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When 2 decimal(30,10) numbers are divided in Sql Server 05, 2 last decimals seem to be getting lost (not even rounded off, simply truncated).

For example:

Declare @x decimal(30,10)
Declare @y decimal(30,10)
Declare @z decimal(30,10)

select @x = 2.1277164747 
select @y = 4.8553794574

Select @z = @y/@x   
select @z

Result: 2.28196731**00**

But if 2 numbers being divided are converted to float that seems to work:

....
Select @z = cast(@y as float)/cast(@x as float)
select @z

Result: 2.28196731**81**

Why is Sql doing this? And what's the right way of dividing decimals without loosing precision in Sql.

share|improve this question
    
Good question. What's even weirder is that changing the declarations to (38 ,10) actually makes it worse, whereas changing them to (20,10) actually seems to fix it. Makes no sense... – RBarryYoung Sep 21 '09 at 17:08
up vote 16 down vote accepted

The maximum precision allowed in SQL Server is 38. You are using Decimal(30,10). The max value is 99,999,999,999,999,999,999.9999999999 if you divide this number by 0.000000001, you will end up with an even bigger number, so the resulting data type must be able to accommodate it. This causes you to lose some precision.

Change your original data types to Decimal(20,10) and this problem does not occur.

For full rules regarding data types (and how they are affected by math operations):

Full rules here

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This is the correct answer. SQL Server determines a precision and scale for the result based on the precision and scale of the inputs types, not the input values. So, the result is calculated as decimal(30,8) and then converted to decimal(30,10) to store in @z. – richardtallent Sep 21 '09 at 17:22
    
This makes sense, but >>This causes you to lose some precision<<. It wouldn't be so bad if Sql were to round off to 8 decimals, but it simply chops off the last 2 decimals causing erroneous results. It should at least give some kind of warning, or even through an error when this happens – WebMatrix Sep 21 '09 at 17:23
    
One thing people seem to miss in particular is that the scale is reduiced to 6 digits when doing division on 2 maximum-precision numbers. Decimal(38,10) / decimal(38,10) = decimal (38,6). I ran down an explanation at one point that they have to do this in to protect the precision in the internal workings in case of overflow. – DaveE Sep 21 '09 at 17:33
    
@richardtallent, the resulting precision is actually decimal(38,8). Add this to the code above: Select SQL_VARIANT_PROPERTY(@y/@x, 'Precision'), SQL_VARIANT_PROPERTY(@y/@x, 'Scale') – G Mastros Sep 21 '09 at 17:36
    
I blogged about this about a year ago: blogs.lessthandot.com/index.php/DataMgmt/DataDesign/… – G Mastros Sep 21 '09 at 17:37

In short, use casting to guarantee your results. When you assign @x and @y to literal values, they are probably adopting the precision of those literals. This helps to explain why division by those values comes up short of your expectations.

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if you run SELECT @x,@y you will see that @x and @y contain all the decimal digits – KM. Sep 21 '09 at 17:20
    
The literal values of @x and @y are stored properly, it's the result stored in @z that is being truncated. – richardtallent Sep 21 '09 at 17:24
    
@All..thanks for the clarifications. – David Andres Sep 21 '09 at 17:43

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