Given a decimal '96.154', how can I ensure that it is always rounded up to 96.16 (as opposed to normal rounding to 2 decimals which would give 96.15).

How does 96.154 round up to 96.16 and not round down to 96.15? It would be good to detail the specification for how rounding should work – Russ Cam Aug 3 '12 at 11:14

Check out this link stackoverflow.com/questions/11740989/roundingdecimalvalue/… – sabz23 Aug 3 '12 at 11:15

Is this the actual decimal type, or double? – ken2k Aug 3 '12 at 11:18

3Do you care about negative number? Should they be rounded up (toward zero) as well? – Michael Graczyk Aug 3 '12 at 11:18
Kind of hacky but a very intuitive way to do so:
var val = 96.154M;
var result = Math.Ceiling(val * 100) / 100.0M;
You can add 0.005 to the value and then round the result.

1genius but, depends if you always want to round away from zero, what about negatives? – Jodrell Aug 3 '12 at 11:26

@Jodrell The title of the question says it all "always up". By the way, I upvoted the comment about negative numbers. – Bruno Ferreira Aug 3 '12 at 11:27

3This will not work when the value is
96.150
, since that would round it to96.16
, which is incorrect, since that it should stat96.15
. – Steven Aug 3 '12 at 11:45
I think your looking for the Math.Ceiling
method.
You could combine this with a multiplier to specify how many decimal places to round. Like this,
public float roundUp(float number, int numDecimalPlaces)
{
double multiplier = Math.Pow(10, numDecimalPlaces))
return Math.ceiling(number*multiplier) / multiplier;
}
Here is the code of a roundUp method for a value and base fraction. The base fraction you should use for your question is 0.05M. However the method can be used for other common scenario which is base fraction 0.5M; And you can apply it in interesting ways like for example using a base fraction of 0.3M. Well I hope it should answer your questions, have fun :
static decimal roundUp(decimal aValue, decimal aBaseFraction)
{
decimal quotient = aValue / aBaseFraction;
decimal roundedQuotient = Math.Round(quotient, 0);
decimal roundAdjust = 0.0M;
if (quotient > roundedQuotient)
{
roundAdjust = aBaseFraction;
}
return roundAdjust + roundedQuotient * aBaseFraction;
}
Here is my version of a RoundUp method, In this can specific decimal
void Main()
{
Console.WriteLine(RoundUp(2.8448M, 2));
//RoundUp(2.8448M, 2).Dump();
}
public static decimal RoundUp(decimal numero, int numDecimales)
{
decimal valorbase = Convert.ToDecimal(Math.Pow(10, numDecimales));
decimal resultado = Decimal.Round(numero * 1.00000000M, numDecimales + 1, MidpointRounding.AwayFromZero) * valorbase;
decimal valorResiduo = 10M * (resultado  Decimal.Truncate(resultado));
if (valorResiduo < 5)
{
return Decimal.Round(numero * 1.00M, numDecimales, MidpointRounding.AwayFromZero);
}
else
{
var ajuste = Convert.ToDecimal(Math.Pow(10, (numDecimales + 1)));
numero += ajuste;
return Decimal.Round(numero * 1.00000000M, numDecimales, MidpointRounding.AwayFromZero);
}
}