# Why does integer division in C# return an integer and not a float?

Does anyone know why integer division in C# returns an integer and not a float? What is the idea behind it? (Is it only a legacy of C/C++?)

In C#:

``````float x = 13 / 4;
//== operator is overridden here to use epsilon compare
if (x == 3.0)
print 'Hello world';
``````

Result of this code would be:

``````'Hello world'
``````

Strictly speaking, there is no such thing as integer division (division by definition is an operation which produces a rational number, integers are a very small subset of which.)

• because it is `integer` division not `floating point` division. Commented Jun 1, 2012 at 13:33
• it does have to (in VB.Net) it is implemented differently in a natural mathematical way where all the result of the division operation is an irrational number. Commented Jun 1, 2012 at 13:38
• I think you mean rational numbers. See wikipedia: Dividing two integers may result in a remainder. To complete the division of the remainder, the number system is extended to include fractions or rational numbers as they are more generally called. Commented Jun 1, 2012 at 13:52
• This is the reason I'm not a fan of "copying syntax" in languages. I come from VB thinking "C# is .NET" not "C# is like C". My mistake I guess, but in this case I prefer the VB way. If they went through the trouble of generating a compiler error when using uninitialized simple types (you don't even get a warning in C) then why not warn you when you're assigning integer division to a float? Commented Apr 10, 2013 at 19:37
• Other languages have different operators for Real vs Integer division. `13 / 4 = 3.25` verses `13 div 4 = 3`. Commented Nov 4, 2021 at 14:03

While it is common for new programmer to make this mistake of performing integer division when they actually meant to use floating point division, in actual practice integer division is a very common operation. If you are assuming that people rarely use it, and that every time you do division you'll always need to remember to cast to floating points, you are mistaken.

First off, integer division is quite a bit faster, so if you only need a whole number result, one would want to use the more efficient algorithm.

Secondly, there are a number of algorithms that use integer division, and if the result of division was always a floating point number you would be forced to round the result every time. One example off of the top of my head is changing the base of a number. Calculating each digit involves the integer division of a number along with the remainder, rather than the floating point division of the number.

Because of these (and other related) reasons, integer division results in an integer. If you want to get the floating point division of two integers you'll just need to remember to cast one to a `double`/`float`/`decimal`.

• In VB.Net .Net architects made another decision: / - always a float division, \ - integer division, so it is kind of inconsistent, except if you consider C++ legacy; Commented Jun 1, 2012 at 13:46
• You can determine, at compile time, whether the `/` operator will be performing integer or floating point division (unless you're using dynamic). If it's hard for you to figure it out because you're doing so much on that one line, then I'd suggest breaking that line up into several lines so that its easier to figure out whether the operands are integers or floating point types. Future readers of your code will likely appreciate it. Commented Jun 1, 2012 at 13:55
• I personally find it problematic that I always have to think what are variables I am dividing, I count it as a wasteful use of my attention. Commented Jun 1, 2012 at 14:00
• @pelesl As it would be a huge breaking change to do that for which an astronomical number of programs would be broken I can say with complete confidence that it will never happen in C#. That's the kind of thing that needs to be done from day 1 in a language or not at all. Commented Apr 10, 2013 at 19:46
• MSBasic always had \ and /, long before .NET came around. And please let's not say that we want as many breaking changes as Python. Nearly every Python project requires a specific version to work. It's a nightmare. Commented Apr 30, 2019 at 17:39

See C# specification. There are three types of division operators

• Integer division
• Floating-point division
• Decimal division

In your case we have Integer division, with following rules applied:

The division rounds the result towards zero, and the absolute value of the result is the largest possible integer that is less than the absolute value of the quotient of the two operands. The result is zero or positive when the two operands have the same sign and zero or negative when the two operands have opposite signs.

I think the reason why C# use this type of division for integers (some languages return floating result) is hardware - integers division is faster and simpler.

• Which languages return floating result? @SergeyBerezovskiy Commented Jul 31, 2017 at 7:51
• @Ilaria Delphi. Commented Jul 16, 2021 at 13:46
• as @SHINJaeGuk said, Delphi default division operator / returns a floating result. Also, Delphi has a special division operator `div` that returns integer result instead: `5 / 2 = 2.5` `5 div 2 = 2` Commented May 12, 2022 at 11:30

Each data type is capable of overloading each operator. If both the numerator and the denominator are integers, the integer type will perform the division operation and it will return an integer type. If you want floating point division, you must cast one or more of the number to floating point types before dividing them. For instance:

``````int x = 13;
int y = 4;
float x = (float)y / (float)z;
``````

or, if you are using literals:

``````float x = 13f / 4f;
``````

Keep in mind, floating points are not precise. If you care about precision, use something like the decimal type, instead.

• +1 for mentioning that only one term needs to be float to make floating point division. Commented Apr 3, 2014 at 22:48
• Obviously your statement about precision is the right in the context of learning and in making it not to complicated to understand. As we need to be as precise as possible in our jobs I still want to clarify on the precision: According to IEE 754-1985 you CAN get an exact result (even though this is mostly not the case). You can get an precise result, when the calculation values have been presented exact before and the result is - simply speaking - a sum of powers of 2. Even though it can't be best practice to rely on that precision in those special cases. Commented Jul 7, 2018 at 12:11
• Addition on precision: The propability to get an exact result drastically improves as the result is close to 1 or -1. It might be a little confusing that this propability still remains 0 as there are infinite numbers and a finite number of results, which can be presented exactly. :) Commented Jul 7, 2018 at 12:19
• @L.Monty thanks for bringing that up. I’ve learned more about floating points since writing this answer and the point you are making is fair. Technically, I would still say that my statement “floating points are not precise” is acceptable, in the sense that just because something can be accurate sometimes doesn’t mean it, as a whole, is precise. As they say, a broken clock is right twice a day, but I’d never call one a precision instrument. I’m actually rather surprised that’s the part that bothered you more than my suggestion that the decimal type is precise. Commented Jul 7, 2018 at 12:59
• Decimals are imprecise, for all the same reasons that floats are; it’s just that floats are base-2 and decimals are base-10. For instance, a decimal type can’t accurately hold the precise value of 1/3. Commented Jul 7, 2018 at 13:01

Might be useful:

``````double a = 5.0/2.0;
Console.WriteLine (a);      // 2.5

double b = 5/2;
Console.WriteLine (b);      // 2

int c = 5/2;
Console.WriteLine (c);      // 2

double d = 5f/2f;
Console.WriteLine (d);      // 2.5
``````
• The last expression will produce `2.5`, not `2`. Commented Dec 8, 2016 at 10:54
• Yep, mispelling. Thanks. Commented Dec 9, 2016 at 11:26

Since you don't use any suffix, the literals `13` and `4` are interpreted as integer:

If the literal has no suffix, it has the first of these types in which its value can be represented: `int`, `uint`, `long`, `ulong`.

Thus, since you declare `13` as integer, integer division will be performed:

For an operation of the form x / y, binary operator overload resolution is applied to select a specific operator implementation. The operands are converted to the parameter types of the selected operator, and the type of the result is the return type of the operator.

The predefined division operators are listed below. The operators all compute the quotient of x and y.

Integer division:

``````int operator /(int x, int y);
uint operator /(uint x, uint y);
long operator /(long x, long y);
ulong operator /(ulong x, ulong y);
``````

And so rounding down occurs:

The division rounds the result towards zero, and the absolute value of the result is the largest possible integer that is less than the absolute value of the quotient of the two operands. The result is zero or positive when the two operands have the same sign and zero or negative when the two operands have opposite signs.

If you do the following:

``````int x = 13f / 4f;
``````

You'll receive a compiler error, since a floating-point division (the `/` operator of `13f`) results in a float, which cannot be cast to int implicitly.

If you want the division to be a floating-point division, you'll have to make the result a float:

``````float x = 13 / 4;
``````

Notice that you'll still divide integers, which will implicitly be cast to float: the result will be `3.0`. To explicitly declare the operands as float, using the `f` suffix (`13f`, `4f`).

• +1 for explaining that you can have the answer as a float but still do integer division. Additionally, another common way I've seen to force floating point division is to multiply the first term of the division by `1.0`. Commented Apr 3, 2014 at 22:46

It's just a basic operation.

Remember when you learned to divide. In the beginning we solved `9/6 = 1 with remainder 3`.

``````9 / 6 == 1  // true
9 % 6 == 3  // true
``````

The /-operator in combination with the %-operator are used to retrieve those values.

• I know this is a really old question and answer by now, but I think it is important to point out the answer above. Integer division is distintly different than floating point division in strongly typed languages such as C#. Division and modulus operators are part and parcel of fixed point arithmetic which can be much easier to deal with and less computationally expensive given the application type for which you are performing the calculation. This question helps round out the concept further - stackoverflow.com/q/17524673/8021455 . Commented Jan 22 at 17:36

The result will always be of type that has the greater range of the numerator and the denominator. The exceptions are byte and short, which produce int (Int32).

``````var a = (byte)5 / (byte)2;  // 2 (Int32)
var b = (short)5 / (byte)2; // 2 (Int32)
var c = 5 / 2;              // 2 (Int32)
var d = 5 / 2U;             // 2 (UInt32)
var e = 5L / 2U;            // 2 (Int64)
var f = 5L / 2UL;           // 2 (UInt64)
var g = 5F / 2UL;           // 2.5 (Single/float)
var h = 5F / 2D;            // 2.5 (Double)
var i = 5.0 / 2F;           // 2.5 (Double)
var j = 5M / 2;             // 2.5 (Decimal)
var k = 5M / 2F;            // Not allowed
``````

There is no implicit conversion between floating-point types and the decimal type, so division between them is not allowed. You have to explicitly cast and decide which one you want (Decimal has more precision and a smaller range compared to floating-point types).

As a little trick to know what you are obtaining you can use var, so the compiler will tell you the type to expect:

``````int a = 1;
int b = 2;
var result = a/b;
``````

your compiler will tell you that result would be of type int here.