# Why dividing two integers doesn't get a float? [duplicate]

Can anyone explain why b gets rounded off here when I divide it by an integer although it's a float?

``````#include <stdio.h>

void main() {
int a;
float b, c, d;
a = 750;
b = a / 350;
c = 750;
d = c / 350;
printf("%.2f %.2f", b, d);
// output: 2.00 2.14
}
``````

• "Why?" - Because the language was designed that way. If you want a `float`, you cast to a `float` first. Apr 25, 2013 at 18:13
• Just because the left-hand side of an assignment is a float doesn't mean that the right hand side has to be--it only means that the right-hand side must offer equal or less precision that a float, hence the compiler has no reason to make it anything other than int. Apr 25, 2013 at 18:14
• Because `a` and `350` are `int`s. Apr 25, 2013 at 18:15
• Because that's the way Kernighan and Ritchie defined it. Apr 25, 2013 at 18:27
• @ValekHalfHeart “equal or less precision” has nothing to do with it. `int i = 2.0;` and `double d = 1;` are both valid, whatever your definition of “precision” is. Apr 25, 2013 at 18:34

This is because of implicit conversion. The variables `b, c, d` are of `float` type. But the `/` operator sees two integers it has to divide and hence returns an integer in the result which gets implicitly converted to a `float` by the addition of a decimal point. If you want float divisions, try making the two operands to the `/` floats. Like follows.

``````#include <stdio.h>

int main() {
int a;
float b, c, d;
a = 750;
b = a / 350.0f;
c = 750;
d = c / 350;
printf("%.2f %.2f", b, d);
// output: 2.14 2.14
return 0;
}
``````

Use casting of types:

``````int main() {
int a;
float b, c, d;
a = 750;
b = a / (float)350;
c = 750;
d = c / (float)350;
printf("%.2f %.2f", b, d);
// output: 2.14 2.14
}
``````

This is another way to solve that:

`````` int main() {
int a;
float b, c, d;
a = 750;
b = a / 350.0; //if you use 'a / 350' here,
//then it is a division of integers,
//so the result will be an integer
c = 750;
d = c / 350;
printf("%.2f %.2f", b, d);
// output: 2.14 2.14
}
``````

However, in both cases you are telling the compiler that 350 is a float, and not an integer. Consequently, the result of the division will be a float, and not an integer.

• Would this produce the same result? `b = (float) a / 350;` Apr 25, 2013 at 18:16
• Yes, it would. You need to typecast any one to a `float`. Apr 25, 2013 at 18:18
• Actually, `350.0` is a `double`, and the result of the operation would be a `double` that is then converted to `float` for the assignment. `350.0f` would be a `float`. Apr 25, 2013 at 18:18
• @DanielFischer Thanks for the clarification. What actually is the difference between a double and a float? Apr 25, 2013 at 18:21
• @jon The range and precision of the types. They may be equal, but usually, a `float` is a 32-bit type with 24 bits of precision, the largest finite number it can store is 3.4028235e38, the smallest positive number 1.0e-45, while `double` is a 64-bit type with 53 bits of precision capable of storing numbers up to 1.7976931348623157e308 and as small as 5.0e-324. Apr 25, 2013 at 18:27

"a" is an integer, when divided with integer it gives you an integer. Then it is assigned to "b" as an integer and becomes a float.

You should do it like this

``````b = a / 350.0;
``````

Specifically, this is not rounding your result, it's truncating toward zero. So if you divide -3/2, you'll get -1 and not -2. Welcome to integral math! Back before CPUs could do floating point operations or the advent of math co-processors, we did everything with integral math. Even though there were libraries for floating point math, they were too expensive (in CPU instructions) for general purpose, so we used a 16 bit value for the whole portion of a number and another 16 value for the fraction.

EDIT: my answer makes me think of the classic old man saying "when I was your age..."

Chapter and verse

6.5.5 Multiplicative operators
...
6 When integers are divided, the result of the `/` operator is the algebraic quotient with any fractional part discarded.105) If the quotient `a/b` is representable, the expression `(a/b)*b + a%b` shall equal `a`; otherwise, the behavior of both `a/b` and `a%b` is undeﬁned.

105) This is often called ‘‘truncation toward zero’’.

Dividing an integer by an integer gives an integer result. 1/2 yields 0; assigning this result to a floating-point variable gives 0.0. To get a floating-point result, at least one of the operands must be a floating-point type. `b = a / 350.0f;` should give you the result you want.

Probably the best reason is because `0xfffffffffffffff/15` would give you a horribly wrong answer...

• Why the downvote? The expectation that integer division give exact results is probably the best reason that division should not implicitly "promote" to a floating point type. (Incidentally, this is one of the things that makes Lua's treatment of numbers hideous to work with.) Apr 25, 2013 at 18:40
• The question can be interpreted as “Why does `int/int` not evaluate as a float since I immediately assign it to a float variable?”. Your answer, although insightful, does not address what may actually be the OP's misunderstanding. Apart from that, maybe it was downvoted because it was just too concise. I thought about it for five minutes and I arrived to the conclusion that it was funny and/or insightful for a reason other than the one you eventually gave. Apr 25, 2013 at 18:59

Dividing two integers will result in an integer (whole number) result.

You need to cast one number as a float, or add a decimal to one of the numbers, like a/350.0.