# Denomination distribution calculation

Some background story: Company A gives out vouchers to winners of a challenge. The SQL that I am currently writing needs to decide the required voucher denomination that sums to the value awarded to a person. I have a table that stores the denominations available for vouchers, depending on the country and currency.

In the example below, a particular person is awarded with €80 worth of vouchers.

The query below displays results of a lookup table for voucher denominations available for a particular country.

``````SELECT * FROM tblDenominationScheme WHERE CountryCode IN ('AT', 'US')
``````

Result:

``````No. | CountryCode  |   VoucherName | VoucherValue
-------------------------------------------------
1   | AT           |   €50 Shop A  |     50
2   | AT           |   €25 Shop A  |     25
3   | AT           |   €15 Shop A  |     15
4   | AT           |   €10 Shop A  |     10
5   | US           |   \$50 Store B |     50
6   | US           |   \$10 Store B |     10
7   | US           |   \$5 Store B  |      5
``````

My current SQL is as below to determine the required voucher denominations for €80 voucher:

``````   DECLARE @CountryCode1 VARCHAR(2) = 'AT'
DECLARE @ChallengerID INT = 1172
DECLARE @RoundedAmount1 INT = 80
DECLARE @Vouchers INT
DECLARE @AmountAwarded INT = 0

SET @AmountAwarded = @RoundedAmount1

DROP TABLE IF EXISTS #tempVoucher

CREATE TABLE #tempVoucher
(
CountryCode VARCHAR(2),
ChallengerID INT,
AmountAwarded INT,
Vouchers INT,
)

WHILE (@RoundedAmount1 > 0)
BEGIN

SET @Vouchers = 0

SELECT TOP 1 @Vouchers = VoucherValue FROM tblDenominationScheme WHERE CountryCode = @CountryCode1 AND VoucherValue <= @RoundedAmount1 ORDER BY VoucherValue DESC

IF (@Vouchers > 0)
BEGIN
SET @RoundedAmount1 = @RoundedAmount1 - @Vouchers
END
ELSE
BEGIN
SELECT TOP 1 @Vouchers = VoucherValue FROM tblDenominationScheme WHERE CountryCode = @CountryCode1 ORDER BY VoucherValue
SET @RoundedAmount1 = @RoundedAmount1 - @RoundedAmount1
END

INSERT INTO #tempVoucher VALUES (@CountryCode1,@ChallengerID, @AmountAwarded, @Vouchers)
END

SELECT * FROM #tempVoucher
``````

Result from the SQL above:

``````No. | CountryCode  | ChallengerID |   AmountAwarded | Vouchers
--------------------------------------------------------------
1   | AT           | 1172         |   80            |   50
2   | AT           | 1172         |   80            |   25
3   | AT           | 1172         |   80            |   10
``````

NOTE: The value in AmountAwarded column will be the same for all 3 rows. The amount in the Vouchers column for the 3 rows should sum up to 80.

The result above is obviously incorrect, because if you sum up the values in the Vouchers column, it gives you 85, which is 5 more than the AmountAwarded

Expected result (or at least closest):

``````No. | CountryCode  | ChallengerID |   AmountAwarded | Vouchers
--------------------------------------------------------------
1   | AT           | 1172         |   80            |   50
2   | AT           | 1172         |   80            |   10
3   | AT           | 1172         |   80            |   10
4   | AT           | 1172         |   80            |   10
``````

Anyone able to help?

• This kinda of search is something that works much better in other languages than SQL (Prolog being the best) -- any consideration to "solving" for max vouchers in a different langage? – Hogan Dec 2 '19 at 21:03
• @Hogan, Sadly, I have zero knowledge in Prolog. Possible alternative is C#. But if you do have solution in another language. Please do share. Maybe that might shed some light on this matter and perhaps see it from a different perspective. :D – davidcafu412 Dec 2 '19 at 21:54
• Sure -- in C# you just have to walk the tree -- at least in Prolog it does it for you. – Hogan Dec 2 '19 at 22:05

This might be an expensive query, but gets you different options to deliver up to 7 vouchers to get you the expected result. This, however, will generate a huge amount of reads if the rows increase or the amount of vouchers can be greater.

``````  DECLARE @CountryCode1 VARCHAR(2) = 'AT'
DECLARE @RoundedAmount1 INT = 80;

WITH cteDenominations AS(
SELECT No, VoucherValue
FROM tblDenominationScheme
WHERE CountryCode = @CountryCode1
UNION ALL
SELECT 10000, 0
),
ctePermutations AS(
SELECT a.No             AS a_No,
a.VoucherValue   AS a_Value,
b.No             AS b_No,
b.VoucherValue   AS b_Value,
c.No             AS c_No,
c.VoucherValue   AS c_Value,
d.No             AS d_No,
d.VoucherValue   AS d_Value,
e.No             AS e_No,
e.VoucherValue   AS e_Value,
f.No             AS f_No,
f.VoucherValue   AS f_Value,
g.No             AS g_No,
g.VoucherValue   AS g_Value,
ROW_NUMBER() OVER(ORDER BY a.No, b.No, c.No, d.No) Permutation
FROM cteDenominations a
JOIN cteDenominations b ON a.VoucherValue >= b.VoucherValue
JOIN cteDenominations c ON b.VoucherValue >= c.VoucherValue
JOIN cteDenominations d ON c.VoucherValue >= d.VoucherValue
JOIN cteDenominations e ON d.VoucherValue >= e.VoucherValue
JOIN cteDenominations f ON e.VoucherValue >= f.VoucherValue
JOIN cteDenominations g ON f.VoucherValue >= g.VoucherValue
WHERE @RoundedAmount1 = a.VoucherValue
+ b.VoucherValue
+ c.VoucherValue
+ d.VoucherValue
+ e.VoucherValue
+ f.VoucherValue
+ g.VoucherValue
)
SELECT Permutation,
u.No,
u.VoucherValue
FROM ctePermutations
CROSS APPLY (VALUES(a_No, a_Value),
(b_No, b_Value),
(c_No, c_Value),
(d_No, d_Value),
(e_No, e_Value),
(f_No, f_Value),
(g_No, g_Value))u(No, VoucherValue)
WHERE VoucherValue > 0
AND   Permutation = 1 --Remove this to get all possibilities
;
``````
• this is true brute force -- generate all possible combinations using cross joins and then select the ones that work. This will be very slow (possibly kill your server) for large datasets. – Hogan Dec 2 '19 at 22:07
• I totally agree with you. But I couldn't remember the way to do this properly. – Luis Cazares Dec 2 '19 at 22:08
• There is no good way to do this "properly" in SQL. IMO Fundamentally a linear search for best path. That is why I suggested an external system. Prolog was designed specifically to solve this kind of problem. – Hogan Dec 2 '19 at 22:11

Looks like you need to solve a equation:

``````80 = n1*v1 + k2*n2...
``````

where `v1,v2 ...` are values which you store in database And you need to find `n1, n2 ...` , which are in `{0, N}` There is no way how to implement it in SQL. Except - over all possible values, but it's not the smarter way.

## Logic

1. Find the largest amount (that is less than or equal to starting amount) vouchers of 1 denomination can make.
2. Subtract this value from starting amount to get remainder,
3. Find the largest amount (that is less than or equal to remainder) a number of vouchers of 1 smaller denomination can make.
4. Subtract this value from previous remainder.
5. Go back to step 3

## Features:

• Handles multiple best combinations.
• Small number of combinations are searched.
• On my laptop: 100 runs take about 3 seconds

## Notes

Performance may be improved by saving output of `VoucherCombinations` to a table variable and then using it in subsequent CTEs.

## Code:

``````DECLARE @Vouchers TABLE( CountryCode CHAR( 2 ), VoucherValue DECIMAL( 10, 2 ))
INSERT INTO @Vouchers VALUES( 'AT', 50 ), ( 'AT', 40 ), ( 'AT', 25 ), ( 'AT', 20 ), ( 'AT', 15 ), ( 'AT', 10 ), ( 'US', 50 ), ( 'US', 10 ), ( 'US', 5 );

-- Small number table
-- Limits maximum count of Vouchers of a given denomination.
DECLARE @Numbers TABLE( Num INT )
INSERT INTO @Numbers VALUES( 1 ), ( 2 ), ( 3 ), ( 4 ), ( 5 ), ( 6 ), ( 7 ), ( 8 ), ( 9 ), ( 10 )

DECLARE @TargetAmount DECIMAL( 10, 2 ) = 60;
DECLARE @CountryCode CHAR( 2 ) = 'AT';

;WITH VoucherCombinations
AS (
-- Anchor
SELECT ROW_NUMBER() OVER( ORDER BY VoucherValue DESC ) AS ParentGroupID,
ROW_NUMBER() OVER( ORDER BY VoucherValue DESC ) AS SubGroupID,
1 AS IterationID,
VoucherValue, Num AS VoucherCumulativeCount,
CAST( VoucherValue * Num AS DECIMAL( 10, 2 )) AS TotalDenominationValue,
CAST( @TargetAmount - ( VoucherValue * Num ) AS DECIMAL( 10, 2 )) AS Remainder
FROM @Vouchers
-- Find the largest amount a given Voucher denomination can produce that is less than or equal to @TargetAmount
INNER JOIN @Numbers ON ( VoucherValue * Num ) <= @TargetAmount AND @TargetAmount - ( VoucherValue * Num ) < VoucherValue
WHERE CountryCode = @CountryCode
UNION ALL
-- Recursive query
SELECT SubGroupID,
SubGroupID * 10 + ROW_NUMBER() OVER( ORDER BY V.VoucherValue DESC ) AS SubGroupID,
IterationID + 1,
V.VoucherValue, VoucherCumulativeCount + N.Num AS VoucherCount,
CAST( V.VoucherValue * N.Num AS DECIMAL( 10, 2 )) AS TotalDenominationValue,
CAST( Remainder - ( V.VoucherValue * N.Num ) AS DECIMAL( 10, 2 )) AS Remainder
FROM VoucherCombinations AS VP
-- For each denomination look at the smaller denominations
INNER JOIN @Vouchers AS V ON VP.VoucherValue > V.VoucherValue
INNER JOIN @Numbers AS N ON V.VoucherValue * N.Num <= Remainder AND Remainder - ( V.VoucherValue * N.Num ) < V.VoucherValue
WHERE CountryCode = @CountryCode
),
-- Discard invalid combinations i.e. remainder is not 0
VoucherPoolValid AS(
SELECT *, DENSE_RANK() OVER( ORDER BY VoucherCumulativeCount ASC ) AS BestCombos
FROM VoucherCombinations
WHERE Remainder = 0
),
-- Find best combinations i.e. smallest number of Vouchers; Note: logic supports having more than 1 best combination
VoucherPoolBestCombos AS(
SELECT *, ROW_NUMBER() OVER( ORDER BY BestCombos ASC ) AS ComboID
FROM VoucherPoolValid
WHERE BestCombos = 1
),
-- Return all denominations for each combination
VoucherPoolAllDetails AS(
SELECT *
FROM VoucherPoolBestCombos
UNION ALL
SELECT Parent.*, BestCombos, ComboID
FROM VoucherPoolAllDetails AS Child
INNER JOIN VoucherCombinations AS Parent ON Child.ParentGroupID = Parent.SubGroupID
WHERE Child.SubGroupID <> Child.ParentGroupID
)
SELECT * FROM VoucherPoolAllDetails
ORDER BY ComboID
``````