C#: Weird outcome when subtracting doubles [duplicate]

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Why is floating point arithmetic in C# imprecise?

I have been dealing with some numbers and C#, and the following line of code results in a different number than one would expect:

``````double num = (3600.2 - 3600.0);
``````

I expected num to be 0.2, however, it turned out to be 0.1999999999998181. Is there any reason why it is producing a close, but still different decimal?

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Huh, same here. Not your machine. – tsilb Feb 6 '10 at 0:21
Everyday when some newbie ask this question, a little piece of me dies inside... – leppie Feb 6 '10 at 1:40
@leppie - soon, we'll sure miss you! – codekaizen Feb 6 '10 at 1:48

marked as duplicate by Mauricio Scheffer, ChaosPandion, leppie, spender, GravitonFeb 7 '10 at 2:05

This is because `double` is a floating point datatype.

If you want greater accuracy you could switch to using `decimal` instead.

The literal suffix for `decimal` is m, so to use `decimal` arithmetic (and produce a `decimal` result) you could write your code as

``````var num = (3600.2m - 3600.0m);
``````

Note that there are disavdantages to using a `decimal`. It is a 128 bit datatype as opposed to 64 bit which is the size of a `double`. This makes it more expensive both in terms of memory and processing. It also has a much smaller range than `double`.

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This has nothing with how much precision you have(unless you have infinite precision of course). It is the conversion from one base to another which creates this. – AraK Feb 6 '10 at 0:21
When will the misinformtaion about IEEE 754 types stop? It is not an imprecise type! It is an exact type, but it can only represent a limited range of numbers. All numbers not represented exactly are approximated, and this is the cause of errors. If you want to express only powers of two, within the range of the type, you will never lose accuracy with a floating point. – codekaizen Feb 6 '10 at 0:25
@AdamRalph - that is untrue about Decimal, as well. System.Decimal is a floating point type, but it is in base 10, so usual base 10 arithmatic applies. Try computing with 1/3, however, and Decimal will lose accuracy, although with the 96 bit mantissa, it will be a much smaller loss than System.Double. – codekaizen Feb 6 '10 at 0:26
fine I'll take out 'imprecise' from the answer. it's the effect that I was demonstrating rather than the underlying cause – Adam Ralph Feb 6 '10 at 0:27
@codekaizen - admittedly I haven't examined this in fine detail, but I'm not sure about your assertion that System.Decimal is a floating point type. from the first line of the type's MSDN entry -"The decimal keyword denotes a 128-bit data type. Compared to floating-point types, the decimal type has a greater precision and a smaller range" - this is implying that it is NOT a floating point type – Adam Ralph Feb 6 '10 at 0:33

Whenever this comes up, i always suggest "What Every Computer Scientist Should Know About Floating-Point Arithmetic", i haven't read it myself and nobody who i recomend it to bothers either, but nevertheless, you should read it :D

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Software engineers as well as computer scientists should understand this... perhaps even more so. – codekaizen Feb 6 '10 at 0:29
Oh, and I've read it. It's quite good. You should read it. :D – codekaizen Feb 6 '10 at 0:40
It's in my favorites at work, i plan to read it, just need more time! – Paul Creasey Feb 6 '10 at 0:46

For yet another article on this, refer to Jon Skeet's timeless Binary floating point and .NET.

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Eric Lippert has some very good, if heavily technical, articles on the subject of floating point precision - http://blogs.msdn.com/ericlippert/archive/tags/Floating+Point+Arithmetic/default.aspx And he knows a thing or two about C#

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Here's a good summary from MSDN (Why Floating-Point Numbers May Lose Precision).

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Change your type to `decimal`:

``````decimal num = (3600.2m - 3600.0m);
``````

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See Wikipedia

Can't explain it better. I can also suggest reading What Every Computer Scientist Should Know About Floating-Point Arithmetic. Or see related questions on StackOverflow.

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There is a reason.

The reason is, that the way the number is stored in memory, in case of the double data type, doesn't allow for an exact representation of the number 3600.2. It also doesn't allow for an exact representation of the number 0.2.

0.2 has an infinite representation in binary. If You want to store it in memory or processor registers, to perform some calculations, some number close to 0.2 with finite representation is stored instead. It may not be apparent if You run code like this.

``````double num = (0.2 - 0.0);
``````

This is because in this case, all binary digits available for representing numbers in double data type are used to represent the fractional part of the number (there is only the fractional part) and the precision is higher. If You store the number 3600.2 in an object of type double, some digits are used to represent the integer part - 3600 and there is less digits representing fractional part. The precision is lower and fractional part that is in fact stored in memory differs from 0.2 enough, that it becomes apparent after conversion from double to string

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