table doesn't have any indexes on Replaces or ReplacedBy, but we could add any needed. The table is only lightly used (roughly 300k rows and probably only a couple of hundred updates/inserts a day).
I'm limited to SQL Server 2008 features.
Inspired by Gordon Linoff's answer and HABO's comment which highlighted something Gordon was doing that was critical, I:
Removed the SQL Server 2012+ FIRST_VALUE function, replacing it with a CROSS JOIN on an "overview" query of the data
Included the Links count in the overview query
Removed the reliance on t in Gordon's WHERE NOT EXISTS (SELECT 1 FROM Thing t2 WHERE t2.ReplacedBy = t.id), which (at last on SQL Server 2008) wasn't bound to anything
Filtered out rows that weren't replaced
Below, I also add the date filtering mentioned in the question
...filtered by a date range applied to the last row in the chain.
...which Gordon didn't cover at all, and changes our approach, but only in terms of the arrow of time.
So, first, without the date criteria, sticking fairly close to Gordon's answer:
WITH Data AS (
SELECT Id AS FirstId, Id, TStamp, Replaces, ReplacedBy, 0 AS Depth
FROM Thing
WHERE Replaces IS NULL AND ReplacedBy IS NOT NULL
UNION ALL
SELECT d.FirstId, t.Id, t.TStamp, t.Replaces, t.ReplacedBy, d.Depth + 1
FROM Data d
JOIN Thing t ON t.Replaces = d.Id
),
Overview AS (
SELECT FirstId, MAX(Id) AS LastId, COUNT(*) AS Links
FROM Data
GROUP BY
FirstId
)
SELECT d.FirstId, o.LastId, d.Id, o.Links, d.Depth, d.TStamp
FROM Data d
CROSS APPLY (
SELECT LastId, Links
FROM Overview
WHERE FirstId = d.FirstId
) o
ORDER BY
d.FirstId, d.Depth
;
The critical parts of that are grabbing the seed Id as FirstId here:
SELECT Id AS FirstId, Id, TStamp, Replaces, ReplacedBy, 0 AS Depth
FROM Thing
WHERE Replaces IS NULL AND ReplacedBy IS NOT NULL
and then propagating it through the results of the recursive join:
SELECT d.FirstId, t.Id, t.TStamp, t.Replaces, t.ReplacedBy, d.Depth + 1
FROM Data d
JOIN Thing t ON t.Replaces = d.Id
Just adding that to my original query gives us most of what I wanted. Then we add a second query to get the LastId for each FirstId (Gordon did it as a FIRST_VALUE over a partition, but I can't do that in SQL Server 2008) and using an overview query also lets me grab the number of links. We cross-apply that on the basis of the FirstId value to get the overall results I wanted.
The query above returns the following for the sample data:
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| FirstId | LastId | Id | Links | Depth | TStamp |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| 1 | 11 | 1 | 2 | 0 | 2017-01-01 |
| 1 | 11 | 11 | 2 | 1 | 2017-01-11 |
| 2 | 22 | 2 | 3 | 0 | 2017-01-02 |
| 2 | 22 | 12 | 3 | 1 | 2017-01-12 |
| 2 | 22 | 22 | 3 | 2 | 2017-01-13 |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
...e.g., exactly what I wanted, plus Depth if I want (so I know what order the intermediary links were in).
If we wanted to include rows that were never replaced, we'd just change
WHERE Replaces IS NULL AND ReplacedBy IS NOT NULL
to
WHERE Replaces IS NULL
Giving us:
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| FirstId | LastId | Id | Links | Depth | TStamp |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| 1 | 11 | 1 | 2 | 0 | 2017-01-01 |
| 1 | 11 | 11 | 2 | 1 | 2017-01-11 |
| 2 | 22 | 2 | 3 | 0 | 2017-01-02 |
| 2 | 22 | 12 | 3 | 1 | 2017-01-12 |
| 2 | 22 | 22 | 3 | 2 | 2017-01-13 |
| 3 | 3 | 3 | 1 | 0 | 2017-01-03 |
| 4 | 4 | 4 | 1 | 0 | 2017-01-04 |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
But we've ignored the date criteria required by the question:
...filtered by a date range applied to the last row in the chain.
To do that without building a massive temporary result set, we have to work backward: Instead of selecting the starting point (the first entry in a chain, Replaces IS NULL), we need to select the ending point (the last entry in a chain, ReplacedBy IS NULL), and then invert our logic working back through the chain. It's largely a matter of:
Swapping FirstId with LastId
Swapping Replaces with ReplacedBy (convenient the table had both!)
Using MIN to get the first ID in the chain rather than MAX to get the last
Using d.Depth - 1 rather than d.Depth + 1
Then fixing-up Depth based on Links once we know it in our final select, to get those nice values where 0 = first link rather than some varying negative number: o.Links + d.Depth - 1 AS Depth
All of which gives us:
WITH Data AS (
SELECT Id AS LastId, Id, TStamp, Replaces, ReplacedBy, 0 AS Depth
FROM Thing
WHERE ReplacedBy IS NULL AND Replaces IS NOT NULL
-- Filtering by date of last entry would go here
UNION ALL
SELECT d.LastId, t.Id, t.TStamp, t.Replaces, t.ReplacedBy, d.Depth - 1
FROM Data d
JOIN Thing t ON t.ReplacedBy = d.Id
),
Overview AS (
SELECT LastId, MIN(Id) AS FirstId, COUNT(*) AS Links
FROM Data
GROUP BY
LastId
)
SELECT o.FirstId, d.LastId, d.Id, o.Links, o.Links + d.Depth - 1 AS Depth, d.TStamp
FROM Data d
CROSS APPLY (
SELECT FirstId, Links
FROM Overview
WHERE LastId = d.LastId
) o
ORDER BY
o.FirstId, d.Depth
;
So for instance, if we used
AND TStamp BETWEEN '2017-01-12' AND '2017-02-01'
where I have
-- Filtering by date of last entry would go here
above, with our sample data we'd get this result:
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| FirstId | LastId | Id | Links | Depth | TStamp |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
| 2 | 22 | 2 | 3 | 0 | 2017−01−02 |
| 2 | 22 | 12 | 3 | 1 | 2017−01−12 |
| 2 | 22 | 22 | 3 | 2 | 2017−01−13 |
+−−−−−−−−−+−−−−−−−−+−−−−+−−−−−−−+−−−−−−−+−−−−−−−−−−−−+
...because the last link the Id = 1 chain is outside the date range, so we don't include it.
This is a little tricky. Arrange the CTE to start at the beginning of each list. That makes the subsequent processing easier:
WITH Data AS (
SELECT Id as FirstId, Id, TStamp, Replaces, ReplacedBy, 0 AS Depth
FROM Thing t
WHERE NOT EXISTS (SELECT 1 FROM Thing t2 WHERE t2.ReplacedBy = t.id)
UNION ALL
SELECT d.FirstId, t.Id, t.TStamp, t.Replaces, t.ReplacedBy, d.Depth + 1
FROM Data d JOIN
Thing t
ON t.Replaces = d.Id
)
SELECT d.*,
FIRST_VALUE(id) OVER (PARTITION BY FirstId ORDER BY Depth DESC) as LastId
FROM Data d;
Then, you can use FIRST_VALUE() with a reverse sort to get the last value in the chain.
This returns chains that have no links. You can add a filter to remove these.
I know there are several unpivot / cross apply discussions here but I was not able to find any discussion that covers my problem. What I've got so far is the following:
SELECT Perc, Salary
FROM (
SELECT jobid, Salary_10 AS Perc10, Salary_25 AS Perc25, [Salary_Median] AS Median
FROM vCalculatedView
WHERE JobID = '1'
GROUP BY JobID, SourceID, Salary_10, Salary_25, [Salary_Median]
) a
UNPIVOT (
Salary FOR Perc IN (Perc10, Perc25, Median)
) AS calc1
Now, what I would like is to add several other columns, eg. one named Bonus which I also want to put in Perc10, Perc25 and Median Rows.
As an alternative, I also made a query with cross apply, but here, it seems as if you can not "force" sort the rows like you can with unpivot. In other words, I can not have a custom sort, but only a sort that is according to a number within the table, if I am correct? At least, here I do get the result like I wish to have, but the rows are in a wrong order and I do not have the rows names like Perc10 etc. which would be nice.
SELECT crossapplied.Salary,
crossapplied.Bonus
FROM vCalculatedView v
CROSS APPLY (
VALUES
(Salary_10, Bonus_10)
, (Salary_25, Bonus_25)
, (Salary_Median, Bonus_Median)
) crossapplied (Salary, Bonus)
WHERE JobID = '1'
GROUP BY crossapplied.Salary,
crossapplied.Bonus
Perc stands for Percentile here.
Output is intended to be something like this:
+--------------+---------+-------+
| Calculation | Salary | Bonus |
+--------------+---------+-------+
| Perc10 | 25 | 5 |
| Perc25 | 35 | 10 |
| Median | 27 | 8 |
+--------------+---------+-------+
Do I miss something or did I something wrong? I'm using MSSQL 2014, output is going into SSRS. Thanks a lot for any hint in advance!
Edit for clarification: The Unpivot-Method gives the following output:
+--------------+---------+
| Calculation | Salary |
+--------------+---------+
| Perc10 | 25 |
| Perc25 | 35 |
| Median | 27 |
+--------------+---------+
so it lacks the column "Bonus" here.
The Cross-Apply-Method gives the following output:
+---------+-------+
| Salary | Bonus |
+---------+-------+
| 35 | 10 |
| 25 | 5 |
| 27 | 8 |
+---------+-------+
So if you compare it to the intended output, you'll notice that the column "Calculation" is missing and the row sorting is wrong (note that the line 25 | 5 is in the second row instead of the first).
Edit 2: View's definition and sample data:
The view basically just adds computed columns of the table. In the table, I've got Columns like Salary and Bonus for each JobID. The View then just computes the percentiles like this:
Select
Percentile_Cont(0.1)
within group (order by Salary)
over (partition by jobID) as Salary_10,
Percentile_Cont(0.25)
within group (order by Salary)
over (partition by jobID) as Salary_25
from Tabelle
So the output is like:
+----+-------+---------+-----------+-----------+
| ID | JobID | Salary | Salary_10 | Salary_25 |
+----+-------+---------+-----------+-----------+
| 1 | 1 | 100 | 60 | 70 |
| 2 | 1 | 100 | 60 | 70 |
| 3 | 2 | 150 | 88 | 130 |
| 4 | 3 | 70 | 40 | 55 |
+----+-------+---------+-----------+-----------+
In the end, the view will be parameterized in a stored procedure.
Might this be your approach?
After your edits I understand, that your solution with CROSS APPLY would comes back with the right data, but not in the correct output. You can add constant values to your VALUES and do the sorting in a wrapper SELECT:
SELECT wrapped.Calculation,
wrapped.Salary,
wrapped.Bonus
FROM
(
SELECT crossapplied.*
FROM vCalculatedView v
CROSS APPLY (
VALUES
(1,'Perc10',Salary_10, Bonus_10)
, (2,'Perc25',Salary_25, Bonus_25)
, (3,'Median',Salary_Median, Bonus_Median)
) crossapplied (SortOrder,Calculation,Salary, Bonus)
WHERE JobID = '1'
GROUP BY crossapplied.SortOrder,
crossapplied.Calculation,
crossapplied.Salary,
crossapplied.Bonus
) AS wrapped
ORDER BY wrapped.SortOrder