# Casting a double as an int, does it round or just strip digits?

Doing some calculations with doubles which then need to be cast to an int. So i have a quick question, when casting a double say 7.5 to an int, it will return 7.

Is this a product of rounding or just striping anything after the decimal point?

If it is a product of rounding, is it smart ie 0.1 to 0.5 it rounds down and 0.6 to 0.9 it rounds up?

Cheers

• A bit of quick experimentation would have answered this question... Commented Nov 8, 2012 at 15:34
• Why not make it explicit (so future programmers don't have to wonder) and use `Math.Floor` to strip off the decimals, and then cast? Commented Nov 8, 2012 at 15:37
• @AnnL.: You could use Math.Truncate though, if you wanted to be explicit. Commented Nov 8, 2012 at 15:42
• I'm personally glad he asked this question so I could find the answer quickly. I had a hunch that it was always rounding down but I appreciate this question for the quick confirmation. experimentation is good but this question saved me the trouble. Commented Apr 23, 2015 at 15:33
• @Ray L Seriously.. I don't understand the commenters, this is one of the major points of the site. 2 Years after the question was asked and this is the top result from googling the question "Which way does int round" and it's no thanks to the people angry that OP could've found out the answer himself. Commented Jun 29, 2015 at 0:21

It does not round, it just returns the integral part before the decimal point.

Reference (thanks Rawling) Explicit Numeric Conversions Table:

When you convert a double or float value to an integral type, this value is rounded towards zero to the nearest integral value.

You can try simple issues like this by yourself by writing simple tests. The following test (using NUnit) will pass and therefore give an answer to your question:

``````[Test]
public void Cast_float_to_int_will_not_round_but_truncate
{
var x = 3.9f;
Assert.That((int)x == 3); // <-- This will pass
}
``````

Don't be fooled by assuming it rounds down. It strips the decimal off and purely returns the integer portion of the double. This is important with negative numbers because rounding down from 2.75 gives you 2, but rounding down from -2.75 give you -3. Casting does not round down so (int)2.75 gives 2, but (int)-2.75 gives you -2.

``````double positiveDouble = 2.75;
double negativeDouble = -2.75;

int positiveInteger = (int) positiveDouble;
int negativeInteger = (int) negativeDouble;

Console.WriteLine(positiveInteger + " = (int)" + positiveDouble);
Console.WriteLine(negativeInteger + " = (int)" + negativeDouble);

//Output: 2 = (int)2.75
//        -2 = (int)-2.75
``````

Simply casting just strips everything past the decimal point. To round up or down, you can use the Math.Round() method. This will round up or down and provides a parameter on what to do if its midway. You could also use the Math.Floor() or Math.Ceiling() methods to implicitly round up or round down prior to casting. Here are some examples:

``````double num1 = 3.5;
double num2 = 3.2;
double num3 = 3.9;

(int)num1 // returns 3;
(int)num2 // returns 3;
(int)num3 // returns 3 also;
(int)Math.Round(num1) // returns 4
(int)Math.Round(num2) // returns 3
(int)Math.Round(num3) // returns 4
(int)Math.Floor(num1) // returns 3
(int)Math.Floor(num2) // returns 3
(int)Math.Floor(num3) // returns 3
(int)Math.Ceiling(num1) // returns 4
(int)Math.Ceiling(num2) // returns 4;
(int)Math.Ceiling(num3) // returns 4;
``````

It takes the integer part

``````double d = 0.9;
System.Console.WriteLine((int)d);
``````

the result is 0

A normal cast like this

``````int number;
double decimals = 7.8987;

number = (int)decimals;
``````

will return number = 7. That is because it just skips the least significant numbers. If you want it to round properly you can use Math.Round() like this:

``````number = (int)Math.Round(number);
``````

This will return number = 8.

From the C# Language Specification:

In an `unchecked` context, the conversion always succeeds, and proceeds as follows.

• If the value of the operand is NaN or infinite, the result of the conversion is an unspecified value of the destination type.

• Otherwise, the source operand is rounded towards zero to the nearest integral value. If this integral value is within the range of the destination type then this value is the result of the conversion.

• Otherwise, the result of the conversion is an unspecified value of the destination type.

• @Servy (and Brian) Also, there will be `double` numbers like `7.9999999999999991` whose default string representations are `"8"`, but which are truncated to integer `7` with the cast syntax. Commented Nov 8, 2012 at 16:02