Start all functions from if exist statement:
IF OBJECT_ID('dbo.udf_FunctionName', 'FN') IS NULL
EXECUTE ('CREATE FUNCTION dbo.udf_FunctionName() RETURNS INT AS BEGIN RETURN 1 END;');
GO
ALTER FUNCTION dbo.udf_FunctionName(It helps to save all grants for function (analog CREATE OR REPLACE PROCEDURE in Oracle).
Author: Alan Burstein
Original link: http://www.sqlservercentral.com/scripts/T-SQL/117890/
Tested on SQL Server version: 2008/2012/2014/2016
Purpose: Given a string (@String) and a pattern (@Pattern) of characters to remove, remove the patterned characters from the string.
Usage:
--===== Basic Syntax Example
SELECT CleanedString
FROM dbo.udf_PatExclude8K(@String, @Pattern);
--===== Remove all but Alpha characters
SELECT CleanedString
FROM dbo.SomeTable st
CROSS APPLY dbo.udf_PatExclude8K(st.SomeString,'%[^A-Za-z]%');
--===== Remove all but Numeric digits
SELECT CleanedString
FROM dbo.SomeTable st
CROSS APPLY dbo.udf_PatExclude8K(st.SomeString,'%[^0-9]%');Author: Alan Burstein
Original link: http://www.sqlservercentral.com/scripts/Set+Based/139370/
Tested on SQL Server version: 2008/2012/2014/2016
Purpose: Creates up to 100,544,625 sequential numbers beginning with @low and ending with @high. Used to replace iterative methods such as loops, cursors and recursive CTEs to solve SQL problems. Based on Itzik Ben-Gan's getnums function with some tweeks and enhancements and added functionality. The logic for getting rn to begin at 0 or 1 is based comes from Jeff Moden's fnTally function.
Usage:
--===== 1. Using RN (rownumber)
-- (1.1) The best way to get the numbers 1,2,3...@high (e.g. 1 to 5):
SELECT RN FROM dbo.udf_GetNumsAB(1,5,1,1);
-- (1.2) The best way to get the numbers 0,1,2...@high-1 (e.g. 0 to 5):
SELECT RN FROM dbo.udf_GetNumsAB(0,5,1,0);
--===== 2. Using N1
-- (2.1) To begin with numbers other than 0 or 1 use N1 (e.g. -3 to 3):
SELECT N1 FROM dbo.udf_GetNumsAB(-3,3,1,1);
-- (2.2) ROW_NUMBER() is built in. If you want a ROW_NUMBER() include RN:
SELECT RN, N1 FROM dbo.udf_GetNumsAB(-3,3,1,1);
-- (2.3) If you wanted a ROW_NUMBER() that started at 0 you would do this:
SELECT RN, N1 FROM dbo.udf_GetNumsAB(-3,3,1,0);
--===== 3. Using N2 and @gap
-- (3.1) To get 0,10,20,30...100, set @low to 0, @high to 100 and @gap to 10:
SELECT N1 FROM dbo.udf_GetNumsAB(0,100,10,1);
-- (3.2) Note that N2=N1+@gap; this allows you to create a sequence of ranges.
-- For example, to get (0,10),(10,20),(20,30).... (90,100):
SELECT N1, N2 FROM dbo.udf_GetNumsAB(0,90,10,1);
-- (3.3) Remember that a rownumber is included and it can begin at 0 or 1:
SELECT RN, N1, N2 FROM dbo.udf_GetNumsAB(0,90,10,1);
--===== (4) A real life example using RN, N1 and N2:
-- Beginning with @StartDate, to generate ranges of weeks that occur between
-- @startDate & @EndDate:Author: Phil Factor
Original link: https://www.simple-talk.com/blogs/2016/02/16/the-luhn-algorithm-in-sql/
Tested on SQL Server version: 2008/2012/2014/2016
Description: The Luhn test is used by most credit card companies to check the basic validity of a credit card number. It is not an anti-fraud measure but a quick check on data corruption. It still allows any digits that are odd or even to be switched in the sequence. Most credit cards are compatible with Luhn algorithm.
- It is often applied to SSNs, company organization numbers, and OCR numbers for internet payments. The algorithm is simple.
- Take out the spaces from the string containing the credit card numbers
- Reverse the string containing the credit card numbers.
- Sum every digit whose order in the sequence is an odd number (1,3,5,7 …) to create a partial sum s1
- Multiply each even digit by two, and then sum the digits of the number if the answer is greater than nine. (e,g if digit is 8 then 8*2=16, then add the resulting digits: 1+6=7).
- Sum the partial sums of the even digits to form s2
- if s1 + s2 ends in zero then the original number is in the form of a valid credit card number as verified by the Luhn test.
Author: Phil Factor
Original link: https://www.simple-talk.com/blogs/2016/02/16/the-luhn-algorithm-in-sql/
Tested on SQL Server version: 2008/2012/2014/2016
Description: The Luhn test is used by most credit card companies to check the basic validity of a credit card number. It is not an anti-fraud measure but a quick check on data corruption. It still allows any digits that are odd or even to be switched in the sequence. Most credit cards are compatible with Luhn algorithm.
- It is often applied to SSNs, company organization numbers, and OCR numbers for internet payments. The algorithm is simple.
- Take out the spaces from the string containing the credit card numbers
- Reverse the string containing the credit card numbers.
- Sum every digit whose order in the sequence is an odd number (1,3,5,7 …) to create a partial sum s1
- Multiply each even digit by two, and then sum the digits of the number if the answer is greater than nine. (e,g if digit is 8 then 8*2=16, then add the resulting digits: 1+6=7).
- Sum the partial sums of the even digits to form s2
- if s1 + s2 ends in zero then the original number is in the form of a valid credit card number as verified by the Luhn test.