# Float precision on XNA

I'm using Visual Studio 2010 Ultimate, working on .Net framework 4.

The type of `groundControlPoint` and `worldPosition` is `Vector2`, from XNA framework.

I know every debugger uses his own precision management, but this problem makes my code not working. I want to compare my addition to a given float value (which in my case is 5166.28003..), but as my addition result is `5166.28027`, it's always wrong...

Any tips on how to understand that?

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Well, i don't really need very high precision here... This is a standard float addition, and the difference between the 2 results is huge, isn't it? –  s0ubap Jan 11 '13 at 12:55
@s0ubap - the difference you're seeing is to be expected when using `float`, see my answer. –  Richard Everett Jan 11 '13 at 12:58
Could you post the calculations you're performing on this float? There might be ways you can rearrange the calculations to preserve precision and/or move the test to a different location. Moving up in precision can remain a last resort. Oh, and @Dimitri is correct - you ought to go back and accept some answers to your previous questions. –  ananthonline Jan 11 '13 at 13:46
Ok i fixed my problem by just making an AlmostEquals function, using a correct epsilon according to the 7 digits precision of float. Seems to work perfectly. I'll change float to double if I need to, but it's a lot of work so I'd rather not :) Thanks all! –  s0ubap Jan 11 '13 at 14:13

`float` is only precise to 7 digit. Look at from `MSDN`.

The float type can represent values ranging from approximately 1.5 × 10−45 to 3.4 × 1038 with a precision of 7 digits.

`decimal` type looks better for your situation.

The decimal type is a 128-bit data type suitable for financial and monetary calculations. The decimal type can represent values ranging from 1.0 × 10−28 to approximately 7.9 × 1028 with 28-29 significant digits.

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I think he's using the `Vector2` variable in XNA which defines `X` as a float, so he has no control over what variable to use, EDIT: other than casting before addition –  Sayse Jan 11 '13 at 13:10
@Sayse You're right, I don't have any control... The only good solution I see is to make my own Vector2 class, using double... But then I'll have to deal with performances I guess –  s0ubap Jan 11 '13 at 13:18
As stated in MSDN, `float` has a precision of only 7 digits...
The `float` type can represent values ranging from approximately 1.5 × 10E−45 to 3.4 × 10E38 with a precision of 7 digits.
In your case the value you are dealing with is `5166.28003`, which will therefore only be precise to the 3rd decimal place.
If you need greater precision, consider using `double` (precision of 15-16 digits), or `decimal` (which is typically used for financial and monetary calculations).