# Most significant decimal digit (or 0.3 - 0.1 = 0.1 ) [closed]

This operation should return 2, but it returns 1 instead because of the floating point representation:

a <- .3
b <- .1
floor((a-b)*10)

I basically want the first digit after the point, of the actual base-10 result, not the floating-point computer's result. In this case a and b only have one decimal digit, but in most situations there will be more. Examples:

• 0.3-0.1=0.2 so I want the 2
• 0.5-0.001=0.499 so I want the 4
• 0.925-0.113=0.812 so I want the 8
• 0.57-0.11=0.46 so I want the 4
• 0.12-0.11=0.01 so I want the 0

that is, not rounding but truncating. I thought of using this:

floor(floor((a-b)*100)/10)

but I'm not sure if that is the best I can do.

update: indeed, it doesn't work (see comments below):

floor(floor((.9-.8)*100)/10) # gives 0 instead of 1
floor(round((.5-.001)*100)/10) # gives 5 instead of 1

update 2: think this does work (at least in all cases listed so far):

substring(as.character(a-b),first=3,last=3)

Suggestions?

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## closed as not a real question by Matthew Lundberg, joran, Eric Postpischil, sam_io, ShahroozJun 10 '13 at 3:32

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

When do you want the value to be rounded up, and when do you want it to not be? You need to better define the desired behavior. For example, what should be returned by .5 - .001 and how do you differentiate this from .3 - .1? –  Matthew Lundberg Jun 8 '13 at 3:30
It's not rounding, just truncating. See examples in edited question –  Julián Urbano Jun 8 '13 at 3:43
Yes, it looks like it's just truncating, but due to the way that .3 - .1 is stored, you need to round up to get .2. Oh, and try your latest attempt on 1-.9 or .9-.8. This is more complicated than it appears. –  Matthew Lundberg Jun 8 '13 at 3:50
floor(round((a-b)*100)/10) attempt breaks on .5-.001. That's why I ask, when to you want the value to be rounded up, and when do you want to not be? –  Matthew Lundberg Jun 8 '13 at 4:00
You're right. I added a new alternative that first converts it to string so (I think) we get rid of the floating-point issue, and then take the 3rd character (1st after the point) –  Julián Urbano Jun 8 '13 at 8:52

This is not possible, because the information is no longer there: doubles cannot exactly represent decimal numbers.

If you are fine with an approximate solution, you can add a small number, and truncate the result. For instance, if you know that your numbers have at most 14 digits, the following would work:

first_digit <- function(x, epsilon=5e-15)
floor( (x+epsilon) * 10 )
first_digit( .3   - .1   ) # 2
first_digit( .5   - .001 ) # 4
first_digit( .925 - .113 ) # 8
first_digit( .57  - .11  ) # 4
first_digit( .12  - .11  ) # 0

If you wanted the first significant digit (that means "first non-zero digit"), you could use:

first_significant_digit <- function(x, epsilon=5e-14)
floor( (x+epsilon) * 10^-floor(log10(x+epsilon)) )
first_significant_digit(0.12-0.11) # 1
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Yep, this should work. All numbers come from a file where there are at most 4 decimal digits. Do you think substring(as.character(a-b),first=3,last=3) would work too? –  Julián Urbano Jun 8 '13 at 9:43
If they have at most 4 decimal places then you could load them, multiply by 1e4, round them, then convert to integers. Then you won't have to deal with floating point errors. –  flodel Jun 8 '13 at 11:18