# division without using '/'

Can any one tell me an efficient approach to perform the division operation without using '/'. I can calculate the integer value in log n steps using a method similar to binary search.

``````115/3
57 * 3 > 115
28 * 3 < 115
47 * 3 > 115
.
.
.
38 * 3 is quotient value .....
``````

But is there any other method more efficient?

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are you asking something similar to geekinterview.com/question_details/60191 –  PsyCoder Mar 22 '11 at 3:24
Why not just subtract the logs, and then exponentiate? You might explain why you refuse to use division, otherwise we cannot possibly know what is the problem. –  user85109 Mar 22 '11 at 3:25
How do you come up with 57? Are you allowed to divide by 2? –  Thilo Mar 22 '11 at 3:26
@thilo: just the way we do binary search in an array, i tried to find the quotient. –  maver1k Mar 22 '11 at 4:01
@woodchips: its an interview question.. –  maver1k Mar 22 '11 at 4:02
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## 9 Answers

The typical way is to shift and subtract. This is basically pretty similar to long division as we learned it in school. The big difference is that in decimal division you need to estimate the next digit of the result. In binary, that's trivial. The next digit is always either 0 or 1. If the (left-shifted) divisor is less than or equal to the current dividend value, you subtract it, and the current bit of the result is a 1. If it's greater, then the current bit of the result is a 0. Code looks like this:

``````unsigned divide(unsigned dividend, unsigned divisor) {

unsigned denom=divisor;
unsigned current = 1;
unsigned answer=0;

if ( denom > dividend)
return 0;

if ( denom == dividend)
return 1;

while (denom <= dividend) {
denom <<= 1;
current <<= 1;
}

denom >>= 1;
current >>= 1;

while (current!=0) {
if ( dividend >= denom) {
dividend -= denom;
answer |= current;
}
current >>= 1;
denom >>= 1;
}
return answer;
}
``````
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I believe there is a mistake. `while (denom < dividend)` should be `while (denom <= dividend)`. –  kentor Jul 27 '12 at 0:13
@kentor: I believe you were correct. Thank you. –  Jerry Coffin Jul 27 '12 at 1:07
I couldn't understand the guessing the result part and why are we or'ing answer and current. Could you please elaborate that? Thanks in advance. –  user1071840 Jan 28 '13 at 5:39
@user1071840: Perhaps another answer will be helpful. –  Jerry Coffin Jan 28 '13 at 6:09
@JerryCoffin why did you or the answer by current? I couldn't get that part. –  Varaquilex May 4 '13 at 16:36
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Options:

• Code your own division algorithm based on the long division algorithm you learned in grade school.
• Take the -1 power of the denominator, and multiply onto the numerator
• Take the logs of the numerator and denominator, subtract, and then raise the base of the log to that same power

I don't particularly like questions like this, because we're basically looking for silly tricks, but there we are.

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its just a question asked in a interview. –  maver1k Mar 22 '11 at 3:59
@Vijay - so? Its a poor interview question AND a poor SO question. –  Stephen C Mar 22 '11 at 4:29
And it is a duplicate. –  Stephen C Mar 22 '11 at 4:32
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Following is the Java code for dividing number without using division operator.

``````private static int binaryDivide(int dividend, int divisor) {
int current = 1;
int denom = divisor;
// This step is required to find the biggest current number which can be
// divided with the number safely.
while (denom <= dividend) {
current <<= 1;
denom <<= 1;
}
// Since we may have increased the denomitor more than dividend
// thus we need to go back one shift, and same would apply for current.
denom >>= 1;
current >>= 1;
int answer = 0;
// Now deal with the smaller number.
while (current != 0) {
if (dividend >= denom) {
dividend -= denom;
answer |= current;
}
current >>= 1;
denom >>= 1;
}
return answer;
}
``````
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The main concept :

Let's say we are calc `20/4`, so

``````4*(1+1) = 8 *(1+1) = 16 *(1+1) == 32 (which is bigger) X
so go back to 16 and try 16*(1+0.5) == 24 (bigger) X
so go back to 16 and try 16*(1+0.25) == 20
``````

The code:

``````float product=1,multiplier=2,a=1;
int steps=0;

void divCore(float number, float divideBy,float lastDivison)
{
steps++;
//epsilon check e.g (10/3) will never ends
if(number - divideBy < 0.01)
return;
else
{
lastDivison = divideBy;
divideBy *= multiplier;
if(number >= divideBy)
{
product *= multiplier;
divCore(number,divideBy,lastDivison);
}
else
{
a *= 0.5;
multiplier = 1 + a;
divCore(number,lastDivison,lastDivison);
}
}
}

float Divide(float numerator, float denominator)
{
//init data
int neg=(numerator<0)?-1:1;
neg*=(denominator<0)?-1:1;
product = 1;
multiplier = 2;
a = 1;
steps =0;
divCore(abs(numerator),abs(denominator),0);
return product*neg;
}
``````
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Perhaps you can devise a way to do it using sequences of >> (bit shifts) with other bitwise operators. There's an example in psuedo-code in the Wikipedia: Bitwise Operator article.

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Well, if this is only integer/integer = int type division, it's pretty easy to get the integer part of x / n = int.dec by adding n+n+n+n until n is greater than x, then subtracting one from your 'n' count.

To get int/int = real without using *, /, %, or other math functions, you could do several things. You could return the remainder as a rational, for example. That has the advantage of being exact. You could also use string modification to turn your r into r0... (you pick the precision) and then repeat the same addition trick, then concatenate the results.

And of course, you could try having fun with bit shifting.

I don't know if this is so much a 'silly trick' as it is a test of how well you can use simple things (addition, subtraction) to build a complex thing (division). This is a skill that your potential employer might need, because there isn't an operator for everything. A question like this should (theoretically) weed out people who can't design algorithms from people who can.

I do think it's a problem that the answer is so readily available on the internet, but that's an implementation issue.

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Since the OP said it's an interview question, I think the interviewer wants to see the following things in addition to your coding skills. (Suppose you are using Java)

1. How to deal with negative numbers? It's common to convert both the dividend and the divisor to positive numbers. However, you may forget that `Math.abs(Integer.MIN_VALUE)` is still `Integer.MIN_VALUE`. Therefore, when the dividend is Integer.MIN_VALUE, you should calculate it separately.

2. What's the result of "Integer.MIN_VALUE/-1"? There is no such value in Integer. You should discuss it with the interviewer. You can throw an exception for this condition.

Here is the Java code for this question and you can validate it leetcode:divide two integers:

``````public int divide(int dividend, int divisor) {

if(divisor == 0)
throw new Exception("Zero as divisor!");

int a = Math.abs(dividend);
int b = Math.abs(divisor);

boolean isPos = true;
if(dividend < 0) isPos = !isPos;
if(divisor < 0) isPos = !isPos;

if(divisor == Integer.MIN_VALUE){

if(dividend == Integer.MIN_VALUE) return 1;
else return 0;
}

if(dividend == Integer.MIN_VALUE) {

if(divisor == -1){

// the result is out of Integer's range.
throw new Exception("Invalid result.");
} else {
// Because Math.abs(Integer.MIN_VALUE) = Integer.MIN_VALUE
// we avoid it by adding a positive divisor to Integer.MIN_VALUE
// here I combined two cases: divisor > 0 and divisor < 0
return divide((dividend + b), divisor) - divisor/b;
}
}

int res = 0;
int product = b;

while(a >= b){

int multiplier = 1;
while(a - product >= product){

product = product << 1;// "product << 1" is actually "product * 2"
multiplier = multiplier << 1;
}
res += multiplier;
a -= product;
product = b;
}

return isPos?res:-res;

}
``````
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Here is a simple divide method for ints without using a '/' operator:-

``````public static int divide(int numerator, int denominator) throws Exception {

int q = 0;
boolean isNumPos = (numerator >= 0) ? true : false;
boolean isDenPos = (denominator >= 0) ? true : false;

if (denominator == 0) throw new Exception("Divide by 0: not an integer result");

numerator = Math.abs(numerator);
denominator = Math.abs(denominator);

while (denominator <= numerator) {
numerator -= denominator;
q++;
}

return (isNumPos ^ isDenPos) ? -q : q;
}
``````
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well, let's see... x/y = e^(ln(x)-ln(y))

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I'd think that two `ln`s and a `pow` would usually be more expensive than one `/`. –  michaelb958 Oct 17 '13 at 3:40
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