# Divide a number by 3 without using *, /, +, -, % operators

How would you divide a number by 3 without using `*`, `/`, `+`, `-`, `%`, operators?

The number may be signed or unsigned.

• The identified duplicate isn't a duplicate. Note that several answers here use neither bit shifting or addition since this question didn't restrict a solution to those operations. Jul 28, 2012 at 0:37
• BTW: The other question was about checking if a number is divisible by 3. This question is about dividing by 3. Jul 30, 2012 at 13:57
• Perhaps the interviewer meant to ask "How do you divide by 2 without using blah blah blah". That would be a sane question that most developers should be able to answer. Aug 9, 2012 at 12:09
• x /= 3; does not use the / operator, /= is a different operator. Aug 21, 2012 at 15:13
• This question is offtopic to SO. It belongs to codegolf.stackexchange.com Jun 3, 2014 at 4:28

This is a simple function which performs the desired operation. But it requires the `+` operator, so all you have left to do is to add the values with bit-operators:

``````// replaces the + operator
{
while (x) {
int t = (x & y) << 1;
y ^= x;
x = t;
}
return y;
}

int divideby3(int num)
{
int sum = 0;
while (num > 3) {
sum = add(num >> 2, sum);
num = add(num >> 2, num & 3);
}
if (num == 3)
return sum;
}
``````

As Jim commented this works, because:

• `n = 4 * a + b`
• `n / 3 = a + (a + b) / 3`
• So `sum += a`, `n = a + b`, and iterate

• When `a == 0 (n < 4)`, `sum += floor(n / 3);` i.e. 1, `if n == 3, else 0`

• This is probably the answer Oracle is looking for. It shows you know how the +, -, * and / operators are actually implemented on the CPU: simple bitwise operations. Jul 27, 2012 at 21:55
• This works because n = 4a + b, n/3 = a + (a+b)/3, so sum += a, n = a + b, and iterate. When a == 0 (n < 4), sum += floor(n/3); i.e., 1 if n == 3, else 0. Jul 28, 2012 at 5:36
• Here's a trick i found which got me a similar solution. In decimal: `1 / 3 = 0.333333`, the repeating numbers make this easy to calculate using `a / 3 = a/10*3 + a/100*3 + a/1000*3 + (..)`. In binary it's almost the same: `1 / 3 = 0.0101010101 (base 2)`, which leads to `a / 3 = a/4 + a/16 + a/64 + (..)`. Dividing by 4 is where the bit shift comes from. The last check on num==3 is needed because we've only got integers to work with. Jul 30, 2012 at 12:40
• In base 4 it gets even better: `a / 3 = a * 0.111111 (base 4) = a * 4^-1 + a * 4^-2 + a * 4^-3 + (..) = a >> 2 + a >> 4 + a >> 6 + (..)`. The base 4 also explains why only 3 is rounded up at the end, while 1 and 2 can be rounded down. Jul 30, 2012 at 13:04
• @while1: it's bitwise AND operation. Also, a well-known fact is that for `n == 2^k` the following is true: `x % n == x & (n-1)`, so here `num & 3` is used to perform `num % 4` while `%` is not allowed. Jul 31, 2012 at 20:24

Idiotic conditions call for an idiotic solution:

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

int main()
{
FILE * fp=fopen("temp.dat","w+b");
int number=12346;
int divisor=3;
char * buf = calloc(number,1);
fwrite(buf,number,1,fp);
rewind(fp);
printf("%d / %d = %d", number, divisor, result);
free(buf);
fclose(fp);
return 0;
}
``````

If also the decimal part is needed, just declare `result` as `double` and add to it the result of `fmod(number,divisor)`.

Explanation of how it works

1. The `fwrite` writes `number` bytes (number being 123456 in the example above).
2. `rewind` resets the file pointer to the front of the file.
3. `fread` reads a maximum of `number` "records" that are `divisor` in length from the file, and returns the number of elements it read.

If you write 30 bytes then read back the file in units of 3, you get 10 "units". 30 / 3 = 10

• @earlNameless: you don't know what they use inside, they are in the black box of "implementation defined". Nothing stops them to just use bitwise operators; anyway, they are outside the domain of my code, so that's not my problem. :) Jul 29, 2012 at 1:02
• @IvoFlipse from I can clean, you get a big something and shove it into something three times too small, and then see how much fitted in. That about is a third. Jul 29, 2012 at 15:00
• asked the best C programmer (and most socially awkward) at our company to explain the code. after he did, i said it was pretty ingenious. He said 'this dreck is not a solution' and asked me to leave his desk
– user1107975
Jul 30, 2012 at 12:45
• @cvursache I think the point is that the question is so brain dead, that a brain dead answer is allowed. The "best C programmer" at your company" could just as easily have said "that dreck is not a (proper) question". Jul 31, 2012 at 10:18
• @JeremyP: exactly. My point is that if in real life I was given a compiler without support for arithmetic the only sensible thing would be to ask for a better compiler, because working in those conditions doesn't make any sense. If the interviewer wanted to check my knowledge of how to implement division with bitwise operations he could just be straightforward and ask it as a theoretical question; these kind of "trick exercises" just scream for answers like this. Jul 31, 2012 at 11:22
``````log(pow(exp(number),0.33333333333333333333)) /* :-) */
``````
• This might actually work if rounded properly and if the number isn't too large. Jul 27, 2012 at 19:57
• Improved version: log(pow(exp(number),sin(atan2(1,sqrt(8))))) Jul 28, 2012 at 0:14
• @bitmask, math functions are usually implemented directly in asm. Aug 10, 2012 at 9:40
• i just typed it in my js console, it doesn't work with a number higher than 709 (may be its just my system) `Math.log(Math.pow(Math.exp(709),0.33333333333333333333))` and `Math.log(Math.pow(Math.exp(709),Math.sin(Math.atan2(1,Math.sqrt(8)))))` Aug 30, 2012 at 13:12
``````#include <stdio.h>
#include <stdlib.h>

int main(int argc, char *argv[])
{

int num = 1234567;
int den = 3;
div_t r = div(num,den); // div() is a standard C function.
printf("%d\n", r.quot);

return 0;
}
``````

You can use (platform dependent) inline assembly, e.g., for x86: (also works for negative numbers)

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

int main() {
int dividend = -42, divisor = 5, quotient, remainder;

__asm__ ( "cdq; idivl %%ebx;"
: "=a" (quotient), "=d" (remainder)
: "a"  (dividend), "b"  (divisor)
: );

printf("%i / %i = %i, remainder: %i\n", dividend, divisor, quotient, remainder);
return 0;
}
``````
• @JeremyP doesn't your comment fail on the assumption that the answer can't be written in C? The question is tagged "C" after all. Aug 1, 2012 at 18:33
• @SethCarnegie The answer is not written in C is my point. x86 assembler is not part of the standard. Aug 2, 2012 at 13:29
• @JeremyP that is true, but the `asm` directive is. And I would add that C compilers are not the only ones that have inline assemblers, Delphi has that as well. Aug 2, 2012 at 18:01
• @SethCarnegie The `asm` directive is only mentioned in the C99 standard under Appendix J - common extensions. Aug 3, 2012 at 9:49
• Fails in arm-eabi-gcc. Jul 26, 2015 at 17:34

Use itoa to convert to a base 3 string. Drop the last trit and convert back to base 10.

``````// Note: itoa is non-standard but actual implementations
// don't seem to handle negative when base != 10.
int div3(int i) {
char str;
sprintf(str, "%d", INT_MIN); // Put minus sign at str
if (i>0)                     // Remove sign if positive
str = ' ';
itoa(abs(i), &str, 3);    // Put ternary absolute value starting at str
str[strlen(&str)] = '\0'; // Drop last digit
return strtol(str, NULL, 3); // Read back result
}
``````
• @cshemby I actually didn't know that `itoa` could use an arbitrary base. If you do a complete working implementation using `itoa` I'll upvote. Jul 27, 2012 at 19:54
• The implementation will contain `/` and `%`... :-) Aug 22, 2012 at 6:39
• @R.. So does the implementation of `printf` for displaying your decimal result. Sep 21, 2016 at 16:39

(note: see Edit 2 below for a better version!)

This is not as tricky as it sounds, because you said "without using the [..] `+` [..] operators". See below, if you want to forbid using the `+` character all together.

``````unsigned div_by(unsigned const x, unsigned const by) {
unsigned floor = 0;
for (unsigned cmp = 0, r = 0; cmp <= x;) {
for (unsigned i = 0; i < by; i++)
cmp++; // that's not the + operator!
floor = r;
r++; // neither is this.
}
return floor;
}
``````

then just say `div_by(100,3)` to divide `100` by `3`.

### Edit: You can go on and replace the `++` operator as well:

``````unsigned inc(unsigned x) {
else
}
return 0; // overflow (note that both x and mask are 0 here)
}
``````

# Edit 2: Slightly faster version without using any operator that contains the `+`,`-`,`*`,`/`,`%`characters.

``````unsigned add(char const zero[], unsigned const x, unsigned const y) {
// this exploits that &foo[bar] == foo+bar if foo is of type char*
return (int)(uintptr_t)(&((&zero[x])[y]));
}

unsigned div_by(unsigned const x, unsigned const by) {
unsigned floor = 0;
for (unsigned cmp = 0, r = 0; cmp <= x;) {
floor = r;
}
return floor;
}
``````

We use the first argument of the `add` function because we cannot denote the type of pointers without using the `*` character, except in function parameter lists, where the syntax `type[]` is identical to `type* const`.

FWIW, you can easily implement a multiplication function using a similar trick to use the `0x55555556` trick proposed by AndreyT:

``````int mul(int const x, int const y) {
return sizeof(struct {
char const ignore[y];
}[x]);
}
``````
• The question is tagged c, not SQL, even though Oracle is mentioned. Jul 27, 2012 at 19:48
• This does indeed not look like SQL! Jul 27, 2012 at 19:49
• If you can use `++`: Why aren't you simply use `/=`? Jul 27, 2012 at 20:10
• @bitmask: `++` is also a shortcut: For `num = num + 1`. Jul 27, 2012 at 20:17
• @bitmask Yeah, but `+=` is finally a shortcut for `num = num + 1`. Jul 27, 2012 at 20:23

It is easily possible on the Setun computer.

To divide an integer by 3, shift right by 1 place.

I'm not sure whether it's strictly possible to implement a conforming C compiler on such a platform though. We might have to stretch the rules a bit, like interpreting "at least 8 bits" as "capable of holding at least integers from -128 to +127".

• The problem is that you don't have a "shift right by 1 place" operator in C. The `>>` operator is the "division by 2^n" operator, i.e. it is specified in terms of arithmetic, not machine representation. Aug 22, 2012 at 6:44
• The Setun computer is not binary in any sense of the word, so the instruction set must be definitely different. However, I am not at all familiar with the operation of that computer, so I cannot confirm if the response is really correct - but at least it makes sense - and is highly original. +1 Feb 7, 2019 at 6:57

Here's my solution:

``````public static int div_by_3(long a) {
a <<= 30;
for(int i = 2; i <= 32 ; i <<= 1) {
a = add(a, a >> i);
}
return (int) (a >> 32);
}

public static long add(long a, long b) {
long carry = (a & b) << 1;
long sum = (a ^ b);
return carry == 0 ? sum : add(carry, sum);
}
``````

First, note that

``````1/3 = 1/4 + 1/16 + 1/64 + ...
``````

Now, the rest is simple!

``````a/3 = a * 1/3
a/3 = a * (1/4 + 1/16 + 1/64 + ...)
a/3 = a/4 + a/16 + 1/64 + ...
a/3 = a >> 2 + a >> 4 + a >> 6 + ...
``````

Now all we have to do is add together these bit shifted values of a! Oops! We can't add though, so instead, we'll have to write an add function using bit-wise operators! If you're familiar with bit-wise operators, my solution should look fairly simple... but just in-case you aren't, I'll walk through an example at the end.

Another thing to note is that first I shift left by 30! This is to make sure that the fractions don't get rounded off.

``````11 + 6

1011 + 0110
sum = 1011 ^ 0110 = 1101
carry = (1011 & 0110) << 1 = 0010 << 1 = 0100
Now you recurse!

1101 + 0100
sum = 1101 ^ 0100 = 1001
carry = (1101 & 0100) << 1 = 0100 << 1 = 1000
Again!

1001 + 1000
sum = 1001 ^ 1000 = 0001
carry = (1001 & 1000) << 1 = 1000 << 1 = 10000
One last time!

0001 + 10000
sum = 0001 ^ 10000 = 10001 = 17
carry = (0001 & 10000) << 1 = 0

Done!
``````

It's simply carry addition that you learned as a child!

``````111
1011
+0110
-----
10001
``````

This implementation failed because we can not add all terms of the equation:

``````a / 3 = a/4 + a/4^2 + a/4^3 + ... + a/4^i + ... = f(a, i) + a * 1/3 * 1/4^i
f(a, i) = a/4 + a/4^2 + ... + a/4^i
``````

Suppose the reslut of `div_by_3(a)` = x, then `x <= floor(f(a, i)) < a / 3`. When `a = 3k`, we get wrong answer.

• does it work for input of 3? 1/4, 1/16, ... all return 0 for 3, so would sum to 0, but 3/3 = 1. Jul 27, 2012 at 21:55
• The logic is good but the implementation is problematic. The series approximation of `n/3` is always less than `n/3` which means that for any `n=3k` the result would be `k-1` instead of `k`. Jul 28, 2012 at 0:40
• @Albert, This was the first approach I tried, with a couple variations, but they all failed on either certain numbers evenly divisible by 3 or evenly divisible by 2 (depending on the variation). So I tried something more straightforward. I would like to see an implementation of this approach that works, to see where I was screwing up. Jul 28, 2012 at 0:53
• @hatchet, The question is closed so I can't post a new answer but the idea is to implement binary div. I should be easy to look it up. Jul 28, 2012 at 17:06

To divide a 32-bit number by 3 one can multiply it by `0x55555556` and then take the upper 32 bits of the 64 bit result.

Now all that's left to do is to implement multiplication using bit operations and shifts...

• This is a common compiler trick to work around slow divisions. But you probably need to do some fix ups, since 0x55555556/2**32 isn't exactly 1/3. Jul 27, 2012 at 20:23
• `multiply it`. Wouldn't that imply using the forbidden `*` operator? Jul 27, 2012 at 20:59
• @luiscubal: No, it won't. This is why I said: "Now all that's left to do is to implement multiplication using bit operations and shifts" Jul 27, 2012 at 21:49

Yet another solution. This should handle all ints (including negative ints) except the min value of an int, which would need to be handled as a hard coded exception. This basically does division by subtraction but only using bit operators (shifts, xor, & and complement). For faster speed, it subtracts 3 * (decreasing powers of 2). In c#, it executes around 444 of these DivideBy3 calls per millisecond (2.2 seconds for 1,000,000 divides), so not horrendously slow, but no where near as fast as a simple x/3. By comparison, Coodey's nice solution is about 5 times faster than this one.

``````public static int DivideBy3(int a) {
bool negative = a < 0;
if (negative) a = Negate(a);
int result;
int sub = 3 << 29;
int threes = 1 << 29;
result = 0;
while (threes > 0) {
if (a >= sub) {
}
sub >>= 1;
threes >>= 1;
}
if (negative) result = Negate(result);
return result;
}
public static int Negate(int a) {
}
public static int Add(int a, int b) {
int x = 0;
x = a ^ b;
while ((a & b) != 0) {
b = (a & b) << 1;
a = x;
x = a ^ b;
}
return x;
}
``````

This is c# because that's what I had handy, but differences from c should be minor.

• You only need to try to subtract sub once, because if you could have subtracted it twice then you could have subtracted it the previous iteration when it was twice as big as it is now.
– Neil
Jul 28, 2012 at 0:25
• Does `(a >= sub)` count as a subtraction?
– Neil
Jul 28, 2012 at 0:26
• @Neil, I think you may be right. The inner while could be replaced with a simple if, saving an unneeded comparison from the second iteration of the loop. Regarding >= being subtraction...I hope not, because that would make doing this quite difficult! I see your point, but I think I would lean on the side that says >= does not count as subtraction. Jul 28, 2012 at 0:34
• @Neil, I made that change, which cut the time in half (also saved unneeded Negates). Jul 28, 2012 at 0:45

It's really quite easy.

``````if (number == 0) return 0;
if (number == 1) return 0;
if (number == 2) return 0;
if (number == 3) return 1;
if (number == 4) return 1;
if (number == 5) return 1;
if (number == 6) return 2;
``````

(I have of course omitted some of the program for the sake of brevity.) If the programmer gets tired of typing this all out, I'm sure that he or she could write a separate program to generate it for him. I happen to be aware of a certain operator, `/`, that would simplify his job immensely.

• You could use a `Dictionary<number, number>` instead of repeated `if` statements so you can have `O(1)` time complexity! Aug 18, 2012 at 3:28
• @EnesUnal No, the time increases linearly as the number increases, because it has to traverse more and more if statements. Aug 18, 2012 at 21:37
• Theoritically it does not increase :) Aug 18, 2012 at 22:01
• @PeterOlson, EresUnal if I used a switch statement, it'd be O(1) :-) Aug 20, 2012 at 1:51
• Or you could generate an array, and use dynamic programming. if x/3 = y, then y<<2 + y = x - x%3. Mar 12, 2015 at 0:01

Using counters is a basic solution:

``````int DivBy3(int num) {
int result = 0;
int counter = 0;
while (1) {
if (num == counter)       //Modulus 0
return result;
counter = abs(~counter);  //++counter

if (num == counter)       //Modulus 1
return result;
counter = abs(~counter);  //++counter

if (num == counter)       //Modulus 2
return result;
counter = abs(~counter);  //++counter

result = abs(~result);    //++result
}
}
``````

It is also easy to perform a modulus function, check the comments.

• @Enes Unal: not for small numbers :) This algorithm is very basic.
– GJ.
Aug 18, 2012 at 22:10
• Every primitiveness includes weaknesses :) Aug 18, 2012 at 22:11

This one is the classical division algorithm in base 2:

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

int main()
{
uint32_t mod3 = { 0,1,2,0,1,2 };
uint32_t x = 1234567; // number to divide, and remainder at the end
uint32_t y = 0; // result
int bit = 31; // current bit
printf("X=%u   X/3=%u\n",x,x/3); // the '/3' is for testing

while (bit>0)
{
printf("BIT=%d  X=%u  Y=%u\n",bit,x,y);
// decrement bit
int h = 1; while (1) { bit ^= h; if ( bit&h ) h <<= 1; else break; }
uint32_t r = x>>bit;  // current remainder in 0..5
x ^= r<<bit;          // remove R bits from X
if (r >= 3) y |= 1<<bit; // new output bit
x |= mod3[r]<<bit;    // new remainder inserted in X
}
printf("Y=%u\n",y);
}
``````

Write the program in Pascal and use the `DIV` operator.

Since the question is tagged , you can probably write a function in Pascal and call it from your C program; the method for doing so is system-specific.

But here's an example that works on my Ubuntu system with the Free Pascal `fp-compiler` package installed. (I'm doing this out of sheer misplaced stubbornness; I make no claim that this is useful.)

`divide_by_3.pas` :

``````unit Divide_By_3;
interface
function div_by_3(n: integer): integer; cdecl; export;
implementation
function div_by_3(n: integer): integer; cdecl;
begin
div_by_3 := n div 3;
end;
end.
``````

`main.c` :

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

extern int div_by_3(int n);

int main(void) {
int n;
fputs("Enter a number: ", stdout);
fflush(stdout);
scanf("%d", &n);
printf("%d / 3 = %d\n", n, div_by_3(n));
return 0;
}
``````

To build:

``````fpc divide_by_3.pas && gcc divide_by_3.o main.c -o main
``````

Sample execution:

``````\$ ./main
Enter a number: 100
100 / 3 = 33
``````
``````int div3(int x)
{
int reminder = abs(x);
int result = 0;
while(reminder >= 3)
{
result++;

reminder--;
reminder--;
reminder--;
}
return result;
}
``````
• ++ and -- operaors are diferent from + and - operaors! In assembly language there are two instructions `ADD` and `INC` that they have not same opcodes. Aug 5, 2012 at 13:50

Didn't cross-check if this answer is already published. If the program need to be extended to floating numbers, the numbers can be multiplied by 10*number of precision needed and then the following code can be again applied.

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

int main()
{
int aNumber = 500;
int gResult = 0;

int aLoop = 0;

int i = 0;
for(i = 0; i < aNumber; i++)
{
if(aLoop == 3)
{
gResult++;
aLoop = 0;
}
aLoop++;
}

printf("Reulst of %d / 3 = %d", aNumber, gResult);

return 0;
}
``````

This should work for any divisor, not only three. Currently only for unsigned, but extending it to signed should not be that difficult.

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

unsigned sub(unsigned two, unsigned one);
unsigned bitdiv(unsigned top, unsigned bot);
unsigned sub(unsigned two, unsigned one)
{
unsigned bor;
bor = one;
do      {
one = ~two & bor;
two ^= bor;
bor = one<<1;
} while (one);
return two;
}

unsigned bitdiv(unsigned top, unsigned bot)
{
unsigned result, shift;

if (!bot || top < bot) return 0;

for(shift=1;top >= (bot<<=1); shift++) {;}
bot >>= 1;

for (result=0; shift--; bot >>= 1 ) {
result <<=1;
if (top >= bot) {
top = sub(top,bot);
result |= 1;
}
}
return result;
}

int main(void)
{
unsigned arg,val;

for (arg=2; arg < 40; arg++) {
val = bitdiv(arg,3);
printf("Arg=%u Val=%u\n", arg, val);
}
return 0;
}
``````

Would it be cheating to use the `/` operator "behind the scenes" by using `eval` and string concatenation?

For example, in Javacript, you can do

``````function div3 (n) {
var div = String.fromCharCode(47);
return eval([n, div, 3].join(""));
}
``````

First that I've come up with.

``````irb(main):101:0> div3 = -> n { s = '%0' + n.to_s + 's'; (s % '').gsub('   ', ' ').size }
=> #<Proc:0x0000000205ae90@(irb):101 (lambda)>
irb(main):102:0> div3
=> 4
irb(main):103:0> div3
=> 222
``````

EDIT: Sorry, I didn't notice the tag `C`. But you can use the idea about string formatting, I guess...

Using BC Math in PHP:

``````<?php
\$a = 12345;
\$b = bcdiv(\$a, 3);
?>
``````

MySQL (it's an interview from Oracle)

``````> SELECT 12345 DIV 3;
``````

Pascal:

``````a:= 12345;
b:= a div 3;
``````

x86-64 assembly language:

``````mov  r8, 3
xor  rdx, rdx
mov  rax, 12345
idiv r8
``````
• Cool story, this is tagged C and has been so since day one. In addition, you completely fail to grasp the point of the question. Jan 23, 2018 at 12:16

The following script generates a C program that solves the problem without using the operators `* / + - %`:

``````#!/usr/bin/env python3

print('''#include <stdint.h>
#include <stdio.h>
const int32_t div_by_3(const int32_t input)
{
''')

for i in range(-2**31, 2**31):
print('    if(input == %d) return %d;' % (i, i / 3))

print(r'''
return 42; // impossible
}
int main()
{
const int32_t number = 8;
printf("%d / 3 = %d\n", number, div_by_3(number));
}
''')
``````
``````int divideByThree(int num)
{
return (fma(num, 1431655766, 0) >> 32);
}
``````

Where fma is a standard library function defined in `math.h` header.

• How is this not using the `-` nor the `*` operator? Jul 27, 2012 at 20:45

First:

``````x/3 = (x/4) / (1-1/4)
``````

Then figure out how to solve x/(1 - y):

``````x/(1-1/y)
= x * (1+y) / (1-y^2)
= x * (1+y) * (1+y^2) / (1-y^4)
= ...
= x * (1+y) * (1+y^2) * (1+y^4) * ... * (1+y^(2^i)) / (1-y^(2^(i+i))
= x * (1+y) * (1+y^2) * (1+y^4) * ... * (1+y^(2^i))
``````

with y = 1/4:

``````int div3(int x) {
x <<= 6;    // need more precise
x += x>>2;  // x = x * (1+(1/2)^2)
x += x>>4;  // x = x * (1+(1/2)^4)
x += x>>8;  // x = x * (1+(1/2)^8)
x += x>>16; // x = x * (1+(1/2)^16)
return (x+1)>>8; // as (1-(1/2)^32) very near 1,
// we plus 1 instead of div (1-(1/2)^32)
}
``````

Although it uses `+`, but somebody already implements add by bitwise op.

``````private int dividedBy3(int n) {
List<Object> a = new Object[n].ToList();
List<Object> b = new List<object>();
while (a.Count > 2) {
a.RemoveRange(0, 3);
}
return b.Count;
}
``````
• This is tagged C and has been so since day one. Jan 23, 2018 at 12:22

I think the right answer is:

Why would I not use a basic operator to do a basic operation?

• Because what they want to know is if you know how the processor works internally... using a math operator will in the end perform an operation very similar to the above answer. Nov 5, 2012 at 18:57
• Or they wan to know if you can recognize an useless problem. Nov 20, 2012 at 11:14
• @Gregoire I agree, There is aboloultley no need to do such an implementation, Bit in comercial life (Orcale) it is neccessary to avoid fulfilling useless requirments: The correct answer is: "This does not make any sense at all, why loose money for that?") Dec 14, 2012 at 13:56

Solution using fma() library function, works for any positive number:

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

int main()
{
int number = 8;//Any +ve no.
int temp = 3, result = 0;
while(temp <= number){
temp = fma(temp, 1, 3); //fma(a, b, c) is a library function and returns (a*b) + c.
result = fma(result, 1, 1);
}
printf("\n\n%d divided by 3 = %d\n", number, result);
}
``````
• Nice use of library. Why didn't you directly use result++? Jul 31, 2012 at 3:02
• then people may say that + has been used. Jul 31, 2012 at 3:06

Use cblas, included as part of OS X's Accelerate framework.

``````[02:31:59] [william@relativity ~]\$ cat div3.c
#import <stdio.h>
#import <Accelerate/Accelerate.h>

int main() {
float multiplicand = 123456.0;
float multiplier = 0.333333;
printf("%f * %f == ", multiplicand, multiplier);
cblas_sscal(1, multiplier, &multiplicand, 1);
printf("%f\n", multiplicand);
}

[02:32:07] [william@relativity ~]\$ clang div3.c -framework Accelerate -o div3 && ./div3
123456.000000 * 0.333333 == 41151.957031
``````
• Well, that was just an implementation detail so I could type it as 3.0 / 1.0 instead of 0.333333, but I should play by the rules. Fixed!
– wjl
Jul 30, 2012 at 15:48
• I originally had it as 3.0 / 1.0, which did in my test. By using a higher precision number, they should get a reasonably accurate result. gist.github.com/3401496
– wjl
Aug 20, 2012 at 6:00

Generally, a solution to this would be:

`log(pow(exp(numerator),pow(denominator,-1)))`

Okay I think we all agree that this isn't a real world problem. So just for fun, here's how to do it with Ada and multithreading:

``````with Ada.Text_IO;

procedure Divide_By_3 is

protected type Divisor_Type is
entry Poke;
entry Finish;
private
entry Release;
entry Stop_Emptying;
Emptying : Boolean := False;
end Divisor_Type;

protected type Collector_Type is
entry Poke;
entry Finish;
private
Emptying : Boolean := False;
end Collector_Type;

end Input;
end Output;

protected body Divisor_Type is
entry Poke when not Emptying and Stop_Emptying'Count = 0 is
begin
requeue Release;
end Poke;
entry Release when Release'Count >= 3 or Emptying is
New_Output : access Output;
begin
if not Emptying then
New_Output := new Output;
Emptying := True;
requeue Stop_Emptying;
end if;
end Release;
entry Stop_Emptying when Release'Count = 0 is
begin
Emptying := False;
end Stop_Emptying;
entry Finish when Poke'Count = 0 and Release'Count < 3 is
begin
Emptying := True;
requeue Stop_Emptying;
end Finish;
end Divisor_Type;

protected body Collector_Type is
entry Poke when Emptying is
begin
null;
end Poke;
entry Finish when True is
begin
Emptying := True;
end Finish;
end Collector_Type;

Collector : Collector_Type;
Divisor : Divisor_Type;

begin
Divisor.Poke;
end Input;

begin
Collector.Poke;
end Output;

Cur_Input : access Input;

-- Input value:
Number : Integer := 18;
begin
for I in 1 .. Number loop
Cur_Input := new Input;
end loop;
Divisor.Finish;
Collector.Finish;
end Divide_By_3;
``````
• This is tagged C and has been so since day one. Your answer is off-topic. Jan 23, 2018 at 12:21
• Digging up old, closed questions and writing this kind of comment on the answers is as well. It is a waste of time for both of us since you have to write the comment and I see the notification, click on it and need to grasp the context. Neither will it educate me (I cannot even remember writing this) nor will it improve the answer (you are not really thinking I will translate that to C, are you). What are you trying to achieve?
– flyx
Jan 23, 2018 at 13:39
• The problem is that the question isn't closed and has therefore spawned and keeps spawning a flood of off-topic, low quality crap answers. I'm trying to improve the quality of the site by going through the answers, flagging non-answers and down voting off-topic ones. This is btw all community wiki so no rep is affected. Jan 23, 2018 at 13:42
• Okay, I stand corrected. Wouldn't it be easier to close the question to stop new answers?
– flyx
Jan 23, 2018 at 14:00
• You have my sword.
– flyx
Jan 23, 2018 at 14:13