# Determine if \$x is divisible evenly by \$y in PHP

I simply want to know if \$x is evenly divisible by \$y. For example's sake assume:

``````\$x = 70;
\$y = .1;
``````

First thing I tried is:

``````\$x % \$y
``````

This seems to work when both numbers are integers but fails if they are not and if `\$y` is a decimal less than 1 returns a "Division by zero" error, so then I tried:

``````fmod(\$x,\$y)
``````

Which returns equally confusing results, "0.099999999999996".

php.net states `fmod()`:

Returns the floating point remainder of dividing the dividend (x) by the divisor (y)

Well according to my calculator `70 / .1 = 700`. Which means the remainder is 0. Can someone please explain what I'm doing wrong?

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Not all values have an exact float-point representation: it's thus not "[perfectly] evenly" (except in the case of integers) so much as "close enough". –  user2864740 Feb 20 '14 at 17:36
This happens with bcmod(), too. –  John Conde Feb 20 '14 at 18:10

One solution would be doing a normal division and then comparing the value to the next integer. If the result is that integer or very near to that integer the result is evenly divisible:

``````\$x = 70;
\$y = .1;

\$evenlyDivisable = abs((\$x / \$y) - round(\$x / \$y, 0)) < 0.0001;
``````

This subtracts both numbers and checks that the absolute difference is smaller than a certain rounding error. This is the usual way to compare floating point numbers, as depending on how you got a float the representation may vary:

``````php> 0.1 + 0.1 + 0.1 == 0.3
bool(false)
php> serialize(.3)
'd:0.29999999999999999;'
php> serialize(0.1 + 0.1 + 0.1)
'd:0.30000000000000004;'
``````

See this demo:

``````php> \$x = 10;
int(10)
php> \$y = .1;
double(0.1)
php> abs((\$x / \$y) - round(\$x / \$y, 0)) < 0.0001;
bool(true)
php> \$y = .15;
double(0.15)
php> abs((\$x / \$y) - round(\$x / \$y, 0)) < 0.0001;
bool(false)
``````
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I'm interested in this solution. One question, why use subtraction and `< 0.0001` instead of simply `(\$x / \$y) == round(\$x / \$y)`? –  billynoah Feb 20 '14 at 17:43
@billynoah I amended my answer, explaining why floats should be compared like this. –  TimWolla Feb 20 '14 at 17:50
Thanks Tim, I think I understand, but in what scenario would the method I suggested in the comment above return different result than yours? –  billynoah Feb 20 '14 at 18:04
For what bounds and/or constraints on `\$x` and `\$y` is this guaranteed to return a correct answer? –  Eric Postpischil Feb 20 '14 at 18:06
@Eric - I could be wrong but I think this is as simple as adding another 0 to the comparison, i.e., `< 0.00001` should do it since your numbers have four decimal places. Seems like there should be a way to easily do this for any number but i've yet to find a better solution than this. –  billynoah Feb 20 '14 at 20:58

.1 doesn't have an exact representation in binary floating point, which is what causes your incorrect result. You could multiply them by a large enough power of 10 so they are integers, then use %, then convert back. This relies on them not being different by a big enough factor that multiplying by the power of 10 causes one of them to overflow/lose precision. Like so:

``````\$x = 70;
\$y = .1;
\$factor = 1.0;
while(\$y*\$factor != (int)(\$y*\$factor)){\$factor*=10;}
echo (\$x*\$factor), "\n";
echo (\$y*\$factor), "\n";
echo (double)((\$x*\$factor) % (\$y*\$factor))/\$factor;
``````
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The numbers are based on user input in a form. They could be anything numeric. –  billynoah Feb 20 '14 at 17:41
I fixed it so that the only int based size limitation is the final size of y, rather than the difference between x and y. The allowable difference is only bounded by the limitations of floats. –  Tyler Feb 20 '14 at 17:52
+1 for ".1 doesn't have an exact representation in binary floating point" (See the Patriot bug: sydney.edu.au/engineering/it/~alum/patriot_bug.html) –  dognose Feb 20 '14 at 18:11

There is a pure math library in bitbucket : https://bitbucket.org/zdenekdrahos/bn-php

The solution will be then :

``````php > require_once 'bn-php/autoload.php';
php > \$eval = new \BN\Expression\ExpressionEvaluator();
php > \$operators = new \BN\Expression\OperatorsFactory();
php > \$eval->setOperators(\$operators->getOperators(array('%')));
php > echo \$eval->evaluate('70 % 0.1'); // 0
0.00000000000000000000
``````

tested on php5.3

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Float-point representation varies from machine to machine. Thankfully there are standards. PHP typically uses the IEEE 754 double precision format for floating-point representation which is one of the most common standards. See here for more information on that. With that said take a look at this calculator for a better understanding as to the why. As for the how I like Tim's solution especially if you're dealing with user input.

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