# How do you round a number to two decimal places in C#?

I want to do this using the `Math.Round` function

Here's some examples:

``````decimal a = 1.994444M;

Math.Round(a, 2); //returns 1.99

decimal b = 1.995555M;

Math.Round(b, 2); //returns 2.00
``````

You might also want to look at bankers rounding / round-to-even with the following overload:

``````Math.Round(a, 2, MidpointRounding.ToEven);
``````

• You should clarify that MidPointRounding.ToEven IS the default. If you wanted AwayFromZero you would have to use the overload – Brian Vander Plaats Feb 23 '09 at 18:25
• I wounder why MidPointRounding.ToEven is the default... – Pedro77 Apr 29 '13 at 21:31
• I think it should be: `MidpointRounding` not `MidPointRounding` in case someone's wondering why it's not compiling. – Mark Rhodes Nov 8 '13 at 14:24
• If you wanted to round up to 2 decimal places, add `0.005` to the number before rounding. Likewise to round down, subtract `0.005` before passing to `Math.Round` function. – orad Aug 19 '15 at 22:04
• The reason that .NET defaults to `MidPointRounding.ToEven` (aka "Bankers Rounding") is because the we all learned to round in school where .5 rounds up causes too much rounding up. This is a problem when dealing with money, tax calculations, etc. – asporter Nov 11 '16 at 19:36

Try this:

``````twoDec = Math.Round(val, 2)
``````

Personally I never round anything. Keep it as resolute as possible, since rounding is a bit of a red herring in CS anyway. But you do want to format data for your users, and to that end, I find that `string.Format("{0:0.00}", number)` is a good approach.

• This works better for display purposes, especially for money, as £5.4 (with Math.round) doesn't look as well as £5.40 (this way). – Peter Gordon Sep 8 '15 at 18:32
• I've tried before string.Format("0:0.00", number), but it didn't work. Those square brackets are very important, so: string.Format("{0:0.00}", number) works. – FrenkyB Oct 19 '15 at 7:42
• @FrenkyB When you say 'square brackets', I hope you mean braces. – Mathemats Dec 23 '15 at 15:23

If you'd like a string

``````> (1.7289).ToString("#.##")
"1.73"
``````

Or a decimal

``````> Math.Round((Decimal)x, 2)
1.73m
``````

But remember! Rounding is not distributive, ie. `round(x*y) != round(x) * round(y)`. So don't do any rounding until the very end of a calculation, else you'll lose accuracy.

// convert upto two decimal places

``````String.Format("{0:0.00}", 140.6767554);        // "140.67"
String.Format("{0:0.00}", 140.1);             // "140.10"
String.Format("{0:0.00}", 140);              // "140.00"

Double d = 140.6767554;
Double dc = Math.Round((Double)d, 2);       //  140.67

decimal d = 140.6767554M;
decimal dc = Math.Round(d, 2);             //  140.67
``````

=========

``````// just two decimal places
String.Format("{0:0.##}", 123.4567);      // "123.46"
String.Format("{0:0.##}", 123.4);         // "123.4"
String.Format("{0:0.##}", 123.0);         // "123"
``````

can also combine "0" with "#".

``````String.Format("{0:0.0#}", 123.4567)       // "123.46"
String.Format("{0:0.0#}", 123.4)          // "123.4"
String.Format("{0:0.0#}", 123.0)          // "123.0"
``````
• String.Format("{0:0.00}", 140.6767554); != "140.67" It actually renders as "140.68" - rounding up – AndyT Apr 7 '17 at 13:21

Wikipedia has a nice page on rounding in general.

All .NET (managed) languages can use any of the common language run time's (the CLR) rounding mechanisms. For example, the Math.Round() (as mentioned above) method allows the developer to specify the type of rounding (Round-to-even or Away-from-zero). The Convert.ToInt32() method and its variations use round-to-even. The Ceiling() and Floor() methods are related.

You can round with custom numeric formatting as well.

Note that Decimal.Round() uses a different method than Math.Round();

Here is a useful post on the banker's rounding algorithm. See one of Raymond's humorous posts here about rounding...

I know its an old question but please note for the following differences between Math round and String format round:

``````decimal d1 = (decimal)1.125;
Math.Round(d1, 2).Dump();   // returns 1.12
d1.ToString("#.##").Dump(); // returns "1.13"

decimal d2 = (decimal)1.1251;
Math.Round(d2, 2).Dump();   // returns 1.13
d2.ToString("#.##").Dump(); // returns "1.13"
``````

This is for rounding to 2 decimal places in C#:

``````label8.Text = valor_cuota .ToString("N2") ;
``````

In VB.NET:

`````` Imports System.Math
round(label8.text,2)
``````

One thing you may want to check is the Rounding Mechanism of Math.Round:

http://msdn.microsoft.com/en-us/library/system.midpointrounding.aspx

Other than that, I recommend the Math.Round(inputNumer, numberOfPlaces) approach over the *100/100 one because it's cleaner.

You should be able to specify the number of digits you want to round to using Math.Round(YourNumber, 2)

string a = "10.65678";

decimal d = Math.Round(Convert.ToDouble(a.ToString()),2)

``````  public double RoundDown(double number, int decimalPlaces)
{
return Math.Floor(number * Math.Pow(10, decimalPlaces)) / Math.Pow(10, decimalPlaces);
}
``````

Math.Floor(123456.646 * 100) / 100 Would return 123456.64

If you want to round a number, you can obtain different results depending on: how you use the Math.Round() function (if for a round-up or round-down), you're working with doubles and/or floats numbers, and you apply the midpoint rounding. Especially, when using with operations inside of it or the variable to round comes from an operation. Let's say, you want to multiply these two numbers: 0.75 * 0.95 = 0.7125. Right? Not in C#

Let's see what happens if you want to round to the 3rd decimal:

``````double result = 0.75d * 0.95d; // result = 0.71249999999999991
double result = 0.75f * 0.95f; // result = 0.71249997615814209

result = Math.Round(result, 3, MidpointRounding.ToEven); // result = 0.712. Ok
result = Math.Round(result, 3, MidpointRounding.AwayFromZero); // result = 0.712. Should be 0.713
``````

As you see, the first Round() is correct if you want to round down the midpoint. But the second Round() it's wrong if you want to round up.

This applies to negative numbers:

``````double result = -0.75 * 0.95;  //result = -0.71249999999999991
result = Math.Round(result, 3, MidpointRounding.ToEven); // result = -0.712. Ok
result = Math.Round(result, 3, MidpointRounding.AwayFromZero); // result = -0.712. Should be -0.713
``````

So, IMHO, you should create your own wrap function for Math.Round() that fit your requirements. I created a function in which, the parameter 'roundUp=true' means to round to next greater number. That is: 0.7125 rounds to 0.713 and -0.7125 rounds to -0.712 (because -0.712 > -0.713). This is the function I created and works for any number of decimals:

``````double Redondea(double value, int precision, bool roundUp = true)
{
if ((decimal)value == 0.0m)
return 0.0;

double corrector = 1 / Math.Pow(10, precision + 2);

if ((decimal)value < 0.0m)
{
if (roundUp)
return Math.Round(value, precision, MidpointRounding.ToEven);
else
return Math.Round(value - corrector, precision, MidpointRounding.AwayFromZero);
}
else
{
if (roundUp)
return Math.Round(value + corrector, precision, MidpointRounding.AwayFromZero);
else
return Math.Round(value, precision, MidpointRounding.ToEven);
}
}
``````

The variable 'corrector' is for fixing the inaccuracy of operating with floating or double numbers.

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