# How to round decimal for 2 decimal places

I have 2 decimal numbers:

``````1999,9999
1999,99
``````

if I use function

``````decimal.Round(Temp, 2);
``````

then I have these results:

``````2000,00
1999,99
``````

How to make sure that even if there is 1999,999999 it will round to 1999,99 instead of 2000,00.

Thanks.

-
you are not rounding, you want to cut off fractions –  BrokenGlass Nov 3 '11 at 17:24
This is more of truncation. –  user414076 Nov 3 '11 at 17:24
There's an existing SO question on this subject - I think it provides the answer you're looking for. stackoverflow.com/questions/257005/… –  Matt Jones Nov 3 '11 at 17:26
@MattJones, that link demonstrates the behavior he is actually trying to avoid. –  user414076 Nov 3 '11 at 17:31
@AnthonyPegram You are right, and I feel the shame of not fully reading a SO answer before referencing it. –  Matt Jones Nov 10 '11 at 17:31

You need to truncate digits. One way to do it is: `decimal.Truncate(<number> * 100) / 100;`

-

Rounding will always make 1999,999 move to 2000. It sounds like you want to truncate.

You can do this via some multiplication/division:

``````decimal TruncateToPlaces(decimal value, int places)
{
decimal multiplier = Math.Pow(10m, places);
return decimal.Truncate(value * multiplier) / multiplier;
}
``````

You can then do:

``````decimal value = TruncateToPlaces(1999.9999, 2);
``````
-
Try that TruncateToPlaces(Decimal.MaxValue - 10, int.MaxValue) –  Viacheslav Smityukh Nov 3 '11 at 18:07
@ViacheslavSmityukh Yes - I am aware that this will not handle extreme cases. In general, I try to make my answers show the technique involved and required to make something work, but not include every single argument check/exception handling/range check required, as it just makes the answer less clear. This will work perfectly for the cases the OP is after... –  Reed Copsey Nov 3 '11 at 18:11
You are right this is perfect solution for that question. But this is not applicable to a real financial data. I'm sorry, it's my fault I compared your solution with my financial software development expirience. –  Viacheslav Smityukh Nov 3 '11 at 18:19
``````decimal d = 1999.999999; //or any

int temp = d*100; //199999
decimal result = temp/(decimal)100; //199.99
``````
-

Well the short answer is that....`1999,9999` rounded to 2 decimal places is in fact `2000,00`.

There are a number of different rounding strategies — http://en.wikipedia.org/wiki/Rounding — you might want to read up on them.

But if you don't want to round the value and instead want to truncate it, then this should do you. `scale` is a power of 10 indicating the position at which truncation should occur. If `scale` is a negative power of 10 (e.g., 10-2), then truncation will occur that many digits to the right of the decimal point. If `scale` is non-negative, then truncation occurs to the left of the decimal point (e.g., a scale of `1` aka 100 will truncate the fraction, and a `scale` of 100 (or 102) will truncate everything to the right of the 100s place, converting `1999.9999m` into `1900m`.

``````decimal TruncateToHundredthsPlace( decimal value )
{
const decimal scale = 0.01m ; // 10^-2
decimal result = value - ( value % 0.01m ) ;
return results ;
}
``````

Alternatively, you could write a method like the following code. It works for any scale: negative values for scale truncate that many positions right of the decimal point; non-zero values truncate left of the decimal point.

``````public static decimal Truncate( decimal value , int scale )
{
Decimal factor = Power(10,scale) ;
decimal result = value - ( value % factor ) ;

return result ;
}
private static decimal Power( int m , int n )
{
if ( m < 1 ) throw new ArgumentOutOfRangeException("m") ;

Decimal @base  = (decimal) m ;
Decimal factor = 1m ; // m^0 = 1
while ( n > 0 )
{
factor *= @base ;
--n ;
}
while ( n < 0 )
{
factor /= @base ;
++n ;
}
return factor ;
}
``````

Computing a power of 10 in decimal is expensive. Two simple optimization would speed it up, though:

• First, precompute some reasonable number of powers of 10 in a static lookup table, say 10-10–10+10 inclusive. I'd create a `decimal[]` with a negative lower bound: then the check to see if the specified scale is in the lookup table just consists of checking to see if the scale value is a valid index into the array. If so, pull the factor out using the scale value as the index.

• A second optimization would be to cache power of 10 values as you compute them. If you've already computed the value, you don't really need to recompute it, just fish it from cache using the scale as the key.

-
``````Convert.ToDecimal(x.ToString("#.##"));