Sorry... code removed. I made a mistake where if the Product_Count was evenly divisible by 100, it gave an incorrect final row.
Andriy's code is still correct. I was missing a "-1" in mine. I've repaired that and reposted both the test setup and my alternative solution.
Both Andriy's and my code produce the output in the correct order for this experiment, but I added an ORDER BY to guarantee it.
Here's the code for the test setup...
--===== Conditionally drop and create a test table for
-- everyone to work against.
IF OBJECT_ID('tempdb..#Merchant','U') IS NOT NULL
DROP TABLE #Merchant
SELECT TOP 10000
ID = IDENTITY(INT,1,1),
Product_Count = ABS(CHECKSUM(NEWID()))%100000
FROM sys.all_columns ac1
CROSS JOIN sys.all_columns ac2
ALTER TABLE #Merchant
ADD PRIMARY KEY CLUSTERED (ID)
--===== Make several entries where there's a known test setup.
SET Product_Count = CASE
WHEN ID = 1 THEN 0
WHEN ID = 2 THEN 1
WHEN ID = 3 THEN 99
WHEN ID = 4 THEN 100
WHEN ID = 5 THEN 101
WHEN ID = 6 THEN 99999
WHEN ID = 7 THEN 100000
WHEN ID = 8 THEN 100001
WHERE ID < = 8
Here's the alternative I posted before with the -1 correction.
(--==== This determines what the ranges are
RangeStart = t.Number*100+SIGN(t.Number),
FROM master.dbo.spt_Values t
CROSS JOIN #Merchant m
WHERE t.Number BETWEEN 0 AND (m.Product_Count-1)/100
AND t.Type = 'P'
AND m.ID BETWEEN 1 AND 8 -- = @FindID -<<<---<<< Or use a single variable to find.
)--==== This makes the output "pretty" and sorts in correct order
[Range] = CAST(RangeStart AS VARCHAR(10)) + '-'
WHEN RangeEnd <= Product_Count
THEN CAST(RangeEnd AS VARCHAR(10))
ELSE CAST(Product_Count AS VARCHAR(10))
ORDER BY ID, RangeStart
Sorry about the earlier mistake. Thanks, Andriy, for catching it.