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I'm programming an app for iphone and ipad and my program requires adding two double values to get a single double value. The problems is when one of the double values is fairly large (eg: 2^100) and the other one is very small like 1 or 2, the result of adding those two double values is wrong or it doesn't even do the addition. Does anyone know why that is and if there's a way around it. Thank you.

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2 Answers 2

This has nothing to do with obj-c. A double is a 64-bit datatype that stores a floating-point value. In decimal, a double can hold approximately 15.955 digits of precision. However, your 2^100 number has about 30 decimal digits. So if you try and add anything up to about 1 quadrillion to it, you'll find that the addition doesn't work since that falls outside of the precision range of your number.

In order to get around this, you can use NSDecimalNumber, which will hold up to 38 decimal digits of precision.

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The funny thing is that when i add 2^100 with another 2^100 everything works, but when i add 2^100 to a small number like 1 it stays the same and doesn't add the 1 to 2^100 and that's what i don't understand. – Milad Sep 22 '11 at 23:40
@Milad: 2^100 + 2^100 will work just fine. Think of a double as scientific notation (because that's basically what it is, except in binary). Google says 2^100 is 1.2676506 × 10^30. If you write that out in "regular" form, you'll notice an awful lot of 0's. But the real number doesn't have all those 0's. The scientific notation number bumped into a precision limit – you'll notice there's only 7 digits after the decimal. That's because a float has roughly 7 decimal digits of precision. If this was a double, there'd be about 15. – Kevin Ballard Sep 23 '11 at 0:09
@Milad: I hope it's obvious why adding 2^100 + 2^100 is easy, because adding 1.2676506 × 10^30 to 1.2676506 × 10^30 is easy (you'll get 2.5353012 × 10^30). But if you add 1 instead, how are you going to write that out? You can't without adding another 23 digits to the number, and there's no room for those digits. Basically, when you write 2^100, what you get is a number that represents about 1 quadrillion numbers in that area, because any attempt to calculate any of those quadrillion numbers will hand back the same result as 2^100. – Kevin Ballard Sep 23 '11 at 0:11
Hi Kevin. Thanks alot for your answers, it's more clear now. I tried nsdecimalnumber and it does the adding right but still it has limitations. In my app the numbers are pretty large (largest value is about 2^200) and even nsdecimalnumber can't handle adding numbers like that. Is it even possible to do I want to do (eg: add 2^200 and 4 together) or should I try something else? – Milad Sep 23 '11 at 5:34
@Milad: There are arbitrary-precision arithmetic libraries out there. Wikipedia has a list of them. It sounds like you'll need to go that route. – Kevin Ballard Sep 23 '11 at 6:55

This is a good read for anyone dealing with floating-point numbers:

The situation you describe is completely normal, and is a natural outcome of how floating point works on computers.

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