--update: someone has suggested to me that maybe i should think about turning this into a function to be used as a computed column or just a computed column altogether. Does anyone have any input on this? Would that be even possible with the length and complexity of this script. Someone also suggested that this was a luhn mod 10 calc. I looked into it and I wish that it was, if so i would be able to use another piece of code to make it into a function or do the calc a different way but it isnt. Thought anyone?

Can someone help me with turning this into a trigger. I have never written a trigger so this will be my first one. Thanks

```
--Platform: Microsoft SQL Server Script
--Purpose Written: Calulates Barcode Number for Aramark Systems Magnetic Cards.
--Written by: Thomas E. Deans III
--Date Written: 6-10-2012
--Written for: Barton College
declare @seq_num as int
-- Pull the newly inserted/updated sequence number from the udf table it is being-- updated/inserted into when triggered by change. Update the barcode via this trigger
set @seq_num = ((select inserted.BCN_BAR_CDE_SEQ from TmsEPrd..NAME_MASTER_UDF nmu join inserted i on nmu.BCN_BAR_CDE = i.BCN_BAR_CDE) * 10)
-- Set variable equal to base number
declare @14_long as bigint
set @14_long = 20000000000000
-- Pull id num from current row being updated by trigger
declare @id_num as bigint
set @id_num = ((select inserted.ID_NUM from tmseprd..NAME_MASTER_UDF nmu join inserted i on nmu.ID_NUM = i.id_num where len(ID_NUM) >= 6 and LEN(id_num) < 7) * 10000)
-- Add up for the base number = base number + calculated id num + calculated sequence number
declare @temp as bigint
declare @temp_2 as bigint
set @temp = (@14_long + @id_num + @seq_num)
set @temp_2 = @temp
-- Declare variables for digits 02, 04, 06, 08, 10 & 12 of the 14 digit @temp number,
-- and store them in variables.
declare @var_pos_02 as int
declare @var_pos_04 as int
declare @var_pos_06 as int
declare @var_pos_08 as int
declare @var_pos_10 as int
declare @var_pos_12 as int
declare @even_total as int
-- Setting values for declared variables.
set @var_pos_02 = right(left(@temp_2,2),1)
set @var_pos_04 = right(left(@temp_2,4),1)
set @var_pos_06 = right(left(@temp_2,6),1)
set @var_pos_08 = right(left(@temp_2,8),1)
set @var_pos_10 = right(left(@temp_2,10),1)
set @var_pos_12 = right(left(@temp_2,12),1)
set @even_total = (@var_pos_02 + @var_pos_04 + @var_pos_06 + @var_pos_08 + @var_pos_10 + @var_pos_12)
-- Declare variables for digits 01, 03, 05, 07, 09, 11, & 13 of the 14 digit @temp number,
-- and store them in variables.
declare @var_pos_01 as int
declare @var_pos_03 as int
declare @var_pos_05 as int
declare @var_pos_07 as int
declare @var_pos_09 as int
declare @var_pos_11 as int
declare @var_pos_13 as int
-- Setting values for declared variables.
set @var_pos_01 = right(left(@temp_2,1),1)
set @var_pos_03 = right(left(@temp_2,3),1)
set @var_pos_05 = right(left(@temp_2,5),1)
set @var_pos_07 = right(left(@temp_2,7),1)
set @var_pos_09 = right(left(@temp_2,9),1)
set @var_pos_11 = right(left(@temp_2,11),1)
set @var_pos_13 = right(left(@temp_2,13),1)
-- Declare variables to work with individual odd digits.
declare @odd_register_01 as int
declare @odd_register_03 as int
declare @odd_register_05 as int
declare @odd_register_07 as int
declare @odd_register_09 as int
declare @odd_register_11 as int
declare @odd_register_13 as int
-- Set values for all odd variable digits.
set @odd_register_01 = (@var_pos_01 * 2)
set @odd_register_03 = (@var_pos_03 * 2)
set @odd_register_05 = (@var_pos_05 * 2)
set @odd_register_07 = (@var_pos_07 * 2)
set @odd_register_09 = (@var_pos_09 * 2)
set @odd_register_11 = (@var_pos_11 * 2)
set @odd_register_13 = (@var_pos_13 * 2)
-- Declare variables to work with left and right digits of odd digits in barcode in case statements two sections down.
declare @odd_register_01_tmp as int
declare @odd_register_03_tmp as int
declare @odd_register_05_tmp as int
declare @odd_register_07_tmp as int
declare @odd_register_09_tmp as int
declare @odd_register_11_tmp as int
declare @odd_register_13_tmp as int
-- Declare variables to total left and right didit of odd digits in barcode number.
declare @odd_register_01_tot as int
declare @odd_register_03_tot as int
declare @odd_register_05_tot as int
declare @odd_register_07_tot as int
declare @odd_register_09_tot as int
declare @odd_register_11_tot as int
declare @odd_register_13_tot as int
-- Set the odd tmp variable equal to the odd digit of the barcode.
-- Example of what we're doing here: @odd_register_01 might be a 9, (9*2) = 18. We are adding the number in the first digit to the
-- number in the second digit for calculating a check digit. The first digit is 1, the second is 8,
-- since the whole number in @odd_register_01 can never be above 18 we check the first digits number for a 1, anything else will
-- always be an even number because the number you start with is multiplied by 2. A single digit in any mathematical placeholder
-- can never be larger than a 9, the lowest number we can have is 0, if there is not a 1 in the first digit it could contain a
-- 2, 4, 6, or 8, and the highest we can have is 18. (example 9 multiplied by 2). If the first digit contains a 1 we want to add
-- the first digit to the second, if it's not a 1 then we want to just keep the value in the first digits placeholder.
-- -----------------------------------------------------------------------------------------------------------------------------
-- Case Statement: In @odd_register_01 give me the left digit, check for 1, if 1 then add the first digit plus second digit, else
-- give me first digit
-- required the use of a (cast as int) because even though we are working with numbers left() and right() are varchar functions.
-- trying to add the left digit and right digit without cast as int returned 44 for an @odd_register_ of 4 instead of 8 and 18 instead of 9.
set @odd_register_01_tmp = @odd_register_01
set @odd_register_01_tot = case when cast(left(@odd_register_01,1) as int) = 1 then ((cast(left(@odd_register_01,1) as int)) + (cast(RIGHT(left(@odd_register_01,2),1) as int))) else cast(left(@odd_register_01,1) as int) end
set @odd_register_03_tmp = @odd_register_03
set @odd_register_03_tot = case when cast(left(@odd_register_03,1) as int) = 1 then ((cast(left(@odd_register_03,1) as int)) + (cast(RIGHT(left(@odd_register_03,2),1) as int))) else cast(left(@odd_register_03,1) as int) end
set @odd_register_05_tmp = @odd_register_05
set @odd_register_05_tot = case when cast(left(@odd_register_05,1) as int) = 1 then ((cast(left(@odd_register_05,1) as int)) + (cast(RIGHT(left(@odd_register_05,2),1) as int))) else cast(left(@odd_register_05,1) as int) end
set @odd_register_07_tmp = @odd_register_07
set @odd_register_07_tot = case when cast(left(@odd_register_07,1) as int) = 1 then ((cast(left(@odd_register_07,1) as int)) + (cast(RIGHT(left(@odd_register_07,2),1) as int))) else cast(left(@odd_register_07,1) as int) end
set @odd_register_09_tmp = @odd_register_09
set @odd_register_09_tot = case when cast(left(@odd_register_09,1) as int) = 1 then ((cast(left(@odd_register_09,1) as int)) + (cast(RIGHT(left(@odd_register_09,2),1) as int))) else cast(left(@odd_register_09,1) as int) end
set @odd_register_11_tmp = @odd_register_11
set @odd_register_11_tot = case when cast(left(@odd_register_11,1) as int) = 1 then ((cast(left(@odd_register_11,1) as int)) + (cast(RIGHT(left(@odd_register_11,2),1) as int))) else cast(left(@odd_register_11,1) as int) end
set @odd_register_13_tmp = @odd_register_13
set @odd_register_13_tot = case when cast(left(@odd_register_13,1) as int) = 1 then ((cast(left(@odd_register_13,1) as int)) + (cast(RIGHT(left(@odd_register_13,2),1) as int))) else cast(left(@odd_register_13,1) as int) end
-- Declare calculated variables.
declare @total as bigint
declare @processed_odd_total as bigint
declare @total_2 as bigint
declare @final_total as bigint
-- Add processed odd variables together for a total odd digit sum number.
set @processed_odd_total = (@odd_register_01_tot + @odd_register_03_tot + @odd_register_05_tot + @odd_register_07_tot + @odd_register_09_tot + @odd_register_11_tot + @odd_register_13_tot)
-- Add total for sum of odd and sum of even
set @total = (@even_total + @processed_odd_total)
-- The total for sum of odd + sum of even can be a 3 digit number,
-- so we want the right most digit 1 digit to the left in 3 digit number.
set @total_2 = right(left(@total,3),1)
-- Set the final calculated sequence number to be 10 minus the last number we calculated.
set @final_total = (10 - @total_2)
-- Set the final calculated id_num to be equal to the last number plus the original @temp.
set @temp = (@temp_2 + @final_total)
Print ' '
print 'Final Barcode Number'
-- Update the field in the bcn_name_master_udf for id_num.
update TmsEPrd..NAME_MASTER_UDF nmu insert @temp into bcn_bar_cde join inserted i on nmu.id_num = i.id_num
print @temp
```