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# Javascript math imprecision error? (0.1+0.01+0.01+0.01+0.01+0.01 == 0.15000000000000002) [duplicate]

Possible Duplicate:
Is JavaScript's Math broken?
Strange result with floating point addition

Some simple JavaScript calculations in Safari 5.0.6 but the same phenomenon in Firefox:

``````var i=0.1;
i=i+0.01;       //= 0.11
i=i+0.01;       //= 0.12
i=i+0.01;       //= 0.13
i=i+0.01;       //= 0.14
i=i+0.01;       // expected == 0.15
console.log(i); // == 0.15000000000000002
``````

Where does this imprecision come from?

Sure, I can handle it with `i.toPrecision()` or other methods, but does it have to be like that? Is this a floating-point rounding error?

The same happens in this example:

``````var i=0.14+0.01; //expected == 0.15
console.log(i);  //== 0.15000000000000002
``````

What is happening between 0.14 and 0.15?

``````var i=0.1400001+0.01; //expected==0.1500001
console.log(i);       //== 0.1500001 ok!
``````

and

``````var i=0.14000001+0.01; //expected==0.15000001 !!
console.log(i);        //== 0.15000001000000002
``````

What do I have to do differently to get the correct results?

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## marked as duplicate by mu is too short, alex, nnnnnn, pst, GravitonDec 22 '11 at 8:23

Welcome to the world of representing floating point numbers in binary. – birryree Dec 22 '11 at 5:41
docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html so it is a problem made by storing the data to calculate in bits 'n bites? – frank Dec 22 '11 at 5:42
You can reproduce a similar effect more concisely with `0.1 + 0.2`, which results in `0.30000000000000004`. – Peter Olson Dec 22 '11 at 5:43
Alex has a good link, but essentially it is because binary cannot represent all floating points from base10. 0.1 is actually one such number you can't represent correctly in binary. – birryree Dec 22 '11 at 5:46
@birryree It's not related to binary. It's just that you only have a very little amount of information that you can store. Whether that is decimal or binary or whatever makes no matter. – phant0m Sep 20 '12 at 12:04

They're just floating point errors.

Work with integers, multiply everything you're doing by 10 * numbers of precision you want.

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oh my gosh.. happy new year, i have really fun here `'31|12|'+(0.2+0.01-2012.21)*-1` – frank Dec 22 '11 at 6:04

Floating Point Arithmetic is not precise, as some numbers can not be accurately stored so an approximation is used.

What Every Computer Scientist Should Know About Floating-Point Arithmetic

Can you handle your `Number`s as integers and then work out the final answer with division?

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great link! Something (else) to read over the holidays... – Jessedc Dec 22 '11 at 5:43
@Jessedc - Suppose it will be more interest than listening to the relatives that you only see once a year :-) – Ed Heal Dec 22 '11 at 5:44
@Jessedc: At least you get 'em :D – alex Dec 22 '11 at 5:52
yeah man, thats funny mind jogging! 0.2+1/100=0.21000000000000002 the jingle bells just 0.00000000000000002 more :D but 0.2+1/100-0.00000000000000002= yeahh! :-P – frank Dec 22 '11 at 5:54
means `( ( 0.2 * 10 ) + 0.1 * 10 ) / 10 == 0.3` hurraaaa! – frank Dec 22 '11 at 6:33

Floatinhg point numbers are stored not precisely in computers - you need to take into account their binary representation. Hence with floating point number arithmetic you get rounding errors.

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