# C# decimal number round after point rest [duplicate]

how to return decimal with long rest after the point like that:

``````3.786444499963
``````

to this:

``````3.787
``````

its not just cut the points it also round the rest of the number

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## marked as duplicate by Macmade, martin clayton, codeling, SingerOfTheFall, Chamika SandamalSep 18 '12 at 8:39

You know that it's the wrong way to round, right? The right way is to simply look at the fourth decimal digit (in this case) – xanatos Mar 15 '12 at 14:13
Did you tried my answer? – Vano Maisuradze Mar 15 '12 at 14:23
@xanatos if you're doing banker's rounding, you need to look at the fourth digit and, if it's 5, see whether there are any non-zero digits after the fourth. – phoog Mar 15 '12 at 14:50
@phoog That isn't banker's rounding. Taken from msdn: If the value of the first digit in d to the right of the decimals decimal position is 5, the digit in the decimals position is rounded up if it is odd, or left unchanged if it is even. If the precision of d is less than decimals, d is returned unchanged. The behavior of this method follows IEEE Standard 754, section 4. This kind of rounding is sometimes called rounding to nearest, or banker's rounding. – xanatos Mar 15 '12 at 14:55
@xanatos That description is incorrect. With banker's rounding, `0.5` rounds to zero, but `0.5000001` rounds to 1. In other words, it's not determined by the first digit to the right; rather, it's determined by the magnitude of the decimal amount: if it's greater than half, round up; if it's less than half, round down; if it's equal to half, round to the nearest even number. – phoog Mar 15 '12 at 15:02

But the generally accepted rounding of `3.786444499963` to three decimal places is `3.786`. Why do you think otherwise?

Thus:

``````var round = Math.Round(3.786444499963m, 3, MidpointRounding.AwayFromZero);
Console.WriteLine(round == 3.786m); // prints true
``````

If you want it to ALWAYS round up:

``````var round = Math.Round(3.786444499963m + 0.0005m, 3);
Console.WriteLine(round == 3.787m); // prints true
``````

Do you see what I did there? I added `0.0005m` to the input before using `Math.Round`. In general, to round `x` to `n` decimal places,

``````var round = Math.Round(x + 5m * Convert.ToDecimal(Math.Pow(10, -n - 1)), n);
``````

Or, perhaps, to avoid the ugly `double/decimal` conversion:

``````int k = 1;
decimal value = 5m;
while(k <= n + 1) { value /= 10m; k++; }
var round = Math.Round(x + value, n);
``````

There's an edge case you need to be aware of. What happens to 3.786? Should it be rounded up to 3.787 or remain at 3.786? You haven't specified what you want exactly, so I'll leave this edge case to you.

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what reference do i need to get Assert? – roy.d Mar 15 '12 at 14:22
Ignore the `Assert`. It's just showing you it produces the desired behavior. You can see the same with `Console.WriteLine`. – jason Mar 15 '12 at 14:23
Yes, thanks. Simple oversight. – jason Mar 15 '12 at 14:35
``````Math.Ceiling(3.786444499963 * 1000) / 1000;
``````
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thanks both answers works: Math.Ceiling(3.786444499963 * 1000) / 1000; and Math.Round(3.786444499963m + 0.0005m, 3); – roy.d Mar 15 '12 at 14:34
``````    RoundUp(3.786444499963M, 3);

static decimal RoundUp(decimal dec, int precision)
{
decimal rounder = (decimal)(0.5 * Math.Pow(10, -precision));
return Math.Round(dec + rounder, precision);
}
``````
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It will return 3.786. Math.Round doesn't "cascade" from last digit onward. It simply looks at digit position + 1 – xanatos Mar 15 '12 at 14:12
i need it to be round up – roy.d Mar 15 '12 at 14:16
@roy.d: There are 3 main ways to round. For example rounding to no decimals: with Round the aproximation is taken to the closest integer (0.3 -> 0; 0.7 -> 1); with Ceil the aproximation is always the closest higher integer (0.3 -> 1; 0.7 -> 1) and with Floor the aproximation is always the closest lower integer (0.3 -> 0; 0.7 -> 0). Which one of these do you need? – Răzvan Panda Mar 15 '12 at 14:47