## Hot answers tagged integer-division

409

For some number y and some divisor x compute the division (div) and remainder (rem) as:
var div = Math.floor(y/x);
var rem = y % x;

169

I'm no expert in bitwise operators, but here's another way to get the whole number:
var num = ~~(a / b);
This will work properly for negative numbers as well, while Math.floor() will round in the wrong direction.
This seems correct as well:
var num = (a / b) >> 0;

137

It’s doing integer division. You can use to_f to force things into floating-point mode:
9.to_f / 5 #=> 1.8
9 / 5.to_f #=> 1.8
This also works if your values are variables instead of literals. Converting one value to a float is sufficient to coerce the whole expression to floating point arithmetic.

96

It’s doing integer division. You can make one of the numbers a Float by adding .0:
9.0 / 5 #=> 1.8
9 / 5.0 #=> 1.8

69

The current answers all focus on decimal digits, when applying the "add all digits and see if that divides by 3". That trick actually works in hex as well; e.g. 0x12 can be divided by 3 because 0x1 + 0x2 = 0x3. And "converting" to hex is a lot easier than converting to decimal.
Pseudo-code:
int reduce(int i) {
if (i > 0x10)
return reduce((i ...

60

The lexically scoped integer pragma forces Perl to use integer arithmetic in its scope:
print 3.0/2.1 . "\n"; # => 1.42857142857143
{
use integer;
print 3.0/2.1 . "\n"; # => 1
}
print 3.0/2.1 . "\n"; # => 1.42857142857143

59

Either declare set1 and set2 as floats instead of integers or cast them to floats as part of the calculation:
SET @weight= CAST(@set1 AS float) / CAST(@set2 AS float);

59

double num = 5;
That avoids a cast. But you'll find that the cast conversions are well-defined. You don't have to guess, just check the JLS. int to double is a widening conversion. From §5.1.2:
Widening primitive conversions do not
lose information about the overall
magnitude of a numeric value.
[...]
Conversion of an int or a long ...

59

Subtract 3 until you either
a) hit 0 - number was divisible by 3
b) get a number less than 0 - number wasn't divisible
-- edited version to fix noted problems
while n > 0:
n -= 3
while n < 0:
n += 3
return n == 0

57

I did some speed tests on Firefox.
-100/3 // -33.33..., 0.3663 millisec
Math.floor(-100/3) // -34, 0.5016 millisec
~~(-100/3) // -33, 0.3619 millisec
(-100/3>>0) // -33, 0.3632 millisec
(-100/3|0) // -33, 0.3856 millisec
(-100-(-100%3))/3 // -33, 0.3591 millisec
/* a=-100, b=3 */
a/b ...

50

There is also the Numeric#fdiv method which you can use instead:
9.fdiv(5) #=> 1.8

50

The remainder of a division can be discovered using the operator %:
>>> 26%7
5
In case you need both the quotient and the modulo, there's the builtin divmod function:
>>> seconds= 137
>>> minutes, seconds= divmod(seconds, 60)

49

It's because you're doing integer division.
Divide by a double or a float, and it will work:
double scale = ( n / 1024.0 ) * 255 ;
Or, if you want it as a float,
float scale = ( n / 1024.0f ) * 255 ;

45

you are looking for the modulo operator:
a%b
for example:
26%7
Of course, maybe they wanted you to implement it yourself, which wouldn't be too difficult either.

39

What's wrong with casting primitives?
If you don't want to cast for some reason, you could do
double d = num * 1.0 / denom;

38

Integer division always truncates the remainder. This is done at the time that the number is divided, not when it's assigned to the variable (as I'm guessing you assumed).
decimal c = ((decimal)a / b) * 100;

38

Because the conversion to float happens after the division has been done. You need:
float percentage = ((float) totalOptCount) / totalRespCount;
You should be able to format using something like:
String str = String.format("%2.02f", percentage);

33

This is because you are using the integer division version of operator/, which takes 2 ints and returns an int. In order to use the double version, which returns a double, at least one of the ints must be explicitly casted to a double.
c = a/(double)b;

31

Split the number into digits. Add the digits together. Repeat until you have only one digit left. If that digit is 3, 6, or 9, the number is divisible by 3. (And don't forget to handle 0 as a special case).

31

7/9*9 evaluates those numbers as integers, so 7/9 evaluates to 0, and 0*9 = 0.
When you made them floats, you were performing the intended calculation.
Try 7.0/9*9 to get 7, and then you'll be doing a floating point operation.

29

You're dividing integers, which means that you're using integer division.
In integer division the fractional part of the result is thrown away.
Try the following:
float res = (float) quantity / standard;
^^^^^^^
The above forces the numerator to be treated as a float which in turn promotes the denominator to float as well, and a ...

28

You need to cast one or the other to a float or double.
int x = 1;
int y = 3;
// Before
x / y; // (0!)
// After
((double)x) / y; // (0.33333...)
x / ((double)y); // (0.33333...)
Of course, make sure that you are store the result of the division in a double or float! It doesn't do you any good if you store the result in another int.
Regarding @Chad's ...

28

I don't like casting primitives, who knows what may happen.
Why do you have an irrational fear of casting primitives? Nothing bad will happen when you cast an int to a double. If you're just not sure of how it works, look it up in the Java Language Specification. Casting an int to double is a widening primitive conversion.
You can get rid of the extra ...

26

Nevermind, dumb question: you can cast ints in Perl.
int(5/1.5) = 3;

26

It's doing integer division, which truncates everything to the right of the decimal point.

24

Obligatory answer for other learners who might come looking for an answer.
if (number % n == 0)
In most cases, you can always do this, trusting the smart modern compilers.
This doesn't mean you get discouraged from learning fun ways though. Check out these links.
Fast divisibility tests (by 2,3,4,5,.., 16)?
Bit Twiddling Hacks

22

Integer division always rounds down (towards negative infinity).
Plain or long integer division yields an integer of the same type; the result is that of mathematical division with the floor1 function applied to the result.
http://docs.python.org/2/reference/expressions.html#binary-arithmetic-operations
This allows for the integer division ...

20

For the actual values, i.e. 8.0/(-7.0), the result is roughly -1.143.
Your result using integer division is being rounded down toward the more negative value of -2. (This is also known as "Floor division")
This is why you will get the somewhat perplexing answers of:
>>> 8/(-7)
-2
>>> 8/7
1
Note: This is "fixed" in Python 3, where the ...

20

I know that doing, i.e, 130 % 13 will result into doing 130 / 13 per 10 times
Balderdash. % does no such thing on any processor I've ever used. It does 130/13 once, and returns the remainder.
Use %. If your application runs too slowly, profile it and fix whatever is too slow.

19

XOR is the way to go.
import acm.program.*;
public class Problem4 extends ConsoleProgram {
public void run() {
for (int i = 1; i <= 100; i++) {
if ( (i % 6 == 0) ^ (i % 7 == 0) ) {
println(i + " is divisible");
}
}
}
}

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