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

In C#:

float x = 13 / 4;   
//imagine I used have overridden == operator 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.)

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because it is integer division not floating point division. – Hunter McMillen Jun 1 '12 at 13:33
The answer is in the question "INTEGER Division". Integers can only be whole numbers. I think this qualifies as a facepalm. – Totero Jun 1 '12 at 13:35
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. – crashmstr Jun 1 '12 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? – pelesl Apr 10 '13 at 19:37
This "integer" division don't make sense to me. There is no such a thing in the real world. Ask any human, how much is 1/2, anyone sane would say "0.5". As a human programmer I would prefer 3 operators. One for the division (independant of operands) one for the remainder and one for the integer part. Pascal makes sense though. But that's my opinion. – EProgrammerNotFound Jun 3 '14 at 17:29
up vote 25 down vote accepted

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.

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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; – BanditoBunny Jun 1 '12 at 13:46
Concerning casting: the problem is you don't always know (keep in mind) what is the result of your operation is - it could be a complex formula which has multiples variables and one of them being double is enough for this thing to work properly (need to check Resharper rules, maybe there is on). – BanditoBunny Jun 1 '12 at 13:52
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. – Servy Jun 1 '12 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. – BanditoBunny Jun 1 '12 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. – Servy Apr 10 '13 at 19:46

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.

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If you want a float result, you will have to declare the result as type float and cast the numerator or denominator to floats also.

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you just need to cast one of them and the result will be a float regardless of the type of the variable it's assigned to (if the variable as an incompatible type it will be a compile error but that does not change the type of the expression) – Rune FS Jun 1 '12 at 13:40

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).

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+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. – Xynariz Apr 3 '14 at 22:46

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.

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+1 for mentioning that only one term needs to be float to make floating point division. – Xynariz Apr 3 '14 at 22:48

Its 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.

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