# Floating point numbers and JavaScript modulus operator

Why does `49.90 % 0.10` in JavaScript return `0.09999999999999581`? I expected it to be 0.

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Floating point again :( – kennytm Oct 19 '10 at 8:27
See [Is JavaScript's Math broken? ](stackoverflow.com/questions/588004/is-javascripts-math-broken). – Matthew Flaschen Oct 19 '10 at 8:31

Because JavaScript uses floating point math which always leads to rounding errors.

If you need an exact result with two decimal places, multiply your numbers with `100` before the operation and then divide again afterwards:

``````var result = ( 4990 % 10 ) / 100;
``````

Round if necessary.

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+1 In many financial systems, this is the way currency are handled internally (multiplied by 100) and when rendered, the currency rules are applied. – Mic Oct 19 '10 at 8:39

http://en.wikipedia.org/wiki/Modulo_operation Don't be angry modulo is used with integers ^^ So floating values occure some errors.

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Take a look at floating points and its disadvantages - a number like `0.1` can't be saved correctly as floating point, so there will always be such problems. Take your numbers *10 or *100 and do the calculations with integers instead.

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Javascript's Number is using "IEEE double-precision" to store the values. They are incapable of storing all decimal numbers exactly. The result is not zero because of round-off error when converting the decimal number to binary.

``````49.90 = 49.89999999999999857891452848...
0.10 =  0.10000000000000000555111512...
``````

Thus floor(49.90 / 0.10) is only 498, and the remainder will be 0.09999....

It seems that you are using numbers to store amount of dollars. Don't do this, as floating point operations propagate and amplify the round-off error. Store the number as amount of cents instead. Integer can be represented exactly, and `4990 % 10` will return 0.

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This is not a perfect answer but it works.

``````function format_float_bug(num)
{
return parseFloat( num.toFixed(15) );
}
``````

you can use as follows,

``````format_float_bug(4990 % 10);
``````

because below number (49.89999999999999857891452848) first 15 decimal places are like 9999999

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This doesn't work at all, and your example call doesn't even use floats! – Jacque Goupil Jan 12 at 18:59

I'll just leave this here for future reference, but here is a handy function that can more precisely handle Remainder (since JS doesn't have a modulo operator) involving floats.

``````  function floatSafeRemainder(val, step){
var valDecCount = (val.toString().split('.')[1] || '').length;
var stepDecCount = (step.toString().split('.')[1] || '').length;
var decCount = valDecCount > stepDecCount? valDecCount : stepDecCount;
var valInt = parseInt(val.toFixed(decCount).replace('.',''));
var stepInt = parseInt(step.toFixed(decCount).replace('.',''));
return (valInt % stepInt) / Math.pow(10, decCount);
}
``````

``````\$(function() {

function floatSafeModulus(val, step) {
var valDecCount = (val.toString().split('.')[1] || '').length;
var stepDecCount = (step.toString().split('.')[1] || '').length;
var decCount = valDecCount > stepDecCount ? valDecCount : stepDecCount;
var valInt = parseInt(val.toFixed(decCount).replace('.', ''));
var stepInt = parseInt(step.toFixed(decCount).replace('.', ''));
return (valInt % stepInt) / Math.pow(10, decCount);
}

\$("#form").submit(function(e) {
e.preventDefault();
var safe = 'Invalid';
var normal = 'Invalid';
var var1 = parseFloat(\$('#var1').val());
var var2 = parseFloat(\$('#var2').val());
if (!isNaN(var1) && !isNaN(var2)) {
safe = floatSafeModulus(var1, var2);
normal = var1 % var2
}
\$('#safeResult').text(safe);
\$('#normalResult').text(normal);
});
});``````
``````<script src="https://ajax.googleapis.com/ajax/libs/jquery/2.1.1/jquery.min.js"></script>
<form id="form" novalidate>
<div>
<input type="number" id="var1">%
<input type="number" id="var2">
</div>
<div>safe: <span id="safeResult"></span><div>
<div>normal (%): <span id="normalResult"></span></div>
<input type="submit" value="try it out">
</form>``````

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This answer is underrated. While a bit more verbose, the script is much more robust. – Jacque Goupil Jan 12 at 19:00