Try this:
SELECT
Letters = Char(64 + T.Num),
T.Col1,
T.Col2
FROM
dbo.YourTable T
;
Just be aware that when you get to 27 (past Z
), things are going to get interesting, and not useful.
If you wanted to start doubling up letters, as in ... X, Y, Z, AA, AB, AC, AD ...
then it's going to get a bit trickier. This works in all versions of SQL Server. The SELECT
clauses are just an alternate to a CASE statement (and 2 characters shorter, each).
SELECT
*,
LetterCode =
Coalesce((SELECT Char(65 + (N.Num - 475255) / 456976 % 26) WHERE N.Num >= 475255), '')
+ Coalesce((SELECT Char(65 + (N.Num - 18279) / 17576 % 26) WHERE N.Num >= 18279), '')
+ Coalesce((SELECT Char(65 + (N.Num - 703) / 676 % 26) WHERE N.Num >= 703), '')
+ Coalesce((SELECT Char(65 + (N.Num - 27) / 26 % 26) WHERE N.Num >= 27), '')
+ (SELECT Char(65 + (N.Num - 1) % 26))
FROM dbo.YourTable N
ORDER BY N.Num
;
(Demo for SQL 2008 and up, note that I use Dense_Rank()
to simulate a series of numbers)
This will work from A
to ZZZZZ
, representing the values 1
to 12356630
. The reason for all the craziness above instead of a more simple expression is because A
doesn't simply represent 0
, here. Before each threshold when the sequence kicks over to the next letter A
added to the front, there is in effect a hidden, blank, digit--but it's not used again. So 5 letters long is not 26^5 combinations, it's 26 + 26^2 + 26^3 + 26^4 + 26^5!
It took some REAL tinkering to get this code working right... I hope you or someone appreciates it! This can easily be extended to more letters just by adding another letter-generating expression with the right values.
Since it appears I'm now square in the middle of a proof-of-manliness match, I did some performance testing. A WHILE
loop is to me not a great way to compare performance because my query is designed to run against an entire set of rows at once. It doesn't make sense to me to run it a million times against one row (basically forcing it into virtual-UDF land) when it can be run once against a million rows, which is the use case scenario given by the OP for performing this against a large rowset. So here's the script to test against 1,000,000 rows (test script requires SQL Server 2005 and up).
DECLARE
@Buffer varchar(16),
@Start datetime;
SET @Start = GetDate();
WITH A (N) AS (SELECT 1 FROM (VALUES (1), (1), (1), (1), (1), (1), (1), (1), (1), (1)) A (N)),
B (N) AS (SELECT 1 FROM A, A X),
C (N) AS (SELECT 1 FROM B, B X),
D (N) AS (SELECT 1 FROM C, B X),
N (Num) AS (SELECT Row_Number() OVER (ORDER BY (SELECT 1)) FROM D)
SELECT @Buffer = dbo.HinkyBase26(N.Num)
FROM N
;
SELECT [HABO Elapsed Milliseconds] = DateDiff( ms, @Start, GetDate());
SET @Start = GetDate();
WITH A (N) AS (SELECT 1 FROM (VALUES (1), (1), (1), (1), (1), (1), (1), (1), (1), (1)) A (N)),
B (N) AS (SELECT 1 FROM A, A X),
C (N) AS (SELECT 1 FROM B, B X),
D (N) AS (SELECT 1 FROM C, B X),
N (Num) AS (SELECT Row_Number() OVER (ORDER BY (SELECT 1)) FROM D)
SELECT
@Buffer =
Coalesce((SELECT Char(65 + (N.Num - 475255) / 456976 % 26) WHERE N.Num >= 475255), '')
+ Coalesce((SELECT Char(65 + (N.Num - 18279) / 17576 % 26) WHERE N.Num >= 18279), '')
+ Coalesce((SELECT Char(65 + (N.Num - 703) / 676 % 26) WHERE N.Num >= 703), '')
+ Coalesce((SELECT Char(65 + (N.Num - 27) / 26 % 26) WHERE N.Num >= 27), '')
+ (SELECT Char(65 + (N.Num - 1) % 26))
FROM N
;
SELECT [ErikE Elapsed Milliseconds] = DateDiff( ms, @Start, GetDate());
And the results:
UDF: 17093 ms
ErikE: 12056 ms
Original Query
I initially did this a "fun" way by generating 1 row per letter and pivot-concatenating using XML, but while it was indeed fun, it proved to be slow. Here is that version for posterity (SQL 2005 and up required for the Dense_Rank
, but will work in SQL 2000 for just converting numbers to letters):
WITH Ranks AS (
SELECT
Num = Dense_Rank() OVER (ORDER BY T.Sequence),
T.Col1,
T.Col2
FROM
dbo.YourTable T
)
SELECT
*,
LetterCode =
(
SELECT Char(65 + (R.Num - X.Low) / X.Div % 26)
FROM
(
SELECT 18279, 475254, 17576
UNION ALL SELECT 703, 18278, 676
UNION ALL SELECT 27, 702, 26
UNION ALL SELECT 1, 26, 1
) X (Low, High, Div)
WHERE R.Num >= X.Low
FOR XML PATH(''), TYPE
).value('.[1]', 'varchar(4)')
FROM Ranks R
ORDER BY R.Num
;